Products and Projects Status Report _______________________________________________________________________________ Designation: C37.42-2009 Title: Standard Specifications for High Voltage (> 1000 volts) Expulsion Type Distribution Class Fuses, Fuse and Disconnecting Cutouts, Fuse Disconnecting Switches, and Fuse Links and Accessories used with these Devices Status: Approved Publication of IEEE Technical Contact: Mark Stavnes, Phone:773-338-1000, Email:mstavnes@sandc.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Dec 09, 2009 Project Scope: This standard establishes specifications for high voltage (above 1000 volts) expulsion type distribution class fuses, fuse cutouts, fuse disconnecting switches, their associated fuse links and disconnecting cutouts, and accessories for these devices. All of these devices are intended for use on alternating current distribution systems. These specifications apply to the following specific types of equipment: a) Open and enclosed types of fuses and fuse cutouts b) Open and enclosed fuse disconnecting switches c) Fuse links of the type used exclusively with distribution class fuses, fuse cutouts, and fuse disconnecting switches. d) Open-link types of fuses, cutouts, and their associated fuse links e) Open and enclosed types of disconnecting cutouts f) Fuse supports, fuse mountings and fuse hooks of the type used exclusively with distribution class fuses, fuse cutouts, fuse disconnecting switches, and disconnecting cutouts. g) Fuseholders and removable switch blades of the type used exclusively with distribution class fuse supports. h) Mounting brackets used for distribution class equipment and other accessories. Project Purpose: Standard specifications for the devices covered by this document are necessary to assure consistent development and application of these devices by manufacturers and users of these devices. Designation: 16326-2009 Title: Systems and Software Engineering -- Life Cycle Processes -- Project Management Status: Approved Publication of IEEE , Published Date: Dec 15, 2009 **Replaces 1058-1998. Technical Contact: Mark O Henley, Phone:254-867-2423, Email:mark.henley@l-3com.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Nov 09, 2009 Project Scope: There is no separate Scope statement in the final draft International Standard. Project Purpose: This International Standard is intended to aid project managers in managing to successful conclusion those projects concerned with software-intensive systems and software products. This International Standard specifies the required content of the project management plan (PMP). This International Standard also quotes the extracted purpose and outcome statements from the project processes of ISO/IEC 12207:2008 (IEEE Std 12207-2008) and ISO/IEC 15288:2008 (IEEE Std 15288-2008), and adds detailed guidance for managing projects that use these processes for software products and software-intensive systems. Abstract: ISO/IEC/IEEE 16326:2009 provides normative content specifications for project management plans covering software projects, and software-intensive system projects. It also provides detailed discussion and advice on applying a set of project processes that are common to both the software and system life cycle as covered by ISO/IEC 12207:2008 (IEEE Std 12207-2008) and ISO/IEC 15288:2008 (IEEE Std 15288-2008), respectively. The discussion and advice are intended to aid in the preparation of the normative content of project management plans. ISO/IEC/IEEE 16326:2009 is the result of the harmonization of ISO/IEC TR 16326:1999 and IEEE Std 1058-1998. Key Words: 16326-2009, 1058-1998, management plans, project management plans, software intensive system project management plans, software project management plans Designation: 516-2009 Title: IEEE Guide for Maintenance Methods on Energized Power Lines Status: Approved Publication of IEEE , Published Date: Jun 24, 2009 **Revision of IEEE Std 516-2003 History: BD APP: May 13, 2009, ANSI APP: Nov 24, 2009 Project Scope: This guide provides the general recommendations for performing maintenance work on energized power lines. It is not intended to include all of the proven practical methods and procedures; however, these selected comprehensive recommendations are based on sound engineering principles, engineering safety considerations, and field experience by many utilities. Included are technical explanations as required to cover certain laboratory testing of tools and equipment, in-service inspection, maintenance and care of tools and equipment, and work methods for the maintenance of energized lines for persons working in vicinity of energized lines. Project Purpose: The purpose of this guide is to a) Present, in one guide, sufficient details of some of the methods and equipment presently in use to enable the performance of energized line maintenance with maximum safety. b) Direct attention to appropriate standards and other documents for the acquisition of knowledge on the inspection, care, and use of required tools and equipment. c) Provide guidance for establishing an appropriate work area, taking into consideration safety and the physical effects of the work area on personnel. It is not intended that this guide should replace present proven utility practices or imply that these recommendations are superior to existing practices and, therefore, should be universally adopted as utility standards. This compilation of many accepted practices is presented specifically in the form of a guide to be used by those electric utilities and agencies that are seeking guidance in establishing methods and procedures for maintenance of energized power lines. Abstract: General recommendations for performing maintenance work on energized power lines are provided. Technical explanations as required to cover certain laboratory testing of tools and equipment, field maintenance and care of tools and equipment, and work methods for the maintenance of energized lines and for persons working in the vicinity of energized lines are included. Key Words: 516-2009, energized, equipment, maintenance, power lines, tools Designation: 433-2009 Title: Recommended Practice for Insulation Testing of AC Electric Machinery with High Voltage at Very Low Frequency Status: Approved Publication of IEEE **Revision of 433-1974 (R1991) (Withdrawn 2004). History: BD APP: Dec 09, 2009 Project Scope: This document describes very low frequency (VLF) testing of ac electric machines. It covers acceptance testing of new machines in the factory or on-site after erection. Also covered is the routine maintenance testing of machines that have been in service. In order to facilitate communication and comparison among investigators, this document recommends that the very low frequency used be 0.1 Hz +- 10 percent. Project Purpose: The purposes of this recommended practice are: (1) To provide a uniform procedure for testing the stator (armature) insulation of ac electric machines with VLF voltage, in order to obtain consistent results. (2)To recommend constants for relating VLF tests to power-frequency and direct-voltage tests to obtain equally effective test levels. (3)To describe VLF-test equipment and wave shape. (4)To define terms which have specific meaning in VLF testing. Designation: 802.1AR-2009 Title: IEEE Standard for Local and metropolitan area networks - Secure Device Identity Status: Approved Publication of IEEE , Published Date: Dec 22, 2009 **New standard History: BD APP: Dec 09, 2009 Project Scope: This standard specifies unique per-device identifiers (DevID) and the management and cryptographic binding of a device to its identifiers, the relationship between an initially installed identity and subsequent locally significant identities, and interfaces and methods for use of DevIDs with existing and new provisioning and authentication protocols. Project Purpose: This standard defines a standard identifier for IEEE 802 devices that is cryptographically bound to that device, and defines a standard mechanism to authenticate a device’s identity. A verifiable unique device identity allows establishment of the trustworthiness of devices. This facilitates secure device provisioning. Abstract: A secure device identifier (DevID) is cryptographically bound to a device and supports authentication of the device’s identity. Locally significant identities can be securely associated with an initial manufacturer-provisioned DevID and used in provisioning and authentication protocols to allow a network administrator to establish the trustworthiness of a device and select appropriate policies for transmission and reception of data and control protocols to and from the device. Key Words: 802.1AR-2009, access control, authentication, authorization, certificate, LANs, local area networks, MAC security, MANs, metropolitan area networks, PKI, port-based network access control, secure association, secure device identifier, security, X.509 Designation: 1680-2009 Title: Standard for Environmental Assessment of Electronic Products Status: Approved Publication of IEEE **Supersedes 1680-2006. History: BD APP: Dec 09, 2009 Project Scope: The IEEE 1680 family of standards defines environmental performance criteria for electronic products. The scope of this document is to provide guidelines and implementation procedures for the standards included in the IEEE 1680 family of standards. Each Standard in the IEEE 1680 family of standards shall address criteria for a specific product or group of products in at least the following eight categories of environmental performance: reduction or elimination of environmentally sensitive materials, materials selection, design for end of life, life cycle extension, energy conservation, end of life management, corporate performance and packaging. Project Purpose: This Standard provides guidelines and implementation procedures for this IEEE 1680 family of standards. The standards within the family will provide clear and consistent performance criteria for the design of electronic products thereby providing an opportunity to secure market recognition for efforts to reduce the environmental impact of electronic products. This family of standards is intended to provide a tool for government, institutional and corporate purchasers. Product manufacturers may also use this tool to earn recognition in the consumer market, recognizing that certain criteria may not be applicable to all types of purchasers. Applicability will be specified in each individual standard. The environmental performance criteria of the IEEE 1680 family of standards are intended to define a measure of environmental leadership in: the design and manufacture of electronic products; the delivery of specified services that are associated with the sale of the product; and in associated corporate performance characteristics. This family of standards is defined with the intention that the criteria are technically feasible to achieve, but that only products demonstrating the leading environmental performance currently available in the marketplace would meet them at the time of their adoption. As the environmental performance of products that are available in the marketplace improves, it is intended that the criteria will be updated and revised to set a higher performance standard for leadership products. This Standard is intended to serve as a baseline for further environmental standards for additional electronic products to be developed in the future. References to this 1680 standard likewise reference, unless otherwise specified, the individual product standards in the 1680 family of standards. Title: IEEE VuSpec: All Area Networks (All IEEE 802) Status: Approved Publication of IEEE , Published Date: Feb 27, 2007 Key Words: Organizationally Unique Identifier, OUI, 48-bit universal LAN MAC address, token bus, token ring, protocol identifiers, LAN, MAN, WAN, service access points, 10BASE; 100BASE; 1000BASE; 10GBASE; 10 Gigabit Ethernet; attachment unit interface; AUI; Auto Negotiation; data processing; DTE Power via the MDI; EPON; Ethernet; Ethernet in the First Mile; Ethernet passive optical network; Fast Ethernet; Gigabit Ethernet; GMII; information exchange; Link Aggregation; local area network; management; medium dependent interface; media independent interface; MDI; MIB; MII; XGMII; PHY; physical coding sublayer; physical layer; physical medium attachment; PMA; Power over Ethernet; repeater; type field; VLAN TAG, data processing, information interchange, telecommunications, network interconnection, local area networks, metropolitan area networks, data transmission, physical layer, access, user network accesses, AES, authentication, CCM, CCMP, confidentiality, countermeasures, data authenticity, EAPOL-Key, 4-Way Handshake, Group Key Handshake, IEEE 802.1X, key management, key mixing, Michael, RC4, replay protection, robust security network, RSN, security, security association, TKIP, WEP Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Electric Machinery Standards (PDF on CD-ROM Edition) Status: Approved Publication of IEEE , Published Date: Apr 05, 2007 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Hydroelectric Power Standards (PDF on CD-ROM) Status: Approved Publication of IEEE , Published Date: Jun 12, 2007 Key Words: design, hydro, hydroelectric, power, water power Sponsor: IEEE Vehicular Technology Society/Intelligent Transportation Systems Title: Wireless Access in Vehicular Environments (WAVE): IEEE 1609 Standards Series (CD-ROM) Status: Approved Publication of IEEE , Published Date: Jun 14, 2007 Title: IEEE Hydroelectric Power (VuSpec Edition; CD-ROM) Status: Approved Publication of IEEE , Published Date: Jun 04, 2007 Title: IEEE VuSpec: 2007 Electronic Design Automation Status: Approved Publication of IEEE , Published Date: Aug 01, 2006 Abstract: If you are an electronic design automation engineer, architect, verification engineer, or you are responsible for managing a design team or conducting research, then this IEEE Standards VuSpec CD is for you. And, because of its value-driven price and wide range of easy-to-use features, the new 2007 IEEE Design Automation VuSpec also is a must have item for embedded software developers, analysts, marketing & sales professionals, and students who want to get up to speed on the full library or international EDA Standards. VuSpec starts automatically and runs inside your familiar web browser with Adobe Acrobat. VuSpec is your very own EDA web portal on a portable CD you can use anywhere. Semiconductors, wired or wireless communication systems, electronics, medical test equipment, and the entire EDA software industry itself rely on these recognized standards covering Logic, Design, Simulation, RTL & Formal Verification, IP/Cores, ALF, ASIC, IC, PSL, Verilog, and VHDL. VuSpec even covers new methods and best practices for the functional verification language 'e' as well as SystemC and SystemVerilog. IEEE VuSpec searches through all these standards, leading you where you need to be, instantly! Also includes an easy point-and- click navigator, glossary of over 600 official EDA terms with citations back to their referenced standards, bonus links, and a convenient index of nearly 300 keywords to guide you to the proper source. Key Words: 93/217/RVD, 93/218/RVD, ABV, Accellera Property Specification Language, Accellera PSL, Air Force Rome Laboratory, Air Force Wright Patterson Laboratory, ALF, ALF libraries, ALF-based ASIC, Application- specific, Army, Asia-Pacific, ASIC, ASIC Council, ASIC macrocell, ASIC Modeling Specification, Assertion-based, Axis System, behavioral, BIT, block, Block-diagrams, BOOLEAN, British Ministry of Defense, Brunel University, CAD, Cadence, Cadence Design Systems, cell, Cisco, Concurrency, COTS, Customer Service, Cygwin, DASC, Datatype, DCL, Defense, Department of Defense, DEPARTMENT OF DEFENSE HANDBOOK, derate, Design Automation, DIDs, DoD, DPCS, DPI, DSM, E-based IP, EDA, Eiffel, electrical, Electronic Design Automation, Esterel, European CAD Standardization Initiative, European ESPRIT Project 8370 ESIP, F30602-93-C-0209, F33615-96-C-1908, FDIS 93/212/FDIS Report, FDIS 93/213/FDIS Report, Feedback Form, File- manipulation, FireFox, Floorplanners, Fluidic, format, functional, Functional Verification Language, Gate Ensemble to Verilog-XL, gate-level, GDA Technologies, Government, Hardware simulation, HDL, HILO-2, I/O, IBM, IBM Corporation, IC, IEC 62142, IEC/IEEE 61691-1-1, IEC/PAS 62050, IEEE, IEEE 1076, IEEE 1076.4 TAG, IEEE Standard VHDL Language Reference Manual, IEEE Standard VHDL Mathematical Packages, IEEE Standard VHDL Synthesis Packages, IEEE Std 1076, IEEE Std 1076.1-1999, IEEE Std 1076.2-1996, IEEE Std 1076.3-1997, IEEE Std 1076.6-1999, IEEE Std 1076.6-2004, IEEE Std 1076- 1993, IEEE Std 1076-2002, IEEE Std 1164-1993, IEEE Std 1364-1995, IEEE Std 1364-2001, IEEE Std 1364-2005, IEEE Std 1603-2003, IEEE VHDL93, IEEE VuSpec, Infrastructure, integrated circuit, Intel, Internet Explorer, Interoperability, Interval Temporal Logic, Java, JEITA, language, Language Reference Manual, layout, library, LICENSE AGREEMENT, Lockheed Martin, LRM, LSI Logic VHDL behavioral, LTL, Machine-readable, Macrocell, Maintainability, MATH_COMPLEX, MATH_REAL, Mentor Graphics Memory Table Model, Metalogical, Methodology, Microelectronics, MIL-HDBK-454, Mixed- language, modeling, Modula, Multi-language, Nonsynthesizable VHDL, OMF, OMI, OMI-compliant, Open Model Forum, Open Model Interface, Open SystemC Initiative, Open Verilog International, Orthogonality, OSCI, OVI, OVI/VI, Pascal, PATHPULSE, PDEF, PDF, Perl, Personal VGUI, physical, Physical Design Exchange Format, PLI, PLI/VPI, power, Power Calculation System, Programming Language Interface, Prototyping, PSL, PS-TSC, Rambus, Rapid Prototyping of Application-Specific Signal Processors, RASSP, Rational Rose, RFPs, ROMs, RTC, RTL, SDF, SDF 1497, Self-extensibility, SI2, Signal, signal integrity, SIGNED, Silicon Integration Initiative, Simulation, Simulator/model interoperability, SKEW, Specifications, SPEF, SPF, SSIG, ST Microelectronics, Standard Delay Format, Standard Parasitic Exchange Format, Standard Parasitic Format, Standardized ASIC, Standards, STARC, Synopsys, Synthesis, Synthesizability, Synthesizable, Synthesizable register-transfer, Synthesizable RTL, SystemC, System-on-chip, SystemVerilog, SystemVerilog 3.1a, SystemVerilog®, technology, Testbench, Testbench language, Texas Instruments, Time-to-market, timing, Trademark, Tutorial/help, UML, Unified Hardware Design, UNSIGNED, US Army Industrial Engineering Activity, US Army Materiel Command’s Engineering Design Handbook Program, User-definable, V&V, Vendor-independent API, Verification Language, Verilog, Verilog 1364, Verilog compiler/simulator, Verilog HDL, Verilog language, Verilog PLI, Verilog Procedural Interface, Verilog®, Verilog® Hardware Description Language, Verilog® HDL-based RTL, Verisity, Veritime, Versatile Graphical User Interface, VGUI, VGUI tool, Vgui.exe tool, Vgui.ini, VGUI-2, Vguimspc.exe, Vguitut.htm, VHDL, VHDL DID, VHDL language, VHDL library, VHDL Register Transfer Level, VHDL register-transfer, VHDL RTL, VHDL Synthesis Interoperability Working Group, VHDL tool, VHDL®, VHDL-AMS, VHPI, VHSIC, VHSIC Hardware Description Language, VITAL, VITAL ASIC, VITAL_Memory, VLSI, VPI, VSIA, VuSpec, VuSpec Series, Waveform, Waveform file formats, WAVES, Well-structured language, Workgroups, Working, XML, XML-based file format, Y2K, Year 2000 Test Methods, Yoav Hollander Title: Americal National Standard for Portable Radiation Detection Instrumentation for Homeland Security Status: Approved Publication of IEEE History: BD APP: Aug 28, 2006 Title: IEEE VuSpec: Local, Metropolitan, and Wireless Area Networks Status: Approved Publication of IEEE , Published Date: May 02, 2005 **Supercedes 2004 version, SE95082. Publication type: Collection Title: IEEE VuSpec: Electronic Design Automation Status: Approved Publication of IEEE , Published Date: May 05, 2005 Publication type: Collection Title: IEEE VuSpec: Medical Device Communications Status: Approved Publication of IEEE , Published Date: Apr 01, 2005 Publication type: Collection Title: IEEE VuSpec: Power Transmission and Distribution Standards Status: Approved Publication of IEEE , Published Date: May 05, 2005 Publication type: Collection Title: IEEE VuSpec: Power Distribution and Regulating Transformers Standards Status: Approved Publication of IEEE , Published Date: May 05, 2005 Publication type: Collection Title: IEEE Wireless Dictionary Status: Approved Publication of IEEE , Published Date: Dec 20, 2005 Technical Contact: Jennifer Longman, Phone:732-562-6355, Email:j.longman@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. Project Purpose: Part of the IEEE Standards Wireless Series, this is a quick- access, pocket guide of commonly used wireless terms. Title: The IEEE Color Books: Complete Standards Series (VuSpec Series) Status: Approved Publication of IEEE , Published Date: Sep 01, 2004 Publication type: Collection Title: National Electrical Safety Code (NESC): The Archives (1914-1972) Limited Edition VuSpec CD-ROM -- Single-User Status: Approved Publication of IEEE , Published Date: May 28, 2004 Publication type: Collection Title: IEEE Standards Collection: Electric Machinery (VuSpec Series) Status: Approved Publication of IEEE , Published Date: Oct 15, 2004 Publication type: Collection Title: IEEE Wireless LAN: 2004 Value Pack (VuSpec Series) Status: Approved Publication of IEEE , Published Date: Oct 01, 2003 Publication type: Collection Title: IEEE Low-Voltage Surge Protective Devices Standards Collection (VuSpec Series) Status: Approved Publication of IEEE , Published Date: Apr 21, 2004 Publication type: Collection Title: IEEE High-Voltage Surge Protective Devices Standards Collection (VuSpec Series) Status: Approved Publication of IEEE , Published Date: Apr 22, 2004 Publication type: Collection Title: IEEE Surge Protective Devices Standards Collection (VuSpec Series) Status: Approved Publication of IEEE , Published Date: Apr 24, 2004 Publication type: Collection Title: Handbook to IEEE Standard 45: A Guide to Electrical Installations on Shipboard Status: Approved Publication of IEEE , Published Date: Aug 25, 2004 Title: IEEE Wireless Communication Standards: A Study of 802.11, 802.15, and 802.16 Status: Approved Publication of IEEE , Published Date: Aug 25, 2004 Title: IEEE Standards Collection: Stationary Batteries (VuSpec Series) Status: Approved Publication of IEEE , Published Date: Dec 01, 2004 Publication type: Collection Title: National Electrical Safety Code (NESC): The Archives (1914-1972) Limited Edition VuSpec CD-ROM -- Multi-User Status: Approved Publication of IEEE , Published Date: May 28, 2004 Publication type: Collection Title: IEEE Power Systems Relaying Collection, Special Edition Status: Approved Publication of IEEE , Published Date: Jul 17, 2003 Publication type: Special Publication Title: IEEE Software Engineering Collection, Special Condition Status: Approved Publication of IEEE , Published Date: Aug 29, 2003 Publication type: Special Publication Title: IEEE Standards Collection: Power Substation-- Special Edition Status: Approved Publication of IEEE , Published Date: May 05, 2003 Publication type: Special Publication Title: IEEE Standards Collection: Power Switchgear, Circuit Breakers and Fuses- - Special Edition Status: Approved Publication of IEEE , Published Date: May 05, 2003 Publication type: Special Publication Title: IEEE Standards Collection Set: Power Substations and Power Switchgear, Circuit Breakers and Fuses-- Special Edition Status: Approved Publication of IEEE , Published Date: May 05, 2003 Publication type: Special Publication Title: National Electrical Safety Code® (NESC) Handbook Status: Approved Publication of IEEE , Published Date: Aug 01, 2001 Title: IEEE 100, The Authoritative Dictionary of IEEE Standards Terms, Seventh Edition Status: Approved Publication of IEEE , Published Date: Dec 11, 2000 Publication type: Special Publication Title: Handbook to IEEE/EIA Std 12207.0 Status: Approved Publication of IEEE Sponsor: Accredited Standards Committee C2/National Electrical Safety Code Title: Eighth Interim Collection of the National Electrical Safety Code® Interpretations 1997-1999 (PDF ONLY) Status: Approved Publication of IEEE , Published Date: Feb 18, 2000 Publication type: Special Publication Title: An IEEE Guide—How to Find What You Need in the Bluetooth™ Spec Status: Approved Publication of IEEE , Published Date: Nov 01, 2000 Title: Implementing the IEEE Software Engineering Standards Status: Approved Publication of IEEE , Published Date: Oct 01, 2000 Designation: C37.47-2000 Sponsor: IEEE Power & Energy Society/Switchgear Title: American National Standard for High Voltage Current-Limiting Type Distribution Class Fuses and Fuse Disconnecting Switches Status: Approved Publication of IEEE Designation: C57.12.40-2000 Sponsor: IEEE Power & Energy Society/Transformers Title: American National Standard for Secondary Network Transformers Subway and Vault Types (Liquid Immersed)-Requirements Status: Approved Publication of IEEE Title: IEEE Software Engineering Standards, 1999 Edition—Volume One: Customer and Terminology Status: Approved Publication of IEEE , Published Date: Apr 05, 1999 Publication type: Special Publication Title: IEEE Software Engineering Standards, 1999 Edition—Volume Two: Processes Status: Approved Publication of IEEE , Published Date: Apr 05, 1999 Publication type: Special Publication Title: IEEE Software Engineering Standards, 1999 Edition—Volume Three: Products Status: Approved Publication of IEEE , Published Date: Apr 05, 1999 Publication type: Special Publication Title: IEEE Software Engineering Standards, 1999 Edition—Volume Four: Resources and Techniques Status: Approved Publication of IEEE , Published Date: Apr 05, 1999 Publication type: Special Publication Title: ISO/IEC 15068-2 : 1999 (1387.2-1995), Information technology—Portable Operating System Interface (POSIX®) system administration—Part 2: Software administration Status: Approved Publication of IEEE , Published Date: Feb 26, 1999 Publication type: Special Publication Title: VHDL Tutorial Status: Approved Publication of IEEE Title: IEEE 802.11 Handbook—A Designer's Companion Status: Approved Publication of IEEE , Published Date: Dec 31, 1999 Publication type: Standards Press Sponsor: Accredited Standards Committee C2/National Electrical Safety Code Title: National Electrical Safety Code (NESC) Preprint- 1999 Proposals Status: Approved Publication of IEEE , Published Date: Sep 01, 1999 Publication type: Special Publication Designation: C57.12.28-1999 Sponsor: IEEE Power & Energy Society/Transformers Title: American National Standard pad-mounted equipment - enclosure integrity Status: Approved Publication of IEEE Title: Test Technology Standards Status: Approved Publication of IEEE , Published Date: Dec 31, 1998 Publication type: Electronic Product Title: IEEE Standards Software Engineering Collection Status: Approved Publication of IEEE , Published Date: Apr 25, 1997 Publication type: Collection Title: IEEE Standards 1997 Operations Manual Status: Approved Publication of IEEE , Published Date: Jan 22, 1997 Publication type: Special Publication Title: Electric Machinery Collection Status: Approved Publication of IEEE , Published Date: Jul 15, 1997 Publication type: Collection Title: Local and Metropolitan Area Network Standards Status: Approved Publication of IEEE , Published Date: Jul 01, 1997 Publication type: Electronic Product Title: Collection of NESC® Interpretations (1943 through 1997) Status: Approved Publication of IEEE , Published Date: Oct 03, 1997 Publication type: Special Publication Title: IEEE Standards Style Manual Status: Approved Publication of IEEE , Published Date: Oct 25, 1996 **Published and distributed in October 1996. Revision of IEEE Standards Style Manual, August 1992. Publication type: Special Publication Abstract: Preferred editorial style for the preparation of proposed IEEE Standards is established. Many of the frequently asked questions about writing drafts are answered. The optional and required contents of drafts are described, and instructions on submitting drafts for IEEE Standards Board approval and publication are provided. This manual is not intended to be a guide to the procedural development of standards. Key Words: style Title: PASC WWW Interpretations Status: Approved Publication of IEEE , Published Date: Aug 26, 1996 **These interpretations can be found online at the following address: http://stdsbbs.ieee.org/products/interp/index.html#available Publication type: Special Publication Title: IEEE Standards Electrical and Electronics Graphic & Letter Symbols and Reference Designations Collection - 1996 Edition Status: Approved Publication of IEEE , Published Date: Nov 20, 1996 Publication type: Collection Title: Fast Ethernet: Dawn of a New Network Status: Approved Publication of IEEE **By Howard W. Johnson. Product number is SP1095. Publication type: Standards Press Abstract: Fast Ethernet is the newest and fastest addition to the IEEE Ethernet family of local area network (LAN) standards. An extension to Ethernet, Fast Ethernet provides interoperable service at both 10 Mb/s and 100 Mb/s. With the growing popularity of Fast Ethernet, users need a resource that specifically addresses Fast Ethernet product architectures and products and where the technology is headed--Fast Ethernet: Dawn of a New Network is that resource. A Prentice-Hall publication, this book goes beyond an overview of Fast Ethernet, it equips you with the information you need to query vendors about their products so you can avoid costly installation mistakes. It helps you with your strategic planning by providing details about future developments of the technology. What's more, the point-by-point network comparisons will show you which networks fit which applications. Title: IEEE Standards Board Bylaws - 1996 Status: Approved Publication of IEEE , Published Date: Jan 22, 1997 Publication type: Special Publication Title: IEEE Standards Electromagnetic Compatibility Collection - 1996 Edition Status: Approved Publication of IEEE , Published Date: Feb 29, 1996 Publication type: Collection Abstract: Interest in electromagnetic compatibility (EMC) design and measurement has been rapidly increasing over the past several years. Meeting mandatory and voluntary EMC requirements has become an important consideration in planning of new products and in the early stages of product design. IEEE EMC standards give designers and manufacturers, procuring agencies and regulating agencies guidance in selection and development of appropriate requirements. Containing 32 industry recognized EMC standards, this collection addresses measurement techniques, methods of test-site characterization and specifications for instrumentation. Title: NESC® Handbook, Fourth Edition A Discussion of the National Electrical Safety Code® Status: Approved Publication of IEEE , Published Date: Aug 01, 1996 Publication type: Special Publication Abstract: A Discussion of the Grounding Rules, General Rules, and Parts 1, 2, 3, and 4 of the 3rd (1920) through 1997 Editions of the National Electrical Safety Code, American National Standard C2. Title: Network Systems Tutorial for IEEE Std 802.3: Repeater Functions and System Design Topology Considerations for Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Local Area Networks (LANs) Status: Approved Publication of IEEE **Prepared by The IEEE 802.3 System Topology Technical Advisory Group of the LAN/MAN Standards Committee of the IEEE Computer Society. Product number is SP100. Publication type: Standards Press Abstract: An indispensable resource for system installers and subsystem component developers, IEEE's Network Systems Tutorial for IEEE Std 802.3 provides essential background material required to understand the basic functioning of the CSMA/CD (Carrier Sense Multiple Access with Collision Detection) packet network. With an exclusive focus on the ISO/IEC (International Organization of Standardization and the International Electrotechnical Commission) 8802-3 10 Mb/s CSMA/CD network, this informative tutorial addresses two vital parameters that determine the constraints on network timing-network acquisition time and maximum framelength. It explains the role of the repeater and its significance in the definition of maximum network size. Moreover, it includes a propagation budget table together with an example of all elements that delay the propagation of a transmitted signal in a CSMA/CD network. Key Words: 802.3 tutorial Title: IEEE Standards Companion - 1995 Status: Approved Publication of IEEE , Published Date: Aug 26, 1995 Publication type: Special Publication Title: IEEE Standards Circuit Breakers, Switchgear, Substations, and Fuses Standards Collection (C37) - 1995 Edition Status: Approved Publication of IEEE , Published Date: Apr 11, 1995 Publication type: Collection Abstract: This all-inclusive volume is the single source of IEEE and ANSI switchgear and substation standards covering circuit breakers, switchgear assemblies, switches, fuses, reclosures and sectionalizers and related substation aspects of equipment. The 99 standards contained in this thorough collection provide for the safe and reliable application of electrical systems' switchgear and substation operation and maintenance. Key Words: C37 collection Title: IEEE Standards Surge Protection Collection - 1995 Edition Status: Approved Publication of IEEE , Published Date: May 25, 1995 Publication type: Collection Technical Contact: John Sheppard **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. Abstract: This collection offers a complete volume of 21 IEEE standards for surge protective devices. These industry accepted standards cover product testing, product classification and application guides. It is the single source of standards related to the implementation and testing of surge protective devices. What's more, it contains extensive information on neutral grounding. Key Words: surge protection Title: IEEE Standards Distribution, Power, and Regulating Transformers Collection(C57) - 1995 Edition Status: Approved Publication of IEEE , Published Date: Jun 26, 1995 Publication type: Collection Abstract: The 1995 edition of this popular collection contains 64 of the most current IEEE and ANSI standards on power distribution and regulating transformers. These ensure safe and reliable electric power service to consumers worldwide. Topics covered include Class 1E transformers, oil-immersed transformers, overhead-type distribution transformers, underground type three-phase distribution transformers and sealed dry-type transformers. Key Words: C57 collection Title: IEEE Standards Protective Relaying Systems Collection - 1995 Edition Status: Approved Publication of IEEE , Published Date: May 25, 1995 Publication type: Collection Abstract: This edition contains 21 of the latest standards and guides for protective relaying systems. Topics covered include relays and relay systems with electric apparatus, protective relaying for utility-consumer interconnections, ground protection, network transformers, field testing and more. Key Words: protective, relaying systems Title: Tentative Interim Amendments 93-1,93-2, and Errata to the National Electrical Safety Code (NESC) Status: Approved Publication of IEEE , Published Date: Mar 31, 1994 Publication type: Special Publication Title: IEEE Standards Power Capacitor Standards Collection - 1994 Edition Status: Approved Publication of IEEE , Published Date: Jul 22, 1994 Publication type: Special Publication Abstract: The continuing growth of electrical power systems has increased the need for and use of power capacitors in transmission and distribution systems. This compilation of two bibliographies and five of the most current guides and standards provides a valuable reference tool for those involved in the design, manufacturer, testing and application of power capacitors. Title: IEEE Standards Pole Line Hardware Collection - 1995 Edition Status: Approved Publication of IEEE , Published Date: Mar 23, 1995 Publication type: Collection Abstract: Covering requirements for ground rods, lag screws, crossarm braces and cable racks, this collection contains 14 of the most current standards used in overhead and underground line construction today. Key Words: pole line, hardware Title: IEEE Standards Roadway Lighting Equipment Collection (C136) - 1994 Edition Status: Approved Publication of IEEE , Published Date: May 24, 1994 Publication type: Collection Abstract: This collection is comprised of 17 essential standards for roadway lighting used throughout industry today. They cover specifications for performance and interchangeability of roadway lighting system equipment, specifically luminaries, photoelectric controls, support brackets and poles. Key Words: roadway lighting Title: Open Systems Handbook: A Guide to Building Open Systems Status: Approved Publication of IEEE , Published Date: Sep 30, 1994 **By James Isaak, Kevin Lewis, Kate Thompson, and Richard Straub The product number is SP117 Publication type: Standards Press Abstract: This publication focuses on the information and processes needed to make strategic decisions about open systems, while providing a thorough overview of open systems and the work being done to achieve them. What's more, this handbook provides expert guidance on how to apply IT standards and specifications for application portability and interoperability. This publication takes an objective, standards-oriented perspective, concentrating on functionality to obtain business objectives rather than product approaches. Moreover, it offers the most current status of international accepted industry IT standards and specifications for open systems and contains a detailed glossary of OS and standards-related terminology. Title: IEEE Standards Transmission Line Construction Collection - 1994 Edition Status: Approved Publication of IEEE , Published Date: Jul 22, 1994 Publication type: Collection Abstract: Containing 5 of the most current IEEE standards guides for assembly and installation of transmission line structures used throughout the power industry today, this collection addresses the different phases of line construction from the installation of foundations through the stringing of overhead conductors. Key Words: transmission line, construction Title: High-Performance I/O Bus Architecture: A Handbook for IEEE Futurebus+ Profile B Status: Approved Publication of IEEE , Published Date: Sep 30, 1994 **Product number (book alone) is SP109. Also available with IEEE Stds 892.2 and 896.2a - SP1093. Publication type: Standards Press Abstract: This handbook is a design guide for developers of the IEEE Futurebus+ modules as specified by the following IEEE Futurebus+ standards: •IEEE Std 896.1-1991 •IEEE Std 896.2-1991 •IEEE Std 896.3-1993 The purpose of this handbook is to provide a reference to many of the concepts, rules, and guidelines that are necessary to understand and to follow so that interoperability of Futurebus+ systems and modules is ensured. Included are engineering details about system architecture, hardware interface, and board layout. Module designers, system intergrators, and original equipment manufacturers should find this handbook useful. Key Words: 896.2, 896.2a, futurebus+, high-performance, I/O Architecture, Profile B Title: Fifth Interim Collection of the National Electrical Safety Code®, 1993- 1995 Interpretations Status: Approved Publication of IEEE , Published Date: Dec 21, 1994 **Available only by purchasing National Electrical Safety Code® (NESC®) Interpretations Collection, 1943-1997 Inclusive 1200 pages, Product number SH94550 Publication type: Special Publication Abstract: This edition includes official interpretations of the National Electrical Safety Code as made by the Interpretations Subcommittee of the National Electrical Safety Code Committee, ASC C2. Key Words: electric supply station, overhead electric supply, communication lines, underground electric supply, clearances to electric supply, strength requirement for electric supply, communication structures Title: IEEE Standards Stationary Battery Collection - 1993 Edition Status: Approved Publication of IEEE , Published Date: Sep 24, 1993 Publication type: Collection Abstract: Because stationary batteries play such a vital role of providing reliable backup and emergency power, their design, installation and maintenance must be reliable and sound. The best way to make sound design decisions and to maximize service expected from an installed battery system is to comply with the most current standards used throughout industry today, IEEE stationary battery standards. Containing 10 standards, this collection includes the complete set of lead-acid and nickel-cadmium battery standards used in the planning, design and maintenance of today's battery installations. Title: Fourth Interim Collection of the National Electrical Safety Code® Interpretations, 1991-1993 Status: Approved Publication of IEEE , Published Date: Jul 20, 1993 **Available only by purchasing National Electrical Safety Code® (NESC®) Interpretations Collection, 1943-1997 Inclusive 1200 pages, Product number SH94550 Abstract: This edition includes official interpretations of the National Electrical Safety Code as made by the Interpretations Subcommittee of the National Electrical Safety Code Committee, ASC C2. Key Words: electric supply stations, overhead electric supply lines, overhead communication lines, underground electric supply lines, underground communication lines, clearances to electric supply, clearances to communication lines, strength Title: Sourcebook on Lead-Acid Batteries Status: Approved Publication of IEEE **Product number is SP75. Publication type: Standards Press Abstract: This highly useful sourcebook contains a wealth of information on lead-acid batteries in one complete volume, including: Leading-edge IEEE transactions papers, informative IEEE conference papers and detailed abstracts of IEEE Lead-Acid Stationary Battery standards. Title: IEEE Standards Electricity Metering Collection (C12) - 1993 Edition Status: Approved Publication of IEEE , Published Date: Oct 22, 1993 Publication type: Collection Abstract: IEEE's electricity metering standards provide today's utilities, manufacturers and regulatory bodies worldwide with specific on-the-job information needed to install, measure and test electricity meters. This collection contains 14 current standards on watt-hour meters, demand meters, demand registers, pulse devices, instrument transformers, auxiliary devices and much more. Title: IEEE Standards Engineering in Safety, Maintenance and Operation of Lines Collection (ESMOL) - 1993 Edition Status: Approved Publication of IEEE , Published Date: Oct 29, 1993 Publication type: Collection Abstract: This edition contains 9 standards and guides for engineering in safety, maintenance and operation of lines. Topics addressed include energized power lines, transmission line conductors, in-service maintenance and electrical testing of live-line tools and the protective grounding of power lines. Key Words: ESMOL, safety, maintenance Title: Atlas Training Manual: A Handbook to IEEE C/Atlas Std 716 Status: Approved Publication of IEEE Abstract: The ATLAS Training Manual provides a detailed perspective on IEEE Std 716-1989 (C/ATLAS). This training manual is only specific to IEEE Std 716-1989, not to IEEE Std 716-1995. It conveys a simplified building block approach to the standard, so that the knowledgeable user and novice alike can confidently implement the language's various test applications. Title: IEEE Standards Petroleum and Chemical Applications Collection - 1992 Edition Status: Approved Publication of IEEE , Published Date: Sep 18, 1992 Publication type: Collection Abstract: This collection offers a complete volume of 10 standards and recommended practices for the petroleum and chemical industry. Topics covered include induction and auxiliary motors, electric submersible and insulated cables and safety practices. Title: IEEE Standards Nuclear Science Collection - 1991 Edition Status: Approved Publication of IEEE , Published Date: Aug 02, 1991 Publication type: Collection Abstract: This volume is a collection of 24 IEEE and ANSI standards on nuclear science. These standards cover test procedures, specifications, calibration and utilization for nuclear instruments and detectors used in industrial and laboratory applications. Key Words: nuclear science Designation: C57.12.29-1991 Sponsor: IEEE Power & Energy Society/Transformers Title: American National Standard for Switchgear and Transformers - Pad-Mounted Equipment- Enclosure Integrity for Coastal Environments Status: Approved Publication of IEEE Title: IEEE Standards Nuclear Power Collection - 1990 edition Status: Approved Publication of IEEE , Published Date: Jun 29, 1990 Publication type: Collection Abstract: This collection contains 61 IEEE and ANSI standards used throughout the nuclear industry. Topics covered include criteria and requirements for the electrical systems of nuclear power generating stations, methods and procedures of reliability engineering, recommended practices for designing and installing electric pipe heating control, recommended practices for the application of software configuration plans to nuclear power generating stations and much more. Title: IEEE Standards Nuclear Power Archive Collection - 1990 Editon Status: Approved Publication of IEEE , Published Date: Oct 15, 1990 Publication type: Collection Abstract: In the nuclear industry archival documents have a unique significance. They are often referred to in day-to-day activities, primarily because each nuclear power generating station owner has committed to a specific issue of a document in its license application. To meet this industry need, IEEE developed the Nuclear Power Archive Standards Collection. This volume contains 51 archive or historical nuclear power standards still referred to in the nuclear industry today. The standards included in this collection are not available as single documents. Key Words: nuclear power, archive Title: A Practical Introduction to the New Logic Symbols - Second Edition by Ian Kampel Status: Approved Publication of IEEE **Product number is SP1094. Publication type: Standards Press Abstract: This publication offers guidance on the preparation of logic diagrams and their interpretation. Title: NESC® (National Electrical Safety Code®) Interpretations Collection, 1943-1990 Inclusive Status: Approved Publication of IEEE , Published Date: Jun 10, 1993 Publication type: Special Publication Key Words: NESC interpretations Title: IEEE 802.3 Systems Networking Guide: How to Optimize Your Network Using the ISO/IEC 8802-3 Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Standard Status: Approved Publication of IEEE , Published Date: Jun 28, 1995 Publication type: Standards Press Title: Standard Multivalue Logic System for VHDL Model Interoperability (Std_logic_1164) Status: Approved Publication of IEEE Publication type: Special Publication Title: CE Mark: The New European Legislation for Products: Featuring EMC, Low Voltage & Machinery Directives Status: Approved Publication of IEEE **This is a subscription product that includes the CE Mark Book, 6 newsletters & one supplement book (Sept/Oct). Publication type: Standards Press Title: VHDL Interactive Tutorial: A CD-ROM Learning Tool for IEEE Std 1076 VHDL Status: Approved Publication of IEEE **This product is available for use in Microsoft Windows® (3.1 and '95), Macintosh®, Sun® OS and Sun Solaris® environments. Publication type: Standards Press Abstract: Aiding in the comprehension and use of IEEE VHDL, this unigue product offers a comprehensive & reliable tutorial on VHDL - not available anywhere else. An enhancement to IEEE Std 1076-1993, the interactive tutorial is organized into four modules designed to incrementally add to the user's understanding of VHDL and it's applications. This hands-on tutorial shows clear links between the many levels and layers of VHDL and provides actual examples of VHDL implementation, making it an indispensible tool for VHDL product development and users. Key Words: VHDL, interactive, tutorial, CD ROM Title: Electric Metering Collection Status: Approved Publication of IEEE Title: Substations Collection-1998 Edition Status: Approved Publication of IEEE , Published Date: Apr 23, 1998 Publication type: Special Publication Title: Switchgear Collection-1998 Edition Status: Approved Publication of IEEE , Published Date: Apr 23, 1998 Publication type: Special Publication Title: Distribution, Power and Regulating Transformers Collection, 1998 Status: Approved Publication of IEEE , Published Date: Jul 20, 1998 Publication type: Special Publication Title: On-Line IEEE Standards (OLIS)—IEEE Recommended Practice for Electronic Power Distribution for Industrial Plants (IEEE Red Book) Status: Approved Publication of IEEE Title: Abbreviated Test Language for All Systems (ATLAS) Status: Approved Publication of IEEE , Published Date: Dec 31, 1998 Publication type: Electronic Product Title: Medical Devices Standards Status: Approved Publication of IEEE , Published Date: Dec 15, 1998 Publication type: Electronic Product Title: Power Electronics Standards Status: Approved Publication of IEEE , Published Date: Dec 15, 1998 Publication type: Electronic Product Title: Insulation Coordination Standards Status: Approved Publication of IEEE , Published Date: Dec 15, 1998 Publication type: Electronic Product Title: Antennas and Propagation Standards Status: Approved Publication of IEEE , Published Date: Dec 15, 1998 Publication type: Electronic Product Title: Electron Devices Standards Status: Approved Publication of IEEE , Published Date: Dec 15, 1998 Publication type: Electronic Product Title: Magnetics Standards Status: Approved Publication of IEEE , Published Date: Dec 15, 1998 Publication type: Electronic Product Title: Static Power Converters Standards Status: Approved Publication of IEEE , Published Date: Dec 31, 1998 Publication type: Electronic Product Title: Ultrasonics, Ferroelectrics and Frequency Control Standards Status: Approved Publication of IEEE , Published Date: Dec 31, 1998 Publication type: Electronic Product Title: Circuits and Systems Standards Status: Approved Publication of IEEE , Published Date: Dec 15, 1998 Publication type: Electronic Product Title: Cement Industry Standards Status: Approved Publication of IEEE , Published Date: Dec 15, 1998 Publication type: Electronic Product Title: Electricity Metering Standards Status: Approved Publication of IEEE , Published Date: Dec 31, 1998 Publication type: Electronic Product Title: Power Dielectrics and Insulation Standards Status: Approved Publication of IEEE , Published Date: Dec 31, 1998 Publication type: Electronic Product Title: Electrical Insulation Standards Status: Approved Publication of IEEE , Published Date: Dec 31, 1998 Publication type: Electronic Product Title: Aerospace Electronics Standards Status: Approved Publication of IEEE , Published Date: Dec 31, 1998 Publication type: Electronic Product Title: Instrumentation and Measurement Standards Status: Approved Publication of IEEE , Published Date: Dec 31, 1998 Publication type: Electronic Product Title: Pole Line Hardware Standards Status: Approved Publication of IEEE , Published Date: Dec 31, 1998 Publication type: Electronic Product Title: Roadway Lighting Standards Status: Approved Publication of IEEE , Published Date: Dec 31, 1998 Publication type: Electronic Product Title: Full Set of IEEE Standards Status: Approved Publication of IEEE Title: Lan/Man Security Package Status: Approved Publication of IEEE Title: Token Ring Access Package Status: Approved Publication of IEEE Title: Token-Passing Bus Access Status: Approved Publication of IEEE Title: NEC Set 1996 Status: Approved Publication of IEEE Title: NEC 1996 Status: Approved Publication of IEEE Title: IEC Multilingual Dictionary of Electricity, Electronics and Telecommunications 1992 Edition Status: Approved Publication of IEEE **This volume is the North American version of Volume 2 which is distributed in the United States and Canada by the IEEE. Publication type: Special Publication Abstract: Terms and definitions in English with equivalent terms in French, Russian, German, Spanish, Italian, Dutch, Polish and Swedish. International reference that defines over 15,000 terms. Key Words: IEC, multilingual, dictionary Designation: Subscription876 Title: Switchgear Standards Subscription Status: Approved Publication of IEEE Designation: Subscription875 Title: Surge Protective Devices Standards Subscription Status: Approved Publication of IEEE Designation: Subscription858 Title: Electro-Magnetic Compatibility Standards Subscription Status: Approved Publication of IEEE Designation: Subscription872 Title: Transmission and Distribution Standards Subscription Status: Approved Publication of IEEE Designation: Subscription856 Title: All-Inclusive Information Technology Standards Status: Approved Publication of IEEE Designation: Subscription755 Title: All-Inclusive Telecommunications Standards Status: Approved Publication of IEEE Designation: Subscription874 Title: Substations Standards Subscription Status: Approved Publication of IEEE Designation: Subscription873 Sponsor: IEEE Power & Energy Society/Power System Relaying Title: Protective Relaying Standards Subscription Status: Approved Publication of IEEE Designation: Subscription871 Title: Energy Development/Power Generation Standards Subscription Status: Approved Publication of IEEE Designation: Subscription869 Title: Insulated Conductors Standards Subscription Status: Approved Publication of IEEE Designation: Subscription868 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Electric Machinery Standards Subscription Status: Approved Publication of IEEE Designation: Subscription866 Title: Portable Applications (POSIX) Standards Subscriptions Status: Approved Publication of IEEE Designation: Subscription864 Sponsor: IEEE Computer Society/Design Automation Title: Design Automation Standards Subscription Status: Approved Publication of IEEE Designation: Subscription863 Title: Communications Standards Subscription Status: Approved Publication of IEEE Designation: Subscription862 Title: Bus Architecture Standards Subscription Status: Approved Publication of IEEE Designation: Subscription857 Title: All-Inclusive Power and Energy Standards Status: Approved Publication of IEEE Designation: Subscription865 Sponsor: IEEE Computer Society/Local and Metropolitan Area Networks Title: LAN/MAN Plus Drafts Standards Subscription Status: Approved Publication of IEEE Designation: Subscription867 Title: Software Engineering Standards Subscription Status: Approved Publication of IEEE Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Power Cable Ampacity Software with IEEE Std 835-1994 (R2006) on CD- Rom Status: Approved Publication of IEEE , Published Date: Mar 16, 2007 **Includes the 3,176 page 90 MB complete original PDF of IEEE Std 835-1994 (R2006) Abstract: Many factors influence the amount of current a given cable can transfer. For example, insulation, temperature, and the number of bundled wires. These tables help you determine the cable's ampacity, or simply, the ability of the cable, in varying conditions, to carry amps (current) before it fails or overheaats. Key Words: ampacity, cable, conductors, dielectric, extruded, insulation, laminar, power, software Title: 2007 Stationary Batteries VuSpec Status: Approved Publication of IEEE , Published Date: Sep 09, 2006 **Replaces SE135 Includes 19 active and 3 withdrawn IEEE standards in the Stationary Batteries family Project Scope: A complete reference with standards, essential papers, and convenient tools wrapped inside an easy-to-use interface that runs inside your web browser. You need this product CD if you are designing, manufacturing, sizing, selecting, installing, maintaining, testing, or operating storage batteries used in stationary and portable applications, including generating stations, substations, energy storage, industrial control, emergency/standby generator sets, emergency lighting, telecommunications, portable computing, and uninterruptible power supplies. Covers rechargeable lead-acid, nickel-cadmium, lithium-ion, and other types of batteries. Key Words: abuse, ac/dc, acceptance, acceptance test, active authentication, active charger, adapter, ampacity, amphere-hours (Ah) charge efficiency, applications, array-to-load ratio, Assessment of Lead-Acid Battery State, authentication, autonomy, available capacity, BattCon, batteries for photovoltaic, Batteries for Stationary Standby, battery conditioning, battery duty cycle, battery monitoring equipment, battery/battery pack, Building Codes, burr, c/x charge/discharge rate, calculated photovoltaic (PV) array amphere-hours (Ah) to load Ah ratio (A:L), Calculation of Capacity, capacity test, Carosella, cause-and-effect (Fishbone) diagram, cell, cell core, cell leakage, Cellular Phones, charge amphere-hours (Ah) to load Ah ratio (C:L), charge controller, charger, Charging, charging algorithm, Class 1E, commissioning, communication materials, communications interfaces, conception, connection resistance measurements, containment, continuous-float operations, counterfeit batteries, Coup de Fouet, critical, cycle, cycle life, Cycling, cycling, dc/dc, deficit charge, depth of discharge, Design, design analysis, discharge, discharge rate, documentation, dryout, electrochemical, electrochemical electrodes electrochemistry, electrochemistry, electrolyte, electrostatic discharge (ESD), emergency, end-of-discharge voltage (EODV), energy capacity, Environmental Regulations, equalizing voltage, equipment, equipment applicability, establishing specifications, failure mode, failure mode and effects analysis (FMEA), fault, Feder, Feedback Form, fiber-plate nickel- cadmium, Float, float charge, float operation, float service, float-service, Floyd, full float (constant potential) operation:, full-float, gelled electrolyte, generating equipment, Generating Stations, grid-connected, hazard, high-rate charge, host (host device), hour rate, immobilized electrolyte, immobilized-electrolyte, incompatible batteries, inspection, installation, instrument, instrumentation, INTELEC, intended use, internal ohmic value, inverter, Lead-Acid, lead-acid batteries, Li-ion, lithium-ion, Livium, low-voltage disconnect (LVD), low-voltage reconnect (LVR), Maintenance, management standards, manufacturer/supplier, may, McCluer, McDowall, measurements, measuring, midpoint voltage, monitoring equipment, Monitoring Float Charging Current, monitoring techniques, Ni-Cd, nickel- cadmium, nickel-cadmium batteries, Nickel-Cadmium Batteries for Photovoltaic, Nuclear Power Generating Stations, O&M requirements, observations, ohmic value, open circuit voltage (cell or battery pack) (VOC), Operating Issues, operation, operational procedures, opportunity charging, overcharge, overcurrent, overdischarge, overvoltage, oxygen recombination, packaging technologies, parameters for lead-acid batteries, passive authentication, passive charger, Pb-acid secondary batteries, Pb- acid, Pb-acid secondary batteries, performance, performance test, period, Photovoltaic, Plante, polarisation, polarization, Portable Computing, positive temperature coefficient resistor (PTC), precautions, premature capacity loss, procedures, process control, product life, product lifetime, Protection, PV, Qualification, Rate Adjustment Method, Rate-Adjusted Method, rated capacity, rated capacity (C), rated capacity (nickel-cadmium cell), reasonable and foreseeable misuse, Rechargeable, rechargeable Li-Ion, Reference Electrode Measurements, regulated lead-acid batteries, regulation reconnect voltage (Vrr), regulation voltage, Regulations, reliability of rechargeable Li-Ion, Replacement, requirements, requirements/codes, resistance, Safety, Safety Codes, schedules, Selection, Selection Criteria, self discharge, self-discharge rate, semiportable equipment, service test, shall, shelf life, should, Sizing, Sokolski, solar insolation, solar/photovoltaic applications, standard test conditions (STC), standby operation (battery), Stationary Cycling Applications, Stationary Ni-Cd Batteries, Stationary Reserve Battery Plants, Storage, string, Substations, subsystem, subsystem interface, subsystems, sulfation, excessive or “hard”, sustaining charge, system, Telecommunications, telephone applications, temperature-compensated charging, termination voltage, Terrestrial, terrestrial photovoltaic, test-discharge, Testing, Testing Standards, thermal runaway, undervoltage, Uniformity, Uninterruptible Power Supply Systems, UPS (Uninterruptible Power Supply), Use of Battery Monitoring Equipment, Valve Regulated Lead-Acid Batteries, valve-regulated, valve- regulated lead-acid (VRLA) cell, vented battery, vented cell, vented lead- acid (VLA) cell, Vented Lead-Acid Batteries for Stationary Applications, Vented Nickel-Cadmium Batteries for Stationary Applications, ventilation, Ventilation Requirements for VRLA Batteries, vision system, Voltage, VRLA batteries, VuSpec interface abuse, ac/dc, acceptance, acceptance test, active authentication, active charger, adapter, ampacity, amphere-hours (Ah) charge efficiency, applications, array-to-load ratio, Assessment of Lead- Acid Battery State, authentication, autonomy, available capacity, BattCon, batteries for photovoltaic, Batteries for Stationary Standby, battery conditioning, battery duty cycle, battery monitoring equipment, battery/battery pack, Building Codes, burr, c/x charge/discharge rate, calculated photovoltaic (PV) array amphere-hours (Ah) to load Ah ratio (A:L), Calculation of Capacity, capacity test, Carosella, cause-and-effect (Fishbone) diagram, cell, cell core, cell leakage, Cellular Phones, charge amphere-hours (Ah) to load Ah ratio (C:L), charge controller, charger, Charging, charging algorithm, Class 1E, commissioning, communication materials, communications interfaces, conception, connection resistance measurements, containment, continuous-float operations, counterfeit batteries, Coup de Fouet, critical, cycle, cycle life, Cycling, cycling, dc/dc, deficit charge, depth of discharge, Design, design analysis, discharge, discharge rate, documentation, dryout, electrochemical, electrochemical electrodes electrochemistry, electrochemistry, electrolyte, electrostatic discharge (ESD), emergency, end-of-discharge voltage (EODV), energy capacity, Environmental Regulations, equalizing voltage, equipment, equipment applicability, establishing specifications, failure mode, failure mode and effects analysis (FMEA), fault, Feder, Feedback Form, fiber-plate nickel-cadmium, Float, float charge, float operation, float service, float-service, Floyd, full float (constant potential) operation:, full-float, gelled electrolyte, generating equipment, Generating Stations, grid-connected, hazard, high-rate charge, host (host device), hour rate, immobilized electrolyte, immobilized-electrolyte, incompatible batteries, inspection, installation, instrument, instrumentation, INTELEC, intended use, internal ohmic value, inverter, Lead-Acid, lead-acid batteries, Li-ion, lithium-ion, Livium, low-voltage disconnect (LVD), low-voltage reconnect (LVR), Maintenance, management standards, manufacturer/supplier, may, McCluer, McDowall, measurements, measuring, midpoint voltage, monitoring equipment, Monitoring Float Charging Current, monitoring techniques, Ni-Cd, nickel-cadmium, nickel-cadmium batteries, Nickel-Cadmium Batteries for Photovoltaic, Nuclear Power Generating Stations, O&M requirements, observations, ohmic value, open circuit voltage (cell or battery pack) (VOC), Operating Issues, operation, operational procedures, opportunity charging, overcharge, overcurrent, overdischarge, overvoltage, oxygen recombination, packaging technologies, parameters for lead-acid batteries, passive authentication, passive charger, Pb-acid secondary batteries, Pb-acid, Pb-acid secondary batteries, performance, performance test, period, Photovoltaic, Plante, polarisation, polarization, Portable Computing, positive temperature coefficient resistor (PTC), precautions, premature capacity loss, procedures, process control, product life, product lifetime, Protection, PV, Qualification, Rate Adjustment Method, Rate-Adjusted Method, rated capacity, rated capacity (C), rated capacity (nickel-cadmium cell), reasonable and foreseeable misuse, Rechargeable, rechargeable Li-Ion, Reference Electrode Measurements, regulated lead-acid batteries, regulation reconnect voltage (Vrr), regulation voltage, Regulations, reliability of rechargeable Li-Ion, Replacement, requirements, requirements/codes, resistance, Safety, Safety Codes, schedules, Selection, Selection Criteria, self discharge, self- discharge rate, semiportable equipment, service test, shall, shelf life, should, Sizing, Sokolski, solar insolation, solar/photovoltaic applications, standard test conditions (STC), standby operation (battery), Stationary Cycling Applications, Stationary Ni-Cd Batteries, Stationary Reserve Battery Plants, Storage, string, Substations, subsystem, subsystem interface, subsystems, sulfation, excessive or “hard”, sustaining charge, system, Telecommunications, telephone applications, temperature-compensated charging, termination voltage, Terrestrial, terrestrial photovoltaic, test- discharge, Testing, Testing Standards, thermal runaway, undervoltage, Uniformity, Uninterruptible Power Supply Systems, UPS (Uninterruptible Power Supply), Use of Battery Monitoring Equipment, Valve Regulated Lead-Acid Batteries, valve-regulated, valve-regulated lead-acid (VRLA) cell, vented battery, vented cell, vented lead-acid (VLA) cell, Vented Lead-Acid Batteries for Stationary Applications, Vented Nickel-Cadmium Batteries for Stationary Applications, ventilation, Ventilation Requirements for VRLA Batteries, vision system, Voltage, VRLA batteries, VuSpec interface Title: Low-Rate Wireless Personal Area Networks: Enabling Wireless Sensors with IEEE 802.15.4 Status: Approved Publication of IEEE , Published Date: Nov 01, 2003 Title: Wireless Media: A Guide to the IEEE 802.15.3 Standard Status: Approved Publication of IEEE , Published Date: Apr 05, 2004 Project Scope: Wireless Multimedia covers three main areas: Applications: Typical applications that would benefit from using 802.15.3 devices for wireless connectivity, including specific examples of how the unique properties of 802.15.3 compliant devices enable new applications. Implementation: Summary of the 802.15.3 standard, highlighting special areas that are key to a successful implementation. Examples are included for implementers who are developing compliant devices. -Justification: Discussion and reasoning that went into developing the standard, including background information that details what types of implementations were anticipated when the standard was developed and key details for those deciding what architectures are ideal for developing 802.15.3 products. Title: Implementation Guide to 1512's Status: Approved Publication of IEEE , Published Date: May 05, 2004 Title: Preprint Proposal for Revision of the 2002 Edition of the National Electrical Safety Code® Status: Approved Publication of IEEE , Published Date: Sep 01, 2004 Publication type: Special Publication Title: National Electric Safety Code (NESC) CD Plus Pack Featuring the NESC + Preprint Proposals for the 2007 Edition of the National Electrical Safety Code (VuSpec Series) Status: Approved Publication of IEEE , Published Date: Sep 15, 2004 Publication type: Collection Title: IEEE 802.11 Handbook: A Designer's Companion, Second Edition Status: Approved Publication of IEEE , Published Date: Mar 14, 2005 Title: 802.3 Ethernet & the First Mile Status: Approved Publication of IEEE , Published Date: Mar 30, 2006 Abstract: On September 7, 2004, the Ethernet in the First Mile (EFM) standard, formally known as IEEE Std 802.3ah-2004, was published to the world. The publication of the standard marked the culmination of four years of effort by industry leaders and innovators to address the broadband subscriber access network market and its challenges. More importantly, the publication of EFM introduced a suite of native Ethernet broadband technology, which as a set marked yet another successful extension of Ethernet into a new market and definitively answered the ques¬tion of “what broadband technology best suites my needs” with a set of Ethernet technologies that mirrored their sister traditional Ethernet technologies in price, simplicity and profitability. The IEEE Std 802.3ah-2004 document is an outstanding resource for someone who wants to build equipment that is compatible with the EFM standard. Ethernet in the First Mile: Access for Everyone brings the standard to life. The authors explain the basic principles behind the standard, presenting the trade-offs that led to the standardization of the specific technologies, and providing a guide to help readers navigate through the formal prose. The authors of this book led the 802.3ah project and now present the evolution of the standard along with thier perspective on the various technologies. This book starts by introducing the Ethernet standards committee, its long and successful history, its language and nomenclature, along with its structure and decision making process. The authors then re-enact the business and technol¬ogy evolution that set the stage for a successful launch of EFM by introducing readers to the preceding and competing technologies that failed to capture the hearts of the consumer and the backing of the industry leaders. Next the EFM standard is introduced by giving an overview of its massive scope and various technology tracks, after which each chapter explains the technical, economic and marketing aspects of the choices made in the EFM Task Force and written into the IEEE Std 802.3ah-2004 document. The technology discussion is complimented with a practical introduction and discussion of interoperability and testing: things that providers, consumers, builders and suppliers of EFM should be acutely aware of. Finally, a few chapters are devoted to the business cases and considerations associated with deploying EFM. Insights are presented of the leading proponents who helped define the standard along with the parameters and issues that will guide readers to the EFM technology that is best suited to address their needs. Title: How to Protect Your House and Its Contents From Lightning: IEEE Guide for Surge Protection of Equipment Connected to AC Power and Communication Circuits Status: Approved Publication of IEEE , Published Date: May 05, 2005 Abstract: This guide is intended to provide useful information about the proper specification and application of surge protectors, to protect houses and their contents from lightning and other electrical surges. Title: WirelessMAN: Inside the IEEE 802.16 Standard for Wirelss Metropolitan Area Networks Status: Approved Publication of IEEE , Published Date: May 05, 2006 Abstract: The objective of this book is to provide a detailed overview of the IEEE 802.16 standard for fixed broadband wireless and to include detailed descriptions of the 802.16 Medium Access Control (MAC) and Physical Layer (PHY) operation, with emphasis on the design and the technology behind the standards. This book explains why certain design choices were made and how the recent technological developments, realworld experience and the lessons learned from previous projects were used throughout the 802.16 standards development process to make critical trade-offs. In addition, the chronological development of 802.16 MAC and PHY amendments to the standards and the rationale behind those projects are explained. This book also provides a summary of ongoing projects, related standards, and possible future extensions to IEEE 802.16. The optional and mandatory parts of the 802.16 Standards are clearly indentified and explained thoughout the book wherever applicable. Title: 2007 National Electrical Safety Code VuSpec CD-ROM Status: Approved Publication of IEEE , Published Date: Aug 01, 2006 Key Words: communications industry safety; construction of communication lines; construction of electric supply lines; electrical safety; electric supply stations; electric utility stations; high-voltage safety; operation of communications sys­tems; operation of electric supply systems; power station equipment; power station safety; public utility safety; safety work rules; underground communication line safety; underground electric line safety. Title: 2007 National Electrical Safety Code Handbook Status: Approved Publication of IEEE , Published Date: Aug 01, 2006 Project Scope: This IEEE product is part of the family on NESCs. The NESC Handbook is a powerful tool that pulls together facts, figures, and explanations that help you effectively implement the Code. Authored by Allen L. Clapp, the NESC Handbook covers NESC various requirements up to 2007, detailing important work rules and a historical perspective of the Code. Designation: Subscription879 Title: All-Inclusive IEEE Standards Online Status: Approved Publication of IEEE Designation: Subscription851 Title: Health Informatics/Medical Device Communications Subscription Status: Approved Publication of IEEE Designation: Subscription860 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Nuclear Engineering Standards Subscription Status: Approved Publication of IEEE Designation: Subscription861 Title: Industrial and Commercial Facilities Standards Subscription Status: Approved Publication of IEEE Designation: Subscription854 Sponsor: IEEE Vehicular Technology Society Title: Vehicular Technology Standards Subscription Status: Approved Publication of IEEE Designation: Subscription859 Title: Testing, Instrumentation & Measurements and Metric Practice Status: Approved Publication of IEEE Designation: Subscription870 Sponsor: IEEE Power & Energy Society/Transformers Title: Power Transformers (Distribution and Regulating) Standards Subscription Status: Approved Publication of IEEE Title: IEEE Power System Relay Standards (PDF on CD-ROM) Status: Approved Publication of IEEE , Published Date: Apr 04, 2007 Abstract: These standard cover all types of relays, including protective, regulating, monitoring, reclosing, synch-check, syncronizing and auxiliary. Specific topics include: -Applications -Design -Construction -Operation -Transmission -Generation -Distribution -Utilization Key Words: power, relays Sponsor: IEEE Power & Energy Society/Power System Communications Title: IEEE Power Substation Standards (PDF on CD-ROM) Status: Approved Publication of IEEE , Published Date: Apr 04, 2007 Abstract: These standards cover all types of substations, including switching stations, transformer stations, and generating station switchyards. Specific topics include: - Automatic/supervisory control systems; - Data acquired within substations; - Single line wiring diagrams; - Insulation coordination; - Gas-insulated and open bus designs; - Structural arrangements; - D.C. stations; - Environmental and Safety Concerns; - Clearances; - Substation Grounding; - Substation Capacitor Banks; - Substation Seismic Design. Key Words: power, substations Title: IEEE Power Switchgear, Substation, and Relay Standards, VuSpec Edition (formerly known as ANSI C37) VuSpec Status: Approved Publication of IEEE , Published Date: Feb 06, 2007 Abstract: New for 2007-2008. Imagine having immediate access to, and easily searching through, all 140 standards. For the first time on VuSpec CD, IEEE offers you this complete collection of all Power Switchgear, Substation, and Relay standards. Search by titles, keywords, abstracts, extended descriptions, HTML tags, or on the full text of the standards themselves. - Over 140 IEEE Standards. A Complete Collection of all IEEE Power Switchgear, Circuit Breaker, Fuse, Substation, and Relay Standards. Includes 70 Switchgear standards, 35 Substation standards, 30 Relaying standards, and a handful of key referenced standards from other areas. -Powerful New and Improved IEEE VuSpec Interface with integrated Search, Links, and Navigation Features -New Power Switchgear, Substation, and Relay Online Glossary of nearly 1,400 terms derived from the official standards. -Portable VuSpec CD-ROM for Microsoft Windows (limited PDF-only access for MacOS, Linux, UNIX, and others) -Includes related bonus material on disc, including select historic ANSI/NEMA standards, key reference standards, and exclusive linked abstracts, keywords, and extended standard descriptions. -Ships in your own CD Storage case. Key Words: assemblies, C37, circuit, circuits, circuit breakers, fuses, power, relay systems, relaying, relays, substations, switchgear, vuspec Title: IEEE VuSpec: Surge Protective Devices (VuSpec CD) Status: Approved Publication of IEEE , Published Date: Feb 27, 2007 Key Words: limitations, ratings, tests, backup protection, breaker-failure relaying, bus protection, electric service, non-utility generation, protective relays, transformer protection, utility-consumer interconnection, silicon-carbide, surge arresters, AC, Power Circuits, discharge current, discharge voltage, duty-cycle voltage rating, lightning protection, maximum continuous operating voltage, MCOV, metal-oxide surge arrester, MOSA, surge arrester, valve arrester, harmonics, noise, power system disturbance, surge- protective device (SPD), swell, voltage sag, voltage surge Sponsor: IEEE Electromagnetic Compatibility Society Title: IEEE Electro-Magnetic Compatibility Standards (PDF on CD-Rom) Status: Approved Publication of IEEE , Published Date: Jun 07, 2007 Title: IEEE Electromagnitc Compatibility Standards (VuSpec Edition;CD-ROM) Status: Approved Publication of IEEE , Published Date: Jun 04, 2007 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: The IEEE Color Books - Complete Standards Series :VuSpec Status: Approved Publication of IEEE **Supersedes previous set CD-ROM product (STDVU118) Project Scope: The IEEE Color Books: Complete Standards Series VuSpec CD-ROM incorporates the 13 volumes that comprise the IEEE Color Books standards series: IEEE Std 141-1993 (R1999), IEEE Red Book / IEEE Std 142-2007, IEEE Green Book / IEEE Std 241-1990 (R1997), IEEE Gray Book / IEEE Std 242-2001, IEEE Buff Book / IEEE Std 399-1997, IEEE Brown Book / IEEE Std 446-1995 (R2000), IEEE Orange Book / IEEE Std 551-2006, IEEE Violet Book / IEEE Std 493-1997, IEEE Gold Book IEEE / Std 602-2007, IEEE White Book / IEEE Std 739-1995, IEEE Bronze Book / IEEE Std 902-1998, IEEE Yellow Book / IEEE Std 1015-2006, IEEE Blue Book / IEEE Std 1015-2006/Cor1-2007, IEEE Blue Book / IEEE Std 1100-1999, IEEE Emerald Book --- REMARKS: Supersedes previous set CD-ROM product (STDVU118) Abstract: The IEEE Color Books: Complete Standards Series VuSpec CD-ROM incorporates the 13 volumes that comprise the IEEE Color Books standards series: IEEE Std 141-1993 (R1999), IEEE Red Book / IEEE Std 142-2007, IEEE Green Book / IEEE Std 241-1990 (R1997), IEEE Gray Book / IEEE Std 242-2001, IEEE Buff Book / IEEE Std 399-1997, IEEE Brown Book / IEEE Std 446-1995 (R2000), IEEE Orange Book / IEEE Std 551-2006, IEEE Violet Book / IEEE Std 493-1997, IEEE Gold Book IEEE / Std 602-2007, IEEE White Book / IEEE Std 739-1995, IEEE Bronze Book / IEEE Std 902-1998, IEEE Yellow Book / IEEE Std 1015-2006, IEEE Blue Book / IEEE Std 1015- 2006/Cor1-2007, IEEE Blue Book / IEEE Std 1100-1999, IEEE Emerald Book --- Key Words: Color Books, 141-1993 Red Book, 142-2007 Green Book, 241-1990 Gray Book, 242-2001 Buff Book, 399-1997 Brown Book, 446 -1995 Orange Book, 551- 2006 Violet Book, 493-1997 Gold Book, 602-2007 White Book, 739-1995 Bronze Book, 902-1998 Yellow Book,1015-2006 Designation: P802.21b Title: Standard for Media Independent Handover Services - Amendment: Handovers with Downlink Only Technologies Status: Amendment Technical Contact: Vivek G Gupta, Phone:4088-765-7766, Email:vivekggupta@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This amendment defines mechanisms that enable the optimization of handovers between IEEE 802.21 supported technologies and downlink-only (DO) technologies Project Purpose: The purpose of this standard is to improve user experience by developing mechanisms that facilitate handovers between IEEE 802.21 supported technologies and DO technologies. Designation: P802.1Qbc Title: IEEE Standard for Local and Metropolitan Area Networks---Virtual Bridged Local Area Networks Amendment: Provider Bridging - Remote Customer Service Interfaces Status: Amendment Project Scope: This standard allows a service-tagged (S-tagged) service interface connecting two independently administered Provider Bridged Networks to be used to handle traffic (identified by a single service virtual local area network (S-VLAN) identifier) for a given customer port attached to one provider backbone network (PBN) as if the customer were directly attached to the other PBN using a Port-based or customer tagged (C- tagged) service interface. Project Purpose: Metro Ethernet service providers need to provide service to customer locations not directly accessible to their network. Such “out-of- footprint” access may be obtained via other (access) service providers; however, the primary service provider has an interest in minimizing the amount of provisioning required of an access provider. This standard meets this need by specifying Provider Bridging technology that allows the primary service provider to treat customers connected via an access network as if they were directly connected to the primary service provider’s network. Designation: P802.1Qbe Title: IEEE Standard for Local and Metropolitan Area Networks---Virtual Bridged Local Area Networks Amendment: Multiple Backbone Service Instance Identifier (I-SID) Registration Protocol (MIRP) Status: Amendment Project Scope: This standard specifies protocols, procedures, and managed objects to support topology change signaling to alter the binding (held in an I-Component) of Customer addresses to Backbone addresses on a per- Backbone Service Instance Identifier (I-SID) basis. This is accomplished by extending the use of the Multiple Registration Protocol (MRP). Project Purpose: MIRP provides the capabilities necessary when topology changes occur in networks attached to a Provider Backbone Bridged Network. A Backbone Edge Bridge (BEB) signals to other potentially affected BEBs the need to alter certain learned associations between Customer MAC Addresses and Backbone MAC Addresses. An access cloud that has an Itagged connection to a Backbone network signals both its requirements for specific services, and topology change events in those services. Designation: P802.1Qbf Title: IEEE Standard for Local and Metropolitan Area Networks---Virtual Bridged Local Area Networks Amendment: Provider Backbone Bridge Traffic Engineering (PBB-TE) Infrastructure Segment Protection Status: Amendment Project Scope: This standard specifies procedures and managed objects to provide 1:1 (M:1 if practical) protection switching, without modifying data or control frames and using connectivity fault management (CFM), for a group of Traffic Engineered Service Instances (TESIs) that traverses a sequence of local area networks (LANs) and intervening bridges. Operator requests and operational modes consistent with those supported by PBB-TE TESI Protection are specified. Project Purpose: This standard allows service providers to: • Address the relatively high failure rate of particular links or bridges within a network. • Address the likelihood of concurrent failures occurring in different segments of a network. • Allow maintenance activities to be performed independently in different segments of the network. • Allow maintenance activities to be performed in one segment of a network without disabling protection in another segment. • Localize changes in traffic distribution due to failure or maintenance actions. Designation: P1613a Title: IEEE Standard Environmental and Testing Requirements for Communications Networking Devices Installed in Electric Power Substations - Amendment: Additions of Definitions, DC Power Supply Requirements, History, and Testing Comments Status: Amendment Project Scope: Adding a definition, adding a requirement to dc power supplies, adding two Informative Annexes Project Purpose: Clarifying requirements, explaining the rationale for the transient tests and test methods Designation: P487a Title: Recommended Practice for the Protection of Wire-Line Communication Facilities Serving Electric Supply Locations Amendment 1 - Requirements and Conditions for Placing the Wire-Line-Fiber Cable Junction (CFJ) Inside the Zone of Influence Status: Amendment Project Scope: This amendment specifies the necessary requirements and conditions for placing the CFJ (wire-line–fiber cable junction), inside the Zone of Influence Project Purpose: The purpose of this amendment is to provide information on the necessary requirements and conditions for placing the CFJ, inside the Zone of Influence Designation: P802.1Qbg Title: Standard for Local and Metropolitan Area Networks---Virtual Bridged Local Area Networks Amendment: Edge Virtual Bridging Status: Amendment Project Scope: This standard specifies protocols, procedures, and managed objects that: - Provide for the discovery, configuration, and control of a pair of direct-attached limited-function Service VLAN (S-VLAN) components to extend the services of a customer bridge to remote ports and enable coexistence of multiple services on station-resident ports.(e.g. port aggregation services, embedded bridging) - Provide for discovery, configuration, and control of a Reflective Relay Service for a bridge port when it is connected to a Port Aggregation Service. - Define the requirements for, and operation of, a Port Aggregation Service required to allow the loop free operation of the Reflective Relay Service. - Provide for discovery of, and coordinated configuration of, station-embedded Port Aggregators and station embedded Customer VLAN (C-VLAN) Components. Project Purpose: The purpose of this standard is to allow multiple virtual stations to share a common bridge port to obtain the services of bridge relay. The standard enables coordinated configuration and management of bridge services for virtual stations. Designation: P802.1Qbh Title: Standard for Local and Metropolitan Area Networks---Virtual Bridged Local Area Networks Amendment: Bridge Port Extension Status: Amendment Project Scope: This amendment specifies protocols, procedures, and managed objects to support Port Extension. A Port Extender attaches to a MAC port of an 802.1Q bridge and provides additional MAC ports that are logically ports of the 802.1Q bridge to which it is attached (i.e. the "Controlling Bridge"). The protocols, procedures, and managed objects specified in this amendment are expected to specify new behavior in bridges that support port extension as well as the behavior of Port Extenders themselves. In addition, the protocols, procedures, and managed objects specified in this amendment support the cascading of Port Extenders. To the extent technically reasonable, all frame filtering and relay functions remain in the Controlling Bridge. Use of a Service Virtual LAN Tag (S-TAG) for Multichannel capability as being defined in Edge Virtual Bridging is envisaged to achieve this objective. A new on-the-wire indication (e.g. a new tag) is envisioned to support remote replication for purposes including frame flooding and group address support. Project Purpose: The purposes of this project include: - To reduce the management cost of networks comprising large number of bridges (such as those commonly found in a data center environments) through significant reduction in both the number of devices to be managed and the management traffic required. - To decrease total cost of ownership by reducing initial capital expenditure along with management and operational costs. Designation: P802.3bf Title: Standard for Information technology--Telecommunications and information exchange between systems--Local and metropolitan area networks--Specific requirements Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer SpecificationsAmendment: Media Access Control (MAC) service interface and management parameters to support time synchronization protocols Status: Amendment Project Scope: Amend IEEE Std 802.3-2008 to extend the Media Access Control service interface and add management parameters to provide support for the IEEE 802.1AS time synchronization protocol. Project Purpose: Provide an accurate indication of the transmission and reception initiation times of certain packets as required to support IEEE P802.1AS. Designation: P802.11ae Title: Standard for Information Technology - Telecommunications and Information Exchange Between Systems - Local and Metropolitan Area Networks - Specific Requirements - Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications; Amendment: Prioritization of management frames Status: Amendment Project Scope: This amendment defines mechanisms for prioritizing IEEE 802.11 management frames using existing mechanisms for medium access. Project Purpose: This amendment enables improved performance of IEEE 802.11 networks and the applications that use these networks, by providing mechanisms to prioritize IEEE 802.11 management frames using existing mechanisms for medium access. Designation: P802.11af Title: Standard for Information Technology - Telecommunications and Information Exchange Between Systems - Local and Metropolitan Area Networks - Specific Requirements - Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications; Amendment: TV White Spaces Operation Status: Amendment Project Scope: An amendment that defines modifications to both the 802.11 physical layers (PHY) and the 802.11 Medium Access Control Layer (MAC), to meet the legal requirements for channel access and coexistence in the TV White Space. Project Purpose: The purpose of this amendment is to allow 802.11 wireless networks to be used in the TV white space. Designation: P802.21c Title: Standard for Local and metropolitan area networks -- Part 21: Media Independent Handover Services Amendment:Optimized Single Radio Handovers Status: Amendment Project Scope: This amendment defines enhancements to enable optimized single radio handovers between heterogeneous IEEE 802 wireless technologies and extend these mechanisms for single radio handovers between IEEE 802 wireless technologies and cellular technologies. These enhancements are based on media access independent mechanisms. Project Purpose: The purpose of this amendment is to enhance the user experience by enabling optimized single radio handover solutions between heterogeneous networks. This standard defines mechanisms to reduce latency and enable service continuity during handover. Designation: PC37.20.7-2007/Cor 1 Title: IEEE Guide for Testing Metal-Enclosed Switchgear Rated Up to 38 kV for Internal Arcing Faults - Corrigendum 1 Status: Corrigenda of Standard Technical Contact: Michael Wactor, Phone:713-948-4918, Email:mwactor@powl.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: 1. Change the requirements for maintaining frequency during the testing to match laboratory capability and align with similar testing from the IEC. 2. Remove the requirement for peak current from the low voltage test procedure. 3. Add improved description of shorting wire type for low voltage testing. Project Purpose: The identified items in section 5.2 must be addressed to assure proper and consistent test results. Designation: P671-1985/Cor 1 Title: IEEE Standard Specification Format Guide and Test Procedure for Nongyroscopic Inertial Angular Sensors: Jerk, Acceleration, Velocity, and Displacement - Corrigendum 1: 4.7.2.6 Short-Term Stability and Annex A Sensor Dynamic Block Diagrams Status: Corrigenda of Standard Project Scope: Changes are being made to fix section 4.7.2.6 to delete a sentence that does not belong there, to add a subclause that was inadvertently left out, and to renumber the existing subclauses. Changes are also being made to fix the block diagrams in Annex A to correct a misspelling of inertia and to add a missing symbol. Project Purpose: Changes are being made to fix section 4.7.2.6 to delete a sentence that does not belong there, to add a subclause that was inadvertently left out, and to renumber the existing subclauses. Changes are also being made to fix the block diagrams in Annex A to correct a misspelling of inertia and to add a missing symbol. Designation: P1558-2004/Cor 1 Title: Standard for Software Documentation for Rail Equipment and Systems - Corrigendum 1 Status: Corrigenda of Standard Project Scope: The existing text refers to a standard that has subsequently been revised. The corrigendum will correct the references. There may be other items of a similar nature. Project Purpose: The purpose is to clarify obsolete references. Designation: P802.1Qaz Title: Standard for Local and Metropolitan Area Networks---Virtual Bridged Local Area NetworksAmendment: Enhanced Transmission Selection for Bandwidth Sharing Between Traffic Classes Status: Revision of Amendment Project Scope: This standard specifies protocols, procedures and managed objects for enhancement of transmission selection to support allocation of bandwidth amongst traffic classes. When the offered load in a traffic class doesn’t use its allocated bandwidth, enhanced transmission selection will allow other traffic classes to use the available bandwidth. The bandwidth- allocation priorities will share bandwidth between bursty traffic loads while coexisting with the strict priority mechanisms already defined in Std 802.1Q, carrying traffic requiring minimum latency. It includes definition of a control protocol that controls the application of Enhanced Transmission Selection and Priority-based Flow Control. Project Purpose: Networks prioritize traffic to provide different service characteristics to traffic classes. It is desirable to be able to share bandwidth between priorities carrying bursty high offered loads rather than servicing them with strict priority while allowing strict priority for time- sensitive and management traffic requiring minimum latency. Also, when traffic at a priority level doesn’t use its allocation, it is desirable to allow other priorities to use that bandwidth. For example, IEEE P802.1Qau will specify congestion management. Congestion managed traffic classes can share a network with traditional best effort LAN classes. Enhanced transmission selection provides uniform management for the sharing of bandwidth between congestion managed classes and traditional classes on a single bridged network. Priorities using enhanced transmission selection will coexist with priorities using 802.1Qav queuing for time-sensitive streams. A control protocol provides a mechanism for exchanging configuration of Enhanced Transmission Selection, Priority-based Flow Control and other data center bridging technology parameters across the link providing a means of establishing a consistent configuration across the link. Designation: P1616a Title: Standard for Motor Vehicle Event Data Recorders (MVEDRs) Amendment 1: Motor Vehicle Event Data Recorder Connector Lockout Apparatus (MVEDRCLA) Status: Revision of Amendment Project Scope: Motor Vehicle Event Data Recorders (MVEDRs) collect, record, store and export data related to pre-defined events in usage history. This amendment defines a lockout protocol for MVEDR output data accessibility by securing the vehicle output diagnostic link connector (DLC). This standard does not prescribe data security within the vehicle electronic control units (ECUs) or within the intra-vehicle communication and/or diagnostic networks but instead defines ways and means to permit uniform, but controlled access of electronic scan tools to the DLC for legitimate vehicle emissions status, maintenance and/or repair. This standard also defines a means of maintaining data security on the vehicle via a motor vehicle DLC connector lockout apparatus (MVEDRCLA). The MVEDRCLA is applicable to vehicles and their respective event data recorders for all types of motor vehicles licensed to operate on public highways. Project Purpose: Many light-duty vehicles, and increasing numbers of heavy commercial vehicles, are equipped with some form of a MVEDR. These systems are diverse in function, and proprietary in nature, however, the SAE J1962 (ISO/DIS 15031-3) vehicle diagnostic link connector (DLC) has a common design and pinout, and is thus universally used to access event data recorder information. Data access via the DLC can be accomplished by using scan tools or microcomputers and network interfaces. This same DLC and network interface is also used for re-calibrating electronic control units on a vehicle. Such ECU applications can include restraint controls, engine controls, stability controls, braking controls, etc. This amendment defines a protocol to protect against misuse of electronic tools which use the DLC to erase, modify or tamper with electronic controller or odometer readings, or to improperly download data. Implementation of MVEDRCLA provides an opportunity to voluntarily achieve DLC security by standardizing a MVEDRCLA which will act to prevent vehicle tampering, which can include odometer fraud, illegal calibrations leading to emissions violations and theft of personal data. Adoption of this standard will therefore make the common MVEDR/DLC data more secure and credible while still permitting accessibility to legitimate end users. Designation: PC37.09b Title: Standard Test Procedure for AC High-Voltage Circuit Breakers Rated on a Symmetrical Current Basis Amendment 2: To Change the Description of Transient Recovery Voltage for Harmonization with IEC 62271-100 Status: Revision of Amendment Project Scope: PC37.09b amends C37.09, the test procedure, to be consistent with amendment PC37.04b, of the rating structure C37.04, in which the voltage / time envelopes that describes the Transient Recovery Voltage (TRV) is being changed to match the descriptions used in IEC 62271-100, the international standard that is applicable to the same type of equipment. Project Purpose: This revision harmonizes the IEEE requirements for transient recovery voltage during power tests with those in IEC 62271-100. This is a continuation of an effort to harmonize requirements in the IEEE standards with those of IEC that first began in the 1950s. Broadly speaking, the functional requirements to be demonstrated in power testing are changed only slightly, whereas the manner in which the requirements are represented graphically is simplified considerably. Designation: PC57.12.10 Title: Standard Requirements for Liquid-Immersed Power Transformers Status: Modified New Project Project Scope: This voluntary consensus standard sets forth the requirements for power transformer application. This standard is intended for use as a basis for performance, interchangeability, and safety of equipment covered, and to assist in the proper selection of such equipment. This is a product standard which covers certain electrical, dimensional, and mechanical characteristics of 50 and 60 Hz, liquid-immersed power and auto- transformers. Such power transformers may be remotely or integrally associated with either primary switchgear or substations, or both, for step- down or step-up purposes base rated as follows: 833 KVA and above single- phase, 750 KVA and above three-Phase. This standard applies to all liquid-immersed power and auto transformers that do not belong to the following types of apparatus: a) Instrument Transformers b) Step voltage and induction voltage regulators c) Arc-Furnace Transformers d) Rectifier Transformers e) Specialty Transformers f) Grounding Transformers g) Mobile Transformers h) Mine Transformers Project Purpose: The purpose of this project is to update C57.12.10 and to remove any reference to distribution transformers which will be covered in a new stand alone standard, C57.12.36. Purpose clause will not be present in the draft standard. Designation: P1784 Title: Large Scale Manufacturing of Nanotechnologies Status: Modified New Project Project Scope: The scope of this standard is to assist in enabling the quick, low-risk adoption of nanomaterials into large-scale electronics manufacturing. In addition a best set of common practices will be delineated for use in semiconductor fabs. Project Purpose: [Since this document is being developed jointly with IEC, there will be no purpose clause (in accordance with IEC style).] Designation: P1511.1 Title: Guide for Investigating and Analyzing Shielded Power Cable Failures on Systems Rated 5 kV Through 46 kV Status: Modified New Project Project Scope: This guide covers specific methods of failure mode classifications and analysis for shielded power cables rated 5 kV through 46 kV. Project Purpose: The purpose of this guide is to provide an introduction to the concepts of failure analysis, how it can be used, and the value that can be obtained. The guide covers some of the commonly used methods employed in failure analysis and how these methods can be applied in determining the cause of failure for the components used in the construction of an underground power cable system. Ultimately, the guide will serve as a source for documenting known failure mechanisms and will provide a format for the documentation of new failure mechanism once they have been identified. Designation: P1785 Title: Standard for Rectangular Metallic Waveguides and Their Interfaces for Frequencies of 110 GHz and Above. Status: Modified New Project Project Scope: This standard provides the relevant specifications for hollow metallic rectangular waveguide operating at frequencies of 110 GHz and above. The standard is in two parts: 1) specifications for the waveguide (including aperture dimensions, frequency range, cut-off frequency, etc); 2) specifications for the waveguide interfaces, e.g. flanges (including engineering drawings, etc). This standard considers the tolerances of the waveguide aperture dimensions and the flanges, and the effect these have on the electrical properties (in terms of return loss, transmission loss, etc) of the waveguide. Project Purpose: The purpose of this standard is to provide the agreed reference for all organizations using rectangular waveguides at these frequencies. This will enable efficient trade between customers and suppliers, and common design criteria and practices for component, systems and design engineers. Designation: P802.22 Title: Standard for Information Technology -Telecommunications and information exchange between systems - Wireless Regional Area Networks (WRAN) - Specific requirements - Part 22: Cognitive Wireless RAN Medium Access Control (MAC) and Physical Layer (PHY) specifications: Policies and procedures for operation in the TV Bands Status: Modified New Project Project Scope: This standard specifies the air interface, including the cognitive medium access control layer (MAC) and physical layer (PHY), of point-to-multipoint wireless regional area networks comprised of a professional fixed base station with fixed and portable user terminals operating in the VHF/UHF TV broadcast bands between 54 MHz and 862 MHz. Project Purpose: This standard is intended to enable deployment of interoperable 802 multivendor wireless regional area network products, to facilitate competition in broadband access by providing alternatives to wireline broadband access and extending the deployability of such systems into diverse geographic areas, including sparsely populated rural areas, while preventing harmful interference to incumbent licensed services in the TV broadcast bands. Designation: P1683 Title: Guide for Specifying Motor Control Centers Rated Up To 600 V AC or 1000 V DC With Features Intended to Reduce Electrial Hazards While Performing Defined Operations Status: Modified New Project Project Scope: This Guide provides supplemental approaches for specifying Motor Control Centers. It applies to single and three phase 50 and 60 Hz ac and dc Motor Control Centers rated up to and including 600 V ac or 1000 V dc. Project Purpose: The recommendations in this guide are intended to provide personnel with an additional degree of protection while performing normal duties in close proximity to properly designed, installed and maintained energized equipment. The supplemental approaches in this Guide are intended to augment the existing requirements of applicable standards for Motor Control Centers, e.g. NEMA ICS 18 Motor Control Centers and ANSI/UL 845 Motor Control Centers, also known as NMX-J-353-ANCE and CSA C22.2 No. 254-05 (Base MCC Standards) This Guide complements safety requirements and procedures as stipulated by workplace electrical safety standards and site practices and procedures. Designation: P1733 Title: Standard for Layer 3 Transport Protocol for Time Sensitive Applications in Local Area Networks Status: Modified New Project Project Scope: This standard specifies the protocol, data encapsulations, connection management and presentation time procedures used to ensure interoperability between audio and video based end stations that use standard networking services provided by all IEEE 802 networks meeting Quality of Service requirements for time-sensitive applications by leveraging the Real-time Transport Protocol (RTP) family of protocols and family of IEEE 802.1 Audio/Video Bridging (AVB) protocols. Project Purpose: This standard will facilitate interoperability between stations that stream time-sensitive audio and/or video across bridged and routed LANs providing time synchronization and latency/bandwidth services by defining the packet format and stream setup, control, synchronization and teardown protocols by leveraging Real-time Transport Protocol (RTP) family of protocols and IEEE 802.1 AVB protocols. Designation: P1901 Title: IEEE Unapproved Draft Standard for Broadband over Power Line Networks: Medium Access Control and Physical Layer Specifications Status: Modified New Project Project Scope: The project defines a standard for high speed (>100 Mbps at the physical layer) communication devices via electric power lines, so called Broadband over Power Line (BPL) devices. The standard uses transmission frequencies below 100 MHz. This standard is usable by all classes of BPL devices, including BPL devices used for the first-mile/last- mile connection (<1500m to the premise) to broadband services as well as BPL devices used in buildings for LANs, Smart Energy applications, transportation platforms (vehicle) applications, and other data distribution (<100m between devices). This standard focuses on the balanced and efficient use of the power line communications channel by all classes of BPL devices, defining detailed mechanisms for coexistence and interoperability between different BPL devices, and ensuring that desired bandwidth and quality of service may be delivered. The standard addresses the necessary security questions to ensure the privacy of communications between users and allow the use of BPL for security sensitive services. This standard is limited to the physical layer and the medium access sub-layer of the data link layer, as defined by the International Organization for Standardization (ISO) Open Systems Interconnection (OSI) Basic Reference Model. Project Purpose: New modulation techniques offer the possibility to use the power lines for high speed communications. This new high speed media is open, and locally shared by several BPL devices. Without an independent, openly defined standard, BPL devices serving different applications will conflict with one another and provide unacceptable service to all parties. The standard will provide a minimum implementation subset which allows the fair coexistence of the BPL devices. The full implementation will provide the interoperability among the BPL devices, as well as interoperability with other networking protocols, such as bridging for seamless interconnection via 802.1. It is also the intent of this effort to quickly progress towards a robust standard so powerline applications may begin to impact the marketplace. The standard will also comply with EMC limits set by national regulators, so as to ensure successful coexistence with wireless and telecommunications systems. Abstract: Defined is a standard for high speed communication devices via electric power lines, so called Broadband over Power Line (BPL) devices. The standard uses transmission frequencies below 100 MHz. This standard is usable by all classes of BPL devices, including BPL devices used for the first-mile/last-mile connection to broadband services as well as BPL devices used in buildings for LANs, Smart Energy applications, transportation platforms (vehicle) applications, and other data distribution. This standard focuses on the balanced and efficient use of the power line communications channel by all classes of BPL devices, defining detailed mechanisms for coexistence and interoperability between different BPL devices, and ensuring that desired bandwidth and quality of service may be delivered. The standard addresses the necessary security questions to ensure the privacy of ommunications between users and allow the use of BPL for security sensitive services. Key Words: BPL, MAC, PHY, PLC Designation: PC37.47 Title: Standard Specifications For High Voltage (> 1000 V) Current-Limiting Type Distribution Class Fuses and Fuse Disconnecting Switches Status: Modified New Project Project Scope: This standard establishes specifications for high voltage (above 1000 volts) distribution class current limiting type fuses and associated accessories. All of these devices are intended for use on alternating current systems. These specifications apply to the following specific types of equipment: a) Distribution class current-limiting type fuses and fuse units b) Distribution class current-limiting fuse disconnecting switches c) Items (a) and (b) used in fuse enclosure packages d) Fuse supports, fuse units, refill units and fuse mountings of the type intended for use with distribution class current limiting type fuses, and fuse disconnecting switches. e) Disconnecting devices created by the use of a removable switch blade in a distribution class current limiting type fuse support. Project Purpose: Standard specifications for the devices covered by this document are necessary to assure consistent development and application of these devices by manufacturers and users of these devices. Designation: P730 Title: Standard for Software Quality Assurance Status: Modified Revision Project Project Scope: This standard establishes the requirements for planning and executing Software Quality Assurance activities in support of a software project. It is directed toward the development and maintenance of software. The focus is toward the systematic process activities on a particular project that would provide adequate confidence that the software product conforms to established technical requirements. The standard also provides a means of satisfying the requirements of an organization's Quality Manual for a software project. It has been harmonized with the requirements of the Quality Assurance process of IEEE 12207:2008 and the documentation content requirements of ISO/IEC 15289:2006. Project Purpose: The purpose of this standard is to provide uniform, minimum acceptable requirements for Software Quality Assurance activities in support of a software project. In considering adoption of this standard, regulatory bodies should be aware that specific application of this standard may already be covered by one or more IEEE or ANSI standards documents relating to quality assurance, definitions, or other matters. It is not the purpose of this document to supersede, revise, or amend existing standards directed to specific industries or applications. Designation: P15289 Title: Standard for Systems and Software Engineering - Content of Life Cycle Information Products (Documentation) Status: Modified Revision Project Project Scope: This International Standard specifies the purpose and content of all identified Systems and Software Life Cycle information items. The information item contents are defined according to generic document types and the specific purpose of the document. The generic document types (which may be referred to as information item types) are to be used to identify the information necessary to support the ISO/IEC 15288:2008 agreement, enterprise, project, and technical processes; the ISO/IEC 12207:2008, primary, supporting, and organizational life cycle processes, or the ISO/IEC 20000-1:2005 Service Management processes. Project Purpose: The purpose of this International Standard is to guide users of ISO/IEC 12207:2008, ISO/IEC 15288:2008, and ISO/IEC 20000-1 and -1:2005 in identifying and planning the specific information items to be produced during systems and software life cycles. Designation: PC62.82.1 Title: Standard for Insulation Coordination - Definitions, Principles, and Rules Status: Modified Revision Project Project Scope: This insulation coordination standard applies to three-phase ac systems above 1 kV. This standard, IEEE Std C62.82.1 specifies the procedure for selection of withstand voltages [basic lightning impulse insulation level (BIL) and basic switching impulse insulation level (BSL)] for equipment phase-to-ground and phase-to-phase insulation systems. It also identifies a list of standard insulation levels, based on the voltage stress to which the equipment is being exposed. Although the principles of this standard also apply to transmission line insulation systems, the insulation levels may be different from those identified as standard insulation levels. Project Purpose: The purpose of this standard is to a) define applicable terms b) outline insulation coordination procedures c) identify standard insulation levels Designation: P1410 Title: Guide for Improving the Lightning Performance of Electric Power Overhead Distribution Lines Status: Modified Revision Project Project Scope: This guide will identify factors that contribute to lightning- caused faults on overhead distribution lines and suggest improvements to existing and new constructions. This guide is limited to the protection of distribution-line insulation for system voltages 69 kV and below. Equipment protection considerations are covered in IEEE Std C62.22. Project Purpose: The purpose of this guide is to present alternatives for reducing lightning-caused flashovers on overhead distribution lines. Designation: P269 Title: Standard Methods for Measuring Transmission Performance of Analog and Digital Telephone Sets, Handsets, and Headsets Status: Modified Revision Project Project Scope: This standard provides the techniques for objective measurement of electroacoustic characteristics of analog and digital telephones, handsets and headsets. Application is in the frequency range from 100 to 8,500 Hz. Although not specifically within the scope of this standard, the methods described are generally applicable to a wide variety of other communications equipment, including cordless, wireless and mobile communications devices. Digital devices that have audio characteristics of a digital telephone can be tested as a digital telephone, even if they do not have a dialpad or other similar telephone functions. USB headsets are one example of devices in this class. Telephones with speakerphone features are covered by IEEE Standard 1329, Method for Measuring Transmission Performance of Handsfree Telephone Sets. Due to the various characteristics of these devices and the environments in which they operate, not all of the test procedures in this standard are applicable to all types of telephones, handsets or headsets. Application of the test procedures to atypical telephones should be determined on an individual basis. Project Purpose: The purpose of this standard is to provide practical methods for making laboratory measurements of the transmission characteristics of analog and digital telephones, handsets and headsets so that their performance may be evaluated on a standardized basis. Designation: P515 Title: Standard for the Testing, Design, Installation, and Maintenance of Electrical Resistance Heat Tracing for Industrial Applications Status: Modified Revision Project Project Scope: This standard provides requirements for the testing, design, installation, and maintenance of electrical resistance trace heating in general industries as applied to pipelines, vessels, pre-traced and thermally insulated instrument tubing and piping, and mechanical equipment. The electrical resistance trace heating is in the form of series trace heaters, parallel trace heaters, and surface heating devices. In this standard the terms hazardous (classified) locations and potentially flammable atmospheres refer to the same conditions. The requirements also include test criteria to determine the suitability of these heating devices utilized in industrial applications as applied in unclassified (ordinary) and hazardous (classified) locations. Project Purpose: The provisions of this standard should ensure that process, fluid, or material temperatures are maintained and provide electrical, thermal, and mechanical durability to the trace heating system, such that in normal use its performance is reliable and poses no danger to the user or surroundings. This standard is to serve as a complementary document to the current version of those national and international standards addressing electrical resistance heat tracing . Designation: P1241 Title: Standard for Terminology and Test Methods for Analog-to-Digital Converters Status: Modified Revision Project Project Scope: The material presented in this standard is intended to provide common terminology and test methods for the testing and evaluation of analog-to-digital converters (ADCs). This standard considers only those ADCs whose output values have discrete values at discrete times, i.e. they are quantized and sampled. In general, this quantization is assumed to be nominally uniform (the input-output transfer curve is approximately a straight line) as discussed further in Subclause 1.3, Analog-to-digital converter background, and the sampling is assumed to be at a nominally uniform rate. Some but not all of the test methods in this standard can be used for ADCs that are designed for non-uniform quantization. Project Purpose: This standard identifies ADC error sources and provides test methods with which to perform the required error measurements. The information in this standard is useful both to manufacturers and to users of ADCs in that it provides a basis for evaluating and comparing existing devices, as well as providing a template for writing specifications for the procurement of new ones. In some applications, the information provided by the tests described in this standard can be used to correct ADC errors, e.g., correction for gain and offset errors. The reader should note that this standard has many similarities to IEEE Std 1057. Many of the tests and terms are nearly the same, since ADCs are a necessary part of digitizing waveform recorders. Designation: P1584 Title: Guide for Performing Arc-Flash Hazard Calculations Status: Modified Revision Project Project Scope: This guide provides models and an analysis process for calculating the incident energy to which employees could be exposed during their work on or near electrical equipment. The models enable determination of the predicted maximum incident thermal energy and the arc-flash boundary. The process covers the collection of field data, selection of power system operating scenarios, data entry, calculation parameters, and analysis of results. Applications include enclosed electrical equipment and cables for three-phase ac voltages from 208 V to 15 kV and dc systems from 48 V to 800 V. Calculations for single-phase systems and recommendations for personal protective equipment (PPE) to mitigate possible arc-flash hazards are not included in this guide. This edition includes updates based on experience performing arc-flash hazard calculation studies. It does not include changes to the models. Project Purpose: The purpose of the guide is to enable qualified electrical engineers to analyze power systems and quantify the incident energy to which employees could be exposed during operation and maintenance work. Contractors and facility owners need this information to provide appropriate protection for employees in accordance with the requirements of NFPA 70E, Standard for Electrical Safety in the Workplace. Designation: P24765 Title: Standard for Systems and software engineering--Vocabulary Status: Modified Revision Project Project Scope: Consistent with ISO vocabulary standards, each technical committee is responsible for standard terminology in its area of specialization. This International Standard provides a common vocabulary applicable to all systems and software engineering work falling within the scope of ISO JTC 1/SC 7. The scope of each concept defined has been chosen to provide a definition that is suitable for general application. In those circumstances where a restricted application is concerned, the definition may need to be more specific. Terms have been excluded if they were • considered to be parochial to one group or organization; • company proprietary or trademarked; • multi-word terms whose meaning could be inferred from the definitions of the component words; • terms whose meaning in the Information Technology (IT) field could be directly inferred from their common English meaning. Project Purpose: document will not contain a purpose statement Designation: PC57.32 Title: Standard Requirements, Terminology and Test Procedures for Neutral Grounding Devices Status: Modified Revision Project Project Scope: This standard applies to devices used for the purpose of controlling the ground current or the potentials to ground of an alternating current system. These devices are: grounding transformers, ground-fault neutralizers, resistors, reactors, or combinations of these. Project Purpose: Present requirements, such as those for transformers and resistors used for grounding, may be out of date with existing standards for these apparatus. Users are those who manufacture and apply such devices. Benefit: To provide information and data as outlined in the title. Designation: PC57.131 Title: Standard Requirements for Tap Changers Status: Modified Revision Project Project Scope: This standard covers electrical and mechanical performance and test requirements for load tap changers and deenergized tap changers, installed in power transformers and voltage regulating transformers and immersed in transformer mineral oil, but may also be used for other insulating fluids insofar as conditions are applicable. Project Purpose: document will not include a purpose statement Designation: P1809 Title: Guide for Electric-Sourced Transportation Infrastructure Status: New Standard Project Project Scope: This document provides guidelines that can be used by utilities, manufacturers, transportation providers, infrastructure developers and end users of electric-sourced vehicles and related support infrastructure in addressing applications for road-based personal and mass transportation. This guide provides a knowledge base addressing terminology, methods, equipment, and planning requirements for such transportation and its impacts on commercial and industrial systems including, for example, generation, transmission, and distribution systems of electrical power. This guide provides a roadmap for users to plan for short, medium, and long-term systems. Project Purpose: This guideline provides methods that can be utilized by utilities, manufacturers, transportation providers, infrastructure developers and end users of electric-sourced vehicles and related infrastructure to develop and support systems that allow increased utilization of electric sourced transportation. The transition to alternative-fuel vehicles, including those that use electricity, is inevitable. Servicing of the limited number of electric vehicles operating today can be absorbed by current generation and distribution capacity. The existence of a few hundred thousand of these vehicles, however, is just the first step in a long-term trend. Preparing for rapid growth in electric vehicle use is necessary since new and upgraded supporting infrastructure, whether charging stations, generating capacity or enhanced transmission systems, requires time for deployment. To reduce the amount of new generation required and better utilize the existing generation, energy efficiency methods for electric sourced transportation based on an end-to- end systems approach are outlined in this document. Standards that exist and research that is being performed are pointed out in this document. Where new standards are needed, they are pointed out in this document. This document supports utilities in planning for the most economic method of production to support increasing transportation loads. This document allows manufacturers to understand the standardization requirements and bring products to fruition as the supporting systems and methods are developed and standardized. This document allows end users to understand technologies that can be implemented for their transportation energy needs. A phased implementation is suggested in this document and is based on economic considerations for technologies available today and technologies being developed. While regional political and regulatory issues may alter these methods, this document does not consider the wide range of regional differences available. It is incumbent on the user of the guide to understand the financial differences that these factors may have on their specific planning requirements. This document does not consider non-road forms of transportation. Designation: P11073-10418 Title: Standard for Health informatics - Personal health device communication - Device specialization - International normalized ratio (INR) monitor Status: New Standard Project Technical Contact: Douglas Bogia, Phone:503-456-5031, Email:douglas.p.bogia@intel.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: The scope of this standard is to establish a normative definition of communication between personal telehealth International Normalized Ratio (INR) devices (agents) and managers (e.g. cell phones, personal computers, personal health appliances, set top boxes) in a manner that enables plug-and-play interoperability. It leverages work done in other ISO/IEEE 11073 standards including existing terminology, information profiles, application profile standards, and transport standards. It specifies the use of specific term codes, formats, and behaviors in telehealth environments restricting optionality in base frameworks in favor of interoperability. This standard defines a common core of functionality of personal physical activity monitors. In the context of personal health devices, INR monitoring refers to the measurement of the Prothrombin Time (PT) that is used to assess the level of anti-coagulant therapy and its presentation as the International Normalized Ratio compared to the Prothrombin Time of normal blood plasma. Applications of the INR monitor include the management of the therapeutic level of anti-coagulant used in the treatment of a variety of conditions. This standard provides the data modeling and its transport shim layer according to the ISO/IEEE11073-20601 standard, and does not specify the measurement method. Project Purpose: This standard addresses a need for an openly defined, independent standard for controlling information exchange to and from personal health devices (agents) and managers (e.g. cell phones, personal computers, personal health appliances, set top boxes). Interoperability is key to growing the potential market for these devices and enabling people to be better informed participants in the management of their health. Designation: P11073-10421 Title: Standard for Health informatics - Personal health device communication - Device specialization - Peak expiratory flow monitor (peak flow) Status: New Standard Project Technical Contact: Douglas Bogia, Phone:503-456-5031, Email:douglas.p.bogia@intel.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: The scope of this standard is to establish a normative definition of communication between personal telehealth peak flow monitoring devices (agents) and managers (e.g. cell phones, personal computers, personal health appliances, set top boxes) in a manner that enables plug- and-play interoperability. It leverages work done in other ISO/IEEE 11073 standards including existing terminology, information profiles, application profile standards, and transport standards. It specifies the use of specific term codes, formats, and behaviors in telehealth environments restricting optionality in base frameworks in favor of interoperability. This standard defines a common core of functionality of a peak flow monitoring device. The use case is restricted to personal respiratory monitoring and therefore does not include hospital based spirometry. Continuous and high acuity monitoring (e.g. for emergency response) are outside the scope of the use case. In the context of personal health devices, a peak flow meter is a device is used to measure the respiratory function of those managing respiratory conditions such as asthma and COPD. The ability to identify declining respiratory status prior to the need for acute intervention, improves the quality of life for the individual while reducing the overall costs of care. Respiratory status data is collected by a personal respiratory monitoring device and forwarded to a central data repository for review and action by a health care provider. The data is episodic in nature, and forwarded at designated intervals or when the person is symptomatic. This standard provides the data modeling and its transport shim layer according to the ISO/IEEE11073-20601 standard, and does not specify the measurement method. Project Purpose: This standard addresses a need for an openly defined, independent standard for controlling information exchange to and from personal health devices (agents) and managers (e.g. cell phones, personal computers, personal health appliances, set top boxes). Interoperability is key to growing the potential market for these devices and enabling people to be better informed participants in the management of their health. Designation: P11073-10419 Title: Standard for Health informatics - Personal health device communication - Device specialization - Insulin pump Status: New Standard Project Technical Contact: Douglas Bogia, Phone:503-456-5031, Email:douglas.p.bogia@intel.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: The scope of this standard is to establish a normative definition of communication between personal telehealth insulin pump devices (agents) and managers (e.g. cell phones, personal computers, personal health appliances, set top boxes) in a manner that enables plug-and-play interoperability. It leverages work done in other ISO/IEEE 11073 standards including existing terminology, information profiles, application profile standards, and transport standards. It specifies the use of specific term codes, formats, and behaviors in telehealth environments restricting optionality in base frameworks in favor of interoperability. This standard defines a common core of functionality of personal telehealth insulin pump devices. In the context of personal health devices, an insulin pump is a medical device used for the administration of insulin in the treatment of diabetes mellitus, also known as continuous subcutaneous insulin infusion (CSII) therapy. This standard provides the data modeling and its transport shim layer according to the ISO/IEEE11073-20601 standard, and does not specify the measurement method. Project Purpose: This standard addresses a need for an openly defined, independent standard for controlling information exchange to and from personal health devices (agents) and managers (e.g. cell phones, personal computers, personal health appliances, set top boxes). Interoperability is key to growing the potential market for these devices and enabling people to be better informed participants in the management of their health. Designation: P802.3.1 Title: Standard for Management Information Base (MIB) definitions for Ethernet Status: New Standard Project Technical Contact: David J Law, Phone:+44-131-665-7264, Email:david_law@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This standard contains the Management Information Base (MIB) module specifications for IEEE Std 802.3, also known as Ethernet. It includes the Structure of Management Information Version 2 (SMIv2) MIB module specifications formerly produced and published by the Internet Engineering Task Force (IETF), and the Guidelines for the Definition of Managed Objects (GDMO) MIB modules formerly specified within IEEE Std 802.3, as well as extensions resulting from recent amendments to IEEE Std 802.3. The SMIv2 MIB modules are intended for use with the Simple Network Management Protocol (SNMP), commonly used to manage Ethernet. Project Purpose: The purpose of the standard is to publish the SMIv2 and GDMO MIB module specifications in a single document that is separate from IEEE Std 802.3, and that can be published in a machine-readable format. Future amendments and revisions to IEEE Std 802.3.1 will be performed to update the MIB specifications as required to track future amendments and revisions to IEEE Std 802.3. Designation: P1653.5 Title: Recommended Practice for Controlled Rectifiers for Traction Power Substation Applications Status: New Standard Project Project Scope: This recommended practice covers design, manufacturing, and testing of controlled semiconductor power rectifiers for dc traction power systems. Project Purpose: This recommended practice provides common terminology and standard design, manufacturing, and testing criteria specific to controlled rectifiers supplying power to traction power systems for use by manufacturers, specifiers, and users. Design architectures, calculation methods and limits, and test methods and acceptance criteria for controlled rectifiers will be defined to allow for objective evaluation and acceptance of controlled rectifiers from different vendors. Designation: P45.7 Title: Recommended Practice for Electrical Installations on Shipboard - Switchboards Status: New Standard Project Project Scope: Design, installation and testing recommendations for generator control panels and switchboards on ship are established by this document. These recommendations reflect the present-day technologies, engineering methods, and engineering practices. This document is intended to be used in conjunction with IEEE 45 - Recommended Practice for Electric Installations on Shipboard. Project Purpose: The main purpose of this recommended practice is to supplement the design, installation and testing recommendations in IEEE Std 45. This recommended practice provides new technologies and design practices for generator control panels and switchboards to aid marine electrical engineers in the design, application and installation of this equipment on ships and other marine installations. Designation: P1484.13.2 Title: Recommended Practice for Learning Technology - Metadata Encoding and Transmission Standard (METS) Mapping to the Conceptual Model for Resource Aggregation Status: New Standard Project Project Scope: This Recommended Practice specifies how the elements and attributes defined in the Metadata Encoding and Transmission Standard (METS) relate to the components of the conceptual model for resource aggregation defined in IEEE Std 1484.13.1. Project Purpose: The mapping specified in this Recommended Practice may be used with the mappings of other resource aggregation formats to achieve interoperability among the formats via the conceptual model defined in IEEE Std 1484.13.1. Designation: P1484.13.3 Title: Recommended Practice for Learning Technology - ISO 21000-2:2005 Information Technology -- Multimedia Framework (MPEG-21) -- Part 2: Digital Item Declaration Mapping to the Conceptual Model for Resource Aggregation Status: New Standard Project Project Scope: This Recommended Practice specifies the how the elements and attributes defined in ISO 21000-2:2005 Multimedia Framework (MPEG-21) -- Part 2: Digital Item Declaration (MPEG21 DID) relate to the components of the conceptual model for resource aggregation defined in IEEE Std 1484.13.1. Project Purpose: The mapping specified in this Recommended Practice may be used with the mappings of other resource aggregation formats to achieve interoperability among the formats via the conceptual model defined in IEEE Std 1484.13.1. Designation: P1484.13.4 Title: Recommended Practice for Learning Technology - IMS Content Packaging Information Model (CP) Version 1.2 - Mapping to the Conceptual Model for Resource Aggregation Status: New Standard Project Project Scope: This Recommended Practice specifies how the elements and attributes defined in the IMS Content Packaging Information Model (CP) Version 1.2 relate to the components of the conceptual model for resource aggregation defined in IEEE Std 1484.13.1. Project Purpose: The mapping specified in this Recommended Practice may be used with the mappings of other resource aggregation formats to achieve interoperability among the formats via the conceptual model defined in IEEE Std 1484.13.1. Designation: P1484.13.5 Title: Recommended Practice for Learning Technology - IETF RFC 4287 - Atom Syndication Format - Mapping to the Conceptual Model for Resource Aggregation Status: New Standard Project Project Scope: This Recommended Practice specifies how the elements and attributes defined in Atom Syndication Format (Atom) relate to the components of the conceptual model for resource aggregation defined in IEEE Std 1484.13.1. Project Purpose: The mapping specified in this Recommended Practice may be used with the mappings of other resource aggregation formats to achieve interoperability among the formats via the conceptual model defined in IEEE Std 1484.13.1. Designation: P1484.13.6 Title: Recommended Practice for Learning Technology - Open Archives Initiative Object Reuse and Exchange Abstract Model (OAI-ORE) - Mapping to the Conceptual Model for Resource Aggregation Status: New Standard Project Project Scope: 5.2 Scope of Proposed Standard: This Recommended Practice specifies how the elements and attributes defined in the Open Archives Initiative Object Reuse and Exchange (OAI-ORE) Abstract Model and expressed in the OAI-ORE Resource Map Implementation in RDF/XML relate to the components of the conceptual model for resource aggregation defined in IEEE Std 1484.13.1. Project Purpose: The mapping specified in this Recommended Practice may be used with the mappings of other resource aggregation formats to achieve interoperability among the formats via the conceptual model defined in IEEE Std 1484.13.1. Designation: P1668 Title: Recommended Practice for Voltage Sag and Interruption Ride-Through Testing for End Use Electrical Equipment Less than 1,000 Volts Status: New Standard Project Project Scope: This document is a non-industry specific recommended practice for voltage sag ride-through performance and compliance testing for all electrical and electronic equipment connected to low voltage power systems that can experience malfunction or shutdown as a result of reductions in supply voltage lasting less than one minute. The recommended practice includes defining minimum voltage sag immunity requirements based on actual voltage sag data. A section dedicated to the detailed analysis of voltage sags experienced by end users provides insight into real-world voltage sags. Testing procedures and test equipment requirements are clearly defined within this document to reflect this electrical environment including single-phase, phase-to-phase, three-phase, and unbalanced voltage sags. The recommended practice also defines certification and test reporting requirements, including voltage sag ride-through equipment characterization. Project Purpose: The purpose of this recommended practice is to clearly define test methods and ride-through performance for determining electrical and electronics equipment sensitivity to voltage sags. Analysis of real world sags provides the foundation for both the test methods and the criteria, aligning themselves as closely as possible to the end user’s electrical environment. The recommended practice will define the characteristics of the voltage sags depths, durations, phase angle, and vectors required to relate to real world based voltage sag events. The recommended practice will show how different voltage sag testing methods can be used to simulate real world sags. End users will be able to use the recommended practice in their purchase specifications to ensure the required level of performance. In addition, end users can use the voltage sag criteria as a performance benchmark for existing equipment. Designation: P1680.2 Title: Standard for Environmental Assessment of Imaging Equipment Status: New Standard Project Project Scope: This Standard defines environmental performance standards for imaging equipment (as defined by the U.S. ENERGY STAR Imaging Equipment Specification) including copiers, digital duplicators, facsimile machines, multifunction devices, printers, mailing machines and scanners, relating to reduction or elimination of environmentally sensitive materials, materials selection, design for end of life, lifecycle extension, energy conservation, end of life management, corporate performance, and packaging. Project Purpose: 5.4 Purpose: This Standard for imaging equipment is part of the EPEAT family of standards that provides a clear and consistent set of performance criteria for the design of electronic products, and provides an opportunity to secure market recognition for efforts to reduce the environmental impact of electronic products. This Imaging Equipment Standard is intended to provide a tool for government, institutional, corporate and consumer purchasers. Product manufacturers may use this tool to earn recognition in these markets, recognizing that certain criteria may not be applicable to all types of purchasers. The environmental performance criteria of this Standard are intended to define a measure of environmental leadership in: the design and manufacture of imaging equipment; the delivery of specified services that are associated with the sale of the product; and in associated corporate performance characteristics. This Standard is defined with the intention that the criteria are technically feasible to achieve, but that only products demonstrating the leading environmental performance currently available in the marketplace would meet them at the time of their adoption. As the environmental performance of products that are available in the marketplace improves, it is intended that the criteria will be updated and revised to set a higher performance standard for leadership products. Designation: P1680.3 Title: Standard for Environmental Assessment of Televisions Status: New Standard Project Project Scope: This Standard defines environmental performance for televisions, television combination units, and component television units, relating to reduction or elimination of environmentally sensitive materials, materials selection, design for end of life, lifecycle extension, energy conservation, end of life management, corporate performance, and packaging. This Standard applies to products that are primarily marketed as televisions, and does NOT cover computer displays as defined by IEEE 1680.1. Project Purpose: This Standard for televisions is part of the EPEAT family of standards that provides a clear and consistent set of performance criteria for the design of electronic products, and provides an opportunity to secure market recognition for efforts to reduce the environmental impact of electronic products. This Television Standard is intended to provide a tool for government, institutional, corporate, and consumer purchasers. Product manufacturers may use this tool to earn recognition in these markets, recognizing that certain criteria may not be applicable to all types of purchasers. The environmental performance criteria of this Standard are intended to define a measure of environmental leadership in: the design and manufacture of televisions; the delivery of specified services that are associated with the sale of the product; and in associated corporate performance characteristics. This Standard is defined with the intention that the criteria are technically feasible to achieve, but that only products demonstrating the leading environmental performance currently available in the marketplace would meet them at the time of their adoption. As the environmental performance of products that are available in the marketplace improves, it is intended that the criteria will be updated and revised to set a higher performance standard for leadership products. Designation: P1722.1 Title: Standard for Standard Device Discovery, Connection Management and Control Protocol for IEEE 1722 Based Devices Status: New Standard Project Project Scope: This standard specifies the protocol, device discovery, connection management and device control procedures used to ensure interoperability between audio and video based end stations that use IEEE 1722 based stream on IEEE 802 based networks. Project Purpose: To facilitate interoperability between stations that stream time-sensitive audio and/or video across LANs providing time synchronization and latency/bandwidth services, this standard defines the device discovery, connection management, stream setup, control, and teardown protocols. Designation: P1808 Title: Guide for Collecting and Managing Transmission Line Inspection and Maintenance Data Status: New Standard Project Project Scope: This guide provides reference information to assist electric utilities and their contractors with the development of computer-based means for collecting and managing transmission line inspection and maintenance data and associated asset information including transmission line inventory data. It provides a high level overview of key principles and considerations learned through experience that will help ensure common pitfalls are avoided and enhance the usability of systems. It is not intended to provide an exhaustive discussion of the many details and specifics that must be accounted for when designing and developing a system for an individual utility’s application and needs. Project Purpose: The purpose of the guide is to provide easy to use reference information that will serve as a framework and roadmap for designing efficient and effective systems that will facilitate and/or enhance: • Data Collection • Field and office usability, • Data integrity, • Compatibility with geographic information systems and enterprise solutions, • Data exchange with other systems and users, • System expansion and modification, • Transferability of data (from one system to another, i.e., due to system upgrade or implementation of a new system), • Data analysis, • Reporting, • Security, and • Flexibility to adapt to system and regulatory changes. Designation: P26512 Title: Standard for Software and Systems Engineering -- Requirements for Acquirers and Suppliers of User Documentation Status: New Standard Project Project Scope: It describes the acquisition and supply processes as applicable to user documentation, including how to establish what information users need, how to determine the way in which that information should be presented to the users, and how to specify the required information and its delivery. It is not limited to the initial selection activities in the acquisition/supply processes, but includes activities throughout the information management and documentation processes. It applies to printed user manuals, online help, tutorials, and user reference documentation. This International Standard is intended for use in all types of organizations where a dedicated documentation department is not present or present resources are insufficient to meet client demands, and may be used as a basis for local standards and procedures. Project Purpose: Document will not contain a purpose statement as it is being developed in ISO format for joint adoption. The following information appears in the Introduction: This International Standard was developed to assist users of ISO/IEC/IEEE 15288:2008, Systems engineering – System life cycle processes, or ISO/IEC/IEEE 12207:2008, Information technology – Software life cycle processes, to acquire or supply software user documentation as part of the software life cycle processes. It defines the documentation process from the acquirer’s standpoint and the supplier’s standpoint. Designation: P26513 Title: Standard for Systems and Software Engineering - Requirements for Testers and Reviewers of User Documentation Status: New Standard Project Project Scope: This International Standard defines the process in which user documentation products are tested. It is not limited to the test and review phase of the life cycle, but includes activities throughout the Information Management and Documentation Management processes. This International Standard is intended for use in all types of organizations, whether or not a dedicated documentation department is present. It applies to printed user manuals, online help, tutorials, and user reference documentation. This International Standard deals with the evaluation of documentation only, and not with the evaluation of the software it supports. Project Purpose: This International Standard provides the minimum requirements for the testing and reviewing of user documentation, including both printed and on-screen documents used in the work environment by the users of systems software. This International Standard defines the Documentation Management and Validation processes of ISO/IEC/IEEE 12207:2008 from the tester's standpoint. Designation: P26514 Title: Standard for Systems and Software Engineering - Requirements for Designers and Developers of User Documentation Status: New Standard Project Project Scope: This International Standard supports the interest of software users in consistent, complete, accurate, and usable documentation. The first part of this International Standard covers the user documentation process for designers and developers of documentation. It describes how to establish what information users need, how to determine the way in which that information should be presented to the users, and how to prepare the information and make it available. It is not limited to the design and development phase of the life cycle, but includes activities throughout the information management and documentation processes. The second part of this International Standard provides minimum requirements for the structure, information content, and format of user documentation, including both printed and on-screen documents used in the work environment by users of systems containing software. It applies to printed user manuals, online help, tutorials, and user reference documentation. Project Purpose: This International Standard was developed to assist users of IEEE/ISO/IEC 15288:2008, Systems and software engineering — System life cycle processes, or IEEE/ISO/IEC 12207:2008, Systems and software engineering — Software life cycle processes, to design and develop documentation as part of the software life cycle processes. It defines the documentation process from the documentation developer's standpoint. In addition to defining a standard process, this International Standard also covers the documentation product. This International Standard specifies the structure, content, and format for documentation, and also provides informative guidance for user documentation style. Designation: P60092-510 Title: Electrical Installations in Ships - Part 510: High Voltage Shore Connection Systems (HVSC) Status: New Standard Project Project Scope: This standard describes high-voltage shore connection (HVSC) systems, on board the ship and on shore, to supply the ship with electrical power from shore during the port lay period. This standard is applicable to the design, installation and testing of HVSC systems and plants and addresses: - high-voltage shore distribution system, - shore-to-ship connection, - transformers/reactors, - semiconductor / rotating convertors, - ship distribution system, and - control, monitoring, interlocking and power management system. This standard does not apply to the electrical power supply during docking periods e.g. dry docking and other out of service maintenance and repair. Project Purpose: IEC standards do not contain a purpose clause. Designation: PC95.1-2345 Title: Standard for the Evaluation and Control of Personnel Exposure to Electric, Magnetic and Electromagnetic Fields, 0 Hz to 300 GHz Status: New Standard Project Project Scope: Recommendations are made that protect personnel against established adverse health effects associated with exposure to electric, magnetic and electromagnetic fields in the frequency range of 0 Hz to 300 GHz. The recommendations are expressed in terms of basic restrictions (BRs) and reference levels. The BRs are limits on internal fields, specific absorption rate (SAR), and power density; the reference levels are derived from the BRs, and are expressed in terms of external fields and induced and contact current. The recommendations, which protect against effects associated with electrostimulation, and localized and whole-body heating, are intended to apply to all personnel. These recommendations do not apply to exposures of patients by, or under the direction of, physicians and medical professionals. These recommendations are not intended for the purpose of preventing interference with medical and other devices that may exhibit susceptibility to electric, magnetic or electromagnetic fields. Project Purpose: The purpose of this standard is to protect personnel against established adverse health effects associated with exposure to electric, magnetic and electromagnetic fields in the frequency range of 0 Hz to 300 GHz. Designation: P24748-1 Title: Guide: Adoption of ISO/IEC TR 24748-1, Systems and Software Engineering- -Guide for Life Cycle Management Status: New Standard Project Project Scope: This Technical Report is a guide for the life cycle management of systems and software based on ISO/IEC 15288 and ISO/IEC 12207. This guide: - addresses systems concepts and life cycle concepts, models, stages, processes, process application, key points of view, adaptation and use in various domains - establishes a common framework for describing life cycles, including their individual stages, for the management of projects to provide or acquire either products or services - defines the concept and terminology of a life cycle - supports the use of the life cycle processes within an organization or a project. Organizations and projects can use these life cycle concepts when acquiring and supplying either products or services - provides guidance on adapting a life cycle model and the content associated with a life cycle or a part of a life cycle - describes the relationship between life cycles and their use in ISO/IEC 15288 (systems aspects) and ISO/IEC 12207 (software aspects) - shows the relationships of life cycle concepts to the hardware, human, services, process, procedure, facility and naturally occurring entity aspects of projects - describes how its concepts relate to detailed process standards, for example, in the areas of measurement, project management and risk management - complements domain-specific application guidance in Technical Reports ISO/IEC TR 19760 (Systems engineering -- Guide for the application of ISO/IEC 15288) and ISO/IEC TR 15271 (Information technology -- Guide for ISO/IEC 12207) and their replacements (ISO/IEC TR 24748-2 and ISO/IEC 24748- 3, respectively). Project Purpose: The ISO/IEC format does not provide for a statement of purpose. Designation: P24748-2 Title: Guide: Adoption of ISO/IEC 24748-2, Systems and software engineering -- Life Cycle Management -- Part 2: Guide for the application of ISO/IEC 15288 (System Life Cycle Processes) Status: New Standard Project Project Scope: This Technical Report is a guide for the the application of ISO/IEC 15288:2008. This guide addresses terminology, as well as system, organization, project, life cycle process, and training concepts, principally through reference to TR 24748-1 and ISO/IEC 15288. It then gives guidance on applying ISO/IEC 15288 from the aspects of planning, application in organizations and on projects, as well as application of ISO/IEC 15288 processes in a life cycle model. This Technical Report is intentionally aligned, both with TR 24748-1 and TR-24748-3 (Guide for application of ISO/IEC 12207) in its terminology, structure and content. Project Purpose: The ISO/IEC format does not provide for a statement of purpose. Designation: P24748-3 Title: Guide: Adoption of ISO/IEC 24748-3, Systems and Software Engineering-- Life Cycle Management--Part 3: Guide for the Application of ISO/IEC 12207 (Software Life Cycle Processes) Status: New Standard Project Project Scope: This Technical Report is a guide for the life cycle management of software based on ISO/IEC 12207:2008. Reference to ISO/IEC 12207:2008 is made in this Technical Report by simply referring to the International Standard. This guide addresses software system concepts and life cycle concepts, models, stages, processes, process application, key points of view, adaptation and use in various domains. The intention is that this guide be used in conjunction with ISO/IEC TR 24748-1, Systems and software engineering – Life cycle management – Part 1: Guide for life cycle management. This Technical Report establishes a common framework for describing software life cycles, including their individual stages, for the management of projects to provide or acquire software products. It defines the concept and terminology of a software life cycle. As a result, this Technical Report supports the use of the software life cycle processes within an organization or a project. Organizations and projects can use these life cycle concepts when acquiring and supplying software products. In addition, this Technical Report provides guidance on adapting a software life cycle model and the content associated with a life cycle or a part of a life cycle. It describes the relationship between life cycles and their use in ISO/IEC 12207. It also describes how the life cycle concepts relate to detailed process standards, for example, in the areas of measurement, project management and risk management. Project Purpose: The ISO/IEC format does not provide for a statement of purpose. Designation: P519.1 Title: Guide for Applying Harmonic Limits on Power Systems Status: New Standard Project Project Scope: IEEE Standard 519, IEEE Recommended Practices and Requirements for Harmonic Control in Electrical Power Systems, provides procedures for controlling harmonics on the power system along with recommended limits for customer harmonic injection and overall power system harmonic levels. This document provides example applications of the procedures and limits in IEEE 519. Project Purpose: This guide provides examples and suggestions for developing and implementing harmonic limits throughout the electric power system. This assists utilities and building owners. Designation: P1580.1 Title: Recommended Practice for Insulated Bus Pipe for Use on Shipboard and Fixed or Floating Platforms Status: New Standard Project Project Scope: The scope of this document is to present recommendations for use and installation methods of insulated bus pipe rated 300V to 35kV onboard marine vessels and fixed and floating offshore facilities in accordance with industry installation practices and the regulations of the authorities having jurisdiction. Project Purpose: The principal purpose of this recommended practice is to provide specific directions for the implementation of Insulated Bus Pipe connections and use. Designation: P1806 Title: Guide for Placement of Overhead and Underground Switching and Overcurrent Protection Equipment Status: New Standard Project Project Scope: The purpose of this guide is to provide criteria for placement of switching and protective device placement for distribution circuits. The scope covers feeder and branch line equipment. Drivers for device placement, such as reliability and operational considerations are identified. All types of switching and overcurrent (OC) equipment are covered including: • Manual switches • Automated switches • Load break vs. non-load break • Reclosers / Sectionalizers • Fuses (Overcurrent and Current Limiting) • Distribution Automation (DA) device control. A section on predictive reliability calculations for feeders is included to provide a guideline for predicting reliability of circuits vs. device placement and number or frequency of devices. Issues such as fault rate, exposure miles, customer density are discussed and their impact on reliability and device placement addressed. The impact of Distribution Automation equipment and automated sectionalizing equipment and the impact on feeder reliability are also addressed. The net result is to provide means and methodologies for proper placement of switches and protective devices to achieve the desired performance characteristics for a distribution circuit. Project Purpose: This standard develops a guide for where and when switching and overcurrent devices are placed on the distribution system. Designation: P1810 Title: Guide for the Selection and Installation of Fire-Rated, Circuit Integrity Cables for Safety, Critical, and Emergency Shutdown Systems in Petroleum and Chemical Industries Status: New Standard Project Project Scope: This installation guide provides information on the specification and selection of fire-rated, power, control, and instrumentation circuit integrity cables, as typically used in petroleum, chemical, and similar plants, offshore marine platforms, in emergency and safety shutdown systems. Project Purpose: The purpose of the document is to provide a guide for the installation of fire-rated circuit integrity cables and performance requirements for these cables and/or cable systems, which may be subjected to a hydrocarbon pool fire. This guide may be useful when installing cables for applications where circuit integrity is critical to plant safety shutdown systems under hydrocarbon fire conditions. In addition, this guide provides application guidelines for the type of cable installations found in petroleum and chemical plants and marine platforms as they relate to electrical, mechanical, physical, thermal, and environmental properties of the cable. The use of this installation guide should help to eliminate premature cable failure due to improper specification, selection, and application of cable in petroleum, chemical plants, and offshore marine platforms. This guide addresses materials, testing, applications, and installation practices. This installation guide is not intended to be a design document, although many of the problems associated with the specification and selection fire-rated circuit integrity cables (including power, control, and instrumentation cables) for petroleum and chemical plant applications can be avoided by considering the information presented in this guide. Designation: P45.8 Title: Recommended Practice for Electrical Installations on Shipboard- Cable Systems Status: New Standard Project Project Scope: The scope of this document is to provide recommendations for selection, application, and installation of electrical power, instrumentation, control, data, and specialty marine cable systems on shipboard. These recommendations include the present day technologies, engineering methods, and engineering practices. Project Purpose: This subsection of IEEE-45 is intended to provide a concensus of recommended practices for the selection, application, and installation of electrical power, instrumentation, contol, data, and specialty marine cable systems on shipboard. Designation: P1812 Title: Guide for Testing Permanent Magnet Machines Status: New Standard Project Project Scope: This guide contains instructions for conducting tests to determine the performance characteristics and machine parameters of permanent magnet machines. The tests described may be applied to motors and generators, as needed, and no attempt is made to partition this guide into clauses applying to motors and clauses applying to generators. It is not intended that this guide shall cover all possible tests, or tests of a research nature, but only those general methods that may be used to obtain the performance data and machine parameters. The schedule of factory and field tests, which may be required on new equipment, is normally specified by applicable standards or by contract specifications. This guide should not be interpreted as requiring any specific test in a given transaction or implying any guarantee as to specific performance indices or operating conditions. The term specified conditions for tests as used in this guide will be considered as rated conditions unless otherwise agreed upon. Rated conditions apply usually to the quantities listed on the machine nameplate. Project Purpose: Instructions for conducting tests to determine the performance characteristics and machine parameters of permanent magnet machines are covered in this guide. Additional tests may be required by the customers and operators to satisfy specific performance indices. Designation: P802.19.1 Title: Standard for Information Technology - Telecommunications and Information Exchange Between Systems - Local and Metropolitan Area Networks - Specific Requirements - Part 19: TV White Space Coexistence Methods Status: New Standard Project Project Scope: The standard specifies radio technology independent methods for coexistence among dissimilar or independently operated TV Band Device (TVBD) networks and dissimilar TV Band Devices. Project Purpose: The purpose of the standard is to enable the family of IEEE 802 Wireless Standards to most effectively use TV White Space by providing standard coexistence methods among dissimilar or independently operated TVBD networks and dissimilar TVBDs. This standard addresses coexistence for IEEE 802 networks and devices and will also be useful for non IEEE 802 networks and TVBDs. Designation: P1813 Title: Guide for Soil Thermal Stability Status: New Standard Project Project Scope: This guide covers two approaches for evaluating the impact of soil moisture migration under cable heating. With knowledge of conditions that lead to thermal instability, operating conditions of the cable can be adjusted or a thermally stable backfill can be used to prevent the occurrence of thermal instability. The first approach uses the ‘extended thermal needle test’. The thermal stability test is essentially an extended time thermal resistivity test using a thermal probe and instrumentation identical to that used to measure the thermal resistivity of a soil. The test procedures which can be performed in the field on an in-situ sample or in the laboratory on a small-scale compacted sample are explained in detail. The test results can be used to predict the time to onset of thermal instability of an operating underground power cable at a given heat generation rate. A second approach uses a ‘two-zone model’. This concept considers a dry envelope surrounding the cable and soils at ambient moisture content beyond the critical boundary. Test procedures for determining the ‘critical temperature rise’ are generally outlined in this guide. A migration test cell is utilized to define the regions of the two zone method. Project Purpose: The successful operation of all underground cable systems require that the system dissipate heat so that the maximum temperature limit of the cable conductor is not exceeded. In order for the cable system to successfully dissipate this heat, the thermal properties of the surrounding soil or backfill material must be known and remain thermally stable during the operation of the cable. This guide has been prepared to assist planners and engineers in achieving that goal. Designation: P1814 Title: Recommended Practice for Electrical System Design Techniques to Improve Electrical Safety Status: New Standard Project Project Scope: This Recommended Practice addresses system and equipment design techniques and equipment selection that will improve electrical safety. The techniques in this Practice are intended to supplement the minimum requirements of installation codes and equipment standards. It does not include communications, programming, or life safety systems such as fire alarm and security. Project Purpose: This Recommended Practice provides a "tool kit" of techniques to enable the system designer to specify equipment features, apply protective schemes, and make informed system installation design choices. Designation: P1815 Title: Standard for Electric Power Systems Communications - Distributed Network Protocol (DNP3) Status: New Standard Project Project Scope: This document specifies the Distributed Network Protocol version 3 (DNP3) protocol structure, functions and application alternatives and the corresponding conformance test procedures. In addition to defining the structure and operation of DNP3, the standard defines three application levels that are interoperable. The simplest application is for low cost distribution feeder devices and the most complex is for full featured master stations. The intermediate application level is for substation and other intermediate devices.. The protocol is suitable for operation on, a variety of communication media consistent with the makeup of most .electric power communication systems. The standard consists of several sections each related to an application or function. Project Purpose: The purpose of this standard is to document and make available the specifications for the DNP3 protocol. While a primary focus of this protocol is the Electric Utility Industry, other industries that deliver Energy and Water are also using DNP3. The intent of this DNP3 standard is to meet the goal established by NIST for a Smart Grid protocol: Provides a protocol standard from a recognized standard institution Provides interoperability with 100s of operational systems and 1000s of devices Provides cyber security based on IEC 62351-5 Provides Devise data profiles in a format that can be mapped to IEC 61850 Object Models Vendors may uses this standard to implement and test the protocol in their products and be assured of interoperability. Users may use the document to specify the features they wish to apply. System Integrators can use the documents to assist in system integration and testing. Designation: P1904.1 Title: Standard for Service Interoperability in Ethernet Passive Optical Networks Status: New Standard Project Project Scope: This standard describes the system-level requirements needed to ensure service-level, multi-vendor interoperability of Ethernet Passive Optical Network (EPON) equipment. The specifications complement the existing IEEE Std. 802.3 and IEEE Std. 802.1 standards which ensure the interoperability at the Physical layer and Data Link layer. Specifically included in the proposed work are: - EPON system-level interoperability specifications covering equipment functionality, traffic engineering, and service-level QoS/CoS mechanisms; - Management specifications covering: equipment management, service management, and power utilization. Project Purpose: To build upon the IEEE 802.3ah (1G-EPON) and IEEE 802.3av (10G-EPON) Physical layer and Data Link layer standards and create a system- level and network-level standard, thus allowing full “plug-and-play” interoperability of the transport, service, and control planes in a multi- vendor environment. Designation: P3000 Title: Recommended Practice for the Engineering of Industrial and Commercial Power Systems Status: New Standard Project Project Scope: This recommended practice covers the fundamentals of the planning, design, analysis, construction, installation, start-up, operation and maintenance of electrical systems in industrial and commercial facilities. Project Purpose: The purpose of this recommended practice is to provide guidance and fundamental principles for the engineering of industrial and commercial power systems. It is likely to be of greatest value to the power-oriented engineer with limited experience with such systems as well as a primer for the younger engineer entering the work force with power system responsibilities. It can also be an aid to students and all engineers responsible for the electrical design of industrial and commercial power systems. Designation: P3001.1 Title: Recommended Practice for the Planning of Industrial and Commercial Power Systems Status: New Standard Project Project Scope: This recommended practice covers the planning of electrical systems in industrial and commercial facilities. It is likely to be of greatest value to the power-oriented engineer with limited experience with such systems. It can also be an aid to all engineers responsible for the electrical design of industrial and commercial power systems. Project Purpose: IEEE’s Industrial Applications Society has determined a need for reorganizing the IEEE’s Color Books Series, 13 books that currently cover various topics that fall under the purview of the Industrial and Commercial Power Industry. This comprehensive initiative, driven by the volunteer leadership of I&CPS, acknowledges that the continued and long-term maintenance of IEEE’s Color Books has been affected by significant attrition due to declining volunteer resources, the complexity involved in updating each book, and content duplication among the books. The existing content will be integrated into a newly proposed structure by technical topics that will allow for easy updating, more streamlined content, and elimination of duplicative material. [Note: This purpose will not be included in the document] Designation: P3001.5 Title: Recommended Practice for Application of Power Distribution Apparatus in Industrial and Commercial Power Systems Status: New Standard Project Project Scope: This recommended practice covers the selection and application of power distribution apparatus used in industrial and commercial power systems. It is likely to be of greatest value to the power-oriented engineer with limited experience with this equipment. It can also be an aid to all engineers responsible for the electrical design of industrial and commercial power systems. Project Purpose: IEEE’s Industrial Applications Society has determined a need for reorganizing the IEEE’s Color Books Series, 13 books that currently cover various topics that fall under the purview of the Industrial and Commercial Power Industry. This comprehensive initiative, driven by the volunteer leadership of I&CPS, acknowledges that the continued and long-term maintenance of IEEE’s Color Books has been affected by significant attrition due to declining volunteer resources, the complexity involved in updating each book, and content duplication among the books. The existing content will be integrated into a newly proposed structure by technical topics that will allow for easy updating, more streamlined content, and elimination of duplicative material. [Note: This purpose will not be included in the document] Designation: P3001.11 Title: Recommended Practice for Application of controllers and automation to Industrial and Commercial Power Systems Status: New Standard Project Project Scope: This recommended practice covers the selection and application of controllers and automation to industrial and commercial power systems. It is likely to be of greatest value to the power-oriented engineer with limited experience with this equipment. It can also be an aid to all engineers responsible for the electrical design of industrial and commercial power systems. Project Purpose: IEEE’s Industrial Applications Society has determined a need for reorganizing the IEEE’s Color Books Series, 13 books that currently cover various topics that fall under the purview of the Industrial and Commercial Power Industry. This comprehensive initiative, driven by the volunteer leadership of I&CPS, acknowledges that the continued and long-term maintenance of IEEE’s Color Books has been affected by significant attrition due to declining volunteer resources, the complexity involved in updating each book, and content duplication among the books. The existing content will be integrated into a newly proposed structure by technical topics that will allow for easy updating, more streamlined content, and elimination of duplicative material. [Note: This purpose will not be included in the document] Designation: P3002.2 Title: Recommended Practice for Conducting Load-Flow Studies of Industrial and Commercial Power Systems Status: New Standard Project Project Scope: This recommended practice describes how to conduct load-flow studies of industrial and commercial power systems. Project Purpose: IEEE’s Industrial Applications Society has determined a need for reorganizing the IEEE’s Color Books Series, 13 books that currently cover various topics that fall under the purview of the Industrial and Commercial Power Industry. This comprehensive initiative, driven by the volunteer leadership of I&CPS, acknowledges that the continued and long-term maintenance of IEEE’s Color Books has been affected by significant attrition due to declining volunteer resources, the complexity involved in updating each book, and content duplication among the books. The existing content will be integrated into a newly proposed structure by technical topics that will allow for easy updating, more streamlined content, and elimination of duplicative material. [Note: This purpose will not be included in the document] Designation: P3002.3 Title: Recommended Practice for Conducting Short-Circuit Studies of Industrial and Commercial Power Systems Status: New Standard Project Project Scope: This recommended practice describes how to conduct short-circuit studies of industrial and commercial power systems. Project Purpose: IEEE’s Industrial Applications Society has determined a need for reorganizing the IEEE’s Color Books Series, 13 books that currently cover various topics that fall under the purview of the Industrial and Commercial Power Industry. This comprehensive initiative, driven by the volunteer leadership of I&CPS, acknowledges that the continued and long-term maintenance of IEEE’s Color Books has been affected by significant attrition due to declining volunteer resources, the complexity involved in updating each book, and content duplication among the books. The existing content will be integrated into a newly proposed structure by technical topics that will allow for easy updating, more streamlined content, and elimination of duplicative material. [Note: This purpose will not be included in the document] Designation: P3004.3 Title: Recommended Practice for the Application of Low-Voltage Fuses in Industrial and Commercial Power Systems Status: New Standard Project Project Scope: This recommended practice covers the selection and application of low-voltage fuses used in industrial and commercial power systems. Project Purpose: IEEE’s Industrial Applications Society has determined a need for reorganizing the IEEE’s Color Books Series, 13 books that currently cover various topics that fall under the purview of the Industrial and Commercial Power Industry. This comprehensive initiative, driven by the volunteer leadership of I&CPS, acknowledges that the continued and long-term maintenance of IEEE’s Color Books has been affected by significant attrition due to declining volunteer resources, the complexity involved in updating each book, and content duplication among the books. The existing content will be integrated into a newly proposed structure by technical topics that will allow for easy updating, more streamlined content, and elimination of duplicative material. [Note: This purpose will not be included in the document] Designation: P3004.5 Title: Recommended Practice for the Application of Low-Voltage Circuit Breakers in Industrial and Commercial Power Systems Status: New Standard Project Project Scope: This recommended practice covers the selection and application of low-voltage circuit breakers used in industrial and commercial power systems. Project Purpose: IEEE’s Industrial Applications Society has determined a need for reorganizing the IEEE’s Color Books Series, 13 books that currently cover various topics that fall under the purview of the Industrial and Commercial Power Industry. This comprehensive initiative, driven by the volunteer leadership of I&CPS, acknowledges that the continued and long-term maintenance of IEEE’s Color Books has been affected by significant attrition due to declining volunteer resources, the complexity involved in updating each book, and content duplication among the books. The existing content will be integrated into a newly proposed structure by technical topics that will allow for easy updating, more streamlined content, and elimination of duplicative material. [Note: This purpose will not be included in the document] Designation: C57.12.001 Sponsor: IEEE Power & Energy Society/Transformers Title: Standard General Requirements for Liquid Immersed Distribution, Power and Regulating Transformers, Section 8 Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: James H Harlow, Phone:256-643-3934, Email:j.h.harlow@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: May 31, 1990 Designation: C57.12.21 Sponsor: IEEE Power & Energy Society/Transformers Title: Standard for Transformers--Pad-Mounted, Campartmental-Type, Self-Cooled, Single-Phase Distribution Transformers With High-Voltage Bushings: High Voltage (34 500 GrdY/19 920 V and Below) and Low Voltage (240/120 V, 167 kVA and Smaller) Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Ali A Ghafourian, Phone:731-285-9121, Email:aghafourian@ermco-eci.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 27, 1991, ANSI APP: Jan 03, 1995 Designation: 45 Title: Recommended Practice for Electrical Installations on Shipboard Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Mohammed Islam, Phone:504-739-4253, Email:moni.islam@L-3com.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: These recommendations establish the minimally acceptable guidelines for the design, selection, and installation of systems and equipment aboard marine vessels applying electrical apparatus for power, propulsion, steering, automation, navigation, lighting, and communications. These recommendations describe present-day acceptable electrical engineering methods and practices. It is recognized that changes and improvements in shipboard requirements may develop that are not specifically covered herein; such changes, if incorporated in the design, should be equal to the safety and reliability levels established herein and generally in accord with the intent of these standards. In developing these recommendations, consideration was given to the electrical and engineering requirements promulgated by various regulatory agencies, classification societies, and by the International Maritime Organization.s International Convention for the Safety of Life at Sea (IMO SOLAS), as amended. This recommended practice was developed by a voluntary consensus body to provide assistance and guidance to regulatory agencies governing electrical engineering requirements. Project Purpose: The main purpose of this recommended practice is to provide a consensus of recommended practices in the unique field of marine electrical engineering as applied specifically to ships, shipboard systems, and equipment. Designation: P1528 Title: Recommended Practice for Determining the Peak Spatial-Average Specific Absorption Rate (SAR) in the Human Head from Wireless Communications Devices: Measurement Techniques Status: Revision Project Technical Contact: Howard Bassen, Phone:301-827-4950, Email:howard.bassen@fda.hhs.gov **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: To specify protocols for the measurement of the peak spatial- average SAR in a simplified model of the head of users of handheld radio transceivers used for personal wireless communications services and intended to be operated while held next to the ear. It applies to contemporary and future devices with the same operational characteristics as contemporary devices that operate in the 300 MHz–6 GHz frequency range and provides a conservative estimate of the peak spatial-average SAR representative of that which would be expected to occur in the heads of a significant majority of persons during normal use of these devices, but which may not be the absolute maximum value that could possibly occur under every conceivable combination of head size, head shape, handset orientation, and spacing relative to the head. Project Purpose: The purpose of this recommended practice is to provide a protocol for the measurement of the peak spatial-average SAR in an anatomical model of the human head of users of wireless handsets intended to be operated while held next to the ear. It provides the users with standardized and accepted protocols, measurement and validation techniques, and means for estimating the overall uncertainty in order to produce valid and repeatable data. Specific SAR limit values are not included since these are found in other documents, e.g., IEEE Std C95.1 and the International Commission on Non-Ionizing Radiation Protection (ICNIRP) guidelines. Designation: P1566 Title: Standard for Performance of Adjustable Speed AC Drives Rated 375 kW and Larger Status: Revision Project Technical Contact: William Lockley, Phone:403-239-2164, Email:lockley@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This standard applies to AC adjustable speed drive (ASD) systems rated over 375 kW and above 750 V output voltage as used in petrochemical and similar applications. It covers the performance requirements for an ASD system including, but not limited to, input transformer or reactor as required, power electronics, control interfaces, cooling system, switchgear, and motor. Requirements for power quality, engineering analysis, start-up assistance, training, and spare parts are also included. Certain items such as the motor, switchgear or transformer may be excluded from the scope of vendor supply if specified in the data sheets; the system vendor shall specify any special requirements for the excluded equipment. Project Purpose: The purpose of this document is to assist users in defining the required performance of a drive system in clear terms. It is not intended to specify a particular technology that must be followed. It is intended to be used with the data sheets given in Annex A and Annex B. Designation: P765 Title: Standard for Preferred Power Supply (PPS) for Nuclear Power Generating Stations (NPGS) Status: Revision Project Technical Contact: George Attarian, Phone:919-362-2130, Email:george.attarian@pgnmail.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This standard describes the design criteria of the PPS and its interfaces with the Class 1E power system, switchyard, transmission system, and AAC source. Figure 1 is a typical interface diagram of the PPS with related power systems. Project Purpose: This standard provides PPS requirements for nuclear power generating stations (NPGSs) and guidance in the areas of AAC power source interfaces with the PPS, physical independence of the PPS power and control circuits, and expanded PPS criteria for multi-unit stations. Designation: PC57.637 Title: IEEE Guide for the Reclamation of Insulating Oil and Criteria for Its Use Status: Revision Project Technical Contact: James A Thompson, Phone:605-534-3571, Email:jathompson@trservice.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: The scope of this guide covers mineral insulating oil commonly defined as transformer oil; definition and description of reclaiming procedures; the test methods used to evaluate the progress and end point of the reclamation process, and what criteria recommended for the use of reclaimed oils are considered suitable. This guide does not cover the use of oil in new apparatus under warranty. Project Purpose: The purpose of this guide is to provide detailed procedures for reclaiming used mineral insulating oils by chemical and mechanical means, making them suitable for reuse as insulating fluids, and to describe the essential properties suggested for reuse in each class of equipment and the recommended test methods. Designation: PC37.10 Title: Guide for Investigation, Analysis and Reporting of Power Circuit Breaker Failures Status: Revision Project Technical Contact: W J Bergman, Phone:403-862-1504, Email:bergman@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This guide provides practices and processes to perform, analyze, and report failure investigations of power circuit breakers. Project Purpose: The purpose of this guide is: a) to provide guidelines and promote uniformity in the analysis of power circuit breaker failures; b) to provide guidance for systematic and uniform data collection so that valuable facts are not lost or destroyed; c) to provide a methodology by which the most probable cause of any particular circuit breaker failure may be determined; d) to encourage cooperative efforts by users and manufacturers during failure analysis; e) to provide guidance for reporting failures for power circuit breakers Designation: P497 Title: Standard Criteria for Accident Monitoring Instrumentation for Nuclear Power Generating Stations Status: Revision Project Technical Contact: Daryl Harmon, Phone:860-731-6174, Email:daryl.l.harmon@us.westinghouse.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: The standard contains the functional and design criteria for accident monitoring instrumentation for nuclear power generating stations. This standard is intended for new plant designs and for operating nuclear power generating stations desiring to perform design modifications. Project Purpose: The purpose of this standard is to establish selection, design, performance, qualification and display criteria for accident monitoring instrumentation. It provides guidance on the use of portable instrumentation and examples of accident monitoring display configurations. Designation: P45 Title: Recommended Practice for Electrical Installations on Ships Status: Revision Project Project Scope: These recommendations establish the minimally acceptable guidelines for the design, selection, and installation of systems and equipment aboard marine vessels applying electrical apparatus for power, propulsion, steering, navigation, lighting, and communications. These recommendations describe present-day acceptable electrical engineering methods and practices. It is recognized that changes and improvements in shipboard requirements may develop that are not specifically covered herein; such changes, if incorporated in the design, should be equal to the safety and reliability levels established herein and generally in accord with the intent of these recommendations. In developing these recommendations, consideration was given to the electrical and engineering requirements promulgated by various regulatory agencies, classification societies, and by the International Maritime Organization’s International Convention for the Safety of Life at Sea (IMO SOLAS), as amended. This recommended practice is supplemented by the eight documents in the IEEE 45.1 through IEEE 45.8 series. Project Purpose: The main purpose of this recommended practice is to provide a consensus of recommended practices in the unique field of marine electrical engineering as applied specifically to systems and components for ships and other marine applications, such as offshore platforms, that generate, control and distribute electric power and provide propulsion, steering and other critical ship control functions based on electric power source. Designation: P145 Title: Standard Definitions of Terms for Antennas Status: Revision Project Project Scope: This standard establishes definitions for antennas and for systems which incorporate an antenna as a component of the system. Project Purpose: Many individuals and organizations are involved in the design, manufacture, measurement and use of antennas for many different applications. This standard is intended to provide a set of standard definitions for the community so that when terminology is used all will understand its meaning. Designation: P1149.6 Title: Standard for Boundary-Scan Testing of Advanced Digital Networks Status: Revision Project Project Scope: This standard defines extensions to IEEE Std 1149.1 to standardize the Boundary-Scan structures and methods required to ensure simple, robust, and minimally intrusive Boundary-Scan testing of advanced digital networks. Such networks are not adequately addressed by existing standards, especially for those networks that are AC-coupled, differential, or both. Testing enabled by this standard will operate in parallel with IEEE Std 1149.1 testing of conventional digital networks and in conjunction with IEEE Std 1149.4 testing of conventional analog networks. This standard also specifies software and Boundary-Scan Description Language (BSDL) extensions to IEEE Std 1149.1, which are required to support new I/O test structures. Project Purpose: Existing boundary-scan test standards (IEEE Std. 1149.1, IEEE Std. 1149.4) do not fully address some of the increasingly common, newer digital network topologies, such as AC-coupled, differential interconnections on very high speed (1+ Gbps) digital data paths. IEEE Std. 1149.1 structures and methods are intended to test static (that is, DC- coupled), single-ended networks. It is unable to test dynamic (that is, AC- coupled) digital networks, since AC-coupling blocks static signals. Differential networks are also inadequately tested by IEEE Std. 1149.1, which requires either the insertion of boundary cells between the differential driver or receiver and the chip pads (this often creates an unacceptable performance degradation), or insertion of single boundary cells before the differential driver and after the differential receiver (this reduces controllability and observability to the point that many board assembly defects cannot be detected). IEEE Std. 1149.4 structures and methods are intended for testing analog networks, and in most cases are not able to test these newer digital networks as well. Specifically, IEEE Std. 1149.4 provides the opportunity to inject dynamic (time-varying) or analog signals for test, but these structures intended for analog testing are often too intrusive (too high an impact on performance and pin count) for high speed chip designs, and require additional resources and test application time not otherwise required for testing digital circuits. Finally, very high speed logic imposes new restrictions on test structures that were not considered in IEEE Std. 1149.1. Designation: P1619 Title: Standard for Cryptographic Protection of Data on Block-Oriented Storage Devices Status: Revision Project Project Scope: This standard specifies the XTS cryptographic mode of operation for the AES block cipher and an XML-based key archive format for block- oriented storage devices. Project Purpose: The purpose of this standard is to expand the XTS cryptographic mode while maintaining backwards compatibility with existing implementations that are compliant with IEEE Std 1619-2007. Designation: P1801 Title: Standard for Design and Verification of Low Power Integrated Circuits Status: Revision Project Project Scope: This standard establishes a format used to define the low power design intent for electronic systems and electronic intellectual property. The format provides the ability to specify the supply network, switches, isolation, retention and other aspects relevant to power management of an electronic system. The standard defines the relationship between the low power design specification and the logic design specification captured via other formats (e.g., standard hardware description languages). Project Purpose: The standard provides portability of low power design specifications that can be used with a variety of commercial products throughout an electronic system design, analysis, verification and implementation flow. Designation: PC37.121 Title: Guide for Switchgear - Unit Substation - Requirements Status: Revision Project Project Scope: This Guide covers three-phase unit substations for step-down operation in the range of 112.5 kVA or greater at primary voltages of 601 volts through 38 kilovolts. This Guide does not cover the following installations: 1. Substations in which the transformer section is described and defined as "network, subway, vault or under ground in IEEE Standards C57.12.24-, C57.12.40, and C57.12.57 2. Substations in which the transformer section is described and defined as pad-mounted in IEEE C57.12.22, C57.12.26, and C57.12.27 3. Gas-insulated substations as described in IEEE C37.122 4. Rectifier-type substations 5. Mobile substations 6. Installations in ships, watercraft, railway rolling stock, aircraft, automotive vehicles, mobile homes or recreational vehicles 7. Installations for mines 8. Installations of railways for generation, transformation, transmission, or distribution of power used exclusively for operation of rolling stock, or for installations used exclusively for signaling and railway communication purposes. 9. Installations of communication equipment that is under the exclusive control of communication utilities, located outdoors or in building spaces used exclusively for such installations. 10. Installations under the exclusive control of electric utilities for the purpose of communication, or metering; or for the generation, control, transformation, transmission, and distribution of electric energy located in buildings used exclusively by utilities for such purposes or located outdoors on property owned or leased by the utility or on public highways, streets, roads, etc; or outdoors by established rights on private property. Project Purpose: The Guide is intended for use as the basis for the coordination of equipment in Unit Substations by assisting in the selection of components. A variety of designs for unit substations are possible using various combinations of incoming sections, transformer sections, outgoing sections, and transition sections. It is intended that the incoming, outgoing, transformer, and transition sections included in a unit substation shall meet the basic requirements of applicable industry standards for those sections. In addition, this Guide provides suggested requirements when used as part of a unit substation. Designation: PC62.92.2 Title: Guide for the Application of Neutral Grounding In Electrical Utility Systems Part II - Synchronous Generator Systems Status: Revision Project Project Scope: This document provides the basic factors and general considerations in selecting the class and means of neutral grounding for synchronous generator systems connected to electrical utility systems. It also provides the suggested methods and apparatus to be used to achieve the desired grounding. These guidelines apply to both large and small generators found in electrical utility systems. Definitions of grounding terms used in this the guide can be found in IEEE Std C62.92.1TM-2000. Project Purpose: This guide provides the user with insight on the basic factors and general considerations in selecting the class and means of neutral grounding for synchronous generator systems connected to electrical utility systems. It also provides guidance on the selection of particular methods and apparatus to be used to achieve the desired neutral grounding. It is intended that this document serve only as a guide. Statements are necessarily of a general nature and therefore do not take into account the requirements of special situations that can differ considerably from those discussed. Designation: P1076.1.1 Title: Standard for VHDL Analog and Mixed-Signal Extensions---Packages for Multiple Energy Domain Support Status: Revision Project Project Scope: This standard defines a collection of VHDL 1076.1 packages, compatible with IEEE Std 1076.1™,along with recommendations for conforming use, in order to facilitate the interchange of simulation models of physical components and subsystems. The packages include the definition of standard types, subtypes, natures, and constants for modeling in multiple energy domains (electrical, fluidic, mechanical, etc.) The packages are intended for use primarily in the modeling of multiple energy domain systems. The range of operation of the packages is not defined in this standard, but is intended to be valid across a wide range of disciplines and applications. Project Purpose: The definitions of IEEE Std 1076.1 allow users to build simulation models of physical components and subsystems that may belong to multiple energy domains (electrical, fluidic, mechanical, etc.). Such models are built upon sets of properties that are specific to each energy domain and encapsulated in socalled natures. IEEE Std 1076.1 provides a mechanism to define natures, but intentionally does not predefine any standard set of natures as it is expected that this would be done in a subsequent IEEE standard project. The definition of a standard set of natures is crucial to make possible the reuse and exchange of models written in VHDL 1076.1 within and among vendors. Designation: P1125 Title: Guide for Moisture Measurement and Control in SF6 Gas-Insulated Equipment Status: Revision Project Project Scope: This document establishes guidelines for moisture level measurement, moisture data interpretation, and moisture-control in gas- insulated transmission class equipment Project Purpose: The purpose of these guidelines is to provide guidance and promote understanding among users of Gas Insulated Equipment (GIE). More specifically, the objective is to communicate general knowledge and sufficient understanding so as to ensure successful operation of the equipment. Designation: P1416 Title: Recommended Practice for the Interface of New Gas-Insulated Equipment in Existing Gas-Insulated Substations Rated Above 52kV Status: Revision Project Project Scope: This document gives the recommended practices for designing and installing the interfaces between an existing Gas-Insulated Substations (GIS) equipment and a new GIS equipment that is added at a later date, and may be of different design and of different manufacturer. The recommended practices apply for GIS rated above 52kV. They also include the interfaces between Gas-Insulated Line (GIL) equipment and Gas-Insulated Substations (GIS) equipment rated above 52kV. Project Purpose: [This document will not include a Purpose clause] Extensions of GIS are sometime needed years after the initial delivery of equipment. Extension with same type of equipment may not be possible. In such conditions, interfaces between the existing and new equipment is required. However, interface practice is not currently covered by a consensus document like IEEE and IEC standards. This document will recommend practices, for both users and manufacturers, for identification of, and solution to, interface connections between different GIS equipment. Designation: P1646 Title: Standard Communication Delivery Time Performance Requirements for Electric Power Substation Automation Status: Revision Project Project Scope: This standard defines communication delivery times of information to be exchanged within and external to substation integrated protection, control, and data acquisition systems. Project Purpose: Utilities can use communication performance requirements as part of a procurement specification to develop new substation automation systems, or to modify existing substation automation systems. Vendors will use communication performance requirements to build open system communication interfaces for intelligent electronic devices for substation automation. Designation: PC37.48.1 Title: Guide for the Application, Operation, and Coordination of High-Voltage (>1000 V) Current-Limiting Fuses Status: Revision Project Project Scope: This guide provides information on the application, operation, and coordination of high-voltage (>1000 V) fuses and associated equipment. The information supplements that presented in IEEE Std C37.48 TM. These guidelines apply to the following specific types of equipment, intended for use on alternating current distribution and power class systems: a) Distribution and power class current-limiting type fuses b) Distribution and power class current-limiting fuse disconnecting switches c) Items a) and b) used in fuse enclosure packages d) Fuse supports of the type intended for use with distribution and power class fuses, and fuse disconnecting switches e) Disconnecting devices created by the use of a removable switch blade in a distribution or power class fuse support f) Distribution class and power class current-limiting, and combination types of external capacitor fuses used with a capacitor unit, groups of units, or capacitor banks g) Backup current-limiting fuses (“motor-starter fuses”) used in conjunction with high-voltage Class E2 motor starters (see ANSI/UL 347 [B1]) Project Purpose: The purpose of this guide is to expand on aspects of the general fuse application guide, IEEE Std C37.48, in areas associated with the application and coordination of high-voltage (>1000 V) current- limiting fuses. This guide is more “tutorial” in nature than IEEE Std C37.48, and includes descriptions as to how different types of fuses work. It was developed to create a better understanding of how most fuse types operate, but with an emphasis on current-limiting fuses after the category "full-range" was added to the existing categories of “backup” and “general- purpose” current-limiting fuses. Designation: PC57.13.3 Title: Guide for Grounding of Instrument Transformer Secondary Circuits and Cases Status: Revision Project Project Scope: This guide contains general and specific recommendations for grounding current and voltage transformer secondary circuits and cases of connected equipment. The practices recommended apply to all transformers of this type, including capacitive voltage transformers and linear couplers, irrespective of primary voltage or whether the primary windings are connected to, or are in, power circuits or are connected in the secondary circuits of other transformers as auxiliary current transformers or voltage transformers. Although most diagrams included in this guide show relaying applications, the recommended practices apply equally to metering and other areas where instrument transformers are used. Exceptions to grounding are permissible or sometimes required where advantages obtained by not grounding, in certain instances or in certain types of installations, are considered to outweigh the advantages obtained by grounding. The scope of the guide includes grounding practices presently used and practices that were not previously reported. Specifically, a review of other than North American grounding practices is included. Project Purpose: This guide provides information on the grounding of the following: - Secondary circuits of electromagnetic CT and VT circuits - Cases of relays, CTs, and VTs - Secondary circuits of optoelectronic CTs and VTs The primary emphases of this guide are personnel safety and proper performance of relays at electric power frequencies. Designation: PC62.92.1 Title: Guide for the Application of Neutral Grounding in Electrical Utility Systems, Part 1 - Introduction Status: Revision Project Project Scope: This guide is intended for application to three-phase electrical utility systems and is Part I of an IEEE C62.92 series. This part provides definitions and considerations that are general to all types of neutral grounding for electrical utility systems. Goals of system grounding, means of grounding and classes of grounding are addressed in this part. Project Purpose: This guide presents basic considerations for the selection of neutral grounding parameters that will provide for the control of overvoltage and ground-fault current on all parts of three-phase electrical utility systems. Designation: P4 Title: Standard for High-Voltage Testing Techniques Status: Revision Project Project Scope: This standard is applicable to - Dielectric tests with direct voltages - Dielectric tests with alternating voltages - Dielectric tests with impulse voltages - Tests with impulse currents - Tests with combinations of the above - Capacitance and dielectric loss measurements This standard is applicable only to tests on equipment with a rated voltage above 1000 V. Procedures are given for applying correction factors to convert test data to standard atmospheric conditions. This standard also specifies procedures for testing equipment when external insulation of the test object is to be subjected to dry, wet, or contaminated conditions. Project Purpose: The purpose of this standard is to - Define terms of general applicability - Present general requirements regarding test equipment and procedures - Describe methods for evaluation of test results Designation: P16 Title: Standard for Electrical and Electronic Control Apparatus on Rail Vehicles Status: Revision Project Project Scope: This standard prescribes design, application, and test requirements for electrical and electronic control apparatus on rail vehicles. Project Purpose: This standard is intended to provide a set of uniform design, application, and test requirements for electrical and electronic control apparatus on rail vehicles. These requirements are the minimum necessary to ensure suitability for use in a rail vehicle environment. Use of this should lead to enhanced levels of reliability, and lower acquisition and maintenance costs. Designation: P802.17 Title: Standard for Information Technology - Telecommunications and Information Exchange Between Systems - Local and Metropolitan Area Networks - Specific Requirements - Part 17: Resilient Packet Ring (RPR) Access Method and Physical Layer Specifications Status: Revision Project Project Scope: This standard defines a resilient packet ring access protocol for use in local, metropolitan, and wide area networks, along with appropriate physical layer specifications for transfer of data packets at rates scalable to multiple gigabits per second. Project Purpose: The standard defines a very high-speed network protocol that is optimized for packet transmission in resilient ring topologies needing service quality differentiation, efficient use of bandwidth, fair use of bandwidth, ease of use, and robustness. Designation: P1127 Title: Guide for the Design, Construction, and Operation of Electric Power Substations for Community Acceptance and Environmental Compatibility Status: Revision Project Project Scope: This guide identifies significant community acceptance and environmental compatibility items to be considered during the planning and design phases, the construction period, and the operation of electric supply substations, and documents ways to address these concerns to obtain community acceptance and environmental compatibillity. On-site generation and telecommunication facilities are not considered. Project Purpose: This guide provides guidance on community acceptance and environmental compatibility for new substations or substation expansions. Designation: P1207 Title: Guide for the Application of Turbine Governing Systems for Hydroelectric Generating Units Status: Revision Project Project Scope: This guide complements IEEE standard 125 by providing application details and the impact of plant and system features upon hydroelectric governing performance. Project Purpose: The purpose of this guide is to provide guidance for the design and application of hydroelectric turbine governing systems. There is a heightened awareness within the electric utility industry of the importance in the effective application of governing systems for dynamic stability. The need exists to provide guidance in the effective governing system application for a better understanding among users. Present standards do not adequately address this need. Designation: P1636.1 Title: Standard for Software Interface for Maintenance Information Collection and Analysis (SIMICA): Exchanging Test Results and Session Information via the eXtensible Markup Language(XML) Status: Revision Project Project Scope: The scope of this standard is the definition of an exchange format, utilizing XML, for exchanging data resulting from executing tests of a Unit Under Test (UUT) via a test program in an automatic test environment. The standard uses the information models of IEEE Std 1636-2009 - Standard Software Interface for Maintenance Information Collection and Analysis (SIMICA) as a foundation. Project Purpose: The purpose of this standard is to specify a software interface for access, exchange, and analysis of test result information. The standard enables the capture of test results data, facilitating data analysis to assess the effectiveness of test and diagnostic processes applied to complex systems. The test results information model and XML schema define the semantics and exchange format for information to be used among applications implementing the SIMICA family of standards. Designation: P1725 Title: Standard for Rechargeable Batteries for Cellular Telephones Status: Revision Project Project Scope: This standard establishes criteria for design analysis for qualification, quality, and reliability of rechargeable lithium ion and lithium ion polymer batteries for cellular telephone applications. Also included in the standard are: battery pack electrical and mechanical construction, packaging technologies, and pack and cell level charge and discharge controls and overall system considerations. Project Purpose: The purpose of this standard is to ensure reliable user experience and operation of cell phone batteries. The battery and cellular telephone industries need standardized criteria for design and qualification of rechargeable battery systems and for verifying the quality and reliability of those batteries. Designation: PC37.011 Title: Guide for the Application of Transient Recovery Voltage for AC High- Voltage Circuit Breakers Status: Revision Project Project Scope: This application guide covers procedures and calculations necessary to apply the standard transient recovery voltage (TRV) ratings for ac high-voltage circuit breakers rated above 1000 V. The breaking capability limits of these circuit breakers are determined to a great degree by the TRV. This application guide is not included in other existing circuit breaker standards. In this document, the TRV ratings are compared with typical system TRV duties. Examples of TRV calculation are given with suggested options if the TRV duty exceeds the TRV ratings of the circuit breaker. Project Purpose: The purpose of this standard is to provide an application guide on the TRV ratings given in ANSI/IEEE Std C37.04 for ac high-voltage circuit breakers rated on a symmetrical current basis. Definitions, rating structure, test procedures, and preferred transient voltage ratings and related required capabilities are included in ANSI/IEEE Std C37.04, ANSI/IEEE Std C37.06, ANSI/IEEE Std C37.09 and ANSI C37.06.1. ANSI/IEEE Std C37.010 applies in other respects to these circuit breakers. Designation: PC57.12.01 Title: Standard for General Requirements for Dry-Type Distribution and Power Transformers Status: Revision Project Project Scope: This standard describes electrical, mechanical, and safety requirements of single and polyphase ventilated, non-ventilated, and sealed dry-type distribution and power transformers or autotransformers, with a voltage of 601 V or higher in the highest voltage winding. This standard applies to all dry-type transformers, including those with solid-cast and/or resin encapsulated windings except as follows: a) Instrument transformers b) Step- and induction-voltage regulators c) Arc-furnace transformers d) Rectifier transformers e)Specialty and general-purpose transformers f) Mine transformers g) Testing transformers h) Welding transformers Project Purpose: This standard is intended to serve as a basis for the establishment of performance, interchangeability, and safety requirements of equipment described, and for assistance in the proper selection of such equipment. Designation: PC57.96 Title: Guide for Loading Dry-Type Distribution and Power Transformers Status: Revision Project Project Scope: This guide covers general recommendations for the loading of dry-type distribution and power transformers, including those installed in ventilated, nonventilated and sealed type enclosures. Project Purpose: This document provides users with guidelines and limitations for loading dry-type transformers according to nameplate rating. Guidance is also provided for assessing the risks and consequences of loading above nameplate rating. Designation: PC62.41.2 Title: Standard for Recommended Practice on Characterization of Surges in Low- Voltage (1000 V and less) AC Power Circuits Status: Revision Project Project Scope: The scope of this recommended practice is to characterize the surge environment at locations on ac power circuits described in C62.41.1 by means of standardized waveforms and other stress parameters. Project Purpose: The purpose of this recommended practice is to offer to equipment designers and users a set of standard and additional surge-testing waveforms and stress levels derived from the surge environment described in the companion guide IEEE Std C62.41.1-2002. The selection and specification of which waveform and what stress level should be considered for specific equipment remain the perogative and responsibility of designers and users. This recommended practice is only the basis for making an informed decision made possible by a simplification of a complex database. This simplification will then allow consistent, repeatable, and cost-effective specification of surge performance for equipment connected to low-voltage ac power circuits. Designation: C37.16-2000 Sponsor: IEEE Power & Energy Society/Switchgear Title: American National Standard Low-Voltage Power Circuit Breakers and AC Power Circuit Protectors- Preferred Ratings, Related Requirements, and Application Recommendations Status: Superseded Title: IEEE Standards Operations Manual Status: Superseded Publication type: Special Publication Title: IEEE Standards Board Bylaws - 1996 Status: Superseded Publication type: Special Publication Title: Sixth Interim Collection of the National Electrical Safety Code®, 1994- 1996 Interpretations Status: Superseded **Available only by purchasing National Electrical Safety Code® (NESC®) Interpretations Collection, 1943-1997 Inclusive 1200 pages, Product number SH94550 Publication type: Special Publication Abstract: This edition includes official interpretations of the National Electrical Safety Code® as made by the Interpretations Subcommittee of the National Electrical Safety Code Committee, ASC C2 Key Words: electric supply, supply stations, overhead electric, electric supply, communication lines, supply lines, undergroun electric, underground lines, clearances, strength requirement Title: IEEE Operations Manual - 1995 Status: Superseded Publication type: Special Publication Title: IEEE Standards Board Bylaws - 1995 Status: Superseded Title: IEEE Standards Electric Machinery Collection - 1995 Edition Status: Superseded Publication type: Collection Abstract: IEEE electric machinery standards provide manufacturers and designers with the specifications they need to know on-the- job, while providing tests and diagnosis for various types of electric machines. This collection contains 24 current standards and recommended practices used worldwide pertinent to the generation of electric energy and its conversion into other forms of electric or mechanical energy. Key Words: electric machinery Title: IEEE Standards Board Bylaws - 1994 Status: Superseded Publication type: Special Publication Title: IEEE Standards Operations Manual - 1994 Status: Superseded Publication type: Special Publication Title: IEEE Standards Style Manual - 1994 Status: Superseded Publication type: Special Publication Key Words: stye Title: National Electrical Safety Code® Preprint 1997 Proposals Status: Superseded Publication type: Special Publication Title: IEEE Standards Software Engineering Collection - 1994 Edition Status: Superseded Publication type: Collection Abstract: With the rising costs associated with software development and maintenance today, reduced costs and increased efficiency have become two key factors for programmers and engineers developing software solutions. The best way to maximize software development investments is to comply with the most current software engineering standards mandated by industry today, IEEE software engineering standards. Now, all the widely used IEEE software engineering standards are included in the 1994 edition of the Software Engineering Standards Collection. This edition contains 26 of the most up-to-date standards, covering software terminology, software design descriptions, user documentation and software maintenance. Title: Electric Machinery Collection Status: Superseded Publication type: Collection Title: Supplement to IEEE Standards Collection Circuit Breakers, Switchgear, Substations, and Fuses C37 1993 Edition Status: Superseded Publication type: Collection Title: IEEE Standards Software Engineering Collection 1993 Edition Status: Superseded Publication type: Collection Title: IEEE Standards Collection C37 1993 Edition-Circuit Breakers, Switchgear, Substations, and Fuses Status: Superseded Publication type: Collection Title: Style Manual Status: Superseded Publication type: Special Publication Title: IEEE Standards Board ByLaws - 1992 Status: Superseded Publication type: Special Publication Title: Third Interim Collection of the National Electrical Safety Code®,1991- 1993 Interpretations Status: Superseded **Available only by purchasing National Electrical Safety Code® (NESC®) Interpretations Collection, 1943-1997 Inclusive 1200 pages, Product number SH94550 Publication type: Special Publication Abstract: This edition includes official interpretations of the National Electrical Safety Code as made by the Interpretations Subcommittee of the National Electrical Safety Code Committee, ASC C2. Key Words: electric, supply, stations, overhead, communication, lines, underground, clearances Title: IEEE Standards Electrical and Electronics Graphic and Letter Symbols and Reference Designation Collection — 1992 Edition Status: Superseded Publication type: Collection Key Words: graphic, letter, symbol Title: IEEE Standards Electromagnetic Compatability Collection -1992 Edition Status: Superseded Publication type: Collection Key Words: electromagnetic, compatibility Title: IEEE Standard Board Operations Manual - 1992 Status: Superseded Publication type: Special Publication Title: IEEE Standards Manual Status: Superseded Publication type: Special Publication Title: Second Interim Collection of the National Electrical Safety Code® Interpretations, 1991-1993 Status: Superseded **Available only by purchasing National Electrical Safety Code® (NESC®) Interpretations Collection, 1943-1997 Inclusive 1200 pages, Product number SH94550 Publication type: Special Publication Abstract: This edition includes official interpretations of the National Electrical Safety Code as made by the Interpretations Subcommittee of the National Electrical Safety Code Committee, ASC C2. Key Words: electric supply, overhead, communication lines, underground, clearances, strength, requirements Title: First Interim Collection of the National Electrical Safety Code®, 1991- 1993 Interpretations Status: Superseded **Available only by purchasing National Electrical Safety Code® (NESC®) Interpretations Collection, 1943-1997 Inclusive 1200 pages, Product number SH94550 Publication type: Special Publication Technical Contact: Vince Condello, Phone:201-836-3214 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Abstract: This edition includes official interpretations of the National Electrical Safety Code as made by the Interpretations Subcommittee of the National Electrical Safety Code Committee, ASC C2. Title: IEEE Style Manual - 1991 Status: Superseded Publication type: Special Publication Title: IEEE Stationary Battery Standards Collection, Summer 1991 Edition Status: Superseded Publication type: Collection Sponsor: IEEE Power & Energy Society/Surge Protective Devices/Low Voltage Title: C62 Complete 1990 Edition: Guides and Standards for Surge Protection Status: Superseded Publication type: Collection Title: IEEE Standards Manual - 1990 Status: Superseded Publication type: Special Publication Title: 1990 Annual Activities Report Status: Superseded Publication type: Special Publication Title: IEEE Guides and Standards for Protective Relaying Systems - Complete1989 Edition Status: Superseded Publication type: Collection Designation: C135.2-1987 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: American National Standard For Threaded Zinc-coated Ferrous Strand-eye Anchor Rods And Nuts For Overhead Line Construction Status: Superseded Title: IEEE Guides and Standards for Safety, Maintenance, and Operation of Lines (ESMOL): Fall 1990 Edition Status: Superseded Publication type: Collection Title: Second Interim Collection of the National Electrical Safety Code Interpretations, 1988-1990 Inclusive Status: Superseded **Available only by purchasing National Electrical Safety Code® (NESC®) Interpretations Collection, 1943-1997 Inclusive 1200 pages, Product number SH94550 Abstract: This edition includes official interpretations of the National Electrical Safety Code as made by the Interpretations Subcommittee of the National Electrical Safety Code Committee, ASC C2. Title: IEEE Software Engineering Standards Collection, Spring 1991 Edition Status: Superseded Publication type: Collection Title: Abstracts/Index Status: Superseded Publication type: Special Publication Title: 1989 Annual Activities Report Status: Superseded Publication type: Special Publication Title: Posix International Style Guide Status: Superseded Publication type: Special Publication Title: First Interim Collection of the National Electrical Safety Code Interpretations, 1988-1990 Inclusive Status: Superseded **Available only by purchasing National Electrical Safety Code® (NESC®) Interpretations Collection, 1943-1997 Inclusive 1200 pages, Product number SH94550 Abstract: This edition includes official interpretations of the National Electrical Safety Code as made by the Interpretations Subcommittee of the National Electrical Safety Code Committee, ASC C2. Title: National Electric Safety Code Interpretations, 1984-1987 Inclusive Status: Superseded Publication type: Special Publication Title: National Electric Safety Code Interpretations, 1981-1984 Inclusive Status: Superseded Publication type: Special Publication Title: National Electric Safety Code Interpretations, 1978-1980 Inclusive Status: Superseded Publication type: Special Publication Title: National Electric Safety Code Interpretations, 1961-1977 Inclusive Status: Superseded Publication type: Special Publication Title: IEEE-IPCEA Power Cable Ampacities Status: Superseded **Revised as IEEE Std 835 Publication type: Special Publication Title: Logic Symbols and Diagrams Status: Superseded Publication type: Collection Title: Electrical and Electronics Graphic Symbols and Reference Designations Status: Superseded Publication type: Collection Title: National Electric Safety Code Interpretations 1988-1990, Inclusive Status: Superseded **A companion to NESC Interpretations 1961-1977, 1978-1980, 1981-1984, and 1984-1987 inclusive Publication type: Special Publication Key Words: elec supply stations, overhd elec supply, communications lines, undergd elec supply, clearances , strength requiremts Title: IEEE Stationary Battery Standards Collection, Fall 1990 Edition Status: Superseded Publication type: Collection Title: CAMAC Instrumentation and Interface Standards Status: Superseded Publication type: Collection Title: National Electrical Safety Code Preprint 1993 Proposals Status: Superseded Publication type: Special Publication Title: NESC Handbook: Discussion of the National Electrical Safety Code—Second Edition Status: Superseded Publication type: Standards Press Title: IEEE Guides and Standards for Protective Relaying Systems, Spring 1991 Edition Status: Superseded Publication type: Collection Title: NESC Interpretation - 5th edition Status: Superseded Publication type: Special Publication Title: IEEE VuSpec: Safety & Security Standards Series, Volume II: Computers & Networks Status: Approved Publication of IEEE , Published Date: Nov 15, 2005 Title: IEEE VuSpec: Safety & Security Standards Series, Volume I: Critical Infrastructure Status: Approved Publication of IEEE , Published Date: Nov 15, 2005 Title: IEEE VuSpec: The IEEE Color Books Industrial Power Pack Status: Approved Publication of IEEE , Published Date: Dec 09, 2005 Title: IEEE VuSpec™: Incident and Traffic Management Status: Approved Publication of IEEE , Published Date: Sep 21, 2005 Title: IEEE VuSpec™: Nuclear Power Engineering Status: Approved Publication of IEEE , Published Date: Aug 15, 2005 Title: IEEE VuSpec™: Nuclear Power Engineering and Technology Standards Status: Approved Publication of IEEE , Published Date: Aug 15, 2005 Title: IEEE VuSpec™: Intelligent Transportation Systems Status: Approved Publication of IEEE , Published Date: Aug 02, 2005 Title: IEEE VuSpec™: IEEE Defense Standards CD Status: Approved Publication of IEEE , Published Date: Sep 19, 2005 Title: IEEE VuSpec™: IEEE Energy Standards CD Status: Approved Publication of IEEE , Published Date: Sep 19, 2005 Designation: - Title: NESC Archives 1973-2000 Status: Approved Publication of IEEE , Published Date: Apr 21, 2006 Abstract: Containing all editions of the National Electrical Safety Code® in effect from 1973 to 2000, NESC®: The Archives (1973- 2000) is an invaluable authoritative resource on safety requirements for power, communications, telephone, cable TV, and railroad signal systems. Offered together for the first time on this Limited Edition user-friendly VuSpec™ CD-ROM, NESC®: The Archives (1973-2000) embodies the expertise and hard work of the engineers who revised each edition. Key Words: communications industry safety; construction of communication lines; construction of electric supply lines; electric supply stations, electric utility stations; electrical safety; high-voltage safety; operation of communications systems; operation of electric supply systems; power station equipment; power station safety; public utility safety; safety work rules; underground communication line safety; underground electric line safety Designation: 1-2000 Sponsor: SASB/SCC04-SCC04 - Electrical Insulation Reaffirmation Status and Year: 2005 Title: IEEE Recommended Practice - General Principles for Temperature Limits in the Rating of Electrical Equipment and for the Evaluation of Electrical Insulation Status: Approved Publication of IEEE , Published Date: Apr 30, 2001 **Supersedes 1-1986 (R1992). Technical Contact: Paulette Payne Powell, Phone:202-388-2335, Email:papayne@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 16, 1997, BD APP: Dec 07, 2000, ANSI APP: May 03, 2001 Project Scope: Change title to a recommended practice, revise table 1, add a table to part IV, coordinate the revisions of IEEE 1, 98, and 99 for consistency, review terms and definitions for harmonization with IEC85 and IEC 505-1, revise Foreward. Project Purpose: To make the title consistent with the text. To include all temperature indexes for materials and temperature classes for insulation systems. To harmonize with IEC 85 and 505-1. Abstract: " This recommended practice is intended to serve in the preparation of standards that areprincipally concerned with the thermal endurance of EIM and simple combinations of suchmaterials, with the establishment of limiting temperatures of EIS, and with the provision of generalprinciples for thermal classification of EIS. " Designation: 1-1986 Sponsor: SASB/SCC04-SCC04 - Electrical Insulation Reaffirmation Status and Year: 1992 Title: IEEE Standard General Principles for Temperature Limits in the Rating of Electric Equipment and for the Evaluation of Electrical Insulation Status: Superseded **Superseded by 1-2000. History: BD APP: Mar 13, 1986, ANSI APP: Aug 07, 1986 Designation: 2-1929 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Title: A.I.E.E. Standards Report on Standard Definitions and Symbols Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **AIEE-2 (1929) (C42) Designation: 3-1982 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Title: IEEE Recommended Practice in the Selection of Reference Ambient Conditions for Test Measurements of Electrical Apparatus Status: Withdrawn Standard. Withdrawn Date: Mar 21, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 3/31/94. History: BD APP: May 21, 1981, ANSI APP: Apr 29, 1983 Designation: 4-1995 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Title: IEEE Standard Techniques for High-Voltage Testing Status: Approved Publication of IEEE , Published Date: Oct 12, 1995 **Revision of IEEE Std 4-1978. Technical Contact: William E. Larzelere, Phone:518-523-9795, Email:evergreen@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Feb 02, 1989, BD APP: Mar 16, 1995, ANSI APP: Aug 24, 1995 Project Scope: Defines test procedures, equipment requirements and analysis aids for testing hardware and apparatus used for electric power distribution, by all electric utilities. Project Purpose: To define terms of general applicability; to present general requirements regarding test objects and test procedure. Abstract: This standard establishes standard methods to measure high-voltage and basic testing techniques, so far as they are generally applicable, to all types of apparatus for alternating voltages, direct voltages, lightning impulse voltags, switching impulse voltages, and impulse currents. This revision implements many new procedures to improve accuracy, provide greater flexibility, and address practical problems associated with high-voltage measurements. Key Words: high-voltage testing, testing Designation: 4 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Title: Standard for High Voltage Test Techniques Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: William E. Larzelere, Phone:518-523-9795, Email:evergreen@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Nov 01, 2001 Project Scope: The proposed revision will update the current standard, add several new techniques and methods and align more completely with IEC sister standards. Project Purpose: The purpose of the standard is to make high voltage measurements more consistent. The revision will continue this evolution. Designation: 4 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Title: Standard for High Voltage Test Techniques Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: William E. Larzelere, Phone:518-523-9795, Email:evergreen@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 08, 1998 Project Scope: The proposal is to add an appendix to the existing standard. The appendix will contain information on Atmospheric Correction factors used in high voltage tests according to the scope of the Standard. The proposed appendix contains information taken exactly from the previous version of this Standard. Project Purpose: The Switchgear and Transformer committees of PES still use this older version of correction factors and are asking for it to be added back to the Standard. Currently certain apparatus committees with Standards that refer to IEEE-4 1978, cannot be updated to reference IEEE-4 1995 because the old atmospheric correction factors, that they use daily, had been eliminated from the newer version. Designation: 4-1978 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Title: IEEE Standard Techniques for High Voltage Testing Status: Superseded History: PAR APP: Jan 05, 1977, BD APP: Jan 01, 1978, ANSI APP: Apr 29, 1982 Abstract: Standard methods of measurement of high voltage and basic techniques for dielectrics, so far as they are generally applicable to all types of apparatus, for alternating voltages, direct voltages, lightning impulse voltages, switching impulse voltages, and impulse currents are established. General definitions and test requirements are provided, and test procedures and measuring devices are described. A measuring devices application guide and recommendations for voltage measurements by means of sphere gaps are included. The contents are based on and adhere very closely to IEC high-voltage test techniques documents. Key Words: high, voltage, testing, techniques Designation: 4a-2001 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Title: Standard for IEEE Amendment to High Voltage Test Techniques Status: Approved Publication of IEEE , Published Date: Mar 21, 2001 Technical Contact: William E. Larzelere, Phone:518-523-9795, Email:evergreen@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: May 16, 2000, BD APP: Mar 17, 2001, ANSI APP: Aug 02, 2001 Project Scope: The proposal is to add an Appendix to the existing standard. The appendix will contain information on Atmospheric Correction factors used in high voltage tests according to the scope of the Standard. The proposed appendix contains information taken exactly from the previous version of this Standard. Project Purpose: The Switchgear and Transformer committees of PES still use this older version of correction factors and are asking for it to be added back to the Standard. Currently certain apparatus committees with Standards that refer to IEEE-4 1978, cannot be updated to reference IEEE-4 1995 because the old atmospheric correction factors, that they use daily, have been eliminated from the newer version. Abstract: This amendment sets forth a number of clarifications and corrections to IEEE Standard Techniques for High-Voltage Testing. Key Words: "atmospheric correction factors, high-voltage testing, testing" Designation: P7-4.3.2 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard Criteria for Digital Computers in Safety Systems of Nuclear Power Generating Stations Status: Modified Revision Project Technical Contact: Warren Odess-Gillett, Phone:412-374-3341, Email:warren.r.odess_gillett@us.westinghouse.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This standard serves to amplify criteria in IEEE Std 603-1998, IEEE Standard Criteria for Safety Systems for Nuclear Power Generating Stations, to address the use of computers as part of safety systems in nuclear power generating stations. The criteria contained herein, in conjunction with criteria in IEEE Std 603-1998, establish minimum functional and design requirements for computers used as components of a safety system. Project Purpose: The purpose is to establish minimum functional and design requirements for computers used as components of safety systems. **This stated purpose will not be included in the standard. Designation: 7-4.3.2-2003 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard Criteria for Digital Computers in Safety Systems of Nuclear Power Generating Stations Status: Superseded **Supersedes 7-4.3.2-1993. Technical Contact: Charles Roslund, Phone:412-374-6613, Email:rosluncj@notes.westinghouse.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Feb 14, 2002, BD APP: Sep 11, 2003, ANSI APP: Jan 29, 2004 Project Scope: The original scope will be clarified as follows: The standard serves to amplify criteria in IEEE Std 603 for computers used as components of safety systems in nuclear power generating stations. Note: The existing scope unnecessarily includes a definition of computers. Project Purpose: The purpose is to establish minimum functional and design requirements for computers used as components of safety systems. The purpose of this revision is to improve the usability of this standard and to address industry comments. The proposed project will clarify existing commercial grade item dedication requirements and guidelines; make the existing verification and validation requirements consistent with the requirements in IEEE Std 1012; add requirements for self-diagnostic and fault detection; and, overall, improve the usability of this standard and its consistency with IEEE Std 603. Abstract: Additional computer specific requirements to supplement the criteria and requirements of IEEE Std 603™-1998 are specified. Within the context of this standard, the term computer is a system that includes computer hardware, software, firmware, and interfaces. The criteria contained herein, in conjunction with criteria in IEEE Std 603-1998, establish minimum functional and design requirements for computers used as components of a safety system. Key Words: "commercial grade item, diversity, safety systems, software, software tools, software verification and validation" Designation: 7-4.3.2-1993 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Criteria for Digital Computers in Safety Systems of Nuclear Power Generating Stations Status: Superseded **Was ANSI C68.1. Revision of ANSI/IEEE-ANS-7-4.3.2-1982. Superseded by 7- 4.3.2-2003. History: PAR APP: Jun 01, 1989, BD APP: Sep 15, 1993, ANSI APP: Feb 24, 1994 Abstract: Additional computer specific requirements to supplement the criteria and requirements of IEEE Std 603-1991 are specified. Within the context of this standard, the term computer is a system that includes computer hardware, software, firmware, and interfaces. The criteria contained herein, in conjunction with criteria in IEEE Std 603-1991, establish minimum functional and design requirements for computers used as components of a safety system. Key Words: commercial grade , diversity, safety systems, software tools Designation: 7-4.3.2 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard Criteria for Digital Computers in Safety Systems of Nuclear Power Generating Stations Status: Superseded Technical Contact: Charles Roslund, Phone:412-374-6613, Email:rosluncj@notes.westinghouse.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This standard serves to amplify criteria in IEEE Std 603-1998, IEEE Standard Criteria for Safety Systems for Nuclear Power Generating Stations, to address the use of computers as part of safety systems in nuclear power generating stations. The criteria contained herein, in conjunction with criteria in IEEE Std 603-1998, establish minimum functional and design requirements for computers used as components of a safety system. Project Purpose: The purpose is to establish minimum functional and design requirements for computers used as components of safety systems. Designation: 7-4.3.2-1982 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: American National Standard Application Criteria for Programmable Digital Computer Systems in Safety Systems of Nuclear Power Generating Stations Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: PAR APP: Jun 01, 1981, BD APP: May 21, 1981, ANSI APP: Jul 06, 1982 Key Words: *7432 Designation: 11-2000 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 2006 Title: IEEE Standard for Rotating Electric Machinery for Rail and Road Vehicles Status: Approved Publication of IEEE , Published Date: Jul 31, 2000 **This standard supersedes 11-1980 (R1992). History: PAR APP: Sep 16, 1997, BD APP: Jan 30, 2000, ANSI APP: Jun 07, 2000 Project Scope: To revise and update the standard and to consider inclusion of inverter driven AC induction motors in this standard. To reconcile with other existing international standards, e.g. IEC 349. Project Purpose: To bring this standard up to date by addressing specific issues submitted as comments during the reaffirmaton ballot. Abstract: This standard applies to rotating electric machinery which forms part of the propulsionand major auxiliary equipment on internally and externally powered electrically propelled rail androad vehicles and similar large transport and haulage vehicles and their trailers where specified inthe contract. Designation: 11-1980 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1992 Title: IEEE Standard for Rotating Electric Machinery for Rail and Road Vehicles Status: Superseded **Revision of IEEE Std 11-1962. This standard was superseded by 11-2000. History: BD APP: Mar 13, 1980, ANSI APP: Mar 26, 1982 Designation: 15-1928 Sponsor: IEEE Industry Applications Society Title: A.I.E.E. Standards Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 16-2004 Sponsor: IEEE Vehicular Technology Society/Rail Transit Title: IEEE Standard for Electrical and Electronic Control Apparatus on Rail Vehicles Status: Approved Publication of IEEE , Published Date: Mar 25, 2005 Technical Contact: Jim Dietz, Phone:215-641-8876, Email:jdietz@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 30, 2000, BD APP: Sep 23, 2004, ANSI APP: Feb 02, 2005 Project Scope: This standard prescribes design, application, and test requirements for electrical and electronic control apparatus on rail vehicles. Project Purpose: This standard is intended to provide a set of uniform design, application, and test requirements for electrical and electronic control apparatus on rail vehicles. These requirements are the minimum necessary to ensure suitability for use in a rail vehicle environment. Use of this should lead to enhanced levels of reliability, and lower acquisition and maintenance costs. Abstract: This standard is intended to provide a set of uniform design, application, and test requirements for electrical and electronic control apparatus on rail vehicles. Key Words: apparatus, control, design, electrical, electrohydraulic, electronic, electropneumatic, rail, routine test, test, transit, type test Designation: 16 Sponsor: IEEE Vehicular Technology Society/Land Transportation Title: Electric Control Apparatus for Land Transportation Vehicles Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Rudy A Van Eck, Phone:213-617-3448 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 11, 1986 Designation: 16-1955 Sponsor: IEEE Vehicular Technology Society/Land Transportation Title: IEEE Standard for Electric Control Apparatus for Land Transportation Vehicles Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Supersedes C48-1931 and AIEE 16A-1951. History: BD APP: Oct 27, 1955 Designation: 17 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 18-2002 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: IEEE Standard for Shunt Power Capacitors Status: Approved Publication of IEEE , Published Date: Oct 14, 2002 **Supersedes 18-1992. Technical Contact: Ignacio Ares, Phone:(305) 485-6517, Email:ignacio_ares@fpl.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 19, 1996, BD APP: Mar 21, 2002, ANSI APP: Jul 27, 2002 Project Scope: This standard applies to capacitors rated 216V or higher, 2.5 kvar or more, and designed for shunt connection to alternating current transmission and distribution systems operating at a nominal frequency of 50 or 60 Hz. Project Purpose: To revise std 18 as appropriate to better coincide with other national and international standards. The main areas that the group will concentrate on will include the evaluation of several unit ratings covered by std 18 to coincide with NEMA stds, evaluation of internal discharge device to coincide with IEC stds, and the evaluation of various portions of the section covering application and operation of shunt power capacitors to coordinate with IEEE std. 1036. Abstract: " Capacitors rated 216 V or higher, 2.5 kvar or more, and designed for shunt connection toalternating-current transmission and distribution systems operating at a nominal frequency of 50 Hzor 60 Hz, within the guidelines of IEEE Std 1036-1992, are considered. " Key Words: "capacitors, shunt connection, transmission and distribution systems" Designation: P18 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: Standard for Shunt Power Capacitors Status: Revision Project Technical Contact: Jeffrey H Nelson, Phone:423 751 8275, Email:jeffnelson@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This standard applies to power capacitors rated 216V or higher, 2.5 kvar or more, and designed for shunt connection to alternating current transmission and distribution systems operating at a nominal frequency of 50 or 60 Hz. Project Purpose: IEEE 18 will not have a purpose statement. Designation: 18-1992 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: IEEE Standard for Shunt Power Capacitors Status: Superseded **Revision of IEEE Std 18-1990. Was ANSI C55.1. Superseded by 18-2002. History: PAR APP: Nov 09, 1989, BD APP: Sep 17, 1992, ANSI APP: May 26, 1993 Abstract: Capacitors rated 216 V or higher, 2.5 kvar or more, and designed for shunt connection to alternating-current transmission and distribution systems operating at a nominal frequency of 50 or 60 Hz are considered. Service conditions, ratings, manufacturing, and testing are covered. A guide to application and operation of power capacitors is included. Key Words: capacitors, shunt, connection, transmission, distribution, systems, C55.1, shunt power, Transmission and distribution , Shunt connection Designation: 18-1980 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Reaffirmation Status and Year: 1991 Title: IEEE Standard for Shunt Power Capacitors Status: Superseded History: BD APP: Mar 15, 1979, ANSI APP: Nov 07, 1980 Designation: 19 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 21-1976 Sponsor: IEEE Power & Energy Society/Transformers Title: IEEE General Requirements and Test Procedure for Outdoor Apparatus Bushings Status: Superseded **Redesignated IEEE Std C57.19.00 History: BD APP: Jun 03, 1976, ANSI APP: Jul 23, 1976 Designation: 22A-1962 Sponsor: IEEE Power & Energy Society/Switchgear Reaffirmation Status and Year: 1977 Title: IEEE Guide for the Application of Interrupter Switches to Switch Capacitance Loads Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: PAR APP: Nov 28, 1983, ANSI APP: Dec 31, 1963 Abstract: 8/90: In process of being rewritten as C37.36 Key Words: 22A Designation: 24-1984 Sponsor: IEEE Power & Energy Society/Transformers Title: IEEE Standard Performance Characteristics and Dimensions for Outdoor Apparatus Bushings Status: Superseded **Same as C57.19.01 History: BD APP: Dec 17, 1981, ANSI APP: Aug 05, 1983 Key Words: bushings, apparatus, outdoor Designation: 30 Sponsor: IEEE Power & Energy Society/Insulated Conductors Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 31 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 32-1972 Sponsor: IEEE Power & Energy Society/Transformers Reaffirmation Status and Year: 1997 Title: IEEE Standard Requirements, Terminology, and Test Procedures for Neutral Grounding Devices Status: Approved Publication of IEEE **Dec2002: Sponsor change from PE/SPD to PE/TR. Being revised by PC57.32. History: BD APP: Mar 21, 1972, ANSI APP: Feb 27, 1991 Project Scope: To review and update requirements and tests for equipment used for neutral grounding devices, and the terminology presently used. Abstract: "ANSI/IEEE Std 32-1972 (Reaffirmed 1990) IEEE Standard Requirements, Terminology, and Test Procedure for Neutral Grounding Devices" Key Words: "IEEE Std 32-1972 (Reaff 1990) IEEE Standard Requirements, Terminology, and Test Procedures for Neutral Grounding Devices. This standard applies to devices - other than surge arresters - used for the purpose of controlling the ground current or the pote" Designation: 34 Sponsor: IEEE Communications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 37 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 38 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 39 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 43-2000 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 2006 Title: IEEE Recommended Practice for Testing Insulation Resistance of Rotating Machinery Status: Approved Publication of IEEE , Published Date: Mar 23, 2000 Technical Contact: Vicki Warren, Phone:931-670-7829, Email:vtwarren@msn.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 21, 1996, BD APP: Mar 06, 2000, ANSI APP: Oct 12, 2000 Project Scope: Revise and update the Recommended Practice to reflect the characteristics of newer insulating materials and resistance measurement methods. The revision will address problems that have been encountered in recent years with the application of Polarization Indexes on extremely high resistance insulation systems. Project Purpose: The project will provide an up-to-date Recommended Practice for meausrement of electrical insulation resistance for windings used in rotating machinery rated 1hp, 1KW or greater. Abstract: " This document describes the recommended procedure for measuring insulation resis-tance of armature and field windings in rotating machines rated 1 hp, 750 W or greater. It appliesto synchronous machines, induction machines, dc machines, and synchronous condensers. Con-tained within this document is the general theory of insulation resistance (IR) and polarization index(P.I.), as well as factors affecting the results, test procedures, methods of interpretation, test limita-tions, and recommended minimum values. " Key Words: "absorption current,conductoin current,discharge current,geometric capacitive current,insulation resistance,polarization index, surface leakage current" Designation: P43 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Recommended Practice for Testing Insulation Resistance of Rotating Machinery Status: Revision Project Technical Contact: Ian Culbert, Phone:416-620-5600, Email:iculbert@irispower.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This document describes a recommended procedure for measuring insulation resistance of armature and field windings in rotating machines rated 1 hp, 750 W or greater. It applies to synchronous machines, induction machines, dc machines, and synchronous condensers. It does not apply to fractional-horsepower machines. The document also describes typical insulation resistance characteristics of rotating machine windings and how these characteristics indicate winding condition. It recommends minimum acceptable values of insulation resistance for ac and dc rotating machine windings. Project Purpose: a) Define insulation resistance and polarization index testing of the winding of a rotating machine. b) Review the factors that affect or change insulation resistance characteristics. c) Recommend uniform test conditions. d) Recommend uniform methods for measuring insulation resistance with precautions to avoid erroneous results. e) Provide a basis for interpreting insulation resistance test results to estimate winding suitability for service or for an overvoltage test. In particular, this standard describes typical insulation problems detected by the insulation resistance test. f) Present recommended minimum acceptable insulation resistance values and polarization indices for various types of rotating machines. Designation: 43-1974 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1991 Title: IEEE Recommended Practice for Testing Insulation Resistance of Rotating Machinery Status: Superseded **Revision of IEEE Std 43-1961. Was ANSI C50.22. Superseded by 43-2000. History: BD APP: May 30, 1974, ANSI APP: Apr 20, 1992 Abstract: Insulation resistance characteristics of rotating-machine windings and the manner in which these characteristics may serve to indicate the condition of the winding are described. The recommended procedure for the measurement of insulation resistance of windings of rotating machines rated 1 hp, 1 kW or greater is presented. The recommended minimum value of insulation resistance of alternating-current and direct-current rotating-machine windings is given. Synchronous machines, induction machines, direct- current machines, and synchronous converters are covered, as well as armature windings and field windings. Fractional-horsepower machines are not included. Key Words: insulation, resistance, rotating, motors, generators, Rotating- machine insulation testing Designation: 45-2002 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: IEEE Recommended Practice for Electric Installations on Shipboard Status: Approved Publication of IEEE , Published Date: Oct 09, 2002 **Supersedes 45-1998. Publication type: Special Publication Technical Contact: H.R Stewart, Phone:281-444-8117, Email:hrsc@earthlink.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jan 30, 2000, BD APP: Sep 12, 2002, ANSI APP: Jan 22, 2003 Project Scope: This recommended practice will serve as a guide for the selection and installation of electrical equipment for lighting, signaling, communications, power and propulsion in marine applications. Project Purpose: The main purpose of this standard is to provide a consensus of recommended practices in the unique field of marine electrical engineering as applied specifically to ships, shipboard systems, and equipment. Abstract: " Recommendations for the design, selection, and installation of equipment on merchantvessels with electrical apparatus for lighting, signaling, communication, power, and propulsion areprovided." Key Words: "marine electrical engineering, marine vessels, shipboard systems, ships" Designation: 45-1998 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: IEEE Recommended Practice for Electric Installations on Shipboard Status: Superseded **Revision of IEEE Std 45-1983. Superseded by 45-2002. History: PAR APP: Jun 25, 1998, BD APP: Sep 16, 1998 Project Scope: Provide marine recommendations intended for selection and installation of equipment on vessels with electric apparatus. Project Purpose: Recommendations to define present-day engineering practices with reference to safety of personnel and of the ship itself. Attention is directed to other standards and requlations for electric installations on shipboard such as those promulgated by Government Regulartory Agencies and Intergovernmental Maritime Organizations. Abstract: " Recommendations for the selection and installation of equipment on merchant vesselswith electric apparatus for lighting, signaling, communication, power, and propulsion are provided. " Key Words: "marine electrical engineering, marine vessels, shipboard systems, ships" Designation: 45-1983 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Reaffirmation Status and Year: 1988 Title: IEEE Recommended Practice for Electrical Installations on Shipboard Status: Superseded History: BD APP: Oct 20, 1988, ANSI APP: Apr 26, 1989 Designation: 45 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Recommended Practice for Electrical Installations on Shipboard Status: Superseded Technical Contact: H.R Stewart, Phone:281-444-8117, Email:hrsc@earthlink.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 09, 2005 Project Scope: These recommendations establish the minimally acceptable guidelines for the design, selection, and installation of systems and equipment aboard marine vessels applying electrical apparatus for power, propulsion, steering, automation, navigation, lighting, and communications. These recommendations describe present-day acceptable electrical engineering methods and practices. It is recognized that changes and improvements in shipboard requirements may develop that are not specifically covered herein; such changes, if incorporated in the design, should be equal to the safety and reliability levels established herein and generally in accord with the intent of these standards. In developing these recommendations, consideration was given to the electrical and engineering requirements promulgated by various regulatory agencies, classification societies, and by the International Maritime Organization.s International Convention for the Safety of Life at Sea (IMO SOLAS), as amended. This recommended practice was developed by a voluntary consensus body to provide assistance and guidance to regulatory agencies governing electrical engineering requirements. Project Purpose: The main purpose of this recommended practice is to provide a consensus of recommended practices in the unique field of marine electrical engineering as applied specifically to ships, shipboard systems, and equipment. Designation: P45.1 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Recommended Practice for Electrical Installations on Shipboard - Design Status: New Standard Project Technical Contact: Mohammed Islam, Phone:504-739-4253, Email:moni.islam@L-3com.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: The design recommendations for AC power systems, DC power systems, emergency power systems, shore power, power quality and harmonics, electric propulsion and maneuvering systems, motors and drives, thrusters, steering systems on shipboards are established by this document. These recommendations reflect the present-day technologies, engineering methods, and engineering practices. This document is intended to be used in conjunction with IEEE 45. Project Purpose: An extension of the baseline technology and methods covered in IEEE Std 45, P45.1 provides a consensus of recommended practices for design in marine electrical engineering as applied specifically to ships, shipboard systems, and equipment. Designation: P45.2 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Recommended Practice for Electrical Installations on Shipboard - Controls and Automation Status: New Standard Project Technical Contact: Mohammed Islam, Phone:504-739-4253, Email:moni.islam@L-3com.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: The recommendations for controls, control applications, control apparatus, and automation on shipboards are established by this document. These recommendations reflect the present-day technologies, engineering methods, and engineering practices. This document is intended to be used in conjunction with IEEE 45. Project Purpose: An extension of the baseline technology and methods covered in IEEE Std 45, P45.2 provides a consensus of recommended practices for control applications and automation in marine electrical engineering as applied specifically to ships, shipboard systems, and equipment. Designation: P45.3 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Recommended Practice for Electrical Installations on Shipboard - Systems Integration Status: New Standard Project Technical Contact: Mohammed Islam, Phone:504-739-4253, Email:moni.islam@L-3com.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This document provides recommendations on integration of electric systems at the total ship level. The systems integration includes system engineering, design and integration of the entire electrical system, fully integrated into a ship, from concept design through production. This document is intended to be used in conjunction with IEEE 45. Project Purpose: An extension of the baseline technology and methods covered in IEEE Std 45, P45.3 provides a consensus of recommended practices for systems integration in marine electrical engineering as applied specifically to ships, shipboard systems, and equipment. Designation: P45.4 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Recommended Practice for Electrical Installations on Shipboard - Marine Sectors and Mission Systems Status: New Standard Project Technical Contact: Mohammed Islam, Phone:504-739-4253, Email:moni.islam@L-3com.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This recommended practice identifies the various marine segments and ships covered by IEEE 45 and other standards such as IEEE 1713. It provides grouping of ships and their predominant mission systems for classification and used by other parts of IEEE 45 and other standards. This document is intended to be used in conjunction with IEEE 45. Project Purpose: An extension of the baseline technology and methods covered in IEEE Std 45, P45.4 provides a consensus of recommended practices for marine sectors and mission systems in marine electrical engineering as applied specifically to ships, shipboard systems, and equipment. Designation: P45.5 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Recommended Practice for Electrical Installations on Shipboard - Safety Considerations Status: New Standard Project Technical Contact: Mohammed Islam, Phone:504-739-4253, Email:moni.islam@L-3com.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: The recommendations for the design for safety on shipboards are established by this document. These recommendations reflect the present-day technologies, engineering methods, and engineering practices. This document is intended to be used in conjunction with IEEE 45. Project Purpose: An extension of the baseline technology and methods covered in IEEE Std 45, P45.5 provides a consensus of recommended practices for safety in marine electrical engineering as applied specifically to ships, shipboard systems, and equipment. Designation: P45.6 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Recommended Practice for Electrical Installations on Shipboard - Electrical Testing Status: New Standard Project Technical Contact: Mohammed Islam, Phone:504-739-4253, Email:moni.islam@L-3com.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: The recommendations for system testing on shipboards are established by this document. These recommendations reflect the present-day technologies, engineering methods, and engineering practices. This document is intended to be used in conjunction with IEEE 45. Project Purpose: An extension of the baseline technology and methods covered in IEEE Std 45, P45.6 provides a consensus of recommended practices for system testing in marine electrical engineering as applied specifically to ships, shipboard systems, and equipment. Designation: 46 Sponsor: IEEE Power & Energy Society/Insulated Conductors Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 47 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 48-2009 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Standard for Test Procedures and Requirements for Alternating- Current Cable Terminations Used on Shielded Cables Having Laminated Insulation Rated 2.5 kV through 765 kV or Extruded Insulation Rated 2.5 kV through 500 kV Status: Approved Publication of IEEE , Published Date: Aug 21, 2009 **Revision of IEEE Std 48-1996 History: BD APP: Jun 17, 2009, ANSI APP: Oct 08, 2009 Project Scope: This standard covers all indoor and outdoor cable terminations used on alternating-current shielded cables having laminated insulation from 2.5 kV through 765 kV and extruded insulation rated 2.5 kV through 500 kV, except separable insulated connectors, which are covered by IEEE Std 386™- 2006 [B18].1 Cable terminations and component parts shall be capable of withstanding the tests specified in this standard. Abstract: All indoor and outdoor cable terminations used on alternating-current cables having laminated insulation rated 2.5 kV through 765 kV or extruded insulation rated 2.5 kV through 500 kV are covered, except for separable insulated connectors, which are covered by IEEE Std 386™-2006. Key Words: 48-2009, accelerated contamination testing, correction factors, dielectric field tests, environmental exposure, nonstandard service conditions, rating, solar radiation, standard service conditions, test requirements, ultraviolet light Designation: 48-1996 Sponsor: IEEE Power & Energy Society/Insulated Conductors Reaffirmation Status and Year: 2003 Title: IEEE Standard Test Procedures and Requirements for Alternating-Current Cable Terminations 2.5 kV Through 765 kV Status: Superseded **Revision of Std 48-1990. Superseded by 48-2009. History: PAR APP: Sep 26, 1991, BD APP: May 02, 1996, ANSI APP: Sep 23, 1996 Project Scope: This standard covers all indoor and outdoor cable terminators used on alternating-current cables having laminated or extruded insulation rated 2.5 kV through 765 kV, except separable insulated connectors, which are covered by IEEE Std. 386-1995, IEEE Standard for Separable Insulated Connectors System for Power Distribution Systems above 600 V. Project Purpose: This standard shall provide standard test procedures and requirements for high voltage alternating current cable terminations. Abstract: All indoor and outdoor cable terminations used on alternating-current cables having laminated or extruded insulation rated 2.5 kV through 765 kV are covered, except for separable insulated connectors, which are covered by IEEE Std 386-1995. Key Words: alternating currents, cable terminations, accelerated , contamination test, correction factors, dielectric field , environmental, exposure, nonstandard, service conditions, rating, solar radiation, test requirements, ultraviolet light Designation: 48-1990 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Standard Test Procedures and Requirements for High-Voltage Alternating-Current Cable Terminations Status: Superseded **Revision of IEEE Std 48-1975. History: BD APP: Jan 25, 1990, ANSI APP: Jun 06, 1990 Abstract: This standard applies to all indoor and outdoor cable terminations used on ac cables having laminated or extruded insulation rated 2.5 kV through 500 kV except separable insulated connectors. Key Words: high-voltage, cable terminators, alternating currents Designation: 48-1975 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Standard Test Procedures and Requirements for High-Voltage Alternating-Current Cable Terminations Status: Superseded **Revision of 48-1962. Superseded by 48-1990 History: BD APP: Dec 20, 1974 Designation: 48 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: Standard Test Procedures and Requirements for Alternating Current Cable Terminations Used on Shielded Cables Having Laminated Insulation Rated 2.5 kV through 765 kV or Extruded Insulation Rated 2.5 kV through 500 kV Status: Superseded Technical Contact: Jim Braun, Phone:763-323-2802, Email:jimbr@connexusenergy.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 22, 2005 Project Scope: This standard covers all indoor and outdoor cable terminations used on alternating-current shielded cables having laminated insulation rated 2.5 kV through 765 kV and extruded insulation rated 2.5 kV through 500 kV, except separable insulated connectors, which are covered by IEEE Std. 386-1995, IEEE Standard for Separable insulated Conductor Systems for Power Distribution Systems Above 600 V. Project Purpose: The purpose is to make minor revisions and up-date the document. In addition, IEEE 48 (Termination Standard) will be coordinated with IEEE 404-2000 (IEEE Standard for Extruded and Laminated Dielectric Shielded Cable Joints Rated 2500 to 500 000 V) to accommodate the testing of both cable accessories simultaneously. Designation: 48 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: Standard Test Procedures and Requirements for Alternating Current Cable Terminations Used on Shielded Cables Having Laminated Insulation Rated 2.5 kV through 765 kV or Extruded Insulation Rated 2.5 kV through 500 kV Status: Superseded Project Scope: This standard covers all indoor and outdoor cable terminations used on alternating-current shielded cables having laminated insulation rated 2.5 kV through 765 kV and extruded insulation rated 2.5 kV through 500 kV, except separable insulated connectors, which are covered by IEEE Std. 386-1995, IEEE Standard for Separable insulated Conductor Systems for Power Distribution Systems Above 600 V. Cable terminations and component parts shall be capable of withstanding the tests specified in this standard. Project Purpose: The purpose is to make minor revisions and up-date the document. In addition, IEEE 48 (Termination Standard) will be coordinated with IEEE 404-2000 (IEEE Standard for Extruded and Laminated Dielectric Shielded Cable Joints Rated 2500 to 500 000 V) to accommodate the testing of both cable accessories simultaneously. The purpose clause will not be contained in the draft standard. Designation: 49 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 51 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 52 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 54-1955 Sponsor: IEEE Industry Applications Society Title: IEEE Standard, Test Code, and Recommended Practice for Induction and Dielectric Heating Equipment Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 55-1953 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Guide for Temperature Correlation in the Connection of Insulated Wire and Cables to Electronic Equipment Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 56 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Guide for Insulation Maintenance of Electric Machines Rated 1 MVA and Higher Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Douglas Conley, Phone:+1 704 551 5568, Email:douglas.conley@siemens.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 07, 2005 Project Scope: This insulation maintenance guide is applicable to rotating electric machines rated from 1 MVA and higher. The procedures detailed herein may also be useful for insulation maintenance of other types of machines. Project Purpose: The purpose of this guide is to present information necessary to permit an effective evaluation of the insulation systems of rotating electrical machines. Such an evaluation can serve as a guide to the degree of maintenance or replacement which might be deemed necessary, and also offer some indication of the future service reliability of the equipment under consideration. Designation: 56-1977 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1991 Title: IEEE Guide for Insulation Maintenance of Large Alternating-Current Rotating Machinery (10,000 kVA and Larger) Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 56-1958. 16-Jan-04: Administratively withdrawn. Technical Contact: Bal K Gupta, Phone:416-621-6035, Email:bal.gupta@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Jun 03, 1976, ANSI APP: Apr 20, 1992 Abstract: Information necessary to permit an effective evaluation of the insulation systems of alternating-current rotating electrical machines rated at 10,000 kVA or more, and operating at voltages of 6000 V and above is presented. The significance of maintenance, severe conditions reducing insulation life, and insulation systems in general use are discussed. Visual inspection methods, cleaning procedures, and maintenance tests are described. Key Words: insulation, maintenance, rotating, AC, motors, Rotating-machine insulation testing, Rotating-machine insulation, Power system maintenance, AC machines Designation: 57-1959 Sponsor: IEEE Dielectrics and Electrical Insulation Society Title: IEEE Thermal Stability of Enameled Wire in Air Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 58-1978 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1983 Title: IEEE Standard Induction Motor Letter Symbols Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: M. Harry Hesse **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Mar 11, 1976, ANSI APP: Sep 25, 1986 Key Words: symbols, letter, motor, induction Designation: 59 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 60 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 62-1995 Sponsor: IEEE Power & Energy Society/Transformers Reaffirmation Status and Year: 2005 Title: IEEE Guide for Diagnostic Field Testing of Electric Power Apparatus - Part 1: Oil Filled Power Transformers, Regulators, and Reactors Status: Approved Publication of IEEE **Revision of IEEE Std 62-1978. Technical Contact: Jane Ann Verner, Phone:202-872-2812, Email:javerner@pepco.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 17, 1994, BD APP: Mar 16, 1995, ANSI APP: Aug 24, 1995 Abstract: Diagnostic tests and measurements that are performed in the field on oil-immersed power transformers and regulators are described. Whenever possible, shunt reactors are treated in a similar manner to transformers. Tests are presented systematically in categories depending on the subsystem of the unit being examined. A diagnostic chart is included as an aid to identify the various subsystems. Additional information is provided regarding specialized test and measuring techniques. Key Words: oil filled transformer, regulators, reactors, diagnostic evaluation, off-line testing, field testing, windings, bushings, insulating fluids, tapchangers, core, tanks, safety, diagnostic field, power apparatus, diagnostic evaluation, Oil filled transformers Designation: 62-1978 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Title: IEEE Guide for Field Testing Power Apparatus Insulation Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Key Words: insulation, apparatus, testing, field, power Designation: 62.2-2004 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 2009 Title: IEEE Guide for Diagnostic Field Testing of Electric Power Apparatus - Electrical Machinery Status: Approved Publication of IEEE , Published Date: Jun 08, 2005 **This project is jointly sponsored by PE/EM and PE/I&M Technical Contact: Thomas R Wait, Phone:415-973-3864, Email:trw1@pge.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 26, 1997, BD APP: Dec 08, 2004 Project Scope: This is a guide for determining applicable tests and inspection techniques for various types of large rotating electric machines. It provides short discussions relating to the capabilities and limitations of each test, typical test procedures and in some cases, how to interpret the expected range of results. This is to be a companion document to P62 Part 1-1995. Project Purpose: This guide is intended to assist maintenance personnel in determining what diagnostic tests should be planned for their rotating electrical machines, what should be expected of the tests and in general, how to perform the tests. This guide brings together all commonly performed appropriate tests for electrical machines in one document and references other individual standards so more detailed information may be attained. Abstract: This is a guide for determining applicable tests and inspection techniques for various types of large rotating electric machines. It provides short discussions relating to the capabilities and limitations of each test, typical test procedures and in some cases, how to interpret the expected range of results. This is to be a companion document to P62 Part 1-1995. Key Words: brushless machine, commutator, damper winding, partial discharge, stator core, stator winding, thermocouple Designation: 66 Sponsor: IEEE Power & Energy Society/Electric Machinery Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 67-2005 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Guide for Operation and Maintenance of Turbine Generators Status: Approved Publication of IEEE , Published Date: May 08, 2006 Technical Contact: Geoffrey S Klempner, Phone:416-592-5651, Email:geoff.klempner@nuclearsafetysolutions.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 21, 2002, BD APP: Nov 29, 2005, ANSI APP: Apr 17, 2006 Project Scope: This guide covers general recommendations for the operation, loading, and maintenance of turbine-driven synchronous generators, termed turbine generators, having cylindrical rotors. It does not apply to generators having salient pole rotors. The generators covered by this guide are to have rated outputs of 10 MVA and above. Cylindrical-rotor, two- pole and four-pole generators below this rating are generally covered by NEMA MG 1.1 This guide is not intended to supplant specific or general instructions contained in the manufacturer’s instruction book or in any contractual agreement between a manufacturer and a purchaser of a given machine. Because of the rapid development in generator design and because of the ingenuity of individual generator designers, many variations are incorporated in existing machines. Therefore, it is not possible in this guide to assign specific values or fixed methods. The most that this guide can accomplish is to offer accepted and tried values and methods and give warning where hazards might be encountered. The user should keep in mind that this guide is written to cover the turbine generator. This guide is not intended to apply in any manner to the prime mover. Project Purpose: This standard is for the use of the users (power utilites) and manufacturers of turbine generators. The reason for the revision is that it has been ten years since it was previously revised and it needs updating due to the changes in the operating regimes of utilities today. The standard needs to include such things as two-shifting operation information and to consider the advances in machine designs. Abstract: This guide covers general recommendations for the operation, loading, and maintenance of turbine-driven synchronous generators that have cylindrical rotors. Key Words: cylindrical rotors, operation and maintenance of turbine generators, reactive capability, rotor windings, stator windings, turbine-driven synchronous generators Designation: 67-1990 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1995 Title: IEEE Guide for Operation and Maintenance of Turbine Generators Status: Superseded **Revision of IEEE Std 67-1972. History: PAR APP: Jun 28, 1985, BD APP: Feb 15, 1990, ANSI APP: Jul 19, 1990 Abstract: General recommendations for the operation, loading, and maintenance of turbine-driven synchronous generators having cylindrical rotors are provided. The manufacturer's and user's responsibility is discussed, and the classification of generators and the basis on which they are rated are covered. Mechanical considerations are also addressed. Key Words: cylindrical rotors, operation, Maintenance, turbine generators, turbine driven, synchronous , reactive capability, rotor windings, stator windings, Turbine-driven synchronous generator Designation: 67-1972 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1980 Title: IEEE Guide for Operation and Maintenance of Turbine Generators Status: Superseded **ANSI(R81). History: BD APP: Sep 16, 1971, ANSI APP: Nov 10, 1972 Key Words: turbiine, generators, operation, maintenance Designation: 69 Sponsor: IEEE Magnetics Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 70 Sponsor: IEEE Magnetics Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 71 Sponsor: IEEE Magnetics Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 72 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 73 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 74-1958 Sponsor: IEEE Industry Applications Society Reaffirmation Status and Year: 1974 Title: IEEE Standard Test Code for Industrial Control (600 Volts or Less) Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 75 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 76 Sponsor: Accredited Standards Committee on Transformers Title: Transformer Askarel in Equipment, Guide for Acceptance and Maintenance of (SH10769) Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 79 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 80-2000 Sponsor: IEEE Power & Energy Society/Substations Title: IEEE Guide for Safety in AC Substation Grounding Status: Approved Publication of IEEE , Published Date: Aug 04, 2000 **This guide supersedes 80-1986 (R1991). Technical Contact: David Lane Garrett, Phone:205-257-6352, Email:dlgarret@southernco.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 14, 1994, BD APP: Jan 30, 2000, ANSI APP: Jul 18, 2000 Project Scope: This guide is primarily concerned with outdoor ac substations, either conventional or gas-insulated. Distribution, transmission, and generating plant substations are included. With proper caution, the methods described herein are also applicable to indoor portions of such substations, or to substations that are wholly indoors.1 No attempt is made to cover the grounding problems peculiar to dc substations. A quantitative analysis of the effects of lightning surges is also beyond the scope of this guide. Project Purpose: The intent of this guide is to provide guidance and information pertinent to safe grounding practices in ac substation design. The specific purposes of this guide are to a) Establish, as a basis for design, the safe limits of potential differences that can exist in a substation under fault conditions between points that can be contacted by the human body. b) Review substation grounding practices with special reference to safety, and develop criteria for a safe design. c) Provide a procedure for the design of practical grounding systems, based on these criteria. d) Develop analytical methods as an aid in the understanding and solution of typical gradient problems. The concept and use of safety criteria are described in Clause 1 through Clause 8, practical aspects of designing a grounding system are covered in Clause 9 through Clause 13, and procedures and evaluation techniques for the grounding system assessment (in terms of safety criteria) are described in Clause 14 through Clause 20. Supporting material is organized in Annex A through Annex G. This guide is primarily concerned with safe grounding practices for power frequencies in the range of 50–60 Hz. The problems peculiar to dc substations and the effects of lightning surges are beyond the scope of this guide. A grounding system designed as described herein will, nonetheless, provide some degree of protection against steep wave front surges entering the substation and passing to earth through its ground electrodes.2 Other references should be consulted for more information about these subjects. Abstract: " Outdoor ac substations, either conventional or gas-insulated, are covered in this guide.Distribution, transmission, and generating plant substations are also included. With proper caution,the methods described herein are also applicable to indoor portions of such substations, or to sub-stations that are wholly indoors. No attempt is made to cover the grounding problems peculiar todc substations. A quantitative analysis of the effects of lightning surges is also beyond the scope ofthis guide. " Key Words: "ground grids, grounding, substation design, substation grounding" Designation: P80 Sponsor: IEEE Power & Energy Society/Substations Title: Guide for Safety in AC Substation Grounding Status: Revision Project Technical Contact: Richard P Keil, Phone:937-416-3324, Email:rpkeil@cai-engr.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This guide is primarily concerned with outdoor AC substations, either conventional or gas-insulated. These include distribution, transmission, and generating plant substations. With proper caution, the methods described herein are also applicable to indoor portions of such substations, or to substations that are wholly indoors. No attempt is made to cover the grounding problems peculiar to DC substations. A quantitative analysis of the effects of lightning surges is also beyond the scope of this guide. Project Purpose: The intent of this guide is to provide guidance and information pertinent to safe grounding practices in AC substation design. The specific purposes of this guide are: a) To establish, as a basis for design, the safe limits of potential differences that can exist in a substation under fault conditions between points that can be contacted by the human body; b) To review substation grounding practices with special reference to safety, and develop criteria for a safe design; c) To provide a procedure for the design of practical grounding systems, based on these criteria; d) To develop analytical methods as an aid in the understanding a ns solution of typical gradient problems; e) To provide benchmark cases using various commercial software programs. This guide is primarily concerned with safe grounding practices for power frequencies in the range of 50-60 Hz. The problems peculiar to DC substations and the effects of lightning surges are beyond the scope of this guide. Designation: 80-1986 Sponsor: IEEE Power & Energy Society/Substations Reaffirmation Status and Year: 1991 Title: IEEE Guide for Safety in AC Substation Grounding Status: Superseded **Revision of IEEE Std 80-1976. This guide was superseded by 80-2000. History: BD APP: Mar 21, 1985, ANSI APP: Dec 18, 1991 Designation: 81-1983 Sponsor: IEEE Power & Energy Society/Substations Title: IEEE Guide for Measuring Earth Resistivity, Ground Impedance, and Earth Surface Potentials of a Ground System Part 1: Normal Measurements Status: Approved Publication of IEEE , Published Date: Mar 11, 1983 **This is part 1 of the standard; part 2 is 81.2; ANSI withdrawn 2/13/95. Revision of IEEE STd 81-1962. Oct2003: Ownership transfer from PE/PSIM to PE/SUB. History: BD APP: Sep 17, 1981, ANSI APP: Sep 04, 1984 Abstract: The present state of the technique of measuring ground resistance and impedance, earth resistivity, and potential gradients from currents in the earth, and the prediction of the magnitude of ground resistance and potential gradients from scale-model tests are described and discussed. Factors influencing the choice of instruments and the techniques for various types of measurements are covered. These include the purpose of the measurement, the accuracy required, the type of instruments available, possible sources of error, and the nature of the ground or grounding system under test. The intent is to assist the engineer or technician in obtaining and interpreting accurate, reliable data. The test procedures described promote the safety of personnel and property and prevent interference with the operation of neighboring facilities. Key Words: resistivity, earth, ground, impedance, potentials Designation: P81 Sponsor: IEEE Power & Energy Society/Substations Title: Guide for Measuring Earth Resistivity, Ground Impedance, and Earth Surface Potentials of a Grounding System Status: Revision Project Technical Contact: Donald N Laird, Phone:626-302-8616, Email:donald.laird@sce.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 04, 2005 Project Scope: This project will provide a single document with practical solutions for various testing methods and interpretation of results for measurements used in the design of new and evaluation of existing grounding systems. Project Purpose: IEEE Std 81-1983 Guide for Measuring Earth Resistivity, Ground Impedance, and Earth Surface Potentials of a Ground System Part 1: Normal Measurements and IEEE 81.2 - 1991 Guide for Measurement of Impedance and Safety Characteristics of Large, Extended or Interconnected Grounding Systems have not been reviewed/revised for more than 14 years. The purpose of the new standard is to combine both documents and update content for new technologies and testing methods. Designation: 81.2-1991 Sponsor: IEEE Power & Energy Society/Substations Title: IEEE Guide for Measurement of Impedance and Safety Characteristics of Large, Extended or Interconnected Grounding Systems Status: Approved Publication of IEEE , Published Date: Jun 25, 1992 **This is part 2 of the standard; part 1 is std. 81-1983. Oct2003: Ownership transfer from PE/PSIM to PE/SUB. Technical Contact: Dennis F DeCosta, Phone:517-788-3051, Email:dfdecosta@cai-engr.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 21, 1991, BD APP: Dec 05, 1991, ANSI APP: Jun 15, 1992 Abstract: This recommended practice provides a single source of nuclear power plant system descriptions that, along with related recommended practices concerning unique identification principles and definitions, component function identifiers, and implementation instructions, provide a basis for uniquely identifying systems, structures, and components of light water nuclear power plant projects (electric power generating stations) and related facilities. The system descriptions concentrate on system function and include such internal details as are necessary to clearly support the system function description. They are not intended to serve as design input. Fossil, hydro, and other types of power plants are not included. This standard is part of a series of recommended practices, entitled the Energy Industry Identification System (EIIS), the purpose of which is to present a common language of communication that will permit a user to correlate a system, structure, or component with that of another organization for the purposes of reporting, comparison, or general communication. A significant feature of this concept is that the unique identification code identifies the function at the component level and not the hardware itself. Key Words: grounding, systems, impedance, safety Designation: 82-2002 Sponsor: IEEE Power & Energy Society/Insulated Conductors Reaffirmation Status and Year: 2009 Title: IEEE Standard Test Procedure for Impulse Voltage Tests on Insulated Conductors Status: Approved Publication of IEEE , Published Date: Mar 03, 2003 Technical Contact: Vern L Buchholz, Phone:604-298-2279, Email:vern.buchholz@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 14, 2001, BD APP: Dec 11, 2002, ANSI APP: Mar 31, 2003 Project Scope: This test procedure applies to both switching impulse and lightning impulse tests on cables or cable systems incorporating laminated or extruded insulations. The term laminated cable, as used in this procedure, includes: high-pressure pipe cable, low-pressure gas-filled cable, self-contained liquid-filled cable, solid-paper cable, and other taped cable designs. A cable system is a cable with one or more accessories attached. This test procedure is not intended to replace any existing or future standards covering cable or cable accessories, impulse generators, impulse testing, or voltage measurements. It is intended to supplement such standards by indicating specific procedures for a specific type of cable system or cable system component. This test procedure does not apply to cables or cable systems that utilize gas or gas spacers as the sole insulating medium. This test procedure applies to individual cable accessories only when referenced by the specific accessory standard. Project Purpose: This test procedure is intended as a guide for impulse testing of insulated conductors (cables) and cables with accessories installed (cable systems). It can be used as a design or qualification test for cables or cable systems. The purpose of this revision is to change to metric measurements. We will also clarify and update the test and reporting procedures based on lab research and user experience since the previous publication. Abstract: " A test procedure for impulse testing of insulated conductors (cables) and cables withaccessories installed (cable systems) is provided in this standard. This procedure can be used asa design or qualification test for cables or for cable systems. This test procedure is not intended toreplace any existing or future standards covering cable or cable accessories, impulse generators,impulse testing, or voltage measurements. It is intended to supplement such standards by providingspecific procedures for impulse testing on specific type of cables, accessories, or cable systems." Key Words: "BIL testing, cable, cable systems, impulse testing, insulated conductors" Designation: 82-1994 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Standard Test Procedure for Impulse Voltage Tests on Insulated Conductors Status: Withdrawn Standard. Withdrawn Date: Jan 15, 2001. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **administratively withdrawn on 15-Jan-2001. History: PAR APP: Sep 10, 1987, BD APP: Jun 14, 1994 Abstract: A test procedure for impulse testing of insulated conductors (cables) and cables with accessories installed (cable systems) is provided. This procedure can be used as a design or qualification test for cables or for cable systems. This test procedure is not intended to replace any existing or future standards covering cable or cable accessories, impulse generators, impulse testing or voltage measurements. It is intended to supplement such standards by indicating specific procedures for a specific type of cable system or cable system component. Key Words: cable, cable systems, impulse voltage, insulated conductors Designation: 82-1963 Sponsor: IEEE Power & Energy Society/Insulated Conductors Reaffirmation Status and Year: 1971 Title: IEEE Test Procedure for Impulse Voltage Tests on Insulated Conductors Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Key Words: conductors, insulated, impulse, test, voltage Designation: 83 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: Recommended Practice for Test Procedure for Radial Power Factor Test on Insulating Tapes in Laminar Insulated Power Cables Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: James A Moran, Phone:518/371-4796, Email:jamjor@aol.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 27, 1991 Project Scope: Provide a test method for determining radial power factor to any form of laminar insulation. Project Purpose: Provide a recommended practice to test various laminar insulated power cables. Designation: 83-1963 Sponsor: IEEE Power & Energy Society/Insulated Conductors Reaffirmation Status and Year: 1991 Title: Test Procedure for Radial Power Factor Tests on Insulating Tapes in Paper-Insulated Power Cable Status: Withdrawn Standard. Withdrawn Date: Mar 06, 2000. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Nov 20, 1963, ANSI APP: Sep 06, 1991 Abstract: This method of test covers the procedure for determining the radial power factor of insulating tapes in power cable. Key Words: power, factor, radial, cables, testing, paper insulated, insulating tapes, factor tests Designation: 84 Sponsor: IEEE Power & Energy Society/Insulated Conductors Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 85 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Test Procedure for Airborne Noise Measurements on Rotating Electric Machinery Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: R. G Bartheld, Phone:404-998-3872 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 27, 1979 Designation: 85-1973 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1986 Title: IEEE Test Procedure for Airborne Sound Measurements on Rotating Electric Machinery Status: Withdrawn Standard. Withdrawn Date: Aug 05, 1996. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Rev of IEEE Std 85-1965. Technical Contact: R. G Bartheld, Phone:404-998-3872 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Dec 12, 1972 Abstract: Approved methods for conducting tests and reporting results to effect the uniform determination of rotating-electric- machine sound under steady-state conditions with an accuracy of ý  3  dB are defined. Three acoustical environments are considered: free field, reverberant field, and semireverberant field. Installation and operation of the machine is discussed. The test procedure assumes the presence of pure tones or the predominance of discrete frequencies in the sound spectrum. Key Words: airborne, sound, measurement, rotating, motors Designation: 86-1987 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Recommended Practice: Definitions of Basic Per-Unit Quantities for AC Rotating Machines Status: Withdrawn Standard. Withdrawn Date: Dec 03, 1992. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: Bal K Gupta, Phone:416-621-6035, Email:bal.gupta@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Jun 19, 1986, ANSI APP: Jan 01, 1989 Key Words: basic, per-unit, quantities, rotating, AC Designation: 87 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 88 Sponsor: IEEE Communications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 89 Sponsor: IEEE Communications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 90 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 91-1984 Sponsor: IEEE-SASB Coordinating Committees Reaffirmation Status and Year: 1994 Title: IEEE Standard Graphic Symbols for Logic Functions Status: Approved Publication of IEEE , Published Date: Jul 13, 1984 **This standard is published with 91A. History: BD APP: Sep 17, 1981, ANSI APP: Oct 26, 1982 Abstract: " Graphic symbols for representing logic functions or physical devices capable of carrying out logicfunctions are presented. Descriptions of logic functions, the graphic representation of these functions, andexamples of their applications are provided. The symbols are presented in the context of electricalapplications, but most may also be applied to nonelectrical systems (for example, pneumatic, hydraulic, ormechanical). The supplement provided additional internationally approved graphic symbols and madecorrections as needed to IEEE Std 91-1984." Key Words: symbols, graphic, logic, functions Designation: 91a/91-1991 Reaffirmation Status and Year: 1994 Title: IEEE Graphic Symbols for Logic Functions (Includes IEEE Std 91a-1991 Supplement, and IEEE Std 91-1984) Status: Approved Publication of IEEE , Published Date: Dec 31, 1991 History: PAR APP: Jan 28, 1988, BD APP: Jun 27, 1991 Abstract: An international language by which it is possible to determine the functional behavior of a logic or circuit diagram with minimal reference to supporting documentation is defined; as such, it is designed to allow a single concept to be expressed in one of several different ways, according to the demands of a particular situation. Consequently, this standard does not attempt, nor intend, to establish single correct symbols for particular devices. The symbols for representing logic functions or devices enable users to understand the logic characteristics of these functions or devices without specific knowledge of their internal characteristics. Definitions and an explanation of symbol construction are provided. Information is presented on: qualifying symbols associated with inputs, outputs, and other connections; dependency notation; combinational and sequential elements; and symbols for highly complex functions. The symbols and representation techniques are compatible with IEC Pub. 617, Part 12.Supplement Abstract: Graphic symbols for representing logic functions or physical devices capable of carrying out logic functions are presented. Descriptions of logic functions, the graphic representation of these functions, and examples of their applications are given. The symbols are presented in the center of electrical applications, but most may also be applied to nonelectrical systems (for example, pneumatic, hydraulic, or mechanical). This supplement provides additional internationally approved graphic symbols and makes corrections as needed to IEEE Std 91-1984. Key Words: graphic, symbols, logic, functions Designation: 92 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 94-1991 Sponsor: IEEE Power & Energy Society Title: IEEE Recommended Definitions of Terms for Automatic Generation Control on Electric Power Systems Status: Withdrawn Standard. Withdrawn Date: Jan 17, 1997. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 94-1970. History: PAR APP: Sep 28, 1990, BD APP: Sep 26, 1991, ANSI APP: May 13, 1992 Abstract: Commonly used terminology in the field of automatic generation control is defined for reference purposes. Control terms not specific to automatic generation control are not included. Key Words: terminology, definitions, control, electric, power, systems, automatic, Power generation control, Electric power systems Designation: 94-1970 Sponsor: IEEE Power & Energy Society Title: IEEE Standard Definitions of Terms for Automatic Generation Control on Electric Power Systems Status: Withdrawn Standard. Withdrawn Date: Mar 10, 1988. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 95-2002 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 2007 Title: IEEE Recommended Practice for Insulation Testing of AC Electric Machinery (2300 V and Above) With High Direct Voltage Status: Approved Publication of IEEE , Published Date: Apr 12, 2002 **Supersedes 95-1977 (R1991). Technical Contact: Nils E Nilsson, Phone:330-384-5624, Email:nilssonn@cboss.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 14, 2001, BD APP: Mar 21, 2002, ANSI APP: Aug 01, 2002 Project Scope: This project will present uniform methods for testing insulation with direct voltages. It applies to AC electric machines. It covers acceptance testing of new equipment in the factory or in the field after erection and routine maintenance testing of machines that have been in service. Project Purpose: The purpose of this project is to bring IEEE Std 95 up to the state of the art since it has been in use for more than five years. Abstract: This recommended practice provides information on the use of high direct voltage forproof tests and for periodic diagnostic tests on the groundwall insulation of stator (armature) wind-ings in ac electric machines. Key Words: "electric machine windings, electrical insulation, high direct voltage" Designation: 95-1977 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1991 Title: IEEE Recommended Practice for Insulation Testing of Large AC Rotating Machinery with High Direct Voltage Status: Superseded **Revision of IEEE Std 95-1962. Superseded by 95-2002. History: BD APP: Sep 05, 1974, ANSI APP: Apr 20, 1992 Abstract: Recommendations are made to aid in the selection of metric units, so as to promote uniformity in the use of metric units and to limit the number of different metric units that will be used in electrical and electronics science and technology. The recommendations can cover units for space and time, periodic and related phenomena, mechanics, heat, electricity and magnetism, light and related electromagnetic radiations, and acoustics. This document does not cover how metric units are to be used nor does it offer guidance concerning correct metric practice. Key Words: installation, large, rotating, testing, AC, high direct, AC rotating, insulation testing Designation: 95 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Recommended Practice for Insulation Testing of Large AC Rotating Machinery (2300 V and Above) With High Direct Voltage Status: Superseded Technical Contact: Nils E Nilsson, Phone:330-384-5624, Email:nilssonn@cboss.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 20, 1997 Project Scope: This project will present uniform methods for testing insulation with direct voltages higher than 5000 V. It applies to large AC rotating machines rated at 10,000 kVA or greater and rated at 6000 V or higher. It covers acceptance testing of new equipment in the factory or in the field after erection, and routine maintenance testing of machines that have been in service. The current standard (whether active or withdrawn) will be brought up to date. Project Purpose: The purpose of this project is to provide uniform procedures for performing high direct voltage acceptance test and routine maintenance tests on the main ground insulation of windings of large AC machines, to provide uniform procedures for analyzing the variations in measured current so that any possible relationship of the condition of the insulation can be more effectively studied, and to define terms which have a specific meaning. Designation: 96-1969 Sponsor: SASB/SCC04-SCC04 - Electrical Insulation Reaffirmation Status and Year: 1992 Title: IEEE General Principles for Rating Electric Apparatus for Short-Term, Intermittent, or Varying Duty Status: Withdrawn Standard. Withdrawn Date: Mar 19, 1998. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of AIEE No 1A-1941. Abstract: General principles for rating electric apparatus for short-time, intermittent, or varying duty are established. Four methods of rating are presented: continuous rating, continuous plus short-time overload or nominal rating, short-time rating, and periodic rating. The factors to be considered in selecting the method of rating for any particular case are indicated. Key Words: rating, apparatus, electric Designation: 96 Sponsor: SASB/SCC04-SCC04 - Electrical Insulation Title: General Principles for Rating Electric Apparatus for Short-Term, Intermittent, or Varying Duty Status: Withdrawn Standard. Withdrawn Date: Mar 19, 1998. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: PAR APP: Sep 18, 1980 Designation: 97 Sponsor: SASB/SCC04-SCC04 - Electrical Insulation Title: Standard for Specifying Service Conditions in Electrical Standards Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Richard F Weddleton, Phone:407-281-2420, Email:dick_weddleton@swpc.siemens.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 12, 1985 Project Scope: This is a revision of IEEE Std 97-1969 to update the standard and to include data on service conditions being left out of a revision of IEEE Std 1. Designation: 97-1969 Sponsor: SASB/SCC04-SCC04 - Electrical Insulation Title: IEEE Recommended Practice for Specifying Service Conditions in Electrical Standards Status: Withdrawn Standard. Withdrawn Date: Mar 18, 1993. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: ANSI APP: Jan 01, 1970 Key Words: service, conditions, electric, standards Designation: 98-2002 Sponsor: SASB/SCC04-SCC04 - Electrical Insulation Reaffirmation Status and Year: 2007 Title: IEEE Standard for the Preparation of Test Procedures for the Thermal Evaluation of Solid Electrical Insulating Materials Status: Approved Publication of IEEE , Published Date: May 27, 2002 **Supersedes 98-1984 (R1993). Technical Contact: Paulette Payne Powell, Phone:202-388-2335, Email:papayne@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 30, 2000, BD APP: May 13, 2002, ANSI APP: Mar 20, 2008 Project Scope: Update reference standards, technical review for consistency with IEEE 1 (work in progress), change "temperature class" to "temperature index", change "systems tests" to "materials test", and revise in accordance with IEEE Style. Project Purpose: To maintain technical consistency with reference standards and insulation material standards development. Abstract: Principles for the development of test procedures to evaluate the thermal endurance ofsolid electrical insulating materials in air are given in this standard. Key Words: "diagnostic test, relative temperature index, temerature idndex, thermal capability, thermal endurance" Designation: 98-1984 Sponsor: SASB/SCC04-SCC04 - Electrical Insulation Reaffirmation Status and Year: 1993 Title: IEEE Standard for the Preparation of Test Procedures for the Thermal Evaluation of Solid Electrical Insulating Materials Status: Superseded **Revision of IEEE Std 98-1972. Superseded by 98-2002. History: BD APP: Jun 10, 1982, ANSI APP: Mar 29, 1985 Abstract: Principles are given for the development of test procedures to evaluate the thermal endurance of solid electrical insulating materials and simple combinations of such materials. The results of accelerated thermal endurance tests, which are conducted according to prescribed procedures, may be used to establish temperature indexes for insulating materials. The test procedures apply to materials before they are fabricated into insulating structures identified with specific parts of electric equipment. Tests for specific insulating materials are not covered. The procedures may or may not apply to the aging characteristics of dielectric fluids or of porous materials impregnated with dielectric fluids. Key Words: thermal, evaluation, insulating, materials, Insulation thermal factors, Insulation testing Designation: 99-2007 Sponsor: SASB/SCC04-SCC04 - Electrical Insulation Title: IEEE Recommended Practice for the Preparation of Test Procedures for the Thermal Evaluation of Insulation Systems for Electrical Equipment Status: Approved Publication of IEEE , Published Date: Feb 27, 2008 Technical Contact: Paulette Payne Powell, Phone:202-388-2335, Email:papayne@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 30, 2006, BD APP: Sep 27, 2007, ANSI APP: Apr 01, 2008 Project Scope: This recommended practice provides criteria for the preparation of test procedures for accelerated thermal aging of insulation systems and for the specification of tests based on conditions of use. The objective of these test procedures is to provide for the functional evaluation, by test, of insulation systems for electrical equipment. The evaluation of insulating materials and simple combinations thereof is provided for by a separate material test guide, IEEE Std 98™-2002.1 For a detailed discussion of the principles on which this recommended practice and IEEE Std 98-2002 are based, see IEEE Std 1™-2000. Tests based on IEEE Std 98-2002 may be considered as preliminary tests for insulation system evaluation, but should not be used as accepted tests for the classification of systems. Project Purpose: This recommended practice provides a general form for the preparation of test procedures and suggests the points to be considered by technical committees in the preparation of specific instructions for the thermal evaluation of insulation systems for equipment. Abstract: A general form is provided for the preparation of test procedures. Points to be considered by technical committees in the preparation of specific instructions for the thermal evaluation of insulation systems for electric equipment are suggested. The test procedures involve accelerated thermal aging of insulation systems and specify tests that the committees deem pertinent, based on conditions of use. The objective of the procedures is to provide for the functional evaluation, by test, of insulation systems for electric equipment. Key Words: Std 99-2007, diagnostic factor, EIS (electrical insulation system), insulation system, test procedures, test specimen, thermal aging, thermal endurance, thermal evaluation Designation: 99-1980 Sponsor: SASB/SCC04-SCC04 - Electrical Insulation Reaffirmation Status and Year: 2000 Title: IEEE Recommended Practice for the Preparation of Test Procedures for the Thermal Evaluation of Insulation Systems for Electric Equipment Status: Superseded **Revision of IEEE Std 99-1980. History: BD APP: Dec 14, 1978, ANSI APP: Apr 29, 1983 Abstract: A general form is provided for the preparation of test procedures. Points to be considered by technical committees in the preparation of specific instructions for the thermal evaluation of insulation systems for electric equipment are suggested. The test procedures involve accelerated thermal aging of insulation systems and specify tests that the committees deem pertinent, based on conditions of use. The objective of the procedures is to provide for the functional evaluation, by test, of insulation systems electric equipment. Key Words: thermal, evaluation, insulating, equipment Designation: 100 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Title: IEEE Standards Reference InfoBase on CD-Rom Status: Approved Publication of IEEE , Published Date: Oct 23, 1997 **An enhanced version of the IEEE Standard Dictionary of Electrical and Electronics Terms. Publication type: Electronic Product Designation: 100-1996 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Title: The IEEE Standard Dictionary of Electrical and Electronics Terms Sixth Edition Status: Superseded **This standard is one of a number of information technology dictionaries being developed by standards organizations accredited by the American National Standards Institute. This dictionary was developed under the sponsorship of voluntary standards organizations, using a consensus-based process. History: PAR APP: Mar 16, 1995, BD APP: Dec 10, 1996 Project Scope: Terms defined in the approved IEEE standards issued by all IEEE standards-generating bodies and accredited standards committees. Additional technical terms already present in the current edition of the dictionary. Acronyms and abbreviations deemed useful to IEEE members. Abstracts of IEEE standards. Project Purpose: To collect the definitions, acronyms, and abbreviations from IEEE standards and combine them into one authoritative document. Designation: 100-1992 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Title: The New IEEE Standards Dictionary of Electrical and Electronics Terms Status: Superseded History: PAR APP: Dec 06, 1990, BD APP: Sep 17, 1992, ANSI APP: Jun 28, 1993 Abstract: Over 30,000 terms and definitions that have been standardized by IEEE are included. Over 10,000 new and revised terms have been added since 1988. New edition includes abstracts of IEEE standards. Includes extensive acronym and abbreviation section. Key Words: dictionary, electrical, electronics, terms, Terminology Designation: 100-1988 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Title: Standard Dictionary of Electrical and Electronics Terms - Fourth Edition Status: Superseded History: BD APP: Oct 20, 1988, ANSI APP: Jul 08, 1988 Designation: 101-1987 Sponsor: IEEE Dielectrics and Electrical Insulation Society Reaffirmation Status and Year: 2004 Title: IEEE Guide for the Statistical Analysis of Thermal Life Test Data Status: Approved Publication of IEEE History: BD APP: Sep 10, 1987, ANSI APP: Jan 12, 1996 Abstract: Statistical analyses of data from thermally accelerated aging tests are described. The basis and use of statistical calculations are explained. Data analysis, estimation of the relationship between life and temperature, and the comparison between two sets of data are covered. Key Words: statistical, analysis, thermal, life, test Designation: 101A-1974 Sponsor: SASB/SCC04-SCC04 - Electrical Insulation Title: Calculation of Regression Line Status: Superseded **incorporated into IEEE 101-1987 Key Words: 101A Designation: 103 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 104 Sponsor: IEEE Magnetics Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 105 Sponsor: IEEE Magnetics Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 106 Sponsor: IEEE Magnetics Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 107-1964 Sponsor: IEEE Magnetics Society Reaffirmation Status and Year: 1979 Title: Standard for Rating and Testing Magnetic Amplifiers Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 108-1955 Sponsor: IEEE Instrumentation and Measurement Society Title: Trial-Use Recommended Guide for Specification of Electronic Voltmeters Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 109 Title: Signal Generators Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: G.U Sorger **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 20, 1972 Designation: 109-1955 Title: Signal Generators Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **To be w/drawn (AIEE451). New PAR filed in 1972 but no action taken. Not on list of withdrawn standards, not on stds listing. Key Words: signal, generators Designation: 110 Sponsor: IEEE Instrumentation and Measurement Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 111-2000 Sponsor: IEEE Power Electronics Society/Standards Committee Reaffirmation Status and Year: 2007 Title: IEEE Standard for Wide-Band (Greater Than 1 Decade) Transformers Status: Approved Publication of IEEE , Published Date: Sep 28, 2001 Technical Contact: David N Ratliff, Phone:517-546-6330, Email:marelco@htonline.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 25, 1998, BD APP: Mar 08, 2000, ANSI APP: Jun 12, 2000 Project Scope: This standard pertains to electronics wide-band transformers transmitting power within a wide band of frequencies covering typically at least one decade in the frequency spectrum. It is not intended to apply to transformers optimized to operate within a narrow band of frequencies. Transformers used in or in conjunction with wire line communication facilities serving power stations are excluded due to the special protection requirements involved. Project Purpose: Update Standard 111 to include material on hybrid transformers. Abstract: Electronics wide-band transformers transmitting power within a wide band of frequenciescovering typically at least one decade in the frequency spectrum are covered in this standard. Key Words: "Balance test,balun,communication transformer,data transformer,harmonic distortion,impedance,insertion loss,matching transformers,return loss,transformer,video transformer,wideband" Designation: 111 Sponsor: IEEE Power Electronics Society/Standards Committee Title: Standard for Wide Band (Greater Than 1 Decade) Transformers Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. **Revision of IEEE Std 111-1984. Technical Contact: Matthew Wilkowski, Phone:908-575-7550, Email:wilkowski@enpirion.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 02, 1993 Project Scope: This standard pertains to electronics wide band transformers transmitting power within a wide band of frequencies covering typically at least one decade in the frequency spectrum. It is not intended to apply to transformers optimized to operate within a narrow band of frequencies. Transformers used in or in conjunction with wire line communications facilities serving electric power stations are excluded due to the special protection requirements involved. Provision is made for including data for use in design of feedback amplifiers and control networks or other circuits in which the knowledge of the transformer amplitude and phase-frequency response is needed by the system designer. These transformers are required to transform voltage within specified tolerances of amplitude and phase when operating between specified impedances. Guides to application and test procedures are included. The Appendices contain certain precautions and recommended practices. This standard also pertians to hybrid transformers, primarily used in the telecommunication industry. The hybrid transformer is a wideband transformer used in a manner which makes it part of a capacitance, resistance, and or inductance network and it must have characteristics which permit it to match the network for proper overall performance. Project Purpose: To update Std 111 and to include material on hybrid transformers. Key Words: wide band, transformer Designation: 111-1984 Sponsor: IEEE Power Electronics Society/Standards Committee Title: IEEE Standard for Wide-Band Transformers Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Transferred from Magnetic Society to Power Electronics Society; ANSI withdrawn 6/29/92 History: ANSI APP: Jan 01, 1985 Designation: 112-2004 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Standard Test Procedure for Polyphase Induction Motors and Generators Status: Approved Publication of IEEE , Published Date: Nov 04, 2004 **Supersedes 112-1996. Technical Contact: Franklin H Grooms, Phone:513-931-1243, Email:fhgrooms@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 16, 1999, BD APP: Feb 09, 2004, ANSI APP: May 12, 2004 Project Scope: Revise Sections 6.5 through 6.9 to include current industry practice and experience. Change other sections including Sections 7, 8 and 9 as necessary to support these revisions and to make the test procedure easier to understand and easier to use. Make the resulting procedures harmonize with international standards where feasible. Project Purpose: The existing standard has not kept pace in its entirety with the needs of the industry and newly available technological advances such as described in other standards will be considered for use. The project will assure that this standard maintains its prominent position in the industry. Abstract: Instructions for conducting and reporting the more generally applicable and acceptable tests of polyphase induction motors and generators are covered. Key Words: acceptance and performance testing, generators, induction, machines, motors, polyphase Designation: 112-1996 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Standard Test Procedure for Polyphase Induction Motors and Generators Status: Superseded **Revision of IEEE Std 112-1991. Superseded by 112-2004. History: PAR APP: Jun 14, 1995, BD APP: Sep 19, 1996, ANSI APP: Feb 27, 1997 Project Scope: Revisions of Section 6.4 Determination of Efficiency Test Method B - Input-Output With Loss Segregation - Instrumentation Accuracy Requirements - Testing Sequence Required - Temperature correction Procedure - Additional Explanation of Terms Project Purpose: IEEE Std 112-1991 has been adopted by DOE for use in enforcing the US Energy Policy Act of 1992 (HR 2451) requiring manufacturers to be certified through an independent testing or certification program. NIST has developed such a program called NVLAP (National Voluntary Laboratory Accredidation Program). The revision will clarify the procedures under Std 112 to conform to NVLAP requirements and harmonize with CSA Std C3 90. Abstract: Instructions are given for conducting and reporting the more generally applicable and acceptable tests to determine the performance characteristics of polyphase induction motors and generators. Electrical measurements, performance testing, temperature tests, and miscellaneous tests are covered. Key Words: generators, motors, tests Designation: 112-1991 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Standard Test Procedure for Polyphase Induction Motors and Generators Status: Superseded **Revision of IEEE Std 112-1984. History: PAR APP: Jun 19, 1986, BD APP: Dec 05, 1991, ANSI APP: Jun 15, 1992 Abstract: Instructions are given for conducting and recording the more generally applicable and acceptable tests to determine the performance characteristics of polyphase induction motors and generators. Electrical measurements, performance testing, temperature tests, and miscellaneous tests are covered. Key Words: generators, motors, tests Designation: 112-1984 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Standard Test Procedure for Polyphase Induction Motors and Generators Status: Superseded History: BD APP: Dec 09, 1982, ANSI APP: Jun 26, 1985 Key Words: polyphase, induction, motors, generators Designation: 113-1985 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Guide: Test Procedures for Direct-Current Machines Status: Withdrawn Standard. Withdrawn Date: Sep 15, 1995. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 113-1973. Technical Contact: Nabeel A Demerdash, Phone:414 288 6820 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Sep 22, 1983, ANSI APP: Dec 02, 1987 Abstract: Recommendations are made for conducting and reporting generally acceptable tests to determine the performance characteristics of conventional dc machines. Two categories of test are provided: tests of dc motors and generators designed for essentially ripple-free operation, and tests of dc motors designed for use with rectifier power supplies. Electrical measurements and power sources for all test procedures are described. Preliminary tests, performance tests, temperature tests, and miscellaneous tests are covered. Key Words: test, dc, machines Designation: 114 Sponsor: Electric Machines Title: Standard Test Procedure for Single-Phase Induction Motors Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Ahmed Elantably, Phone:317-915-2721, Email:aelantaby@atd.gmeds.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 10, 1996 Project Scope: To review the procedure for testing single-phase induction motors to include all changes in measurement technology and manufacturing developments in the revised testing procedure. Project Purpose: Guide to test procedures for single-phase induction motors. Designation: P114 Sponsor: Electric Machines Title: Standard Test Procedure for Single-Phase Induction Motors Status: Revision Project Project Scope: This standard covers instructions for conducting and reporting the more generally applicable and acceptable tests to determine the performance characteristics of single-phase induction motors. It is not intended that this standard shall cover all possible tests used in production or tests of a research nature. The standard shall not be interpreted as requiring the making of any or all of the tests described herein in any given transaction. Project Purpose: This standard is intended to satisfy the following objectives: 1) Promote consistency between electric motor manufacturers regarding the performance evaluation of single-phase induction motors. 2) Provide useful practices on evaluating performance during the design of electric motors. 3) Provide useful practices on evaluating and qualifying manufacturer capabilities to meet user requirements. 4) Provide useful practices for evaluating and qualifying manufactured electric motors. 5) Assist individuals or organizations judging the quality of single-phase induction motors delivered to end users. Designation: 114-2001 Sponsor: Electric Machines Title: IEEE Standard Test Procedure for Single-Phase Induction Motors Status: Withdrawn Standard. Withdrawn Date: Jan 18, 2007. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: Kenneth L Stricklett, Phone:301-975-3955, Email:stricklett@nist.gov **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 14, 2001, BD APP: Dec 06, 2001, ANSI APP: May 02, 2002 Project Scope: This standard covers instructions for conducting and reporting the more generally applicable and acceptable tests to determine the performance characteristics of single-phase induction motors, including non- excited synchronous motors. It is not intended that this standard shall cover all possible tests used in production or tests of a research nature. The standard shall not be interpreted as requiring the making of any or all of the tests described herein in any given transaction. Project Purpose: The proposed standard is intended to satisfy the following objectives: 1) Promote consistency between electric motor manufacturers regarding the performance evaluation of single-phase induction motors. 2) Provide useful practices on evaluating performance during the design of electric motors. 3) Provide useful practices on evaluating and qualifying manufacturer capabilities to meet user requirements. 4) Provide useful practices for evaluating and qualifying manufactured electric motors. 5) Assist individuals or organizations judging the quality of single-phase induction motors delivered to end users. Abstract: " Instructions are given for conducting and reporting the more generally applicable andacceptable tests to determine the performance characteristics of single phase induction motors.Electrical measurements, performance testing, temperature tests, and miscellaneous tests arecovered. " Key Words: Instructions are given for conducting and reporting the more generally applicble and acceptable tests to determine the performance characteristics of single pahse induction motors Designation: 114-1982 Sponsor: Industrial Drives Title: IEEE Standard Test Procedure for Single-Phase Induction Motors Status: Withdrawn Standard. Withdrawn Date: Mar 19, 1992. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 3/31/94. Technical Contact: Ahmed Elantably, Phone:317-915-2721, Email:aelantaby@atd.gmeds.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Sep 17, 1981, ANSI APP: Jan 01, 1983 Designation: 115-2009 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Guide for Test Procedures for Synchronous Machines Part I - Acceptance and Performance Testing Part II - Test Procedures and Parameter Determination for Dynamic Analysis Status: Approved Publication of IEEE **Supersedes 115-1995 (R2002). Technical Contact: Haran C Karmaker, Phone:705-748-7734, Email:h.karmaker@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Dec 09, 2009 Project Scope: This guide contains instructions for conducting generally applicable and accepted tests to determine the performance characteristics of synchronous machines. Although the tests described are applicable in general to synchronous generators, synchronous motors (larger than fractional horsepower), synchronous condensers, and synchronous frequency changers, the descriptions make reference primarily to synchronous generators and synchronous motors. The tests described may be applied to motors and generators, as needed, and no attempt is made to partition this guide into clauses applying to motors and clauses applying to generators. It is not intended that this guide shall cover all possible tests, or tests of a research nature, but only those general methods that may be used to obtain performance data. The schedule of factory and field tests, which may be required on new equipment, is normally specified by applicable standards or by contract specifications. This guide should not be interpreted as requiring any specific test in a given transaction or implying any guarantee as to specific performance indices or operating conditions. The term specified conditions for tests as used in this guide will be considered as rated conditions unless otherwise agreed upon. Rated conditions apply usually to the quantities listed on the machine nameplate. Project Purpose: The guide will not contain a purpose clause. The purpose of the project is to: a) Section 7.3.6 needs revision. b) A new section on vibration tests needs to be added. c) The 1995 draft needs to be updated to reflect state of the art. Designation: 115-1995 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 2002 Title: IEEE Guide: Test Procedures for Synchronous Machines Part I-- Acceptance and Performance Testing Part II-Test Procedures and Parameter Determination for Dynamic Analysis Status: Superseded **Revision of IEEE Stds 115-1983 and 115A-1987. Superseded by 115-2009. History: PAR APP: Jun 18, 1992, BD APP: Dec 12, 1995, ANSI APP: Jul 16, 1996 Project Scope: This guide coniains instructions for conducting the more generally applicable and accepted tests to determine the performance characteristics of synchronous machines. Although the tests described are applicable in general to synchronous generators, synchronous motors (larger than fractional horsepower), synchronous condensers, and synchronous frequency changers, the descriptions make reference primarily to synchronous generators and synchronous motors. The tests described may be applied to motors and generators, as needed, and no attempt is made to partition this guide into clauses applying to motors and clauses applying to generators. It is not intended that this guide shall cover all possible tests, or tests of a research nature, but only those more general methods which may be used to obtain performance data. The schedule of factory and field tests which may be required on new equipment is normally specified by applicable standards or by contract specifications. This guide should not be interpreted as requiring the making of any specific test in a given transaction or implying a guarantee to meet specific performance indices or operating conditions. The term specified conditions for tests as used in this guide will be considered as rated conditions unless otherwise agreed upon. Rated conditions apply usually to the following quantities listed on the machine nameplate. These include MVA, terminal voltage (or kilovolts), armature current, and power factor. Abstract: " Instructions for conducting the more generally applicable and accepted tests to determine theperformance characteristics of synchronous machines are contained in this guide. Although the testsdescribed are applicable in general to synchronous generators, synchronous motors (larger than fractionalhorsepower), synchronous condensers, and synchronous frequency changers, the descriptions makereference primarily to synchronous generators and synchronous motors. " Key Words: "acceptance and performance testing,dynamic analysis,parameter determination,synchronous machines" Designation: 115-1983 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1991 Title: IEEE Guide: Test Procedures for Synchronous Machines Status: Superseded **Revision of IEEE Std 115-1965. History: BD APP: Mar 11, 1982, ANSI APP: Oct 03, 1991 Abstract: Instructions are given for conducting the more generally applicable and accepted tests to determine the performance characteristics of synchronous machines. Although the tests described are applicable in general to synchronous generators, synchronous motors (larger than fractional horsepower), synchronous condensers, and synchronous frequency changers, the descriptions make reference primarily to synchronous generators and synchronous motors. Alternative methods of making many of the tests covered in this guide are described and are suitable for different sizes and types of machines and different conditions. This guide covers miscellaneous tests; saturation curves, segregated losses, and efficiency; load excitation and voltage regulation; temperature tests; torque tests; and synchronous machine quantities and sudden short-circuit tests. Key Words: synchronous, machines, motor, Synchronous machines, Rotating-machine testing Designation: 115 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Standard for Test Procedures for Synchronous Machines Status: Superseded Technical Contact: Haran C Karmaker, Phone:705-748-7734, Email:h.karmaker@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 04, 2005 Project Scope: The scope of the project is to: a) New test results published in IEEE (see attached) requires revision of section 7.3.6. b) In view of increased interest in vibration tests, a new section on vibration test procedures should be added. Project Purpose: The purpose of the project is to: a) Section 7.3.6 needs revision. b) A new section on vibration tests needs to be added. c) The 1995 draft needs to be updated to reflect state of the art. Designation: 115A-1987 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Standard Procedures for Obtaining Synchronous Machine Parameters by Standstill Frequency Response Testing Status: Superseded **incorporated into 115-1995 History: BD APP: Dec 11, 1986 Abstract: The application of standstill frequency response testing methods for obtaining direct- and quadrature-axis stability parameters is described. Measurable parameters at standstill are discussed, and the test method is described. This standard is a supplement to ANSI/IEEE Std 115-1983, IEEE Guide: Test Procedures for Synchronous Machines. Key Words: 115A Designation: 116-1975 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1982 Title: IEEE Standard Test Procedures for Carbon Brushes Status: Withdrawn Standard. Withdrawn Date: Sep 15, 1995. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 116-1958. ANSI withdrawn 2/13/95. Technical Contact: Bal K Gupta, Phone:416-621-6035, Email:bal.gupta@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: May 30, 1974, ANSI APP: Jan 27, 1984 Abstract: A procedure for determining certain operating characteristics of carbon, carbon-graphite, electrographite, graphite, and metal-graphite brushes under prescribed test conditions is provided. The procedure applies to all types of rotating ac and dc motors and similar apparatus. The operating characteristics covered are voltage drop, coefficient of friction, wear ratio as affected by low humidity, and commutating ability. Key Words: brushes, carbon, test Designation: P117 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Standard Test Procedure for Thermal Evaluation of Systems of Insulating Materials for Random-Wound AC Electric Machinery Status: Revision Project Technical Contact: Nancy Frost, Phone:+1 518 344 7124, Email:nancy.frost@vonroll.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This is a standard test procedure for the thermal evaluation and qualification of electrical insulation systems for Random-Wound AC Electric Machinery, where thermal degradation is the dominating aging factor. This procedure compares the relative thermal performance of a candidate Electrical Insulation System (EIS) to that of a reference Electrical Insulation System. This standard covers insulation systems for such machinery with input voltage of up to 1000 Volts at 50/60 Hertz. This standard provides a statistical method for establishing a relative life-temperature relationship for an insulation system. To have any significance, the reference insulation system must be supported with adequate field service data. This procedure is intended to evaluate insulation systems for use in air-cooled, random-wound AC electric machinery with “usual service conditions”. This procedure, on its own, does not cover insulation systems such as exposure to conducting contaminates, radiation, inverter applications, or operation in oils, refrigerants, or other media that potentially degrade insulating materials. For evaluation of sealed insulation systems, refer to the informative annex at the end of this document. Project Purpose: The purpose of this standard procedure is to classify insulation systems in accordance with their temperature limits by test, rather than by chemical composition. This test procedure has been prepared to outline useful methods for the evaluation of systems of insulation for random- wound stators of rotating electric machines. The motorette procedure described is used for the evaluation of electrical insulation systems. Designation: 117-1974 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1991 Title: IEEE Standard Test Procedure for Evaluation of Systems of Insulating Materials for Random-Wound AC Electric Machinery Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 117-1956. (aka ANSI C50.32-1976) See 275 for form- wound; see also 304. 16-Jan-04: Administratively withdrawn. Technical Contact: Bal K Gupta, Phone:416-621-6035, Email:bal.gupta@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: May 24, 1973, ANSI APP: Sep 07, 1976 Project Scope: No Scope presented. Project Purpose: The chief purpose of this test procedure is to classify insulation systems in accordance with their temperature limits by test, rather than by chemical composition. The intention is, Þrst to classify according to the recognized thermal classiÞcation A, B, F, H, and above H categories as referenced in the Appendix. The motorette procedure is intended to be used as an Industry Standard for insulation systems in that data obtained in accordance with this standard can be correlated between testing laboratories. A wide variety of synthetic electrical insulation materials is available for application in electric machinery and apparatus. As there is a growing tendency either to rely solely on these materials as electrical insulation, or to employ them with the old familiar materials in novel combinations, there is a corresponding increase in the problems associated with the selection and evaluation of insulations. Consequently a complete insulation system must be evaluated rather than testing only individual insulating materials. Many of the specifications regulating the use of insulation materials were written before the advent of the newer synthetics and were based upon experience gained with the old materials over a long period of time. Difficulties arise, therefore, when an effort is made to classify these new materials or combinations for insulation purposes under IEEE Std 1-1969 General Principles for Temperature Limits in the Rating of Electric Machinery and supplementary documents IEEE Std 98-1972, Guide for the Preparation of Test Procedures for the Thermal Evaluation and Establishment of Temperature Indices of Solid Electric Insulating Materials, and IEEE Std 99-1970. Guide for the Preparation of Test Procedures for the Thermal Evaluation of Insulation Systems for Electric Equipment. A wide range of properties is available in current synthetic materials, so that it is not feasible to classify them on the basis of their chemical composition alone. Secondly, it is not desirable to wait and acquire the knowledge required to classify them solely on the basis of experience. In the third place, composite systems of insulation, in which materials of different temperature classes are used in different parts of the structure, may give satisfactory service at temperatures higher than normally permitted for the lowest temperature component; and, conversely, compatibility or other problems may arise whereby the highest temperature component is rendered unsuitable for use at its classified temperature.This test procedure has been prepared to outline useful methods for the evaluation of systems of insulation for randomwound stators of rotating electric machines. It is expected that the several insulating materials, or components, making up any insulation system to be tested will Þrst be screened in accordance with speciÞc test procedures for each type of material. Normally materials that have given acceptable performance in these separate screening tests would be included in the system evaluation tests outlined in this procedure. This procedure is intended to evaluate insulation systems for use in "usual service conditions" with air cooling. It has also been a useful tool for evaluating systems for special requirements where machines are enclosed in gas atmospheres, subjected to strong chemicals, to metal dusts, or submersion in liquids. However, these special requirements are beyond the scope of this test procedure. Abstract: Useful methods for the evaluation of systems of insulation for random-wound stators of rotating electric machines are given. The chief purpose is to classify insulation systems in accordance with their temperature limits by test, rather than by chemical composition. The procedure is intended to evaluate insulation systems for use in usual service conditions with air cooling. It has also been a useful tool for evaluating systems for special requirements where machines are enclosed in gas atmospheres, subjected to strong chemicals, metal dusts, or submersion in liquids, although these special requirements are beyond the scope of this test procedure. Key Words: insulating, materials, random, ac, machinery, C50.32 Designation: 118-1978 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Reaffirmation Status and Year: 1992 Title: IEEE Standard Test Code for Resistance Measurement Status: Withdrawn Standard. Withdrawn Date: Jan 25, 2005. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 118-1949. 11-Apr-2003: Withdrawn by ANSI as overage. Jan2005: Administratively withdrawn. History: BD APP: Sep 08, 1977, ANSI APP: Sep 22, 1992 Abstract: Methods of measuring electrical resistance that are commonly used to determine the characteristics of electric machinery and equipment are presented. The methods are limited to those using direct-current or commercial power frequencies of 60 Hz or below, and to those measurements required to determine performance characteristics. The choice of method in any given case depends on the degree of accuracy required and the nature of the circuit to be measured; a guide for selecting the appropriate method is given. Key Words: resistance, measurement Designation: 119-1974 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Title: IEEE Recommended Practice for General Principles of Temperature Measurement as Applied to Electrical Apparatus Status: Withdrawn Standard. Withdrawn Date: Mar 21, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Feb 22, 1973 Key Words: temperature, measurement, apparatus Designation: 120-1989 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Reaffirmation Status and Year: 2007 Title: IEEE Master Test Guide for Electrical Measurements in Power Circuits Status: Approved Publication of IEEE , Published Date: Nov 10, 1989 **Revision of IEEE Std 120-1955 and ASME PTC 19.6-1955. History: BD APP: May 22, 1989, ANSI APP: Oct 20, 1989 Project Scope: The methods given here relate to measurements, as made with either analog or digital indicating or integrating instruments, of power, energy, voltage and current, in direct-current or alternating-current rotating machines, transformers, induction apparatus, arc and resistance heating equipment, mercury arc, thermionic, or solid state rectifiers and inverters. Measurements made with supplementary instruments and devices were also included. This guide does not deal with measurements of resistance or temperature which are often included in determining the performance characteristics of electric machinery. Instruments for these latter measurements will be found in the specific publications dealing with the particular measurement. Abstract: Instructions are given for measuring electrical quantities that are commonly needed to determine the performance characteristics of electric machinery and equipment. Methods are given for measuring voltage, current, power, energy, power factor, frequency, impedance, and magnetic quantities, with either analog or digital indicating or integrating instruments, in DC or AC rotating machines, transformers, induction apparatus, arc and resistance heating equipment, mercury arc, thermionic, or solid-state rectifiers and inverters. Ancillary instruments and equipment are discussed. Computer-based techniques and the use of optical fibers in instrumentation are considered. Key Words: measurements, power circuits, master test guide, electrical , Voltage measurement, Rotating-machine testing, Reactive power, Power transformer testing, Power system measurements, Power measurement, Magnetic measurements, Impedance measurement, Frequency measurement, Energy measurement, DC machines, Current measurement, AC machines Designation: 120-1955 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Reaffirmation Status and Year: 1972 Title: Elec Msmts/Power Circuits Status: Superseded **Superseded by IEEE 120-1989 History: PAR APP: May 28, 1980 Key Words: measurements, power, circuits Designation: 121 Sponsor: IEEE Power & Energy Society/Electric Machinery Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 122-1991 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Reaffirmation Status and Year: 2003 Title: IEEE Recommended Practice for Functional and Performance Characteristics of Control Systems for Steam Turbine-Generator Units Status: Approved Publication of IEEE **Revision of IEEE Std 122-1985. Technical Contact: Martin H Ewer, Phone:(215) 887-3039 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: May 31, 1990, BD APP: Dec 05, 1991, ANSI APP: Jun 15, 1992 Abstract: Minimum functional and performance characteristics related to speed/load-control systems for steam turbine-generator units that may be interconnected on a power system are recommended. The recommendations apply to the following types of steam turbines, rated at 500 kW and larger, intended to drive electric generators at constant speed without initial steam-pressure control, exhaust steam-pressure control, or either: (1) condensing or noncondensing turbines without initial steam-pressure control, exhaust steam-pressure control, including turbines used with reheat, regenerative feedwater heaters, or both; (2) condensing or noncondensing turbines with initial and/or exhaust steam-pressure control, including turbines used with reheat, regenerative feedwater heaters, or both; (3) automatic extraction and/or induction and mixed-pressure turbines. Emergency governors, other overspeed control devices, and, in general, devices that are not responsive to speed, are not covered. Key Words: induction turbines, condensing turbines, mixed-pressure, noncondensing , steam turbine, generator units, Noncondensing turbines, Mixed-pressure turbines, Automatic induction turbines, Automatic extraction turbines Designation: 122-1985 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Recommended Practice for Functional Performance Characteristics of Control Systems for Steam Turbine-Generator Units Status: Superseded History: BD APP: Sep 23, 1982, ANSI APP: Jan 01, 1986 Designation: 123 Sponsor: IEEE Power & Energy Society/Electric Machinery Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 124 Sponsor: IEEE Power & Energy Society/Electric Machinery Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 125-2007 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Recommended Practice for Preparation of Equipment Specifications for Speed-Governing of Hydraulic Turbines Intended to Drive Electric Generators Status: Approved Publication of IEEE , Published Date: Oct 26, 2007 Technical Contact: David Apps, Phone:604-528-2554, Email:david.apps@bchydro.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 11, 2002, BD APP: Jun 07, 2007, ANSI APP: Sep 12, 2007 Project Scope: This document recommends performance characteristics and equipment for electric-hydraulic governors for all types of hydraulic turbines intended to drive electric generators of all sizes. This recommended practice is applicable to new governors and rehabilitation of existing governors. Project Purpose: This recommended practice is intended to assist users with the preparation of procurement specifications for electric-hydraulic speed governors. Abstract: This recommended practice is intended to assist users with the preparation of procurement specifications for electric- hydraulic speed governors. Key Words: control, digital, governor, hydraulic, hydroelectric, speed, stability Designation: 125-1988 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Reaffirmation Status and Year: 1996 Title: IEEE Recommended Practice for Preparation of Equipment Specifications for Speed-Governing of Hydraulic Turbines Intended to Drive Electric Generators Status: Superseded Technical Contact: Jim H Gurney, Phone:604-699-7466, Email:jim.gurney@bctc.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 28, 1982, BD APP: Mar 10, 1988, ANSI APP: Jan 06, 1997 Abstract: Terms, functions, and characteristics as commonly used in North America for preparing equipment specifications for speed- governing of hydraulic turbine-driven generators are defined. Specific components that may be included in a governor system are described. The performance characteristics of a good governor system and adjustments and tests to obtain and confirm the desired performance are delineated. Information to be provided by the manufacturer, so that the purchaser can be assured that the governor equipment will interface properly with other equipment, is specified. The intent is also to provide adequate information for maintenance purposes. The criteria for acceptance tests are given, and the data that will be furnished by the purchaser are listed. Key Words: hydraulic, govern, turbine Designation: 125 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: Recommended Practice for Preparation of Equipment Specifications for Speed-Governing of Hydraulic Turbines Intended to Drive Electric Generators Status: Superseded Technical Contact: Jim H Gurney, Phone:604-699-7466, Email:jim.gurney@bctc.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 06, 2001 Project Scope: The Standard will recommend minimum performance characteristics and equipment for mechanical-hydraulic and electric-hydraulic governors for all types of hydraulic turbines intended to drive electric generators. Project Purpose: The original purpose of the standard was to recommend minimum performance characteristics and equipment relating to governors for controlling hydraulic turbines intended to drive electric generators and to aid in preparation of procurement specifications. This scope continues to be current and pertinent. The Standard will assist users to prepare procurement specifications for mechanical-hydraulic and electric-hydraulic governors. Designation: 126-1959 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Reaffirmation Status and Year: 1983 Title: IEEE Recommended Specification for Speed Governing of Internal Combustion Engine-Generator Units Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: Charles A Lennon Jr, Phone:702-293-8817, Email:clennon@ibr8gw80.usbr.gov **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Key Words: speed, govern, internal, engine, generator Designation: 127-1963 Sponsor: IEEE Aerospace and Electronic Systems Society/Electrical Power/Energy Systems Panel Title: Standard for Aerospace Equipment Voltage and Frequency Ratings Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Designation: 128-1976 Sponsor: IEEE Aerospace and Electronic Systems Society/Electrical Power/Energy Systems Panel Title: IEEE Guide for Aircraft Electric Systems Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. History: BD APP: Dec 13, 1973 Key Words: aircraft, systems, electric Designation: 129 Sponsor: IEEE Aerospace and Electronic Systems Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 130 Sponsor: IEEE Aerospace and Electronic Systems Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 131 Sponsor: IEEE Aerospace and Electronic Systems Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 132-1953 Sponsor: IEEE Aerospace and Electronic Systems Society/Electrical Power/Energy Systems Panel Title: Test Code for D-C Aircarft Rotating Machines Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Key Words: aircraft, rotating, machines, dc, test Designation: 133 Sponsor: IEEE Aerospace and Electronic Systems Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 134-1955 Sponsor: IEEE Aerospace and Electronic Systems Society/Electrical Power/Energy Systems Panel Title: Trial-Use Test Code for Direct-Current Carbon-Pile Voltage Regulators for Aircraft Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Publication type: Trial-Use Key Words: regulator, voltage, carbon, dc Designation: 135-1969 Sponsor: IEEE Aerospace and Electronic Systems Society/Electrical Power/Energy Systems Panel Title: IEEE Recommended Practice for Aircraft, Missile, and Space Equipment Electrical Insulation Tests Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Key Words: aircraft, missile, space, insulation, equipment Designation: 136-1959 Sponsor: IEEE Aerospace and Electronic Systems Society/Electrical Power/Energy Systems Panel Title: Trial-Use Test Procedure and Presentation of Aircraft Generator and Regulator Characteristics Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Publication type: Trial-Use Key Words: aircraft, generator, regulator, characteristics Designation: 137-1960 Sponsor: IEEE Aerospace and Electronic Systems Society/Electrical Power/Energy Systems Panel Title: IEEE Trial-Use Test Procedure for AC 400 Hz Aircraft Induction Motors Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Publication type: Trial-Use Key Words: aircraft, induction, motor Designation: 138-1960 Sponsor: IEEE Aerospace and Electronic Systems Society/Electrical Power/Energy Systems Panel Title: Trial-Use Test Procedure for Aircraft Alternating-Current Generators Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Publication type: Trial-Use Key Words: aircraft, generator, ac Designation: 139-1988 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Reaffirmation Status and Year: 2006 Title: IEEE Recommended Practice for the Measurement of Radio Frequency Emission from Industrial, Scientific, and Medical (ISM) Equipment Installed on User's Premises Status: Approved Publication of IEEE , Published Date: Dec 12, 1988 **Revision of IEEE Std 139-1952. Technical Contact: Stephen Berger, Phone:512-864-3365, Email:stephen.berger@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 28, 1984, BD APP: Jun 09, 1988, ANSI APP: Aug 11, 1988 Project Scope: This document describes equipment inspection and radio frequency (rf) electromagnetic field measurement procedures for evaluation of rf industrial, scientific, and medical (ISM) equipment installed in the user's facility. The term, “ISM equipment,” as used here, includes equipment that generates rf energy for purposes other than radio communications, to cause physical, chemical, or biological changes; for example, industrial heaters (dielectric and induction), medical diathermy, ultrasonic equipment, rf plasma devices, and rf stabilized welders. These procedures are designed to help ensure that the equipment does not interfere with radio communications, navigation, and other essential radio services. The engineer responsible for the measurements should take all reasonable precautions to ensure that the maximum emission from the ISM equipment under test (EUT) has been measured. Radio frequency field-strength measurements of installed ISM equipment may be required if any of the following conditions exist: 1) The emission from the EUT was not measured by the manufacturer. 2) Because of its size or special operating conditions, the EUT could not be tested before installation. 3) Installed ISM equipment is suspected of causing interference. 4) ISM equipment has been modified in a way that could affect its rf emissions. 5) As the equipment ages, there is a question about its continued compliance. 6) There is a question about the safety to nearby personnel because of the emissions from the equipment. Measurements should be made under the direction of an engineer skilled in making and interpreting rf field-strength measurements. These measurements are made after the equipment is installed and ready for use at its place of use, and after it has been inspected as described in 2.2. The measurement report should generally be kept on file for at least three years after new measurements are made or after the equipment is no longer in use. There are significant differences between the “open field” or anechoic chamber measurements common in electromagnetic compatibility (EMC) and electromagnetic interference (EMI) work and the on-site measurements of installed ISM equipment. Some of these differences are described below. 1) The measurement conditions are usually more difficult because of crowded measurement locations, reflections from surrounding walls and equipment, and signals from other sources. 2 2) It is reasonable to take advantage of the shielding provided by walls and other equipment located between the ISM Equipment Under Test (EUT) and the location at which field- strength information is required. While the effect of a single wall may be small, the total effect of other equipment and building structures may be significant. In any case, it is not necessary to make measurements in a way which eliminates the benefits of this shielding. Some equipment is designed to be operated in a shielded enclosure, either because of its own sensitivity to outside interference, or because of its emission characteristics. When measuring the emission from this equipment, take advantage of the attenuation of the enclosure by making the measurements outside the enclosure, with the equipment in its normal operating position. 3) Since the measurement equipment is disconnected, moved, and reconnected many times during a set of measurements, its calibration should be checked frequently. 4) ISM equipment may often be grouped for field- strength measurements, taking one set of measurements for the entire group. 5) Electromagnetic-emission measurements of installed ISM equipment are usually significantly less accurate than laboratory (open field or test chamber) measurements because of lack of control of the measurement environment. The engineer responsible for the measurements should ensure, to the extent practical, that significant inaccuracies do not creep into the measurements from controllable factors. The overall accuracy of the measurements should be taken into account when reporting the results. 6) On-site measurements of installed ISM equipment are usually unique to the particular site because of effects of local shielding. However, they may apply to the same piece of equipment or to identical equipment installed at other sites that provide equivalent shielding and grounding. 7) The emission measured from the ISM equipment is a function of the environment surrounding the equipment. In most industrial locations, the environment is likely to change. Therefore, when measuring emission, 1) make sure the environment is typical of its usual operating condition, and, 2) determine, to the extent possible, if probable environment changes will increase emission. If so, the user should be warned. When measuring emission because of suspected electromagnetic interference, the conditions existing at the time of the suspected interference should be duplicated as closely as possible. Designation: 140-1950 Sponsor: IEEE Electromagnetic Compatibility Society Title: IEEE Recommended Practice for Minimization of Interference from Radio- Frequency Heating Equipment Status: Superseded Designation: 140-1990 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Reaffirmation Status and Year: 1995 Title: IEEE Recommended Practice for Minimization of Interference from Radio- Frequency Heating Equipment Status: Withdrawn Standard. Withdrawn Date: Jan 10, 2002. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 140-1950. History: PAR APP: Sep 28, 1984, BD APP: May 31, 1990, ANSI APP: Oct 12, 1990 Abstract: Procedures that may be applied in the design and construction of radio-frequency heating equipment used for heating in industrial settings and for other purposes are described. These procedures are intended to reduce the levels of radio-frequency energy leaks, which can interfere with other equipment and broadcast services. They may also be used as remedial measures when harmful interference occurs. Applications in the field of telecommunication and information technology are excluded. Key Words: electromagnetic, interference, ISM equipment, radio-frequency, heating equipment, energy, minimize, Electromagnetic interference, Electromagnetic heating Designation: 141-1993 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Reaffirmation Status and Year: 1999 Title: IEEE Recommended Practice for Electric Power Distribution for Industrial Plants Status: Approved Publication of IEEE , Published Date: Apr 29, 1994 **IEEE Red Book. Revision of IEEE Std 141-1986. Technical Contact: William J Moylan, Phone:313-565-5242, Email:w.j.moylan@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Oct 20, 1988, BD APP: Dec 02, 1993, ANSI APP: Jun 03, 1994 Abstract: A thorough analysis of basic electrical-systems considerations is presented. Guidance is provided in design, construction, and continuity of an overall system to achieve safety of life and preservation of property; reliability; simplicity of operation; voltage regulation in the utilization of equipment within the tolerance limits under all load conditions; care and maintenance; and flexibility to permit development and expansion. Recommendations are made regarding system planning; voltage considerations; surge voltage protection; system protective devices; fault calculations; grounding; power switching, transformation, and motor- control apparatus; instruments and meters; cable systems; busways; electrical energy conservation; and cost estimation. Key Words: redbook, electric power, distribution, energy management, grounding, power cables, power transformers, switches, wiring, Switches/switchgear, Power system measurements, Power distribution, Industrial power system protection, Industrial power system planning, Industrial power system economics Designation: 141 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: Recommended Practice for Electric Power Distribution for Industrial Plants Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: William J Moylan, Phone:313-565-5242, Email:w.j.moylan@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 16, 1998 Project Scope: Provide update of 1993 edition. No new chapters are anticipated. Revise existing material to include latest technologies. Project Purpose: Maintain current status of the Red Book as a publication reflecting current technology. Designation: P141 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: Recommended Practice for Electric Power Distribution for Industrial Plants Status: Revision Project Technical Contact: William J Moylan, Phone:313-565-5242, Email:w.j.moylan@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 20, 2005 Project Scope: This publication provides a recommended practice for the electrical design of industrial facilities; and distribution, control, and monitoring of electrical energy in industrial facilities. Project Purpose: This recommended practice is intended to be the reference source for the current and updated practices for electrical design of industrial facilities and power distribution in plants in order to increase electrical system reliability. It is likely to be of greatest value to the power-oriented engineer with limited industrial experience. It can also be an aid to all engineers responsible for the electrical design of the industrial facilities. Designation: 141-1986 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for Electric Power Distribution for Industrial Plants (IEEE Red Book) Status: Superseded History: BD APP: Dec 12, 1985, ANSI APP: Jun 04, 1986 Designation: 142-2007 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for Grounding of Industrial and Commercial Power Systems Status: Approved Publication of IEEE , Published Date: Nov 30, 2007 Technical Contact: Lynn F Saunders, Phone:248-753-1861, Email:saunderslf@comcast.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 10, 2003, BD APP: Jun 07, 2007, ANSI APP: Oct 04, 2007 Project Scope: The scope of this document is to provide concensus of the expertize on the subject of grounding of industrial and commercial power systems, equipemnt, lightning protection, connection to earth and computer system grounding. Project Purpose: As grounding systems technology advances, this recommended practice must be revised and updated to reflect these changes. Abstract: The problems of system grounding, that is, connection to ground of neutral, of the corner of the delta, or of the midtap of one phase, are covered. The advantages and disadvantages of grounded vs. ungrounded systems are discussed. Information is given on how to ground the system, where the system should be grounded, and how to select equipment for the ground of the neutral circuits. Connecting the frames and enclosures of electric apparatus, such as motors, switchgear, transformers, buses, cables, conduits, building frames, andportable equipment, to a ground system is addressed. The fundamentals of making the interconnection of a ground conductor system between electric equipment and the ground rods, water pipes, etc., are outlined. The problems of static electricity—how it is generated, what processes may produce it, how it is measured, and whatshould be done to prevent its generation or to drain the static charges to earth toprevent sparking—are treated. Methods of protecting structures against the effects of lightning are also covered. Obtaining a low-resistance connection to earth, use of ground rods, connections to water pipes, etc., are discussed. A separate chapter on electronic equipment is included. Key Words: connection to earth, electronic equipment grounding, equipmentgrounding, lightning protection, static protection, system grounding Designation: 142 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: Recommended Practice for Grounding of Industrial and Commercial Power Systems Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. **Revison project for Green Book. Technical Contact: Lynn F Saunders, Phone:248-753-1861, Email:saunderslf@comcast.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 13, 1994 Designation: 142-1991 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for Grounding of Industrial and Commercial Power Systems Status: Superseded **IEEE Green Book. Revision of IEEE Std 142-1982. Technical Contact: Lynn F Saunders, Phone:248-753-1861, Email:saunderslf@comcast.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 13, 1984, BD APP: Jun 27, 1991, ANSI APP: Dec 09, 1991 Abstract: The problems of system grounding, that is, connection to ground of neutral, of the corner of the delta, or of the midtap of one phase, are covered. The advantages and disadvantages of grounded versus ungrounded systems are discussed. Information is given on how to ground the system, where the system should be grounded, and how to select equipment for the grounding of the neutral circuits. Connecting the frames and enclosures of electric apparatus, such as motors, switchgear, transformers, buses, cables conduits, building frames, and portable equipment, to a ground system is addressed. The fundamentals of making the interconnection or ground-conductor system between electric equipment and the ground rods, water pipes, etc. are outlined. The problems of static electricity(how it is generated, what processes may produce it, how it is measured, and what should be done to prevent its generation or to drain the static charges to earth to prevent sparking(are treated. Methods of protecting structures against the effects of lightning are also covered. Obtaining a low-resistance connection to the earth, use of ground rods, connections to water pipes, etc, are discussed. A separate chapter on sensitive electronic equipment is included. Key Words: system, static, lightning protection, protection grounding, connection to earth, earth, sensitive, electronic equipment, green book, System grounding, Static and lightning protection, Sensitive electronic equipment, Equipment grounding Designation: 142-1982 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for Grounding of Industrial and Commercial Power Systems (IEEE Green Book) Status: Superseded History: PAR APP: Dec 28, 1984, BD APP: Jun 10, 1982, ANSI APP: Feb 04, 1983 Key Words: grounding, industrial, commercial, power, systems Designation: 145-1993 Sponsor: IEEE Antennas and Propagation Society/Antennas Reaffirmation Status and Year: 2004 Title: IEEE Standard Definitions of Terms for Antennas Status: Approved Publication of IEEE **Revision of IEEE Std 145-1983. Mar04-Withdrawn by ANSI as overage. History: PAR APP: Mar 21, 1991, BD APP: Mar 18, 1993, ANSI APP: Sep 16, 1993 Project Scope: It is assumed in this standard that an antenna is a passive linear reciprocal device. Thus, where a definition implies the use of an antenna in a transmitting situation, its use in a receiving situation is also implicit, unless specifically stated otherwise. When an antenna or group of antennas is combined with circuit elements that are active, nonlinear, or nonreciprocal, the combination is regarded as a system that includes an antenna. Examples of such cases are an adaptive antenna system and a signal-processing antenna system; the complete conical-scanning, monopulse, and compound interferometer systems also fall in this category. For terms that are quantitative, it is understood that frequency must be specified. For those in which phase or polarization is a significant part of the definition, a coherent source of power is implied. Whenever a term is commonly used in other fields but has specialized significance in the field of antennas, this is noted in the title. When applying terms pertaining to radiation characteristics, such as gain, polarization, beamwidth, etc., to multiple-beam antennas, each port shall be considered to be that of a separate antenna with a single main beam. For polarization diversity systems that may include active devices, these terms apply to each polarization state for which the antenna is adjusted. Throughout this standard, where phasors are used, or are implied, the time convention shall be taken to be exp(jwt). Abstract: Definitions of terms in the field of antennas are provided. Key Words: antennas, definitions, propagation, terminology Designation: 145 Sponsor: IEEE Antennas and Propagation Society/Antennas Title: Standard Definitions of Terms for Antennas Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: George Hagn, Phone:703-941-7663, Email:ghagn@erols.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 26, 1997 Project Scope: This project will update the antenna terms and definitions used in the current standard. The current standard was originally completed in 1983. Many new terms and concepts for antennas, especially active antennas, are not included. This working group will review the complete entire standard and update existing terms and include new terms that are in use but not in the standard. Project Purpose: This project will update the antenna terms and definitions used in the current standard. Designation: 145-1983 Sponsor: IEEE Antennas and Propagation Society/Antennas Title: IEEE Standard Definitions of Terms for Antennas Status: Superseded History: BD APP: Mar 11, 1982, ANSI APP: Dec 01, 1983 Designation: 146-1980 Sponsor: IEEE Microwave Theory and Techniques Society Title: IEEE Standard Definitions of Fundamental Waveguide Terms Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Mar 13, 1980, ANSI APP: Jan 01, 1983 Designation: 147-1979 Sponsor: IEEE Microwave Theory and Techniques Society Title: IEEE Standard Definitions of Terms for Waveguide Components Status: Withdrawn Standard. Withdrawn Date: May 05, 1995. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Jun 16, 1978, ANSI APP: Jan 01, 1981 Abstract: Definitions of components for waveguide use are presented. The components are considered to be linear, passive, and reciprocal unless otherwise specified in the definitions. The definitions included were drawn from Institute of Radio Engineers and International Electrotechnical Commission (IEC) documents. Some definitions are included unchanged, some have been modified or deleted, and several new definitions have been added. Not all possible component varieties are included. Designation: 148 Sponsor: IEEE Microwave Theory and Techniques Society Title: Standard for Waveguide and Waveguide Component Measurements Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Arthur Blaisdell **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 10, 1987 Designation: 148-1959 Sponsor: IEEE Microwave Theory and Techniques Society Reaffirmation Status and Year: 1971 Title: IEEE Standard for Waveguide and Waveguide Component Measurements Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: PAR APP: Dec 28, 1987 Key Words: waveguide, measurements, component Designation: 149-1977 Sponsor: IEEE Antennas and Propagation Society/Antennas Reaffirmation Status and Year: 2008 Title: IEEE Standard Test Procedures for Antennas Status: Approved Publication of IEEE **Revision of IEEE Std 149-1965. History: BD APP: Dec 15, 1977, ANSI APP: Oct 09, 2003 Designation: 149 Sponsor: IEEE Antennas and Propagation Society Title: Standard Test Procedures for Antennas Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. History: PAR APP: Jun 12, 1985 Designation: 149 Sponsor: IEEE Antennas and Propagation Society/Antennas Title: Standard Test Procedures for Antennas Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: A David Olver, Phone:44-171-975-5345, Email:a.d.olver@gmw.ac.uk **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 20, 1997 Project Scope: This project will update the Standard Test Procedure for Antennas. This standard was last updated in 1979. Many changes in antenna testing have occurred since then especially in the area of computer control and automation. Many new methods, test equipment, and test procedures are not included in the existing standard. This update will include all of these. Near field testing will now be included. Project Purpose: This standard is used throughout government, industry and academia in the area of antenna testing. It provides many of the procedures currently used by antenna test organization. However, the technology has passed the standard by in the areas and many areas and equipment are not included. This update will include these. Designation: 150 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 151-1965 Title: Standard Definitions of Terms for Audio and Electroacoustics Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 152-1953 Sponsor: IEEE Broadcast Technology Society Reaffirmation Status and Year: 1971 Title: Recommended Practice for Volume Measurements of Electric Speech and Program Waves Status: Superseded Designation: 152-1991 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Title: IEEE Standard for Audio Program Level Measurement Status: Withdrawn Standard. Withdrawn Date: Mar 06, 2000. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 152-1953. History: PAR APP: Mar 13, 1986, BD APP: Dec 05, 1991, ANSI APP: May 21, 1992 Abstract: Two audio program level measuring devices, the peak-program meter and the standard volume indicator, are described. The peak-program meter is intended to indicate the peak level of audio signals that the transmission or recording medium must accommodate if audible distortion is to be avoided. The standard volume indicator is intended to provide a means to assign numerical values to the average magnitude of audio program signals. The dynamic response requirements specified in this standard for the peak-program meter are identical to the normal mode European Broadcasting Union standard peak-program meter. This standard does, however, allow more flexibility for the selection of the scale. Key Words: peak, meter, indicator, audio program, program level, Standard volume indicator, Peak-program meter Designation: 154 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 155-1960 Sponsor: IEEE Circuits and Systems Society Reaffirmation Status and Year: 1990 Title: IEEE Standards on Circuits: Definitions of Terms for Linear Signal Flow Graphs, 1960 Status: Withdrawn Standard. Withdrawn Date: Mar 06, 2000. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: Ming-Ting Sun, Phone:206-616-8690, Email:sun@ee.washington.edu **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Jan 14, 1960, ANSI APP: Feb 27, 1991 Abstract: "IEEE Std 155-1960 IEEE Standards on Circuits: Definitions of Terms for Linear Signal Flow Graphs, 1960" Key Words: "IEEE Std 155-1960 IEEE Standards on Circuits: Definitions of Terms for Linear Signal Flow Graphs, 1960" Designation: 156-1960 Sponsor: IEEE Circuits and Systems Society Reaffirmation Status and Year: 1990 Title: IEEE Standards on Circuits: Definitions of Terms for Linear Passive Reciprocal Time Invariant Networks, 1960 Status: Withdrawn Standard. Withdrawn Date: Mar 06, 2000. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: Ming-Ting Sun, Phone:206-616-8690, Email:sun@ee.washington.edu **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Jan 14, 1960, ANSI APP: Feb 27, 1991 Abstract: Terms that apply to linear, passive, reciprocal, time-invariant networks are defined. The terms apply to mathematical concepts that represent idealizations of physical phenomena. Thus, the definitions apply to idealized models that are useful in describing properties of physical networks. The question of whether or not a certain term is applicable to a particular physical situation is left to the user. Key Words: linear, reciprocal, time, invariant, Terminology, Passive circuits Designation: 157 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 158-1962 Sponsor: IEEE Electron Devices Society Title: Methods of Testing Electron Tubes Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 161-1971 Sponsor: IEEE Electron Devices Society Title: Standard Definitions on Electron Tubes Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 162-1963 Sponsor: IEEE Electron Devices Society Reaffirmation Status and Year: 1984 Title: IEEE Standard Definitions of Terms for Electronic Digital Computers Status: Withdrawn Standard. Withdrawn Date: Jun 14, 1994. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: ANSI APP: Jan 01, 1985 Designation: 164-1962 Sponsor: IEEE Computer Society Title: Methods of Testing Bobbin Cores for Electronic Computers Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 165-1977 Sponsor: IEEE Computer Society/Microprocessor Standards Committee Reaffirmation Status and Year: 1984 Title: IEEE Standard Definitions of Terms for Analog Computers Status: Withdrawn Standard. Withdrawn Date: Jun 14, 1994. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Jun 03, 1976, ANSI APP: May 03, 1985 Key Words: computer, analog, terms, glossary, definitions Designation: 166-1977 Sponsor: IEEE Electron Devices Society Reaffirmation Status and Year: 1984 Title: IEEE Standard Definitions of Terms for Hybrid Computer Linkage Components Status: Withdrawn Standard. Withdrawn Date: Jun 14, 1994. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Jun 03, 1976, ANSI APP: May 03, 1985 Key Words: computer, hybrid, terms, linkage, component Designation: 167-1966 Sponsor: IEEE Communications Society Title: Test Procedure for Facsimile Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 167A-1987 Sponsor: IEEE Communications Society Title: IEEE Standard Facsimile Test Charts (Revised as 167A.1) Status: Superseded **Reprinted. Being revised as 167A.1 Abstract: A chart for use in testing facsimile equipment is provided. A description of the patterns is included. Key Words: 167A, facsimile, test chart Designation: 167A.1-1995 Sponsor: IEEE Communications Society/Transmission Access & Optical Systems Title: IEEE Standard Facsimile Test Chart: Bi-level (Black & White) Status: Withdrawn Standard. Withdrawn Date: Jan 15, 2001. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of 167A-1987. administratively withdrawn on 15-Jan-2001. History: PAR APP: Sep 21, 1995, BD APP: Sep 21, 1995, ANSI APP: Jul 16, 1996 Project Scope: Facsimile test chart for bi-level (black & white). Project Purpose: Provide a bi-level (black & white) facsimile test chart for use in determining the performance of facsimile equipment and systems Abstract: A facsimile test chart for assessing performance of document facsimile systems, including any compatible combination of facsimile equipment, computers, transmission facilities, and image storage, is provided. The chart is composed solely of high- resolution, high contrast black-and-white patterns. Although the chart is designed for Group 3 and Group 4 facsimile, it is also expected to be useful in testing other imaging systems. The received image may be recorded or displayed. This standard offers a means of assessing various technical quality parameters, detecting defects produced in received images, and evaluating the readability of text when the original is black and white. Key Words: facsimile, test chart, black , white, bi-level, imaging systems Designation: 167A.2-1996 Sponsor: IEEE Communications Society/Transmission Access & Optical Systems Title: IEEE Standard Facsimile Test Chart: High Contrast (Gray Scale) Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **16-Jan-04: Administratively withdrawn. History: PAR APP: Sep 21, 1995, BD APP: Sep 19, 1996, ANSI APP: Feb 06, 1997 Project Scope: Facsimile Test Chart for high contrast (gray scale). Project Purpose: Provide a high contrast (gray scale) facsimile test chart for use in determining the performance of facsimile equipment and systems. Abstract: A means of assessing performance of document facsimile systems, including any compatible combination of facsimile equipment, computers, transmission facilities, and image storage, is provided. Key Words: facsimile, imaging systems, test charts Designation: 167A.3-1997 Sponsor: IEEE Communications Society/Transmission Access & Optical Systems Title: IEEE Standard Facsimile Test Chart - Color Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **16-Jan-04: Administratively withdrawn. History: PAR APP: Sep 21, 1995, BD APP: Sep 16, 1997 Project Scope: Facsimile Test Chart for color. Project Purpose: Provide a color facsimile test chart for use in determining the performance of facsimile equipment and systems. Abstract: " A facsimile test chart for assessing performance of document facsimile systems, includ-ing any compatible combination of facsimile equipment, computers, transmission facilities, and im-age storage, is provided. " Key Words: "facsimile, imaging systems, test charts" Designation: 168-1956 Sponsor: IEEE Communications Society Reaffirmation Status and Year: 1971 Title: IEEE Standard Definitions of Terms for Facsimile Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawal 3/2/89. Standard administratively withdrawn 12/6/90. Designation: 169 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 170-1964 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Title: Standard Definitions of Terms for Modulation Systems Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 171-1958 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Title: Standard Definitions of Terms for Information Theory Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 172-1983 Sponsor: IEEE Aerospace and Electronic Systems Society/Guidance & Control Systems Panel Title: IEEE Standard Definitions of Navigation Aid Terms Status: Withdrawn Standard. Withdrawn Date: Jun 17, 1993. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 6/29/92. History: BD APP: Jun 10, 1982, ANSI APP: Jan 01, 1984 Designation: 173-1959 Sponsor: IEEE Aerospace and Electronic Systems Society/Guidance & Control Systems Panel Title: IEEE Standards on Navigation Aids: Direction Finder Measurements, 1959 Status: Withdrawn Standard. Withdrawn Date: Jun 17, 1993. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI wdn. Technical Contact: Bud Wimber, Phone:(818) 719-7920, Email:wimber@littongcs.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Apr 10, 1958 Key Words: direction, finder, measurement Designation: 174 Sponsor: IEEE Aerospace and Electronic Systems Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 175 Sponsor: Nuclear and Plasma Sciences Society/Nuclear Instruments and Detectors Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 176 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Title: Standard on Piezooelectricity Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Thrygve R Meeker, Phone:610-437-3310 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 13, 1994 Designation: 176-1987 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Title: IEEE Standard on Piezoelectricity Status: Withdrawn Standard. Withdrawn Date: Mar 06, 2000. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 176-1949. History: BD APP: Mar 12, 1987, ANSI APP: Sep 07, 1987 Abstract: 176_1987.bk Key Words: 176_1987.bk Designation: 177 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Title: Standard Definitions and Methods of Measurement for Piezoelectric Vibrators Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Thrygve R Meeker, Phone:610-437-3310 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 28, 1990 Project Scope: A modest revision of the (177-1966) standard will include corrections, improvements, and section additions on bridge, scattering parameter, and improved Pi-network techniques for more accurate measurements of the electrical parameters of higher frequency piezoelectric resonators with higher electromechanical coupling. The revised std should be useful for measurements on both crystalline (quartz) and ceramic(lead zirconia titanate) resonators. Project Purpose: Since the present std (177-1966) was issued, considerable worldwide work on piezoelectric resonator electrical measurement techniques has been reported. This work has led to more accurate measurements of the electrical parameters of piezoelelectric resonators at higher frequencies and at higher electromechanical coupling, including a more comprehensive understanding of the dependence of measured crystal parameters on the measurement fixture and on the measurement conditions. Three of these measurement tchniques (the bridge technique, the improved Pi-network technique, and the scattering parameter technique) are so useful that they should be discussed in the IEEE standard. Including discussion on all three measurement techniques will considerably increase the value of the standard to technical workers in the field. Designation: 177-1966 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Title: Standard Definitions and Methods of Measurements for Piezoelectric Vibrators Status: Withdrawn Standard. Withdrawn Date: Jun 14, 1994. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **aka ANSI C83.17-1970 History: BD APP: May 23, 1966 Abstract: The equivalent electric circuit of a piezoelectric vibrator and its parameters are reviewed. The determination of these parameters by the transmission method is described. The method is suitable for frequencies up to about 30 MHz for the commonly encountered ranges of the capacitance ratio r and the figure of merit M, provided that errors due to instrumentation are taken into account. The equations presented in this standard have been formulated to correct these errors. Key Words: piezoelectricity, vibrator Designation: 178 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 179 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 180-1986 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Title: IEEE Standard Definitions of Primary Ferroelectric Terms Status: Withdrawn Standard. Withdrawn Date: May 05, 1995. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 6/29/92. History: BD APP: Jun 13, 1985, ANSI APP: Nov 05, 1985 Abstract: Terms applying primarily to ferroelectric materials, including single crystals, polycrystalline ceramics, and semicrystalline polymers, are defined. Because of the coupling that exists between ferroelectric and ferroelastic behavior in some crystalline materials, ferroelastic terms are also defined. When particular terms are related to experimental measurements, the basic measuring techniques are briefly described. Key Words: ferro, ferroelectric, terms, primary, glossary Designation: 181-2003 Sponsor: IEEE Instrumentation and Measurement Society/TC10 - Waveform Generation Measurement and Analysis Title: IEEE Standard on Transitions, Pulses, and Related Waveforms Status: Approved Publication of IEEE , Published Date: Jul 11, 2003 Technical Contact: Nick Paulter, Phone:301-975-2405, Email:nicholas.paulter@nist.gov **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Feb 13, 2003, BD APP: Mar 20, 2003, ANSI APP: Jun 19, 2003 Project Scope: The scope of this revised PAR is limited to revising the title of P181. See item 18 for additional explanatory notes. The scope of the previous PAR is: 'Revise and combine IEEE standards 181-1977 and 194-1977 into a single standard which define terms pertaining to transitions, pulses and related signals and defines procedures for estimating their parameters.' Project Purpose: The purpose of this revised PAR is to change the title (see Item 18). The purpose of the previous PAR is: 'IEEE Standards 181-1977 and 194-1977 have been withdrawn. Manufacturers and users of pulse generators, waveform recorders, and high-speed digital circuits require clear concise terms for effective communication.' Abstract: "IEEE Std 181-2003, IEEE Standard on Transitions, Pulses, and Related Waveforms" Key Words: "aberration, algorithms, compound waveform, histogram, levels, pulse, pulse amplitude, pulse definitions, pulse measurement, states, state boundaries, state levels, transients" Designation: 181 Sponsor: IEEE Instrumentation and Measurement Society/TC10 - Waveform Generation Measurement and Analysis Title: Standard on Pulse Measurement and Analysis by Objective Techniques Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Otis M Solomon, Phone:(505) 844-2320, Email:omsolom@sandia.gov **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 10, 1982 Abstract: Revision in progress, expected completion in 1992. Designation: P181 Sponsor: IEEE Instrumentation and Measurement Society/TC10 - Waveform Generation Measurement and Analysis Title: Standard on Transitions, Pulses, and Related Waveforms Status: Revision Project Technical Contact: Nick Paulter, Phone:301-975-2405, Email:nicholas.paulter@nist.gov **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This standard defines terms pertaining to transitions, pulses, and related signals amd defines procedures for estimating their parameters. Project Purpose: The purpose of the standard is to unambiguously and accurately define terms pertaining to transitions, pulses, and related signals and the algorithm for their computation. This helps to communicate requirements between vendors and users, improves understanding and readability of instrument performance specifications, and provides a common ground for parameter and performance comparisons. Designation: 181 Sponsor: IEEE Instrumentation and Measurement Society/TC10 - Waveform Generation Measurement and Analysis Title: Standard on Transitions, Pulses, and Related Signals Status: Superseded Technical Contact: Nick Paulter, Phone:301-975-2405, Email:nicholas.paulter@nist.gov **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 10, 1996 Project Scope: Revise and combine IEEE standards 181-1977 and 194-1977 into a single standard which define terms pertaining to transitions, pulses and related signals and defines procedures for estimating their parameters. Project Purpose: IEEE Standards 181-1977 and 194-1977 have been withdrawn. Manufacturers and users of pulse generators, waveform recorders, and high- speed digital circuits require clear concise terms for effective communication. Designation: 181-1977 Sponsor: IEEE Instrumentation and Measurement Society/TC10 - Waveform Generation Measurement and Analysis Title: IEEE Standard on Pulse Measurement and Analysis by Objective Techniques Status: Withdrawn Standard. Withdrawn Date: Sep 15, 1993. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawal date 4/9/90. History: BD APP: Sep 04, 1975, ANSI APP: Aug 29, 1979 Designation: 182-1961 Sponsor: IEEE Broadcast Technology Society Title: IEEE Standards on Radio Transmitters: Definitions of Terms Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Incorporated in 182A. Archive only. Standard administratively withdrawn 12/6/90. Key Words: radio, transmitters, terms, glossary Designation: 182A-1964 Sponsor: IEEE Broadcast Technology Society Title: IEEE Standard Definitions of Terms for Radio Transmitters Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Includes IEEE l82. Key Words: 182A Designation: 183-1958 Sponsor: IEEE Broadcast Technology Society Title: IEEE Technical Committee Report: Methods for Testing Radiotelegraph Transmitters (Below 50 MC) Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Key Words: radio, telegraph, radiotelegraph, transmitter, test Designation: 184-1969 Title: Test Procedure for Frequency-Modulated Mobile Communications Receivers Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 185-1975 Sponsor: IEEE Broadcast Technology Society Title: Standard Methods of Testing Frequency Modulation Broadcast Receivers Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 186-1948 Sponsor: IEEE Consumer Electronics Society Reaffirmation Status and Year: 1972 Title: IEEE Standard Methods of Testing Amplitude-Modulated Broadcast Receivers Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. ANSI withdrawn 6/29/92. Technical Contact: Linda Sue Boehmer, Phone:412-653-1082, Email:lsbtec@aol.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: ANSI APP: Dec 12, 1972 Designation: 187-2003 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Reaffirmation Status and Year: 2008 Title: IEEE Standard Measurement Methods of Emissions from FM and Television Broadcast Receivers in the Frequency Range of 9kHz to 40GHz Status: Approved Publication of IEEE , Published Date: May 07, 2004 **Supersedes 187-1990 (R1995). Technical Contact: Edward F Hare, Phone:860 594 0318, Email:ehare@arrl.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 11, 2002, BD APP: Dec 10, 2003, ANSI APP: Mar 31, 2004 Project Scope: To add new Advanced Televsion System Committee (ATSC) television standards to the present standards and clarify areas in conflict with current US Federal Communication Commission (FCC) requirements. This will include investigation of new TV recievers already being sold in the USA, including National Televsion System Committee (NTSC), ATSC and Digital Satellite System (DSS) and various combinations of these transmission methods. Finally, to expand the current standard which only applies to Table Top TV measurement setups, to include Set Top Box (STB) recievers and Rear Projection TV receivers. Project Purpose: This standard is needed to assure common measurement procedures for RF emissions in present and new technology products during the transition of NTSC analog TV to ATSC and DSS digital TV products in the USA and to ensure FCC accepts this industry need. Abstract: Spurious radiation from sound and television broadcast receivers of the superheterodyne type are possible sources of interference with other radio services. This standard describes the potential sources of spurious radiation from receivers intended for the reception of sound and television broadcast, and the measurement methods for them. Key Words: antenna radiation, conducted emissions, FM sound broadcast receivers, radiated emissions, spurious emissions, television broadcast receivers Designation: 187-1990 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Reaffirmation Status and Year: 1995 Title: IEEE Standard on Radio Receivers: Open Field Method of Measurement of Spurious Radiation from FM and Television Broadcast Receivers Status: Superseded **Revision of IEEE Std 187-1951. Superseded by 187-2003. History: BD APP: Aug 15, 1990, ANSI APP: Dec 27, 1990 Abstract: The potential sources of spurious radiation from frequency modulation (FM) and television broadcast receivers and sets up methods of measurement are described. Possible sources of spurious radiation and ways to measure them are set forth. This standard is not intended to apply to equipment other than FM and television broadcast receivers. Key Words: field strength, meter, frequency modulation, open field measure, spurious radiaiton, television broadcast, broadcast receivers, FM, radio receivers, VHF radio receivers, TV receivers, FM receivers, Electromagnetic measurements, Electromagnetic interference Designation: 187-1951 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Title: IEEE Standards on Radio Receivers: Open Field Method of Measurement of Spurious Radiation from Frequency Modulation and Television Broadcast Receivers Status: Superseded Key Words: receivers, broadcast, fm, tv, spurious Designation: 187 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Title: Standard Method of Measurement of Emissions from Television Receivers Status: Superseded Technical Contact: David L Traver, Phone:719-538-4624, Email:davidtraver@adelphia.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Nov 08, 2000 Project Scope: To add new Advanced Television System Committee (ATSC) television standards to the present standards and clarify areas in conflict with current US Federal Communications Commission (FCC) requirements. This will include the investigation of new TV receivers already being sold in the USA, including National Television System Committee (NTSC), ATSC and Digital Satellite System (DSS), and various combinations of these transmission methods. Finally, to expand the current standard which only applies to Table Top TV measurement setups, to include Set Top Box (STB)TV receivers and Rear Projection TV receivers. Project Purpose: This standard is needed to assure common measurement procedures for RF emissions in present and new technology products during the transition of NTSC analog TV to ATSC and DSS digital TV products in the USA and to ensure that the FCC accepts this industry need. Designation: 188 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 189-1955 Sponsor: IEEE Consumer Electronics Society Reaffirmation Status and Year: 1972 Title: IEEE Standard Method of Testing Receivers Employing Ferrite Core Loop Antennas Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. ANSI withdrawn 6/29/92. Technical Contact: Linda Sue Boehmer, Phone:412-653-1082, Email:lsbtec@aol.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: ANSI APP: Dec 30, 1976 Key Words: antennas, ferrite, loop, core Designation: 190-1960 Sponsor: IEEE Broadcast Technology Society Title: Standard Methods of Testing Monochrome Television Broadcast Receivers Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 191 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 192-1958 Title: Methods of Calibration of Mechanically Recorded Lateral Frequency Records Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 193-1971 Title: Method for Measurement of Weighted Peak Flutter of Sound Recording and Reproducing Equipment Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 194 Sponsor: IEEE Instrumentation and Measurement Society/TC10 - Waveform Generation Measurement and Analysis Title: Standard Pulse Terms and Definitions Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Otis M Solomon, Phone:(505) 844-2320, Email:omsolom@sandia.gov **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 10, 1982 Abstract: Revision in progress, expected completion in 1992. Designation: 194-1977 Sponsor: IEEE Instrumentation and Measurement Society/TC10 - Waveform Generation Measurement and Analysis Title: IEEE Standard Pulse Terms and Definitions Status: Withdrawn Standard. Withdrawn Date: Sep 15, 1993. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Feb 17, 1975 Key Words: pulse, terms, glossary Designation: 195 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 196-1951 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Title: Standard Definitions of Terms for Transducers Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 197 Sponsor: IEEE Instrumentation and Measurement Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 198 Sponsor: SASB/SCC14- Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 199 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 200 Sponsor: IEEE-SASB Coordinating Committees Title: Reference Designations for Parts and Equipment Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Conrad R Muller **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Nov 09, 1989 Designation: 200-1975 Sponsor: IEEE-SASB Coordinating Committees Reaffirmation Status and Year: 1988 Title: IEEE Standard Reference Designations for Electrical and Electronics Parts and Equipments Status: Withdrawn Standard. Withdrawn Date: Jan 17, 1997. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Oct 31, 1975, ANSI APP: Oct 01, 1975 Abstract: The formulation and application of reference designations for electrical and electronics parts and equipment are covered. The reference designations of this standard are intended for uniquely identifying and locating discrete items on diagrams and in a set, as well as for correlating items in a set, graphic symbols on diagrams, and items in parts lists, circuit descriptions, and instructions. Three methods are given for forming and applying reference designations: the unit number method, the location numbering method, and the location coding method. A complete reference designation may incorporate reference designations formed by the use of any of these methods at any level from basic parts to complete units. Key Words: reference, designations, parts, equipment, Symbols Designation: 201-1979 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Title: Standard Definitions of Terms Relating to Television Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. **Standard administratively withdrawn 12/6/90. History: PAR APP: Sep 17, 1981, BD APP: Jun 16, 1978, ANSI APP: Dec 30, 1981 Designation: 201 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Title: Standard Definitions of Terms Relating to Analog Television Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. History: PAR APP: Sep 19, 1996 Project Scope: This project will update a withdrawn standard, and add the word "analog" to the title to indicate that the terms and definitions relate to analog television, sometimes called conventional definition television. The project proposes to include terms in general use by broadcasters and others involved in the production, distribution, and display of broadcast-quality television programs, employing the system currently in use in the USA and some other countries. The system is that developed by the National Television Systems Committee, and generally referred to as the NTSC system. Project Purpose: This standard is intended to be used a s a general reference for engineers and other technical personnel involved in broadcast-quality television engineering and operations, particularly for newcomers just learning the technology. Designation: 202-1954 Sponsor: IEEE Broadcast Technology Society Title: Television: Methods of Measurement of Aspect Ratio and Geometric Distortion Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 205 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Title: Standard for Measurement of Luminance Signal Levels Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: James M Defilippis **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: May 31, 1990 Designation: 205-2001 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Title: IEEE Standard on Television: Measurement of Luminance Signal Levels Status: Withdrawn Standard. Withdrawn Date: Jan 18, 2007. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: James R Redford, Phone:212-664-5222, Email:rick.redford@juno.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 20, 1996, BD APP: Mar 17, 2001, ANSI APP: Aug 02, 2001 Project Scope: Revise IEEE Std 205 to specify its application to composite NTSC signals only, define voltage levels associated with IRE units, redraw the roll-off characteristic for IRE filter response, revise circuit examples to substitute solid-state components for vacuum tybes, update text to S.I. units and abbreviations, and revise procedures for use with modern oscilloscopes. Project Purpose: Std 205 is long overdue for updating due to its dated language and methods. Nevertheless, it is a fundamental document in the definition of ITU-R System M waveform levels as used in most of North and South American, Japan, Rep. of Korea, Taiwan and the Phillipines. Abstract: " A method of measuring the amplitude levels of an SMPTE 170M-1994; NTSC color ormonochrome television video signal is described. It is concerned with luminance measurements atvarious points in transmission systems where the signals are at video frequencies. The methodsdescribed are limited to the use of waveform monitors, software video processing for amplitudeassessment, or suitable oscilloscopes, and are primarily directed to specifying means of measuringtelevision signal levels for operating purposes." Key Words: "chrominance, filter, luminance, luminance measurement filter, NTSC, SMPTE 170M,video, waveform monitor" Designation: 205-1958 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Reaffirmation Status and Year: 1972 Title: IEEE Standards on Television: Measurement of Luminance Signal Levels Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Key Words: measure, luminance, signal, levels Designation: 206 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Title: Standard on Measurement of Differential Gain and Differential Phase Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: James R Redford, Phone:212-664-5222, Email:rick.redford@juno.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Nov 08, 2000 Project Scope: This project will review and up-date the current scope of applications of the IEEE Std. 206 1960/1978. The primary application (scope) of the current Standard is intended to be in the field routine operational and maintenance tests of pure composite analog systems only, where rapid interpretation and communication of test results is necessary or desirable. The basic techniques described in the current standard are also applicable to laboratory measurements, proof-of-performance tests, and detailed maintenance procedures. The scope of the proposed project includes these measurements but will be revised to widened the scope to include hybrid systems (combining analog and digital signal processing) where the current scope does not apply. Project Purpose: The primary application of the current Standard is intended to be in the field routine operational and maintenance tests of pure composite analog systems only, where rapid interpretation and communication of test results is necessary or desirable. When measuring performance of hybrid systems (combining analog and digital signal processing), the method described in this document must not be used as significant errors are introduced in Differential Gain and Phase measurements. IEEE STD 746-1984 Measurements of A/D and D/A Converters for PCM Television Video Circuits and international recommendation ITU-R BT.1204 also define methods to measure Differential Gain and Differential Phase in hybrid digital/analog systems. The purpose of this project is to revise Std 206-1960/1978 to include specific Differential Gain and Phase measurement methods similar, if not identical, to those included in these standards. Designation: 206 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Title: Standard Methods of Measuring Differential Phase and Gain in Video Transmission Facilities Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: James M Defilippis **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: May 31, 1990 Designation: 206-1960 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Reaffirmation Status and Year: 1978 Title: IEEE Standards on Television: Measurement of Differential Gain and Differential Phase Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. History: BD APP: Jun 11, 1959, ANSI APP: Dec 04, 1961 Key Words: measure, tv, differential, gain, phase Designation: 208-1995 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Reaffirmation Status and Year: 2005 Title: IEEE Standard on Video Techniques: Measurement of Resolution of Camera Systems, 1993 Techniques Status: Approved Publication of IEEE , Published Date: May 24, 1995 **Revision of IEEE Std 208-1960. Technical Contact: James R Redford, Phone:212-664-5222, Email:rick.redford@juno.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 19, 1992, BD APP: Mar 16, 1995, ANSI APP: Aug 24, 1995 Abstract: The methods for measuring the resolution of camera systems are described. The primary application is for users and manufacturers to quantify the limit where fine detail contained in the original image is no longer reproduced by the camera system. The techniques described may also be used for laboratory measurements and for proof-of-performance specifications for a camera. Key Words: camera systems, video, resolution, video techniques Designation: 208-1960 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Reaffirmation Status and Year: 1978 Title: IEEE Standards on Video Techniques: Measurement of Resolution of Camera Systems, 1961 Status: Withdrawn Standard. Withdrawn Date: Jun 17, 1993. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **(R78) C16.34 . ANSI withdrawal date 4/9/90. History: BD APP: Sep 08, 1960 Key Words: measure, video, differential, gain, phase Designation: 210 Sponsor: IEEE Microwave Theory and Techniques Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 211-1997 Sponsor: IEEE Antennas and Propagation Society/Propagation Reaffirmation Status and Year: 2003 Title: IEEE Standard Definitions of Terms for Radio Wave Propagation Status: Approved Publication of IEEE History: PAR APP: Dec 12, 1995, BD APP: Dec 09, 1997, ANSI APP: Feb 04, 1999 Project Scope: Delete some obsolete terms, add new terms, refine language in some existing terms. Project Purpose: Keep this standard updated. Abstract: " Terms and definitions used in the context of electromagnetic wave propagation relatingto the fields of telecommunications, remote sensing, radio astronomy, optical waves, plasmawaves, the ionosphere, the magnetosphere, and magnetohydrodynamic, acoustic, and electrostaticwaves are supplied. " Key Words: "electromagnetic wave propagation, terminology" Designation: P211 Sponsor: IEEE Antennas and Propagation Society/Propagation Title: Standard Definitions of Terms for Radio Wave Propagation Status: Revision Project Technical Contact: David Thiel, Phone:+61 7 3735 7192, Email:d.thiel@griffith.edu.au **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This standard is devoted in providing terms for radio wave propagation. As radio wave technology and literature evolve, new terms will be added and obsolete terms will be deleted. Project Purpose: This standard is published for the purpose of promoting clarity and consistency in the use of radio wave propagation terminology . The purpose of the revision is to add new terms, refine language, and delete a number of obsolete terms that no longer appear in radio wave propagation literature or usage. Designation: 211-1990 Sponsor: IEEE Antennas and Propagation Society Title: IEEE Standard Definitions of Terms for Radio Wave Propagation Status: Superseded **Revision of Std 211-1977. History: PAR APP: Jun 28, 1987, BD APP: Dec 26, 1990, ANSI APP: May 21, 1991 Abstract: Terminology pertinent to electromagnetic wave propagation is defined. The fields covered include radio astronomy; optical waves; gravity waves; plasma waves; the ionosphere; the magnetosphere; and magnetohydrodynamic, acoustic, and electrostatic waves. Key Words: glossary, terminology, definitions, dictionary, Radio Wave Propagation Designation: 211-1977 Sponsor: IEEE Antennas and Propagation Society Title: IEEE Standard Definitions of Terms for Radio Wave Propagation Status: Superseded **ANSI withdrawal 4/9/90. History: BD APP: Jun 02, 1976, ANSI APP: Nov 30, 1979 Key Words: radio, wave, propagation, definition, terms Designation: 212 Sponsor: IEEE Consumer Electronics Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 213-1987 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Reaffirmation Status and Year: 1998 Title: IEEE Standard Procedure for Measuring Conducted Emissions in the Range of 300 kHz to 25 MHz from Television and FM Broadcast Receivers to Power Lines Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE 213-1961 and incorporates (Construction drawings) IEEE 214-1961. 16-Jan-04: Administratively withdrawn. History: BD APP: Dec 10, 1987, ANSI APP: Jul 28, 1988 Abstract: Procedures for testing television and FM broadcast receivers are included. The user is cautioned that this method might not be appropriate for conducted emissions testing of systems or products other than televisions or FM receivers. Other more general methods exist and it is suggested that they be used for review. These include, but are not limited to, ANSI C63.4-1981, American National Standard Methods of Measurement of Radio Noise Emissions from Low-Voltage Electrical and Electronic Equipment in the Range of 10 kHz to 1 GHz. A method for measuring the emissions conducted by the power line from these receivers in the frequency range of 300 kHz to 25 MHz is defined. Standard input signals, the equipment setup, and measurement techniques are described. Key Words: conducted emmission, emissions, broadcast, emmission, broadcast receivers, power lines, FM broadcast, television, TV receivers, Power transmission lines, Power distribution lines, FM receivers, Electromagnetic interference Designation: 214 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Reaffirmation Status and Year: 1993 Title: IEEE Standard Construction Drawings of Line Impededance Network Required for Measurement of Conducted Interference to the Power Line from FM and Television Broadcast Receivers in the Range of 300 kHz to 25 MHz as Specified in IEEE Std 213-1961. Status: Superseded **(R85) Included in std 213. Key Words: Construction, drawings, 213 Designation: 216-1960 Sponsor: IEEE Electron Devices Society Reaffirmation Status and Year: 1980 Title: IEEE Standards on Solid-State Devices: Definitions of Semiconductor Terms Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Dec 10, 1959 Designation: 218-1956 Sponsor: IEEE Electron Devices Society Reaffirmation Status and Year: 1980 Title: IEEE Standard Methods of Testing Transistors Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Key Words: transistor, testing, methods Designation: 219 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 223 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 224 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 238 Sponsor: IEEE Power & Energy Society/Transformers Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 241-1990 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Reaffirmation Status and Year: 1997 Title: IEEE Recommended Practice for Electric Power Systems in Commercial Buildings Status: Approved Publication of IEEE , Published Date: Sep 18, 1991 **IEEE Gray Book. Revision of IEEE Std 241-1983. Technical Contact: Tom Sparling, Phone:206-321-6548 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Oct 20, 1988, BD APP: Dec 06, 1990, ANSI APP: May 17, 1991 Abstract: A guide and general reference on electrical design for commercial buildings is provided. It covers load characteristics; voltage considerations; power sources and distribution systems; power distribution apparatus; controllers; services, vaults, and electrical equipment rooms; wiring systems; systems protection and coordination; lighting; electric space conditioning; transportation; communication systems planning; facility automation; expansion, modernization, and rehabilitation; special requirements by occupancy; and electrical energy management. Although directed to the power oriented engineer with limited commercial building experience, it can be an aid to all engineers responsible for the electrical design of commercial buildings. This recommended practice is not intended to be a complete handbook; however, it can direct the engineer to texts, periodicals, and references for commercial buildings and act as a guide through the myriad of codes, standards, and practices published by the IEEE, other professional associations, and governmental bodies. Key Words: commercial, buildings, electric power, load, characteristics, gray book, Wiring, Wire communication, Space heating/cooling, Power supplies, Power distribution, Power cables, Load characteristics, Lighting, Industrial power system planning, Industrial power system control, Elevators, Electric power systems, Commercial buildings Designation: 241 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: Recommended Practice for Electrical Systems in Commercial Buildings Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: R Gerald Irvine, Phone:845-357-6156, Email:r.g.irvine@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 12, 2002 Project Scope: The IEEE Std 241, IEEE Recommended Practice for Electrical systems in Commercial Buildings,known as the 'Gray Book', is for designers working on the complexity of integrated systems within commercial buildings. It includes power, telecommunication, HVAC, lighting, and transportation practices in addition to electrical power and distribution. Project Purpose: The revision to the Gray Book is to replace obsolete information and include new practices due to advances in technology, lessons learned, new materials and equipment, and improve commercial buildings fire resistance, security, and the safety of employees, particularly since September 11, 2001. Designation: P241 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: Recommended Practice for Electrical Systems in Commercial Buildings Status: Revision Project Technical Contact: R Gerald Irvine, Phone:845-357-6156, Email:r.g.irvine@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 25, 2004 Project Scope: The Gray Book is intended to cover the design of commercial buildings systems for power sources and distribution, lighting, telecommunications, automation, electrical space conditioning and auxiliary heating, energy management, special considerations for specific building types, and reconstruction and modernization. Project Purpose: The Gray Book is intended to be a resource for the design professional. The book will explain and illustrate recommended practices for design and calculations, provide guidance on navigating design issues, and direct users to other publications and electronic resources, including those of the IEEE, other organizations and government agencies, where needed. Designation: 241-1983 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for Electric Power Systems in Commercial Buildings (IEEE Gray Book) Status: Superseded History: BD APP: Sep 17, 1981, ANSI APP: Jul 08, 1983 Key Words: electric, power, systems, commercial, buildings Designation: 241 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: Recommended Practice for Electrical Power Systems in Commercial Buildings Status: Superseded History: PAR APP: Sep 21, 1995 Project Scope: Recommended engineering principles and practices for electrical power systems in commercial buildings. Project Purpose: Ballot to reaffirm existing standards. Discussions in Denver indicated that there are no serious issues that would likely hinder a reaffirmation vote. Designation: 242-2001 Sponsor: IEEE Industry Applications Society/Power Systems Protection Title: IEEE Recommended Practice for Protection and Coordination of Industrial and Commercial Power Systems (IEEE Buff Book) Status: Approved Publication of IEEE , Published Date: Dec 17, 2001 **Supersedes 242-1986 (R1991). Technical Contact: Carey J Cook, Phone:773 338-1000 x2502, Email:ccook@sandc.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 18, 1993, BD APP: Jun 14, 2001, ANSI APP: Oct 25, 2001 Project Scope: The proper selection, application, and coordination of the components which constitute system protection for industrial plants and commerical buildings. Project Purpose: IEEE Std 242-1986 is being reviewed and revised to bring it up to date with respect to present protection considerations and practices. A new chapter on the effects of harmonics on protective devices is being added. The chapter covering fuses is being divided into two separate chapters; one for low-voltage fuses and one for medium- and high-voltage fuse. Abstract: " The principles of system protection and the proper selection, application, andcoordination of components that may be required to protect industrial and commercial powersystems against abnormalities that could reasonably be expected to occur in the course ofsystem operation are presented in a in a simple, yet comprehensive, format. The principlespresented apply to both new electrical system design and to the changing, upgrading, orexpansion of an existing electrical distribution system. " Key Words: "bus protection,cable protection,calibration,conductor protection,coordinatingtime intervals,current transformers,current-limiting fuses,fuse coordination,fuse selectivity,generator grounding,generator protection,high-voltage fuses," Designation: 242-1986 Sponsor: IEEE Industry Applications Society/Power Systems Protection Reaffirmation Status and Year: 1991 Title: IEEE Recommended Practice for Protection and Coordination of Industrial and Commercial Power Systems Status: Superseded **IEEE Buff Book. Revision of IEEE Std 242-1975. Superseded by 242-2001. History: PAR APP: Dec 09, 1982, BD APP: Sep 19, 1985, ANSI APP: Dec 09, 1991 Abstract: IEEE Std 242-1986 (Revision of IEEE Std 242-1975) IEEE Recommended Practice for Protection and Coordination of Industrial and Commercial Power Systems Key Words: "This publication presents a step-by-step, simplified, yet comprehensive, form the principles of system protection and the proper application and coordination of those components that may be required to protect industrial and commercial power systems again" Designation: 251-1984 Sponsor: Industrial Drives Title: IEEE Standard Test Procedures for Direct-Current Tachometer Generators Status: Withdrawn Standard. Withdrawn Date: Jun 14, 1994. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 3/31/94. Technical Contact: Walter A Maslowski, Phone:(414) 242-8266, Email:wamaslowski@meql.ra.rockwell.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Jun 10, 1982, ANSI APP: Dec 16, 1983 Key Words: test, procedures, tachometer, generators Designation: 252-1995 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 2007 Title: IEEE Standard Test Procedure for Polyphase Induction Motors Having Liquid in the Magnetic Gap Status: Approved Publication of IEEE **Revision of IEEE Std 252-1977. Technical Contact: Bal K Gupta, Phone:416-621-6035, Email:bal.gupta@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 17, 1993, BD APP: Sep 21, 1995, ANSI APP: Apr 08, 1996 Project Scope: Instructions for conducting and reporting the more generally applicable and acceptable tests to determine the performance characteristics of polyphase induction motors having liquid in the magnetic gap. Project Purpose: Std 252-1977 has out of date references. The purpose of this project is to update the references and make any other revisions that might be necessary. Abstract: Instructions for conducting and reporting the more generally applicable and acceptable tests to determine the performance characteristics of polyphase induction motors having liquid in the magnetic gap are given. Constants in several equations and forms apply to three-phase motors only and require modification for application to motors having another number of phases. It is not intended that the procedure cover all possible tests or tests of a research nature. The procedure shall not be interpreted as requiring the making of any or all the tests described herein in any given transaction. Key Words: liquid , magnetic gap, polyphase induction, induction motor, test procedures, three phase motor Designation: 252 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Standard Test Procedure for Polyphase Induction Motors Having Liquid in the Magnetic Gap Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Nils E Nilsson, Phone:330-384-5624, Email:nilssonn@cboss.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 17, 2001 Project Scope: Instructions for conducting and reporting the more generally applicable and acceptable tests to determine the performance characteristics of polyphase induction motors having liquid in the magnetic gap. Project Purpose: The purpose is to revise the standard because it is at the end of its 5 year period of validity. The IEEE Test Procedure for Polyphase Induction Motors Having Liquid in the Gap has out of date references. The purpose of this project is to update the references and make any other revisions that might be necessary. Designation: 252-1977 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Test Procedure for Polyphase Induction Motors Having Liquid in the Magnetic Gap Status: Superseded History: BD APP: Jun 03, 1976 Abstract: Instructions are provided for conducting and reporting the more generally applicable and acceptable tests to determine the performance characteristics of polyphase induction motors having liquid in the magnetic gap. Constants in several equations and forms apply to three-phase motors only and require modification for application to motors having another number of phases. No attempt is made to cover all possible tests or tests of a research nature. Included are electrical measurements, tests for determining performance, a temperature test, and a number of miscellaneous tests. Key Words: polyphase, induction, motors, magnetic, liquid Designation: 255-1963 Sponsor: SASB/SCC14- Title: IEEE Standard Letter Symbols for Semiconductor Devices Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Designation: 257-1964 Title: Recommended Practices for Burst Measurements in the Time Domain Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 258-1965 Title: Test Procedure for Close-Talking Pressure-Type Microphones Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 259-1999 Sponsor: IEEE Power & Energy Society/Transformers Reaffirmation Status and Year: 2004 Title: IEEE Standard Test Procedure for Evaluation of Systems of Insulation for Dry-Type Specialty and General-Purpose Transformers Status: Approved Publication of IEEE Technical Contact: Robert Simpson, Phone:770-962-6192, Email:rlsseeco@juno.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 21, 1996, BD APP: Jun 26, 1999, ANSI APP: Oct 26, 1999 Project Scope: To establish a uniform method for preparing samples, conducting tests, and analyzing results for establishing a comparative thermal life of insulation systems intended for use in dry-type transformers described in NEMA St 1-1988 and NEMA st 20-1992. Project Purpose: To revise the title of this standard to match the scope as stated above. It is also the intent of the WG to make revisions based on recommendations and comments received during balloting so that it will be acceptable as the basis for an international standard. Abstract: A uniform method by which the thermal endurance of electrical insulation systems fordry-type specialty and general-purpose transformers can be compared is established. Covered areinsulation systems intended for use in the types of transformers described in NEMA ST 1-1988 andNEMA ST 20-1992. Key Words: "aging,evaluation,dry-type,insulation system,thermal,transformers" Designation: 259-1994 Sponsor: IEEE Power & Energy Society/Transformers Title: IEEE Standard Test Procedure for Evaluation of Systems of Insulation for Specialty Transformers Status: Superseded **Revision of IEEE Std 259-1974. History: PAR APP: Sep 26, 1991, BD APP: Sep 22, 1994, ANSI APP: Mar 21, 1995 Abstract: A uniform method by which the thermal endurance of electrical insulation systems for dry-type specialty and general- purpose transformers can be compared is established. These insulation systems are intended for use in the types of transformers described in NEMA ST 1-1988 and NEMA ST 20-1992. Key Words: dry type , specialty , transformers, insulation system, temperature aging, test specimens, insulation Designation: 259-1974 Sponsor: IEEE Power & Energy Society/Transformers Reaffirmation Status and Year: 1980 Title: IEEE Standard Test Procedure for Evaluation of Systems of Insulation for Specialty Transformers Status: Superseded History: BD APP: Jun 22, 1972, ANSI APP: Mar 21, 1995 Abstract: A uniform method by which the life of specialty transformer insulation systems can be compared is established. Thermal degradation is the major environmental effect considered, but other environmental factors, such as vibration, thermal shock, and moisture, have been included to simulate operating conditions. Guidance is provided on preparing test samples, conducting tests, and analyzing results. The procedure is intended to be an evaluation test and not a production inspection or acceptance test. Key Words: insulation, specialty, transformers, evaluation, test Designation: 260-1978 Sponsor: SASB/SCC14- Reaffirmation Status and Year: 1991 Title: IEEE Standard Letter Symbols for Units of Measurement (SI Units, Customary Inch-Pound Units, and Certain Other Units) Status: Superseded **revised as IEEE 260.1 History: BD APP: Jun 16, 1978, ANSI APP: May 06, 1992 Key Words: letter, symbols, units, measurement Designation: 260.1-2004 Sponsor: SASB/SCC14- Title: IEEE Standard Letter Symbols for Units of Measurement (SI Customary Inch-Pound Units, and Certain Other Units) Status: Approved Publication of IEEE , Published Date: Sep 24, 2004 Technical Contact: Bruce Barrow, Phone:301-493-4374, Email:b.barrow@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 08, 1998, BD APP: Mar 25, 2004, ANSI APP: Jul 22, 2004 Project Scope: The standard covers letter symbols for units of measurement. The symbols given are intended for all applications, including use in text and equations, in graphs and diagrams, and on panels, labels, and nameplates. Project Purpose: The existing standard on unit symbols will be updated to conform to recent international recommendations, and the section on limited- character sets will be revised to include recommendations that are applicable for email. Abstract: Letter symbols for units of measurement are covered in this standard. It does not include abbreviations for technical terms, nor does it cover symbols for physical quantities. Key Words: letter symbols, limited typography, metric, quantities, SI, units of measurement Designation: 260.1-1993 Sponsor: SASB/SCC14- Title: American National Standard Letter Symbols for Units of Measurement (SI Units, Customary Inch-Pound Units, and Certain Other Units) Status: Superseded **Revision and redesignation of IEEE 260-1978. Mar04-Withdrawn by ANSI as overage. Superseded by 260.1-2004. History: PAR APP: Jun 18, 1992, BD APP: Jun 17, 1993, ANSI APP: Nov 24, 1993 Abstract: General principles of letter symbol standardization are discussed. Symbols are given for general use and for use with limited character sets. The symbols given are intended for all applications, including use in text and equations; in graphs and diagrams; and on panels, labels, and nameplates. Key Words: abbreviations, letter symbols, measurement, SI, units Designation: 260.2 Sponsor: SASB/SCC14- Title: Standard Letter Symbols for Quantities Used in Electrical Science and Electrical Engineering (Revision of IEEE Std 280-1985) Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. **Revision and redesignation of IEEE Std 280-1985. Technical Contact: Bruce Barrow, Phone:301-493-4374, Email:b.barrow@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 17, 1993 Project Scope: Revision of Standard 280. No change in the scope of the present standard, which is explicit in the title. Project Purpose: Revision of Std 280. Designation: 260.3-1993 Sponsor: SASB/SCC14- Reaffirmation Status and Year: 2006 Title: American National Standard Mathematical Signs and Symbols for Use in Physical Sciences and Technology Status: Approved Publication of IEEE , Published Date: Dec 02, 1993 **Revision of ANSI Y10.20-1975. Revision formally known as PY10.20 and P1324. History: BD APP: Mar 18, 1993, ANSI APP: Aug 30, 1993 Abstract: Signs and symbols used in writing mathematical text are defined. Special symbols peculiar to certain branches of mathematics, such as non-Euclidean Geometries, Abstract Algebras, Topology, and Mathematics of Finance, which are not ordinarily applied to the physical sciences and engineering, are omitted. Key Words: letter symbol, mathematical sign, symbols, operation symbol, quantity symbol, unit symbol, physical sciences, Y10.20, P1324, Mathematical symbol, Mathematical notation Designation: 260.4-1996 Sponsor: SASB/SCC14- Reaffirmation Status and Year: 2008 Title: American National Standard Letter Symbols and Abbreviations for Quantities Used in Acoustics Status: Approved Publication of IEEE **Revision and redesignation of ANSI/ASME Y10.11-1984. History: PAR APP: Dec 03, 1992, BD APP: Mar 21, 1996, ANSI APP: Oct 03, 1996 Project Scope: To establish a standard set of letter symbols for quantities used in the science and technology of acoustics: also to establish standard abbreviations for a number of acoustical levels and related measures that are in common use. The science and technology of acoustics include sound, ultrasound, and infrasound in all media: gases, especially air; liquids, especially water; and solids are examples of media with which acoustics is concerned. There are many specialties in acoustics, a few of which are: speech, hearing, music, noise control, vibration, shock, and sonar. Project Purpose: To clarify the technical literature of acoustics by providing a standard set of letter symbols for use in mathematical formulations, and a standard set of abbreviations for use in text, especially in tabulations and on graphs; also to encourage the treatment of levels according to the standard rules for all quantities and units; and also to clarify the basic differences among quantity symbols, unit symbols, and abbreviations. This project is a revision of ANSI/IEEE Y10.11(1984). Abstract: Letter symbols for physical quantities used in the science and technology of acoustics are covered. Abbreviations for a number of acoustical levels and related measures that are in common use are also given. The symbols given in this standard are intended for all applications. Key Words: abbreviations, acoustical levels, acoustics, infrasound, letter symbols, physical quantities, sound, sound levels, symbols, ultrasound, units, vibration Designation: 261-1965 Sponsor: SASB/SCC14- Title: Thermoelectric Devices/Letter Symbols Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **See C37.34e Key Words: letter, symbols, thermoelectric, devices Designation: 263-1965 Sponsor: IEEE Electromagnetic Compatibility Society Title: Standard for Measurement of Radio Noise Generated by Motor Vehicles and Affecting Mobile Communications Receivers in the Frequency Range 25-1000 megahertz Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 264 Sponsor: IEEE Magnetics Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Incorporated into IEEE 111. ANSI withdrawn 3/1/91 Designation: 265-1966 Title: Recommended Practices for Burst Measurements in the Frequency Domain Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 266-1969 Sponsor: IEEE Magnetics Society Reaffirmation Status and Year: 1981 Title: IEEE Test Procedure for Evaluation of Insulation Systems for Electronics Power Transformers Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Key Words: insulation, evaluation, elrctronics, transformers, test Designation: 267-1966 Sponsor: IEEE-SASB Coordinating Committees Title: IEEE Trial-Use Recommended Practice for the Preparation and Use of Symbols Status: Approved Publication of IEEE Publication type: Trial-Use Abstract: Guidelines to be used in developing and applying those symbols that are employed in the electrical and electronics fields are provided. These include abbreviations, functional designations, graphic symbols, letter combinations, mathematical symbols, reference designations, symbols for quantities, and symbols for units. The guidelines should be useful to any committee engaged in developing standards publications in the areas mentioned. Key Words: preparation, use, symbols Designation: 267 Sponsor: IEEE-SASB Coordinating Committees Title: Recommended Practice for the Preparation and Use of Symbols Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Conrad R Muller **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 26, 1991 Project Scope: Guidelines to be used in developing and applying symbols used in the electrical and electronics fields. Project Purpose: To clarify distinctions between abbreviations, various designations and various symbols as used in the electrical and electronics fields. This is to be an updating of the existing Std 267-1966, primarily to reflect changes in the IEEE Committee structure, the reference documents, and IEC terminology. Abstract: Revision of IEEE Std 267-1966. Designation: 268-1992 Sponsor: SASB/SCC14- Title: American National Standard for Metric Practice Status: Superseded **Revision of ANSI/IEEE Std 268-1982. Redesignated as SI 10-1997 History: PAR APP: Mar 10, 1988, BD APP: Mar 19, 1992, ANSI APP: Sep 15, 1992 Abstract: Guidance for application of the modernized metric system in the United States is given. Known as the International System of Units (abbreviated SI), the system is intended as a basis for worldwide standardization of measurement units. Included are information on SI, a limited list of non-SI units recognized for use with SI units, a list of conversion factors from non-SI to SI units, together with general guidance on proper style and usage. Key Words: conversion, factors, rounding, SI, Metric system, Metric practice, International System of Units, Conversion factors Designation: 268-1982 Sponsor: SASB/SCC14- Title: Metric Practice, American National Standard Status: Superseded History: BD APP: Dec 17, 1981, ANSI APP: Sep 07, 1982 Key Words: metric, practice Designation: 268A-1987 Sponsor: SASB/SCC14- Title: International System of Units Conversion Factors Card Status: Withdrawn Standard. Withdrawn Date: Mar 18, 1993. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **A wallet-size Card. Sold in packs of 10. Abstract: . Designation: 269-2002 Sponsor: IEEE Communications Society/Transmission Access & Optical Systems Title: IEEE Standard Methods for Measuring Transmission Performance of Analog and Digital Telephone Sets, Handsets, and Headsets Status: Approved Publication of IEEE , Published Date: Apr 25, 2003 **Supersedes 269-1992 and 1206-1994. Technical Contact: John Bareham, Phone:734-665-4224, Email:jbareham@mich.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jan 30, 2000, BD APP: Nov 11, 2002, ANSI APP: Feb 05, 2003 Project Scope: Define objective test methods for determining the transmission characteristics of analog and digital telephone sets, handsets and headsets. Project Purpose: To provide practical methods for making laboratory measurements of the transmission characteristics of analog and digital telephone sets so that their performance may be evaluated on a standardized basis. Revision is necessary to cover applications to types of telephone sets not in common use and to measurements not required at the 1992 pulbication of the current standard. It also incorporates the content of IEEE 1206-1994 relative to handsets and headsets. Abstract: "Practical methods for making laboratory measurements of electroacoustic character-istics of analog and digital telephones, handsets, and headsets are provided in this revisedstandard. The methods may also be applicable to a wide variety of other communicationsequipment, including cordless, wireless, and mobile communications devices. Measurement resultsmay be used to evaluate these devices on a standardized basis. Application is in the frequencyrange 100­8500 Hz." Key Words: "analog telephones, digital telephones, electroacoustic measurements on telephones, handsets, headsets, telephony, voice transmission performance" Designation: 269-1992 Sponsor: IEEE Communications Society/Transmission Systems Title: IEEE Standard Methods for Measuring Transmission Performance of Analog and Digital Telephone Sets Status: Superseded **Revision of IEEE Std 269-1983. Superseded by 269-2002. History: PAR APP: Feb 02, 1989, BD APP: Jun 18, 1992, ANSI APP: Aug 30, 1993 Abstract: Practical methods for measuring the transmission characteristics of both digital and conventional to-wire analog telephone sets by means of objective measurements on a test connection are described. The test results thus obtained may be used as a means of evaluating or specifying the transmission performance of a telephone set on a standardized basis. The measurements are applicable to telephone sets incorporating carbon or linear transmitters. Measurements are over the frequency range most useful for speech: 100-5000 Hz. The test methods are not intended to be applicable to special devices, such as noise-exclusion transmitters, distant-talking transmitters, insert-type receivers, or noise-exclusion receivers equipped with large ear pads. Key Words: performance, analog, telephone, sets, digital, voice, transmission, Voice transmission performance, Telephony Designation: 269-1983 Sponsor: IEEE Communications Society/Transmission Systems Title: IEEE Standard Method for Measuring Transmission Performance of Telephone Sets Status: Superseded **ANSI withdrawn 6/29/92. History: BD APP: Dec 17, 1981, ANSI APP: Jul 01, 1984 Designation: 269 Sponsor: IEEE Communications Society/Transmission Access & Optical Systems Title: Standard Methods for Measuring Transmission Performance of Analog and Digital Telephone Sets, Handsets, and Headsets Status: Superseded Technical Contact: John Bareham, Phone:734-665-4224, Email:jbareham@mich.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This standard provides the techniques for objective measurement of electroacoustic characteristics of analog and digital telephones, handsets and headsets. Application is in the frequency range from 100 to 8,500 Hz. Although not specifically within the scope of this standard, the methods described are generally applicable to a wide variety of other communications equipment, including cordless, wireless and mobile communications devices. Telephones with handsfree or loudspeaking features are covered by IEEE Standard 1329-1999, Method for Measuring Transmission Performance of Handsfree Telephone Sets. Due to the various characteristics of these devices and the environments in which they operate, not all of the test procedures in this standard are applicable to all types of telephones, handsets or headsets. Application of the test procedures to atypical telephones should be determined on an individual basis. Project Purpose: The purpose of this standard is to provide practical methods for making laboratory measurements of the transmission characteristics of analog and digital telephones, handsets and headsets so that their performance may be evaluated on a standardized basis. Designation: 269a-2007 Sponsor: IEEE Communications Society/Transmission Access & Optical Systems Title: IEEE Standard Methods for Measuring Transmission Performance of Analog and Digital Telephone Sets, Handsets, and Headsets Amendment 1 Status: Approved Publication of IEEE , Published Date: Sep 07, 2007 Technical Contact: John Bareham, Phone:734-665-4224, Email:jbareham@mich.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: May 13, 2004, BD APP: Mar 08, 2007, ANSI APP: Aug 24, 2007 Project Scope: The scope of this project is objective test methods for determining the transmission characteristics of analog and digital telephone sets, handsets and headsets. (Original scope -- not changed) Project Purpose: The purpose is to provide practical methods for making laboratory measurements of the transmission characteristics of analog and digital telephone sets so that their performance may be evaluated on a standardized basis. Revision is necessary to cover application to types of telephone sets not in common use and to measurements not required at the 1992 publication of the current standard. It also incorporates the content of IEEE 1206-1994 relative to handsets and headsets. (Original purpose -- not changed.) Abstract: This document amends IEEE Std 269-2002. Key Words: analog telephones, digital telephones, electroacoustic measurements on telephones, handsets, headsets, telephony, voice transmission performance Designation: 270-2006 Sponsor: SASB/SCC14- Title: IEEE Standard Definitions for Selected Quantities, Units, and Related Terms, with Special Attention to the International System of Units (SI) Status: Approved Publication of IEEE , Published Date: Sep 29, 2006 Technical Contact: Theodore Wildi, Phone:418-527-8285, Email:wildi@wildi-theo.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 12, 2002, BD APP: Mar 30, 2006, ANSI APP: Sep 05, 2006 Project Scope: This standard includes definitions for physical quantities and units commonly used in applied science and technology, and related terms that concern systems of measurement. Particular emphasis is placed on the International System of Units (SI). Project Purpose: IEEE Std 270-1966 attempted to cover not only quantities and units, but also the much broader area implied in its title, “General (Fundamental and Derived) Electrical and Electronics Terms.” This scope proved to be far too broad, and the standard could not be maintained. The purpose of this revision is to present authoritative definitions of physical quantities and units and other terms relating to measurement systems, with particular emphasis on the vocabulary used in IEEE/ASTM SI 10. Abstract: The definitions for physical quantities and units commonly used in applied science and technology, and for related terms that concern systems of measurement, are included in this standard. Particular emphasis is placed on the International System of Units (Le Système International d’Unités, SI). Key Words: International System of Units, measurement, metric, quantities, SI, units Designation: 270 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 271-1966 Sponsor: IEEE Power & Energy Society/Switchgear Reaffirmation Status and Year: 1977 Title: Technical Report on Switching Surge Testing of Extra-High-Voltage Switches Status: Superseded **TU. Being revised as C37.34e Designation: 272-1970 Sponsor: IEEE Magnetics Society Reaffirmation Status and Year: 1976 Title: IEEE Standard for Computer-Type (Square-Loop) Pulse Transformers Status: Withdrawn Standard. Withdrawn Date: Mar 21, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Sep 11, 1969 Key Words: cmputer, pulse, transformers, square, loop Designation: 274-1966 Sponsor: IEEE Electron Devices Society Reaffirmation Status and Year: 1980 Title: Standard Definitions of Terms for Integrated Electronics Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Key Words: definitions, terms, electronics, inteegrated, dictionary Designation: 275 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Recommended Practice for Thermal Evaluation of Insulation Systems for Alternating-Current Electric Machinery Employing Form-Wound Pre-insulated Stator Coils for Machines Rated 6900 V and Below Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Charles A Wilson, Phone:+1-512-869-8451, Email:229@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Aug 11, 2005 Project Scope: This standard outlines a test procedure for comparing two or more insulation systems in accordance with their expected life at rated temperature. The procedure is limited to insulation systems for ac electric machines using form-wound preinsulated stator coils and rated 6900 V and below. It is the intent of this procedure to evaluate insulation systems for use in usual service conditions with air cooling. It does not cover such special requirements as machines that are enclosed in gas atmospheres, or that are subjected to strong chemicals, to metal dusts, or to submersion in liquids, etc. The procedure includes instructions for testing candidate systems in comparison with known systems having a proven record of service experience and interpretation of the results. Project Purpose: The purpose of this procedure is to classify insulation systems for the machinery within the scope of this standard in accordance with their temperature limits by test, rather than by chemical composition. Data from such tests may be used to establish the temperature classifcation of new insulation systems before they are service proven. Service-proven systems shall also be tested according to this test procedure. Designation: 275-1981 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Recommended Practice for Thermal Evaluation of Insulation Systems for AC Electric Machinery Employing Form-Wound Pre-Insulated Stator Coils, Machines Rated 6900 V and Below Status: Superseded History: PAR APP: Feb 28, 1988, BD APP: Dec 18, 1980, ANSI APP: Mar 30, 1982 Key Words: thermal, evaluation, insulation, systems, electric Designation: 275-1992 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1998 Title: IEEE Recommended Practice for Thermal Evaluation of Insulation Systems for Alternating-Current Electric Machinery Employing Form-Wound Preinsulated Stator Coils for Machines Rated 6900 V and Below Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 275-1981. 16-Jan-04: Administratively withdrawn. History: PAR APP: Jun 09, 1988, BD APP: Jun 18, 1992, ANSI APP: Jan 04, 1993 Abstract: A test procedure for comparing two or more insulation systems in accordance with their expected life at rated temperature is described. The procedure is limited to insulation systems for ac electric machines using form-wound preinsulated stator coils and rated 6900 V and below. This procedure is intended to evaluate insulation systems for use in usual service conditions with air cooling. It does not cover such special requirements as machines that are enclosed in gas atmospheres, or that are subjected to strong chemicals, to metal dust, or to submersion in liquids, etc. The procedure includes instructions for testing candidate systems in comparison with known systems having a proven record of service experience and interpretation of the results. Key Words: electric, machinery, ac, form, wound, preinsulated, stator, coils, insulation, systems, Insulation systems, Form-wound preinsulated stator Designation: 277-2007 Sponsor: IEEE Industry Applications Society/Cement Industry Title: IEEE Recommended Practice for Cement Plant Power Distribution Status: Approved Publication of IEEE , Published Date: Oct 12, 2007 Technical Contact: Jean Paul Morel, Phone:610-837-3338, Email:jmorel@essroc.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: May 17, 2007, ANSI APP: Oct 11, 2007 Project Scope: This document has been developed as a recommended practice for electrical distribution systems in cement plants with the objective of satisfactory equipment utilization, reliability, performance, safety, and low maintenance—all at a reasonable cost. Project Purpose: The purpose of this recommended practice is to provide guidance in established practices, for the design, application, installation, and protection of electrical distribution systems. It is hoped that this recommended practice will be used to augment some of the principles outlined, as they apply particularly to cement plants. Abstract: Electrical distribution systems in cement plants that would result in satisfactory equipment utilization, reliability, performance, safety, and low maintenance—all at a reasonable cost—are recommended. Key Words: alternate power source, power distribution, primary distribution voltage, quarry distribution, secondary unit substation, surge arresters Designation: 277-1994 Sponsor: IEEE Industry Applications Society/Cement Industry Title: IEEE Recommended Practice for Cement Plant Power Distribution Status: Superseded **Revision of IEEE Std 277-1983. Dec2005: Withdrawn by ANSI As overage. Superseded by 277-2007. Technical Contact: Michael W Jasberg, Phone:(714) 466-5900 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 09, 1988, BD APP: Sep 22, 1994, ANSI APP: Mar 21, 1995 Abstract: Electrical distribution systems in cement plants that would result in satisfactory equipment utilization, reliability, performance, safety, and low maintenance--all at a reasonable cost are recommended. Key Words: alternate power , power source, power distribution, primary distribution, distribution voltage, quarry distribution, secondary unit, unit substation, surge arresters, cement plant, secondary-unit substation, primary distribution voltage, alternate power source Designation: 277 Sponsor: IEEE Industry Applications Society/Cement Industry Title: Recommended Practice for Cement Plant Power Distribution Status: Superseded Technical Contact: Mark A Huber, Phone:+1 518 756 5109, Email:mark.huber@lafarge-na.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 17, 2001 Project Scope: The basic content of the 277-1994 Standard is very sound and complete. The scope of this revision project includes several wording changes, initiated by technological advances in the past few years. In addition to changes in references to other standards, there are several grammatical and punctuation revisions needed. Some tables and figures will also be updated to reflect contemporary cost estimates, etc. Project Purpose: The standard is being revised so that the end users will have an up-to-date tool to help them evaluate power distribution systems. The committee considered a simple reaffirmation, but determined that the standard was outdated enough to merit a revision. Designation: 277-1983 Sponsor: IEEE Industry Applications Society/Cement Industry Title: IEEE Recommended Practice for Cement Plant Power Distribution Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 6/29/92. Technical Contact: Michael W Jasberg, Phone:(714) 466-5900 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Feb 28, 1988, ANSI APP: Apr 13, 1984 Designation: 278 Sponsor: Nuclear and Plasma Sciences Society/Nuclear Instruments and Detectors Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 279-1971 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1978 Title: IEEE Standard: Criteria for Protection Systems for Nuclear Power Generating Stations Status: Withdrawn Standard. Withdrawn Date: Jun 14, 1984. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Jun 03, 1971, ANSI APP: Apr 05, 1972 Designation: 280-1982 Sponsor: SASB/SCC14- Reaffirmation Status and Year: 2003 Title: IEEE Standard Letter Symbols for Quantities Used in Electrical Science and Electrical Engineering Status: Approved Publication of IEEE **Revision of IEEE Std 280-1968 and ANSI Y10.5-1968. Technical Contact: Bruce Barrow, Phone:301-493-4374, Email:b.barrow@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Sep 23, 1982, ANSI APP: May 06, 1992 Abstract: Letter symbols used to represent physical quantities in the field of electrical science and electrical engineering are defined. The symbols are independent of the units employed or special values assigned. Also included are selected symbols for mathematics and for physical constants. Key Words: letter, symbols, quantities, science, Electrical engineering Designation: 281-1984 Sponsor: IEEE Power & Energy Society/Power System Communications Reaffirmation Status and Year: 1994 Title: IEEE Standard Service Conditions for Power System Communication Equipment Status: Withdrawn Standard. Withdrawn Date: Mar 06, 2000. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 281-1968. History: BD APP: Mar 17, 1983, ANSI APP: Mar 29, 1985 Abstract: IEEE Std 281-1984 Revision of IEEE Std 281-1968 IEEE Standard Service Conditions for Power System Communication Equipment Key Words: IEEE Std 281-1984 Revision of IEEE Std 281-1968 IEEE Standard Service Conditions for Power System Communication Equipment Designation: 282 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 284-1968 Sponsor: IEEE Instrumentation and Measurement Society Title: IEEE Standards Report on State-of-the-Art of Measuring Field Strength, Continuous Wave, Sinusoidal Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Key Words: field, strength, continuous, wave, sinusoidal Designation: 285 Sponsor: IEEE Instrumentation and Measurement Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 286-2000 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 2006 Title: IEEE Recommended Practice for Measurement of Power Factor Tip-Up of Electric Machinery Stator Coil Insulation Status: Approved Publication of IEEE , Published Date: Mar 01, 2000 Technical Contact: Franklin T Emery, Phone:256-845-9601x6007, Email:franklin.emery@siemens.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Mar 30, 2000, ANSI APP: Oct 30, 2000 Project Scope: Update the withdrawn standard to reflectg new test methods and add necessary theory of test. Update and improve terminology. Project Purpose: Improve the theory of test and expand area of test coverage, update terminology. Intended users: equipment manufacturers, utilities, machine designers, specification authors. Benefits: Better explanation of test procedure and testing. Abstract: The power factor tip-up testing of stator coils and bars for use in large electric machineryis covered in this recommended practice. Key Words: "cell capacitance, electric generators, power factor, stator bar, stator winding, tan delta" Designation: 286 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Recommended Practice for Measurement of Power-Factor Tip-Up of Rotating Machinery Stator Coil Insulation Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. **Revision of IEEE Std 286-1975. Technical Contact: RAY SCHULTZ **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 23, 1982 Designation: 286-1975 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1981 Title: IEEE Recommended Practice for Measurement of Power-Factor Tip-Up of Rotating Machinery Stator Coil Insulation Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 2/13/95. Technical Contact: RAY SCHULTZ **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 28, 1982, BD APP: Dec 19, 1974, ANSI APP: Jan 27, 1984 Key Words: power factor, tip-up, rotatting, insulation, coil Designation: 287-2007 Sponsor: IEEE Instrumentation and Measurement Society/TC5 - Connectors in Measurements Title: IEEE Standard for Precision Coaxial Connectors (DC to 110 GHz) Status: Approved Publication of IEEE , Published Date: Sep 21, 2007 **Revision of IEEE Std 287-1968 Technical Contact: Harmon Banning, Phone:302-738-6608, Email:hbanning@wlgore.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 27, 2001, BD APP: Mar 22, 2007, ANSI APP: Aug 28, 2007 Project Scope: The scope of this standard is to specify coaxial connectors for precision electrical measurements to 110 GHz. The frequency range of the standard is increased from 65 GHz to 110 GHz since in the market exists a 1 mm connector with a rated upper minimum operating frequency of 110 GHz. The members of the subcommittee felt, in view of this, the scope of the project should be changed to incorporate this advantage. Project Purpose: The purpose of this standard is to present minimum performance requirements for those precision connectors whose upper frequency limits range from 18 GHz to 110 GHz for five line sizes of the pin and socket type, which include 3.5 mm, 2.92 mm, 2.4 mm, 1.85 mm, and 1.0 mm connectors. It also incorporates relevant information on the 14 mm and 7 mm connector types, includes the Type N (7 mm) connector, and introduces the performance requirements needed to standardize pin and socket type connectors. A novel feature in this standard is the use of slotless socket contacts for some pin and socket type connectors to maintain the concept of test port/device under test (DUT) independence. The standard presents updated test methods to utilize automatic vector network analyzers (VNAs) along with current state-of-the-art concepts in connector technology, and displays specification values from individual connector types in a connector summary table. A very important utility of this standard is that it serves as a user’s guide. One unique feature of this standard is that it embodies the general requirements, definitions, measuring methods, and other pertinent information into one document for all eight standard connector types while making use of the “detail specifications” information from each connector type for standardization into Annex C through Annex J, which are listed as follows: Annex C Detail specifications for precision coaxial 14 mm connectors (DC to 8.5 GHz) Annex D Detail specifications for precision coaxial 7 mm connectors (DC to 18 GHz) Annex E Detail specifications for precision coaxial Type N connectors (DC to 18 GHz) Annex F Detail specifications for precision coaxial 3.5 mm connectors (DC to 33 GHz) Annex G Detail specifications for precision coaxial 2.92 mm connectors (DC to 40 GHz) Annex H Detail specifications for precision coaxial 2.4 mm connectors (DC to 50 GHz) Annex I Detail specifications for precision coaxial 1.85 mm connectors (DC to 65 GHz) Annex J Detail specifications for precision coaxial 1 mm connectors (DC to 110 Abstract: This standard presents the combined efforts of IEEE Subcommittee P287 that reflect the knowledge and experience of leading specialists in the development and measurement of precision coaxial connectors from dc to 110 GHz. It presents minimum performance requirements to standardize both hermaphroditic and pin- and socket-type connectors. It provides recommended electrical and mechanical test procedures for general and laboratory precision connectors. A bibliography provides a list of pertinent references for measurement techniques used in determining electrical, mechanical, and dimensional parameters for coaxial connectors. Key Words: general precision connector (GPC), laboratory precision connector (LPC), minimum performance requirement, pin and socket connector, precision coaxial connector Designation: 287 Sponsor: IEEE Instrumentation and Measurement Society Title: Standard for Precision Coaxial Connectors (DC-110 GHz) Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. **Revision of IEEE Std 287-1968. Technical Contact: Harmon Banning, Phone:302-738-6608, Email:hbanning@wlgore.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 10, 1987 Project Scope: Coaxial connectors for precision electrical measurements above 18 GHz. Project Purpose: This document will include definitions, requirements, mechanical and electrical specifications and recommended test methods. Key Words: precision coaxial, connectors Designation: 287-1968 Sponsor: IEEE Instrumentation and Measurement Society Title: Precision Coaxial Connectors Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 289 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 290-1980 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1986 Title: IEEE Standard for Electric Couplings; Part I - General, Rating, Performance Characteristics; Part II - Test Procedures Status: Withdrawn Standard. Withdrawn Date: May 05, 1995. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI extension to 6/95. Technical Contact: Bal K Gupta, Phone:416-621-6035, Email:bal.gupta@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Dec 04, 1975, ANSI APP: Nov 29, 1988 Abstract: The more generally applicable characteristics and conducting and reporting of the tests for determining them are covered. Service conditions, rating, temperature and temperature rise, torque characteristics, speed, losses, and markings are discussed. Methods for electrical measurements, preliminary tests, performance determination, temperature tests, high-potential tests, and miscellaneous tests are given. Key Words: test, electric, couplings Designation: 291 Sponsor: IEEE Antennas and Propagation Society/Propagation Title: Standard Methods for Measuring Electromagnetic Field Strength of Sinusoidal Continuous Waves, 30 Hz to 30 GHz Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: George Hagn, Phone:703-941-7663, Email:ghagn@erols.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 10, 1996 Project Scope: Typographical corrections, clarifications as required, addition of some material on near-field measurements, addition of material on probes for measuring field strength. Project Purpose: This standard is being used extensively in industry. This project will keep it available, improve it, and make needed additions, which are minor in scale but very useful. Designation: 291-1969 Sponsor: IEEE Antennas and Propagation Society/Propagation Reaffirmation Status and Year: 1981 Title: IEEE Standards Report on Measuring Field Strength in Radio Wave Propagation Status: Superseded **incl 302&284 in rev . Key Words: electromagnetic, fields, measuring Designation: 291-1991 Sponsor: IEEE Antennas and Propagation Society/Propagation Title: IEEE Standard Methods for Measuring Electromagnetic Field Strength of Sinusoidal Continuous Waves, 30 Hz to 30 GHz Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 291-1969, revision and redesignation of IEEE Stds 284-1968 and 302-1969. 16-Jan-04: Administratively withdrawn. History: PAR APP: Sep 28, 1987, BD APP: Apr 02, 1991, ANSI APP: Sep 06, 1991 Abstract: Two standard methods for field-strength measurement are described. The standard-antenna method consists of measuring the received power or open-circuit voltage developed in a standard receiving antenna by the field to be measured and computing the field strength from the measured voltage and the dimensions and form of the standard antenna. The standard-field method consists of comparing voltages produced in an antenna by the field to be measured and by a standard field, the magnitude of which is computed from the dimensions of the transmitting antenna, its current distribution, the distance of separation, and effect of the ground. The measurement procedures are outlined, including calibration of commercial field strength and extension of the methods to microwave frequencies. Methods for measuring power radiated from an antenna under several different conditions are briefly presented, and the important considerations for securing useful and accurate measurements are described. Key Words: field strength, receiving antenna, Transmitting antenna Designation: 292-1969 Sponsor: IEEE Aerospace and Electronic Systems Society/Gyro Accelerometer Panel Reaffirmation Status and Year: 2005 Title: IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros Status: Approved Publication of IEEE Technical Contact: Michael E Ash, Phone:617-258-2884, Email:mash@draper.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: ANSI APP: Nov 17, 1986 Abstract: "IEEE Std 292-1969, IEEE Specification Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros" Key Words: "This specification defines the requirements for a single-degree-of- freedom spring-restrained rate gyro for [aircraft, missile, spacecraft, ...] applications. The rate gyro shall be capable of providing [(dc, ac) voltage outputs proportional to regular rat" Designation: 293-1969 Sponsor: IEEE Aerospace and Electronic Systems Society/Gyro Accelerometer Panel Reaffirmation Status and Year: 2005 Title: IEEE Test Procedure for Single-Degree-of-Freedom Spring-Restrained Rate Gyros Status: Approved Publication of IEEE Technical Contact: Michael E Ash, Phone:617-258-2884, Email:mash@draper.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: ANSI APP: Nov 17, 1986 Abstract: Recommended rate gyro test procedures derived from those currently in use, including test conditions to be considered, are compiled. In some cases alternate methods for measuring a performance characteristic have been included. This standard is intended to be a guide in the preparation of Section 4 of a specification that follows the format of IEEE Std 292, Specification Format for Single-Degree-of-Freedom Spring-Restrained Rate Gyros. Key Words: gyros, restrained, rate, degree, freedom, Testing, Gyroscopes Designation: 294 Sponsor: IEEE Instrumentation and Measurement Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 295-1969 Sponsor: IEEE Power Electronics Society/Standards Committee Reaffirmation Status and Year: 2007 Title: IEEE Standard for Electronics Power Transformers Status: Approved Publication of IEEE Technical Contact: David N Ratliff, Phone:517-546-6330, Email:marelco@htonline.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 28, 1981, ANSI APP: Jun 02, 1994 Abstract: Application guidance and test procedures are given for power transformers and inductors that are used in electronic equipment and supplied by power lines or generators of essentially sine-wave or polyphase voltage. Provision is made for relating the characteristics of transformers to the associated rectifiers and circuits. This standard includes, but is not limited to, the following transformers and inductors: rectifier supply transformers for either high- or low-voltage supplies, filament and cathode heater transformers, transformers for alternating-current resonant charging circuits, inductors used in rectifier filters, and autotransformers with fixed taps. Key Words: electronics, power, transformers Designation: 296-1969 Sponsor: IEEE Magnetics Society Title: IEEE Standard Definitions of Terms, Letter Symbols, and Color Code for Hall Effect Devices Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Key Words: hall effect, letter, symbols, terms, color Designation: 297 Title: Recommended Practice for Speech Quality Measurements Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 299-2006 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Title: IEEE Standard Method for Measuring the Effectiveness of Electromagnetic Shielding Enclosures Status: Approved Publication of IEEE , Published Date: Feb 28, 2007 **Supersedes 299-1997. Technical Contact: Dale Svetanoff, Phone:319-295-4928, Email:dgsvetan@rockwellcollins.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 07, 2000, BD APP: Sep 15, 2006, ANSI APP: Dec 29, 2006 Project Scope: This standard provides uniform measurement procedures for determining the effectiveness of electromagnetic (EM) shielding enclosures at frequencies from 9 kHz to 18 GHz (extendable down to 50 Hz and up to 100 GHz). The owner of the shielding enclosure shall provide the frequencies at which the shield will be tested, and the shielding effectiveness (SE) limits for pass/fail. This standard suggests a range of test frequencies that would provide very high confidence in the effectiveness of the shield. This standard dose not define SE limits for pass or fail. Project Purpose: The purpose of this standard is to provide the following: a) A standard procedure for the measurement of the effectiveness of shielded enclosures, in a broad range of radio frequencies (RFs), including a minimum set of recommended frequencies b) Identical procedures applicable to frequencies other than the standard set c) An optional measurement technique to detect the nonlinear behavior of high-permeability ferromagnetic enclosures (see Annex C) Abstract: Uniform measurement procedures and techniques are provided for determining the effectiveness of electromagnetic shielding enclosures at frequencies from 9 kHz to 18 GHz (extendable to 50 Hz and 100 GHz, respectively) for enclosures having all dimension greater than or equal to 2.0 m. The types of enclosures covered include, but are not limited to, single-shield or double-shield structures of various construction, such as bolted demountable, welded, or integral with a building; and made of materials such as steel plate, copper or aluminum sheet, screening, hardware cloth, metal foil, or shielding fabrics. Key Words: electromagnetic shielding, screened rooms, shielded enclosures, shielded rooms, shielding, shielding effectiveness Designation: 299-1997 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Title: IEEE Standard Method for Measuring the Effectiveness of Electromagnetic Shielding Enclosures Status: Superseded **Superseded by 299-2006. History: PAR APP: Dec 10, 1996, BD APP: Dec 09, 1997, ANSI APP: Mar 24, 1999 Project Scope: This project will add cost effective test methods by minimizing the number of measurements, provide test procedures in the frequency range 20 to 300 MHz, and establish the size of the shielded enclosure for which the standard applies. Project Purpose: Presently, there is a need to reduce the number of measurements needed to show the shielding effectiveness. The standard also does not cover the frequency range between 20 and 300 MHz which is needed to present the shielding effectiveness in the frequency range for which the most common shielded rooms self resonate. In addition, there is a need to modify certain procedures presently in the standard. Finally, there is no stated minimum size of the shielded room for which the standard c an be applied. All of these items need to be addressed in the revision of this standard. Abstract: " Uniform measurement procedures and techniques are provided for determining the ef-fectiveness of electromagnetic shielding enclosures at frequencies from 9 kHz to 18 GHz (extend-able to 50 Hz and 100 GHz, respectively) for enclosures having no dimension less than 2.0 m. Thetypes of enclosures covered include, but are not limited to, single-shield or double-shield structuresof various construction, such as bolted demountable, welded, or integral with a building; and madeof materials such as steel plate, copper or aluminum sheet, screening, hardware cloth, metal foil,or shielding fabrics. " Key Words: "electromagnetic shielding, screened rooms, shielded enclosures, shielded rooms, shielding, shielding effectiveness" Designation: 299-1991 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Title: IEEE Standard for Measuring the Effectiveness of Electromagnetic Shielding Enclosures Status: Superseded **Revision of IEEE Std 299-1969. History: PAR APP: Sep 13, 1984, BD APP: Mar 11, 1991 Abstract: Uniform measurement procedures and techniques are provided for determining the effectiveness of room-sized, high- performance electromagnetic shielding enclosures at frequencies from 14 kHz to 18 GHz (extendable to 50 Hz and 100 GHz, respectively). The types of enclosures covered include single-shield or double-shield structures of various constructions such as bolted demountable, welded, or integral with building, and made of materials such as steel plate, copper or aluminum sheet, screening hardware cloth, or metal foil. The intent is to reflect current practice and to provide a common reference for suppliers and users on the performance of shielding enclosures. Key Words: double-shield, electromagnetic , shielding enclosures, room-sized enclosure, screened rooms, shielded room, Single shield enclosures, Shielding effectiveness, Electromagnetic shielding encl, Double shield enclosures Designation: 299-1969 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Title: IEEE Recommended Practice for Measurement of Shielding Effectiveness of High-Performance Shielding Enclosures Status: Superseded **Trial Use. Update draft for LB Replace MIL STD 285 History: PAR APP: Sep 28, 1984 Key Words: shielding, enclosures, effectiveness, performance, measurement Designation: P299.1 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Title: Standard method for measuring the Shielding Effectiveness of enclosures and boxes having all dimensions between 0.1 m and 2 m Status: New Standard Project Technical Contact: Maria Sabrina Sarto, Phone:39-06-44585-542, Email:mariasabrina.sarto@uniroma1.it **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This project will develop an IEEE standard defining shielding effectiveness test procedures for small enclosures and boxes having linear dimensions between 0.1 m and 2 m, in the radio-frequency frequency range. Project Purpose: The purpose of this standard is to provide a standard test procedure for the measurement of the effectiveness of shielded enclosures and boxes having all dimensions between 0.1 m and 2 m in the radio-frequency range. Designation: 300-1988 Sponsor: Nuclear and Plasma Sciences Society/Nuclear Instruments and Detectors Reaffirmation Status and Year: 2006 Title: IEEE Standard Test Procedures for Semiconductor Charged-Particle Detectors Status: Approved Publication of IEEE , Published Date: Dec 29, 1988 **Revision of ANSI/IEEE Std 300-1982. Technical Contact: Ronald M Keyser, Phone:865-483-2146, Email:ron.keyser@ortec-online.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 28, 1987, BD APP: Jun 09, 1988, ANSI APP: Feb 07, 1989 Abstract: IEEE Std 300-1988 Revision of ANSI/IEEE Std 300-1982 IEEE Standard Test Procedures for Semiconductor Charged-Particle Detectors Key Words: IEEE Std 300-1988 Revision of ANSI/IEEE Std 300-1982 IEEE Standard Test Procedures for Semiconductor Charged-Particle Detectors Designation: 301-1988 Sponsor: Nuclear and Plasma Sciences Society/Nuclear Instruments and Detectors Reaffirmation Status and Year: 2006 Title: IEEE Standard Test Procedures for Amplifiers and Preamplifiers used with Detectors of Ionizing Radiation Status: Approved Publication of IEEE , Published Date: May 10, 1989 **Revision of IEEE Std 301-1976. ERRATA dated: 18 June 1993, amended 12 August 1993 included. Technical Contact: Louis Costrell, Phone:301-975-5608, Email:louis.costrell@nist.gov **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Oct 20, 1988, ANSI APP: Jun 21, 1989 Abstract: Procedures are given for testing amplifier and preamplifier systems with linear pulse-shaping networks for use with semiconductor, scintillation, and proportional detectors in the spectroscopy of ionizing radiation. The object is to provide a common language and methodology for users and manufacturers of pulse-amplifier systems. The emphasis in the methods of measurement is to enhance sensitivity and improve accuracy by working around the limitations of the test instruments, particularly oscilloscopes that have only a visual display for readout. A null technique is used where possible, thereby reducing basic errors to the inaccuracy of precision resistors. Key Words: amplifiers, preamplifiers, detectors , ionizing radiation, Testing, Semiconductor detectors, Scintillation detectors, Pulse amplifiers, Proportional counters Designation: 301-1976 Sponsor: Nuclear and Plasma Sciences Society/Nuclear Instruments and Detectors Title: IEEE Standard Test Procedures for Amplifiers and Preamplifiers for Semi- Conductor Radiation Detectors for Ionizing Radiation Status: Superseded **Revision published 5/10/89 (IEEE Std 301-1988). History: PAR APP: Apr 28, 1988 Designation: 301 Sponsor: Nuclear and Plasma Sciences Society/Nuclear Instruments and Detectors Title: ERRATA - IEEE Standard Test Procedures for Amplifiers and Preamplifiers used with Detectors of Ionizing Radiation Dated: 18 June 1993, amended 12 August 1993. Status: Superseded Designation: 302-1969 Sponsor: IEEE Antennas and Propagation Society Reaffirmation Status and Year: 1981 Title: IEEE Standard Methods for Measuring Electromagnetic Field Strength for Frequencies Below 1000 MHz in Radio Wave Propagation Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Key Words: electromagnetic, field, strength, radio wave, propagation Designation: 303-2004 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: IEEE Recommended Practice for Auxiliary Devices for Rotating Electrical Machines in Class I, Division 2 and Zone 2 Locations Status: Approved Publication of IEEE , Published Date: Dec 17, 2004 Technical Contact: John Travis Griffith, Phone:281-373-5969, Email:t.griffith@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 11, 2002, BD APP: Jun 24, 2004, ANSI APP: Dec 16, 2004 Project Scope: This recommended practice is limited to auxiliary devices associated with rotating electrical machines operating in Division 2 or Zone 2 areas, classified as Class I under the practice of ANSI/NFPA 70 or Zone 2 areas classified under the practice of IEC/CENELEC EN60079-10:1996. Project Purpose: The following information is intended to bring together a brief description of basic electrical practices in regard to the application and installation of auxiliary devices to rotating electrical machines operating in Division 2 or Zone 2 locations using ANSI/NFPA 70, CEC C22.1-02 (2002), or Zone 2 locations using IEC/CENELEC EN60079-14:1997. Abstract: This recommended practice applies to the application and installation procedures of auxiliary devices in or on electric rotating machines that are employed in hazardous locations. Key Words: auxiliary devices, Class 1 Division 2, Class 1 Zone 2, arcing/sparking component, rotating electrical machine Designation: 303-1991 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Reaffirmation Status and Year: 1996 Title: IEEE Recommended Practice for Auxilary Devices for Motors in Class I, Groups A,B,C, and D, Division 2 Locations Status: Superseded **Revision of IEEE Std 303-1984. Superseded by 303-2004. History: PAR APP: Feb 02, 1989, BD APP: Jun 27, 1991, ANSI APP: Dec 18, 1991 Abstract: Installation procedures and wiring methods and materials are recommended. Termination housings, motor surge protection, and power-factor-correction capacitors are discussed. The aim is to promote consistent application of the devices covered. Key Words: auxiliary, devices, motors, wiring, methods, surge, protection, Motor surge protection Designation: 303-1984 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: IEEE Recommended Practice for Auxiliary Devices for Motors in Class 1 - Groups A, B, C, and D, Division 2 Locations Status: Superseded History: BD APP: Dec 22, 1983, ANSI APP: Dec 17, 1984 Designation: 303 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Recommended Practice for Auxiliary Devices for Motors in Class I, Group A, B, C, and D, Division 2 Locations Status: Superseded Technical Contact: John Travis Griffith, Phone:281-373-5969, Email:t.griffith@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 21, 2000 Project Scope: This update of IEEE-303 is to; incorporate recent changes in US electrical code relating to Class I Division 2 changes; incorporate Canadian electrical code requirements for Division 2 areas; and investigate the possibility to expand practices to Zone 2 classified areas. From the 1991 (reaffirmed) document: "This recommended practice is limited to auxiliary devices associated with motors operating in Division 2 areas, classified as Class I, Groups A, B, C, and D locations. This recommended practice is not an attempt to rewrite or otherwise supersede application sections of ANSI./NFPA 70-1990, or any other codes or ordinances. Rather, it is intended to serve as a supplement to existing codes that in this area are not sufficiently specific to serve as a guide to good engineering practice. The guidance contained herein, therefore, is in addition to the ANSI/NFPA 70-1990 requirements for wiring systems for hazardous (classified) locations." Project Purpose: The purpose of the project is to keep the standard up to date with US practices, and coordinate Canadian requirements to yield a North American document. From the 1991 (reaffirmed) document: "The following information is intended to bring together a brief description of basic electrical practices in regard to the application and installation of auxiliary devices to motors operating in Class I, Groups A, B, C, and D, Division 2 locations. It should be understood that this information is only a guide to promote consistent application of such devices and must be used with sound engineering judgement." Designation: 304 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Standard for Evaluation and Classification of Insulation Systems for Direct-Current Machines Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Bal K Gupta, Phone:416-621-6035, Email:bal.gupta@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 23, 1993 Project Scope: IEC Part 2-1, Thermal Evaluation of Wire-Wound Windings, was recently updated by USNC IEC SC2J. Some of the update would be of value for Std 304-1977. Std 304-1977 will therefore be revised to include applicable value features of the IEC standard. Project Purpose: Update to conform and be compatible with IEC standards. Designation: 304-1977 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1991 Title: IEEE Test Procedure for Evaluation and Classification of Insulation Systems for Direct-Current Machines Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 301-1969. See Stds 117; 275 . 16-Jan-04: Administratively withdrawn. Technical Contact: Roy L Balke, Phone:(814) 866-6683 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 17, 1993, BD APP: Sep 09, 1976, ANSI APP: May 06, 1992 Abstract: Insulation systems for direct-current machines are classified in accordance with their limiting temperatures as determined by test rather than by chemical composition. The intention is to classify according to the recognized A, B, F, and H categories by determining thermal capability in accordance with machine temperature-rise standards. This test procedure has been prepared to indicate accepted tests. It is applicable to insulation systems for use in usual service conditions. This standard does not cover special requirements such as for machines in gas atmospheres being subjected to strong chemicals, metal dusts, or submersion in liquids. Key Words: insulation, dc, evaluation, classification, test Designation: 306-1969 Sponsor: IEEE Magnetics Society Reaffirmation Status and Year: 1981 Title: IEEE Test Procedure for Charging Inductors Status: Withdrawn Standard. Withdrawn Date: Jun 27, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Withdrawn at 6/91 StdsBd mtg. Abstract: 3/27/91-do not send S. Erlich any correspondence on this standard/deCourcelle Key Words: inductors, charging, test, procedure Designation: 307-1969 Sponsor: Space Systems Panel Title: IEEE Standard Definitions of Terms For Solar Cells Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Designation: 308-2001 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2007 Title: IEEE Standard Criteria for Class 1E Power Systems for Nuclear Power Generating Stations Status: Approved Publication of IEEE , Published Date: Mar 01, 2002 **Supersedes 308-1991. Technical Contact: James E Stoner, Phone:704-382-4760, Email:j.e.stoner@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jan 30, 2000, BD APP: Dec 06, 2001, ANSI APP: Aug 01, 2002 Project Scope: This standard applies to the Class 1E portions of the following systems and equipment in single-unit and multiunit nuclear power generating stations: -- Alternating current power systems -- Direct current power systems -- Instrumentation and control (I&C) power systems These systems include the items listed in Table 1. This standard does not apply to the preferred power supply; the unit generators and their buses; generator breaker; step-up, auxiliary, and start-up transformers; connections to the station switchyard; switchyard; transmission lines; and the transmission network (see Figure 1). Project Purpose: The purpose of this standard is to provide the following: - - The principal design criteria and the design features of the Class 1E power systems that enable the systems to meet their functional requirements under the conditions produced by the applicable design basis events. -- The requirements for tests and surveillance of the Class 1E power systems. -- The criteria for sharing Class 1E power systems in multiunit stations. -- The requirements for documentation of the Class 1E power systems. Abstract: " Class 1E portions of alternating current and direct current power systems andinstrumentation and control power systems in single-unit and multiunit nuclear power generatingstations are covered. Not included are the preferred power supply; unit generator(s) and theirbuses; generator breaker; step-up, auxiliary, and start-up transformers; connections to the stationswitchyard; switchyard; transmission lines; and the transmission network. The intent is to providecriteria for the determination of Class 1E power system design features, criteria for sharing Class1E power systems in multiunit stations, the requirements for their testing and surveillance, and therequirements for documentation of the Class 1E power system." Key Words: "Class 1E power systems, nuclear power station design, nuclear safety" Designation: 308 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard Criteria for Class 1E Power Systems for Nuclear Power Generating Stations Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Herbert A Robinson, Phone:201/316-7563, Email:hrobin3@entergy.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 13, 1994 Project Scope: This standard applies to the Class 1E portions of the following systems and equipment in single unit and multi-unit nuclear generations: 1. Alternating current power systems 2. Direct current power systems 3. Instrumentation and control power systems Project Purpose: The purpose of this standard is to provide the following: 1. The principal design criteria and the design features of the Class 1E power systems that enable the systems to meet their functional requirements under the conditions produced by the applicable design basis events. 2. The requirements for tests and surveillance of the Class 1E power systems. 3. The criteria for sharing Class 1E power systems in multiunit stations. The purpose of this revision to the standard is: 1. Incorporate information on degraded grid. 2. Consider additional criteria on the required level of detail in documentation. 3. Investigate whether additional guidance on GDC- 17, as it applies to single failure criteria, is necessary. 4. Address comments received from previous reviews of the standard since the last revision was published. 5. General update to correct references and typographical errors, and review the impact of later revisions of other standards. Designation: 308-1991 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Criteria for Class 1E Power Systems for Nuclear Power Generating Stations Status: Superseded **Revision of IEEE Std 308-1980. Superseded by 308-2001. History: PAR APP: Sep 23, 1983, BD APP: Dec 05, 1991, ANSI APP: Oct 01, 1992 Abstract: Class 1E portions of ac and dc power systems and instrumentation and control power systems in single-unit and multiunit nuclear power generating stations are covered. Not included are the preferred power supply; unit generator(s) and their buses; generator breaker; step-up, auxiliary, and start-up transformers; connections to the station switchyard; switchyard; transmission lines; and the transmission network. The intent is to provide criteria for the determination of Class 1E power system design features, criteria for sharing Class 1E power systems in multiunit stations, and the requirements for their testing and surveillance. Key Words: systems, nuclear, safety, station, design, Nuclear safety, Nuclear power station design, Class 1E power systems Designation: 308-1980 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Criteria for Class 1E Power Systems for Nuclear Power Generating Stations Status: Superseded History: BD APP: Mar 13, 1980, ANSI APP: Aug 19, 1982 Designation: 309-1970 Sponsor: Nuclear and Plasma Sciences Society/Nuclear Instruments and Detectors Reaffirmation Status and Year: 1990 Title: IEEE Standard Test Procedure for Geiger-Müller Counters Status: Superseded History: BD APP: May 28, 1969, ANSI APP: Feb 27, 1991 Abstract: Test conditions are discussed, covering radiation background, ambient temperature, radiation sources, and Geiger-Mueller (G-M) counter test circuits. G-M counter parameters are defined, and methods for measuring them are presented. Requirements for the test equipment used for the measurements are set forth. Key Words: geiger, mueller, counters, radiation, nuclear Designation: 309/N42.3-1999 Reaffirmation Status and Year: 2006 Title: IEEE Standard Test Procedures and Bases for Geiger-Mueller Counters Status: Approved Publication of IEEE , Published Date: Jun 04, 1999 Technical Contact: Louis Costrell, Phone:301-975-5608, Email:louis.costrell@nist.gov **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 09, 1997, BD APP: Mar 18, 1999, ANSI APP: May 12, 1999 Project Scope: Presents test procedures and standard bases for Geiger-Mueller counters so that test results will have the same meaning to all manufacturersd and users. The inclusion of standard bases provides guidance and uniformity. Project Purpose: This is to be a revision of ANSI N42.3/IEEE 309 and will include within it also the material now in ANSI N42.5 on standard bases. The inclusion of the N42.5 material is the reason for including "Standard Bases" in that revised title. Upon issuance of this revised N42.5 should be withdrawn and that is the intent. The stnadard is nearly 30 years old and is in need of updating. Geiger-Mueller counters continue to be produced and used in quanityt. Designation: 310-1969 Sponsor: IEEE Instrumentation and Measurement Society Reaffirmation Status and Year: 1975 Title: IEEE Standard for Reference-Standard Electrical Resistors Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. History: ANSI APP: May 09, 1975 Key Words: reference, standard, electrical, resistors Designation: 311-1970 Sponsor: IEEE Instrumentation and Measurement Society Title: IEEE Standard Specification of General-Purpose Laboratory Cathode-Ray Oscilloscopes Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. Key Words: oscilloscopes, laboratory, general, purpose, cathode-ray Designation: 312-1977 Sponsor: IEEE Communications Society Title: IEEE Standard Definitions of Terms for Communication Switching Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. ANSI withdrawal date 4/9/90. History: BD APP: Jun 03, 1976, ANSI APP: Dec 19, 1979 Key Words: communication, switching, terms, definitions, glossary Designation: 314-1971 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: IEEE Standards Report on State of the Art of Measuring Unbalanced Transmission-Line Impedance Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. History: BD APP: Sep 15, 1970 Designation: 315-1975 Sponsor: IEEE-SASB Coordinating Committees Reaffirmation Status and Year: 1993 Title: Graphic Symbols for Electrical and Electronics Diagrams (Including Reference Designation Letters) Status: Approved Publication of IEEE , Published Date: Dec 29, 1975 **Revision of IEEE Std 315-1971, ANSI Y32.1-1972 and CSA Z99-1972. (aka ANSI Y32.2-1975 and CSA Z99-1975). History: BD APP: Sep 04, 1975, ANSI APP: Oct 31, 1975 Abstract: A list of graphic symbols and class designation letters for use on electrical and electronics diagrams is provided. All of the symbols are designed so that their connection points fall on a modular grid, to help those who use a grid basis for the preparation of diagrams. A substantial effort has been made to make this standard compatible with approved International Electrotechnical Commission (IEC) Recommendations (IEC Publication 117, in various parts). Key Words: graphic, symbols, diagrams, electrical, electronics, Y32.1, Y32.2, Z99 Designation: 315A-1986 Sponsor: IEEE-SASB Coordinating Committees Reaffirmation Status and Year: 1993 Title: Supplement to Graphic Symbols for Electrical and Electronics Diagrams Status: Approved Publication of IEEE , Published Date: Sep 12, 1986 **Supplement to IEEE Std 315-1975 and ANSI Y32.2-1975. History: BD APP: Sep 19, 1985, ANSI APP: Nov 15, 1985 Abstract: Symbols approved by the International Electrotechnical Commission since 1975, or for which there is now a greater need in the US arising from international commerce, are provided. Besides the addition of new symbols, some updating of the information in IEEE Std 315-1975 has been undertaken. Key Words: 315A, graphic symbols, electrical, electronic, diagrams, Y32.1, Y32.2, Z99 Designation: 316-1971 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Title: IEEE Standard Requirements for Direct Current Instrument Shunts Status: Withdrawn Standard. Withdrawn Date: Mar 21, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Incorporated into IEEE 120 . History: BD APP: Apr 16, 1968 Key Words: dc, instrument, shunts Designation: 317-1983 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2003 Title: IEEE Standard for Electric Penetration Assemblies in Containment Structures for Nuclear Power Generating Stations Status: Approved Publication of IEEE **Revision of IEEE Std 317-1976. Technical Contact: John D MacDonald, Phone:716-681-1973x211, Email:j.d.macdonald@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Sep 23, 1982, ANSI APP: Jul 19, 1989 Abstract: Requirements for the design, construction, qualification, testing, and installation of electric penetration assemblies in nuclear containment structures for stationary nuclear power generating stations are presented. Quality control and quality assurance requirements, and requirements for purchaser's specification are included. The requirements for external circuits that connect to penetration assemblies and for operation, maintenance, or periodic testing after installation are not covered. Key Words: penetration, containment, structures, generating, Power generation testing, Nuclear power generation protection Designation: P317 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard for Electric Penetration Assemblies in Containment Structures for Nuclear Power Generating Stations Status: Revision Project Technical Contact: John D MacDonald, Phone:716-681-1973x211, Email:j.d.macdonald@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This Standard prescribes the requirements for the design, construction, qualification, test and installation of electric penetration assemblies in nuclear containment structures for stationary nuclear power generating stations. The requirements for external circuits which connect to penetration assemblies are beyond the scope of this standard. This standard does not include requirements for operation, maintenance, or periodic testing after installation. Project Purpose: This Standard presents criteria to facilitate the determination of the features of design, construction, test, qualification and installation relative to the electric penetration assemblies of primary containment of the nuclear facilities. Designation: 319-1971 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Reaffirmation Status and Year: 1978 Title: IEEE Standard on Magnetostrictive Materials: Piezomagnetic Nomenclature Status: Superseded History: BD APP: Dec 03, 1970 Key Words: piezomagnetic, nomenclature, terms, definitions, glossary Designation: 319-1990 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Title: IEEE Standard on Magnetostrictive Materials: Piezomagnetic Nomenclature Status: Withdrawn Standard. Withdrawn Date: Oct 25, 1996. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Administratively withdrawn by Stds Bd 10/25/96. History: PAR APP: Jun 01, 1989, BD APP: Dec 06, 1990, ANSI APP: May 21, 1991 Abstract: Piezomagnetic and magnetostrictive effects are discussed, and the piezomagnetic relations, symbols, and units are presented. The intent is to make possible the comparison of the relative merits of magnetostrictive, electromagnetic, piezoelectric, and electrostrictive transducers on a simple and straightforward basis. The standard applies generally to magnetostrictive materials, except for some uncommon cases. Key Words: electromagnetic, electrostrictive, magnetostrictive, nonmenclature, piezoelectric, transducers, Symbols, Piezomagnetic materials/device, Measurement units Designation: 323-2003 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2008 Title: Standard for Qualifying Class 1E Equipment for Nuclear Power Generating Stations Status: Approved Publication of IEEE , Published Date: Jan 23, 2004 **Supersedes 323-1983 (R1996). Technical Contact: James F Gleason, Phone:256-881-9868, Email:jim@glseq.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 20, 1997, BD APP: Sep 11, 2003, ANSI APP: Feb 03, 2004 Project Scope: This standard describes the basic requirements for qualifying Class 1E equipment and interfaces that are to be used in nuclear power generating stations. The principles, methods and procedures described are intended to be used for qualifying equipment, maintaining and extending qualification, and updating qualification, as required, if the equipment is modified. Meeting the qualification requirements demonstrates and documents the ability of equipment to perform safety function(s) under applicable service conditions including design basis events, thereby minimizing the risk of common-cause equipment failure. This standard does not provide environmental stress levels and performance requirements. Abstract: "IEEE Std 323-2003, IEEE Standard for Qualifying Class 1E Equipment for Nuclear Power Generating Stations" Key Words: "age conditioning, aging, condition monitoring, design basis events, equipment qualification, harsh environment, margin, mild environment, qualification method, qualified life, radiation, safety related function, significant aging mechanism, test plan" Designation: P323 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard for Qualifying Class 1E Equipment for Nuclear Power Generating Stations and Nuclear Facilities Status: Revision Project Project Scope: This standard describes the basic requirements for qualifying safety related, Class 1E, and/or important to safety electrical equipment and interfaces that are to be used in nuclear power generating stations and nuclear facilities. The principles, methods and procedures described are intended to be used for qualifying equipment, maintaining and extending qualification, and updating qualification, as required, if the equipment is modified. Meeting the qualification requirements demonstrates and documents the ability of equipment to perform safety function(s) under applicable service conditions including design basis events, thereby minimizing the risk of common-cause equipment failure. Project Purpose: The purpose of this standard is to define the methods for equipment qualification for safety related, Class 1E, and/or important to safety electrical equipment and interfaces in nuclear power generating stations and nuclear facilities. Designation: 323-1983 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1996 Title: IEEE Standard for Qualifying Class 1E Equipment for Nuclear Power Generating Stations Status: Superseded **Superseded by 323-2003. History: PAR APP: Nov 12, 1975, BD APP: Jun 23, 1983, ANSI APP: Aug 01, 1991 Abstract: The basic requirements for qualifying Class 1E equipment with interfaces that are to be used in nuclear power generating stations are described. The principles, procedures, and methods of qualification are covered. These qualification requirements, when met, will confirm the adequacy of the equipment design under normal, abnormal, design-basis-event, post-design-basis-event, and in-service test conditions for the performance of safety functions. The methods are to be used for qualifying equipment, extending qualification, and updating qualification if the equipment is modified. Key Words: class 1E, qualifing, equipment, generating, Nuclear power generation protection Designation: 325-1996 Sponsor: Nuclear and Plasma Sciences Society/Nuclear Instruments and Detectors Reaffirmation Status and Year: 2002 Title: IEEE Standard Test Procedures for Germanium Gamma-Ray Detectors Status: Approved Publication of IEEE **Revision of IEEE Std 325-1986. History: PAR APP: Dec 03, 1992, BD APP: Oct 18, 1996, ANSI APP: Jan 06, 1997 Project Scope: Same as for 325-1986. Following is the abstract for 325-1986: The basic requirements for qualifying Class 1E equipment with interfaces that are to be used in nuclear power generating stations are described. The principles, procedures, and methods of qualification are covered. These qualification requirements, when met, will confirm the adequacy of the equipment design under normal, abnormal, design basis event, post design basis event, and in-service test conditions for the performance of safety functions. The methods are to be used for qualifying equipment, extending qualification, and updating qualification if the equipment is modified. Project Purpose: To revise Std 325 to bring it current with today's practice and technology. Abstract: Terminology and standard test procedures are established for germanium gamma-ray detectors that are used for the detection and high-resolution spectrometry of gamma rays, X rays, and charged particles that produce hole-electron pairs in the crystal lattice so that these items have the same meaning to both manufacturers and users. Key Words: gamma rays, germanium radiation detectors, X rays Designation: P325 Sponsor: Nuclear and Plasma Sciences Society/Nuclear Instruments and Detectors Title: Standard Test Procedures for Germanium Gamma-Ray Detectors Used in Analog and Digital Signal Processing Systems Status: Revision Project Technical Contact: Ronald M Keyser, Phone:865-483-2146, Email:ron.keyser@ortec-online.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 23, 2004 Project Scope: The scope of this project is to update 325-1996 for modern electronics and add new source-detection geometries. Project Purpose: The purpose of this project is to update the standard to include the impact of improved technology in the electronic signal process and procedures in the use of germanium detectors in new applications. The new technology of Digital Signal Processor (DSP) provides different test methods and electronic signals requiring the changing of test methods and results. The different geometries described in the testing are needed to better describe the functioning of the detector to meet the needs of a more diverse group of users than covered in the original standard. Designation: 325-1986 Sponsor: Nuclear and Plasma Sciences Society/Nuclear Instruments and Detectors Title: IEEE Standard Test Procedures for Germanium Gamma-Ray Detectors Status: Withdrawn Standard. Withdrawn Date: May 05, 1995. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 325-1971. History: BD APP: Jun 19, 1986, ANSI APP: Aug 13, 1986 Abstract: Germanium radiation detectors that are primarily used for detection and high-resolution spectroscopy of gamma radiation are covered. Measurement of detector system performance characteristics using techniques that are readily available to manufacturers and users is addressed. The intent is to establish standard test procedures so that measurements have the same meaning to all manufacturers and users. The detectors covered are also to be used for X-ray spectroscopy and occasionally for charged-particle spectroscopy. Key Words: germanium, gamma, ray, detectors, test Designation: 327 Sponsor: Accredited Standards Committee on Power Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 328 Sponsor: Accredited Standards Committee on Power Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 332 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 333-1980 Title: IEEE Standard for Electrical Installation of Packaging Machinery and Associated Equipment Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. ANSI withdrawn 6/29/92. History: BD APP: Jun 07, 1979, ANSI APP: Apr 29, 1983 Designation: 334-2006 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard for Qualifying Continuous Duty Class 1E Motors for Nuclear Power Generating Stations Status: Approved Publication of IEEE , Published Date: Jan 31, 2007 Technical Contact: Bill Newell, Phone:203-562-5811, Email:wgnewell@worldnet.att.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 08, 2006, BD APP: Sep 15, 2006, ANSI APP: Dec 29, 2006 Project Scope: This standard establishes criteria for qualification of continuous duty Class 1E motors, located in mild and harsh environments in nuclear power generating stations in order to demonstrate their ability to perform their intended safety functions under all required conditions. This standard does not apply to motors used in valve actuators (see IEEE Std 382™-1996 [B2]1). Project Purpose: The purpose of this standard is to provide direction for the implementation of the requirements of IEEE Std 323™-20032 as they apply to the specific features of continuous duty safety-related electric motor qualification. This standard also provides guidance for qualification of refurbished motors and insulation systems for motor rewinds. Abstract: It is required that Class 1E motors, with their interfaces, meet or exceed the specified performance requirements throughout their service life. This is accomplished through a program that includes, but is not limited to, design, qualification, production quality control, shipping, storage, installation, operation, maintenance, periodic testing, and surveillance. This standard addresses the qualification portion of the program. It discusses the requirement for maintenance, repair, and surveillance of motors to maintain qualification of motors throughout their installed life but does not provide detailed guidance about how these programmatic items must be implemented and maintained. The qualification requirements of this standard, when met, demonstrate and document the ability of the motor and/or insulation system to perform its safety function(s) under specified service conditions. Key Words: age conditioning, age sensitive, aging, condition monitoring, design basis event, formette, harsh environment, insulation, insulation system, interfaces, margin, mild environment, motor, motor qualification, motorette, qualification, qualified life, radiation, safety-related function, significant aging mechanism, test plan, test sequence, type testing Designation: 334-1994 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1999 Title: IEEE Standard for Qualifying Continuous Duty Class 1E Motors for Nuclear Power Generating Stations Status: Superseded History: PAR APP: Jun 17, 1993, BD APP: Mar 28, 1994, ANSI APP: Sep 02, 1994 Abstract: Methods and requirements for qualifying continuous duty Class 1E motors for use in nuclear power generating stations are provided. The methods are used for qualifying motors, extending the qualification, and updating the qualification if the motor's design or specified service conditions are modified. The requirements include the principles, procedures, and methods of qualification as they relate to continuous duty Class 1E polyphase squirrel cage ac motors. Key Words: Class 1E motors, harsh environment, mild environment, qualification, seismic, Nuclear power generating station Designation: 334-1974 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1980 Title: IEEE Standard for Type Tests of Continuous Duty Class 1E Motors for Nuclear Power Generating Stations Status: Superseded History: PAR APP: Dec 28, 1978, BD APP: May 30, 1974, ANSI APP: Nov 24, 1976 Key Words: nuclear, class 1E, motors, continuous duty, test Designation: 334 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard for Qualifying Continuous Duty Class 1E Motors Status: Superseded Technical Contact: Bill Newell, Phone:203-562-5811, Email:wgnewell@worldnet.att.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 10, 2003 Project Scope: The standard establishes criteria for qualification of continuous duty Class 1E Electric Motors, located in mild and harsh environments,in Nuclear Power Generating Stations in order to demonstrate their ability to perform their intended safety functions under all required conditions. This standard does not apply to motors used in valve actuators. Project Purpose: This revision would update the document to the latest revisions of the referenced standards (specifically, IEEE Std 323-2004) and aligns it with the material in these revisions. It adds guidance for qualification of refurbished motors and insulation systems for motor rewinds. Designation: 335 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 336-2005 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Guide for Installation, Inspection, and Testing for Class 1E Power, Instrumentation, and Control Equipment at Nuclear Facilities Status: Approved Publication of IEEE , Published Date: Feb 23, 2006 Technical Contact: George Ballassi, Phone:860-433-3389, Email:gballass@ebmail.gdeb.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 14, 2001, BD APP: Sep 22, 2005, ANSI APP: Jan 26, 2006 Project Scope: This guide provides considerations for the pre-installation, installation, inspection, and testing of Class 1E power, instrumentation, and control equipment and systems of a nuclear facility while in the process of installing, inspecting, and testing during new construction, modification, and maintenance. This guidance is applicable to initial construction, modification (backfit), and maintenance activities. This guide does not apply to periodic testing. Project Purpose: The purpose of this guide is to identify the activities, instructions, and attributes that may be considered in the process of installing, inspecting, and testing during new construction, modification, and maintenance for Class 1E power, instrumentation, and control equipment at nuclear power stations.Changes to this guide are intended to ⎯ Review and consider “lessons learned” from industry (in particular, for post-modification and postmaintenance testing). ⎯ Provide a more comprehensive, organized “user-friendly” format. ⎯ Review and consider any other related user feedback. Abstract: This guide provides considerations for the pre-installation, installation, inspection, and testing of Class 1E power, instrumentation, and control equipment and systems of a nuclear facility. This guidance is applicable to initial construction, modification (backfit), and maintenance activities. This guide does not apply to periodic testing. Key Words: Class 1E, configuration management, constructability reviews, functional testing, inspection procedures,, multi-unit, nuclear facilities, plant design bases, pre-construction inspection, pre-construction testing, pre-installation inspection, pre-installation testing, post-installation inspection, pos-maintenance testing, post-modification testing, test plans, test procedures Designation: P336 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Recommended Practice for Installation, Inspection, and Testing for Class 1E Power, Instrumentation, and Control Equipment at Nuclear Facilities Status: Revision Project Technical Contact: Ted Riccio, Phone:361-972-6080, Email:texasriccios@awesomenet.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This recommended practice provides considerations for the pre- installation, installation, inspection, and testing of Class 1E power, instrumentation, and control equipment and systems of a nuclear facility while in the process of installing, inspecting, and testing during new construction, modification, or maintenance. This recommended practice does not apply to periodic testing. Project Purpose: The purpose of this recommended practice is to identify the activities, instructions, and attributes that should be considered in the process of installing, inspecting, and testing during new construction, modification, and maintenance for Class 1E power, instrumentation, and control equipment at nuclear facilities. Designation: 336-1985 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1991 Title: IEEE Standard Installation, Inspection and Testing Requirements for Power, Instrumentation, and Control Equipment at Nuclear Facilities Status: Superseded **Revision of IEEE Std 336-1980. History: PAR APP: Jun 21, 1983, BD APP: Dec 13, 1984, ANSI APP: Dec 18, 1991 Abstract: Requirements for installation, inspection, and testing of power, instrumentation, and control equipment and systems during the construction phase of a nuclear facility are set forth. These requirements also cover modifications and those operating phase activities that are comparable in nature and extent to related initial construction activities of the facility. The intent is to establish requirements for safety systems equipment. However, this standard may also be applied to nonsafety systems equipment. Key Words: installation, inspection, instrumentation, control, nuclear, Nuclear power generation protection Designation: 337-1972 Sponsor: IEEE Aerospace and Electronic Systems Society/Gyro Accelerometer Panel Reaffirmation Status and Year: 1992 Title: IEEE Standard Specification Format Guide and Test Procedure for Linear, Single-Axis, Pendulous, Analog Torque Balance Accelerometer Status: Superseded **Superseded by IEEE 1293-1998. History: BD APP: Dec 02, 1971, ANSI APP: Jan 04, 1993 Abstract: A format guide for the preparation of an accelerometer specification that provides a common meeting ground of terminology and practice for manufacturers and users is given. It covers performance; mechanical, electrical, and environmental requirements; quality assurance; preparation for delivery, and use of notes. A compilation of recommended procedures for testing an accelerometer is presented. These procedures, including test conditions to be considered, are derived from those currently in use. Not all tests outlined in this document need be included, nor are additional tests precluded. In some cases, alternative methods for measuring performance characteristics have been included or indicated. The torque balance electronics are not considered to be part of the instrument. Key Words: accelerometer, single-axis, analog, torque, balance, Acceleration measurement Designation: 338-2006 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Criteria for the Periodic Surveillance Testing of Nuclear Power Generating Station Safety Systems Status: Approved Publication of IEEE , Published Date: Jun 06, 2007 Technical Contact: George Ballassi, Phone:860-433-3389, Email:gballass@ebmail.gdeb.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 14, 2001, BD APP: Dec 06, 2006, ANSI APP: May 24, 2007 Project Scope: The standard provides criteria for the performance of periodic testing of nuclear power generating station safety systems. The scope of periodic testing consists of functional tests and checks, calibration verification, and time response measurements, as required, to verify that the safety system performs its defined safety function. Post-maintenance and post-modification testing are not covered by this document. This standard amplifies the periodic testing requirements of other nuclear safety-related IEEE standards. Project Purpose: This standard is intended to aid the user not only in designing a periodic test capability but also in defining and optimizing the primary elements of an effective periodic test program (including planning, performance/acceptance criteria, procedures, test intervals, and documentation). Abstract: This recommended practice deals with the implications surrounding the use and administration of firmware revisions for protection-related equipment. In general, the number of firmware revisions have become prolific since the introduction of microprocessor-based protection related equipment and no standard means of dealing with the issues surrounding this situation has been addressed. This recommended practice attempts to provide guidelines for the effective communication of firmware- related issues with the intent of helping to maximize the security and reliability of the power system. Key Words: firmware, IED, Intelligent Electronic Device, microprocessor, revisions, software Designation: 338-1987 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2000 Title: IEEE Standard Criteria for the Periodic Surveillance Testing of Nuclear Power Generating Station Safety Systems Status: Superseded History: BD APP: Sep 10, 1987, ANSI APP: Mar 03, 1988 Abstract: Design and operational criteria are provided for the performance of periodic testing as part of the surveillance program of nuclear power generating station safety systems. Such testing consists of functional tests and checks, calibration verification, and time-response measurements, as required, to verify that the safety system performs to meet its defined safety function. The system status, associated system documentation, test intervals, and test procedures during operation are also addressed. Key Words: surveillance, testing, safety, periodic, Power generation testing, Nuclear power generation protection Designation: 338 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard Criteria for the Periodic Surveillance Testing of Nuclear Power Generating Station Safety Systems Status: Superseded Technical Contact: Brij M Bharteey, Phone:518-382-0056, Email:spectrum@spectrumtechnologies.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 16, 1998 Project Scope: This standard provides design and operational criteria for performance of periodic testing as part of the surveillance program of nuclear power generating station safety systems. The scope of periodic testing consists of functional tests and checks, calibration verification and time response measurements, as required, to verify that the safety system performs to meet its defined safety function. The system status, associated system documentation, test intervals, and test procedures during operation are also addressed. Maintenance is not covered by this document. This standard amplifies the periodic surveillance testing requirements of IEEE Std 603 and 308. Project Purpose: Incorporate user experience; address methods to optimize the surveillance test frequency; provie guidelines for prioritizing surveillance using risk based importance ranking. Designation: 339 Sponsor: Accredited Standards Committee on Power Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 340 Sponsor: Accredited Standards Committee on Power Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 341 Sponsor: Accredited Standards Committee on Power Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 342 Sponsor: Accredited Standards Committee on Power Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 342a Sponsor: Accredited Standards Committee on Power Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 343 Sponsor: Accredited Standards Committee on Power Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 344-2004 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2009 Title: IEEE Recommended Practice for Seismic Qualification of Class 1E Equipment for Nuclear Power Generating Stations Status: Approved Publication of IEEE , Published Date: Jun 08, 2005 Technical Contact: James Parello, Phone:724-722-5545, Email:parellj@westinghouse.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 08, 2004, BD APP: Dec 08, 2004, ANSI APP: May 12, 2005 Project Scope: This document describes recommended practices for establishing seismic qualification procedures that will yield quantitative data to demonstrate that the Class 1E equipment can meet its performance requirements during and/or following one safe shutdown earthquake (SSE) event preceded by a number of operating basis earthquake (OBE) events. The test, analysis, or experienced-based evaluation methods described herein may be used to yield data to demonstrate Class 1E equipment performance claims or to evaluate and verify performance of devices and assemblies as part of an overall qualification effort. Project Purpose: The purpose of this document is to provide recommended practices and documentation requirements for seismic qualification of Class 1E equipment to verify the equipment’s ability to perform its safety function during and/or after the specified seismic motions. Abstract: Recommended practices are provided for establishing procedures that will yield data to demonstrate that the Class 1E equipment can meet its performance requirements during and/or following one safe shutdown earthquake event preceded by a number of operating basis earthquake events. This recommended practice may be used to establish tests, analyses, or experienced based evaluations that will yield data to demonstrate Class 1E equipment performance claims or to evaluate and verify performance of devices and assemblies as part of an overall qualification effort. Common methods currently in use for seismic qualification by test are presented. Two approaches to seismic analysis are described, one based on dynamic analysis and the other on static coefficient analysis. Two approaches to experienced-based seismic evaluation are described, one based on earthquake experience and the other based on test experience. Key Words: Class 1E, earthquake, earthquake experience, equipment qualification, inclusion rules,nuclear, operating basis earthquake, prohibited features, qualification methods, required response spectrum, response spectra, safe shutdown earthquake, safety function, seismic, seismic analysis, test response spectrum, test experience, type testing Designation: 344-1987 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1993 Title: IEEE Recommended Practice for Seismic Qualification of Class 1E Equipment for Nuclear Power Generating Stations Status: Superseded **Revision of ANSI/IEEE Std 344-1975. June2004: Withdrawn by ANSI as overage. History: PAR APP: Mar 30, 1977, BD APP: Jun 11, 1987, ANSI APP: Feb 28, 1988 Abstract: Recommended practices for establishing procedures that will yield data that verify that the Class 1E equipment can meet its performance requirements during and following one safe shutdown earthquake preceded by a number of operating-basis earthquakes are provided. This recommended practice may be used to establish tests or analyses that will yield data to substantiate performance claims or to evaluate and verify performance of representative devices and assemblies as part of an overall qualification effort. Two approaches to seismic analysis are described, one based on dynamic analysis and the other on static coefficient analysis. Common methods currently in use for seismic qualification by test are presented. Key Words: seismic, qualification, class 1E, nuclear, equipment, Seismic factors, Power generation testing, Nuclear power generation protection Designation: 344 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard for Seismic Qualification of Class 1E Equipment for Nuclear Power Generating Stations Status: Superseded Technical Contact: James Parello, Phone:724-722-5545, Email:parellj@westinghouse.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 21, 2000 Project Scope: The scope of this project will be to review and evaluate the recommendations prepared by the ASME-QME/IEEE-NPEC special working group on standardization of experience based seismic qualification and incorporating into the standard their recommendations as deemed appropriate by the committee. The scope given in section 1.1 of IEEE-344 will be revised to reflect the changes made to the standard related to experience data. With changes to the experience data section (Section 9.0) it is anticipated that the scope will state the following in the revised standard with the words in italics being new. Scope. This document provides standard methods that will yield data, which verify that the Class 1E equipment can meet its performance requirements during and following one safe shutdown earthquake (SSE) preceded by a number of operating basis earthquakes (OBE). This standard may be used to establish tests or analyses that will yield data to evaluate and verify performance of representative devices and assemblies as part of an overall qualification effort. It also provides an option for using experienced based seismic qualification processes. Project Purpose: Revision to the standard will be developed by the committee pertaining to procedures, practices, guidance, and criteria for the use of experience data benefiting the users (those responsible for seismic qualification). A purpose will be added to the standard (currently IEEE-344 does not have one). The purpose is anticipated to state the following: Purpose. Seismic qualification methods are given that may be used to establish tests or analyses that will yield data to evaluate and verify performance of representative devices and assemblies as part of an overall qualification effort. Also, experience based seismic qualification procedures, methodology, guidance, and criteria are included as an option for use in a qualification program. Designation: 346-1973 Sponsor: IEEE Power & Energy Society Title: Std. Defins. in Power Operations Terminology Incl. terms for Reporting&Analyzing Outages of Electrical Transmission and Distribution Facilities and Interruptions to Customer Svce. Facilitiesandard Definitions in Power Operations Terminology Inc;luding Terms for Reporting and Analyzing Outages of Electrical Transmission Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **SS by Std. 858 and 859 Designation: 347-1972 Title: Standard Method of Measuring Recorded Flux of Magnetic Sound Records at Medium Wavelengths Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 348 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 352-1987 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2004 Title: IEEE Guide for General Principles of Reliability Analysis of Nuclear Power Generating Station Safety Systems Status: Approved Publication of IEEE **ERRATA dated: 4 APR 94 included. Technical Contact: James Liming, Phone:714-962-8289, Email:jl307@aol.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Jun 13, 1985, ANSI APP: Nov 21, 1985 Abstract: The basic principles that are needed to conduct a reliability analysis of safety systems are provided for designers and operators of nuclear power plant safety systems and the concerned regulatory groups. By applying the principles given, systems may be analyzed, results may be compared with reliability objectives, and the basis for decisions may be suitably documented. The quantitative principles are applicable to the analysis of the effects of component failures on safety system reliability. Although they have their greatest value during the design phase, the principles are applicable during any phase of the system's lifetime. They may also be applied during the preoperational phase or at any time during the normal lifetime of a system. Key Words: reliability, nuclear, safety, analysis, generating Designation: 352 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: ERRATA - IEEE Guide for General Principles of Reliability Analysis of Nuclear Power Generating Station Safety Systems Status: Superseded Publication type: Special Publication Designation: 353 Sponsor: IEEE Computer Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 354 Sponsor: IEEE Antennas and Propagation Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 355 Sponsor: IEEE Antennas and Propagation Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 356-2001 Sponsor: IEEE Antennas and Propagation Society/Propagation Title: IEEE Guide for Measurements of Electromagnetic Properties of Earth Media Status: Approved Publication of IEEE , Published Date: Jun 03, 2002 Technical Contact: David Thiel, Phone:+61 7 3735 7192, Email:d.thiel@griffith.edu.au **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jan 30, 2000, BD APP: Dec 06, 2001, ANSI APP: May 02, 2002 Project Scope: The purpose of this guide is to describe the measurement principles of the electrical properties of naturally occurring solid materials, although it will also serve as a guide for the measurement of any solid material. Project Purpose: Document needed for ground plane assessment for locating antennas; formation mapping to obtain geological information; assessment of ore-grade quality, moisture content, salinity; propagation prediction and studies; aquifer studies for water search, nuclear waste disposal, dam location; ground-penetrating radar research; prospectin. Abstract: " The electromagnetic properties of the earth play an important role in the design and implementationof radio communications systems, geophysical prospecting instruments, and subsurface mapping techniques.Measurement techniques include dc resistivity, surface impedance, propagation studies, wave tilt methods,probe impedance methods, mutual impedance methods, transient methods, time domain reflectometry, groundprobing radar, laboratory-based techniques, and free-space reflection measurements. The separation distancebetween the probes and the wavelength of the radiation both affect the volume of earth material measured.This guide provides a summary of current measurement techniques and, where appropriate, inversion methodsfor determining the conductivity and the relative permittivity of the volume under investigation." Key Words: "dc resistivity, earth permittivity measurements, electromagnetic geophysics, ground conductivity measurements, ice, inversion, radio communications, radio reflection, surface impedance, time domain reflectometry" Designation: 356 Sponsor: IEEE Antennas and Propagation Society/Propagation Title: Recommended Practice for Radio Methods of Measurement of Earth Macroscopic Electromagnetic Properties Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: George Hagn, Phone:703-941-7663, Email:ghagn@erols.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 28, 1990 Designation: P356 Sponsor: IEEE Antennas and Propagation Society/Propagation Title: Guide for Measurements of Electromagnetic Properties of Earth Media Status: Revision Project Technical Contact: David Thiel, Phone:+61 7 3735 7192, Email:d.thiel@griffith.edu.au **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: The scope of the project is to cover measurements of the electrical properties of naturally occurring solids. Not covered are methods which rely on mapping earth structure anomalies unless directly related to electrical properties. Limited coverage of numerical methods for forward/inverse modeling. Project Purpose: This document is needed for ground plane assessment for locating antennas; formation mapping to obtain geological information; assessment of ore-grade quality, moisture content, salinity; propagation prediction and studies; aquifer studies for water search, nuclear waste disposal, dam location; ground-penetrating radar research; prospecting. Designation: 356-1974 Sponsor: IEEE Antennas and Propagation Society/Propagation Reaffirmation Status and Year: 1981 Title: IEEE Guide for Radio Methods for Measuring Earth Conductivity Status: Withdrawn Standard. Withdrawn Date: Sep 15, 1995. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: May 24, 1973 Abstract: This guide is the result of a survey of radio techniques employed for measuring the conductivity of the earth. Results are applicable to the design of communication channels that are influenced by the electrical characteristics of the earth. Emphasized are those techniques used at frequencies where the loss tangent is large. The techniques are classed broadly into those that make use of drill holes into the earth and those that do not. Also, a distinction is made between active and passive methods. Comments and critiques on the various techniques are included. Theoretical and practical details underlying some of the methods are given in the appendixes. Key Words: radio, earth, conductivity, measuring, methods Designation: 358 Sponsor: IEEE Antennas and Propagation Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 360 Sponsor: IEEE Antennas and Propagation Society Title: Standard Radar Cross-Section Test - Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. **See P1502 Technical Contact: Eric K Walton, Phone:614-292-5051, Email:walton.1@osu.edu **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 28, 1985 Project Scope: This project will write a standard practices guide for the measurement of radar cross section. This guide will discuss RCS measurement practices as they relate to indoor and outdoor measurements in an established range. It will not discuss measurement of foliage, natural events, etc. It will also not discuss near field measurement and other specialty measurements. Project Purpose: This standard will be used by government, industrial, and academic organizations that measure radar cross sections of targets. Currently, there are no written standards on this type of measurement. Many mistakes are being made that are critical to the performance of contracts and studies. Conclusions are being reached with data that is incorrectly measured, misunderstood or processed incorrectly. Additionally, perfectly good measurement practices are being rejected because of the lack of understanding of uses and procedures. This standard seeks to instill an understanding of RCS measurements, how they should be done, and how to manipulate measured results for accurate data collection and processing. Key Words: radar, cross, section Designation: 361 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 362 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 363 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: Robert J Davidson Jr, Phone:631-271-6200x22367, Email:robert.j.davidson.jr@us.ul.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Designation: 364 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 365 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 366 Sponsor: IEEE Communications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 367-1996 Sponsor: IEEE Power & Energy Society/Power System Communications Reaffirmation Status and Year: 2002 Title: IEEE Recommended Practice for Determining the Electric Power Station Ground Potential Rise and Induced Voltage from a Power Fault Status: Approved Publication of IEEE **Jointly sponsored with COM/T&A. Revision of IEEE Std 367-1987. Technical Contact: Percy E Pool, Phone:972-418-0341, Email:pepool@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 03, 1992, BD APP: Sep 16, 1996, ANSI APP: Feb 06, 1997 Project Scope: This recommended practice provides guidance for the calculation of power station GPR and LI voltages, as well as guidance for their appropriate reduction from worst-case values for use in metallic telecommunication protection design. Information is also included for the determination of the following: a) The fault current and the earth return current. (The probability, waveform, and duration of these currents and the impedance to remote earthing points used in these GPR and LI calculations as well as the effective X / R ratio are discussed.) b) The zone of inßuence (ZOI) of the power station GPR. c) The calculation of the inducing currents, the mutual impedance between power and metallic telecommunication facilities, and shield factors. d) The channel time requirements for metallic telecommunication facilities where noninterruptible channels are required for protective relaying. Project Purpose: To review and update existing standard 367-1987 as required. Abstract: Guidance for the calculation of power station ground potential rise (GPR) and longitudinal induction (LI) voltages is provided, as well as guidance for their appropriate reduction from worst-case values, for use in metallic telecommunication protection design. Key Words: electric power stations, ground potential rise, induced voltage, longitudinal induction voltages, power faults, power stations, telecommunication protection design, telecommunications Designation: P367 Sponsor: IEEE Power & Energy Society/Power System Communications Title: Recommended Practice for Determining the Electric Power Station Ground Potential Rise and Induced Voltage from a Power Fault Status: Revision Project Technical Contact: Percy E Pool, Phone:972-418-0341, Email:pepool@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This std provides quidance for the calculation of power station ground potential rise (GPR) and longitudinal induction (LI) voltages and guidance for their appropriate reduction from worst-case values for use in metallic telecommunication protection design. Information is also included for the determination of: 1. The fault current and earth return current levels; their probability, wave-form, and duration; and the impedance to remote earthing points used in these GPR and LI calculations as well as the effective X/R ratio. 2. The zone of influence of the power station GPR. 3. The calculation of th inducing currents, the mutual impedance between power and metallic telecommunciation facilities, and shield factors. 4. The channel time requirements for metallic telecommunication facilities where non-interruptible channels are required for protective relaying. Project Purpose: To review and update existing standard 367-1987 as required. Designation: 367-1987 Sponsor: IEEE Power & Energy Society/Power System Communications Title: IEEE Recommended Practice for Determining the Electric Power Station Ground Potential Rise and Induced Voltage from a Power Fault Status: Superseded **Revision of IEEE Std 367-1979. History: BD APP: Jun 11, 1987, ANSI APP: Mar 10, 1988 Abstract: Guidance is provided for the calculation of interfering voltages and their appropriate reduction from worst-case values for use in wire-line telecommunication protection design. Information is also included for the determination of the fault current and earth-return current levels; their probability, waveform, and duration; and the impedance to remote earthing points used in these ground potential rise (GPR) and longitudinally induced voltage calculations. The zone of influence of the power station GPR; the calculation of the inducing currents; the mutual impedance between power and wire-line telecommunication facilities and shield factors; and the channel time requirements for wire-line telecommunication facilities where noninterruptible channels are required for protective relaying and other purposes are covered. Key Words: ground, potential, induced, fault, rise, Wire communication, Voltage measurement, Power system faults Designation: 368-1977 Sponsor: IEEE Communications Society/Transmission Systems Title: IEEE Recommended Practice for Measurement of Electrical Noise and Harmonic Filter Performance of High-Voltage Direct-Current Systems Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawal 4/9/90. History: BD APP: Jun 02, 1977 Key Words: noise, harmonic, dc, performance, filter Designation: 369 Sponsor: IEEE Antennas and Propagation Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 370 Sponsor: IEEE Communications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 376-1975 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Reaffirmation Status and Year: 1998 Title: IEEE Standard for the Measurement of Impulse Strength and Impulse Bandwidth Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **16-Jan-04: Administratively withdrawn. History: BD APP: May 30, 1974, ANSI APP: Dec 30, 1977 Abstract: The use of the impulse generator for calibration purposes in electromagnetic compatibility measurements is addressed. In particular, basic information relating to the use of this device is provided, and interpretation of measurements made using instruments based on it is considered. Two methods of measurement of spectrum amplitude and impulse bandwidth are described in detail. The first method uses a video pulse technique. The second uses a substitution method in which the reference is a pulse- modulated sine-wave generator whose parameters are measured. Both techniques are capable of about equal accuracy. Key Words: strength, bandwith, Impulse measurements, Electromagnetic compatibility Designation: 377-1980 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Reaffirmation Status and Year: 2008 Title: IEEE Recommended Practice for Measurement of Spurious Emission from Land-Mobile Communication Transmitters Status: Approved Publication of IEEE Technical Contact: Stephen Berger, Phone:512-864-3365, Email:stephen.berger@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Mar 15, 1979, ANSI APP: May 06, 1992 Abstract: Controlled test conditions, test apparatus, test methods and data presentation, all of which form the basis for establishing the energy levels of spurious emissions of mobile communication transmitters designed to generate FM signals in the frequency range of 25 to 1000 MHz are covered. The purpose is to enable design and system engineers engaged in a variety of development projects to achieve uniform results in recognizing sources and nature of RF spurious emissions emanating from vehicular communications transmitters. Procedures for measuring both broadband and narrowband spectra are provided for both conducted and radiated emissions. Specified limits are not included. However, reference values that are not limited by the state of the art are provided. Transmitter test conditions, apparatus and method are based on standard instrumentation and measuring techniques and do not require any special apparatus other than necessary terminal simulators. The procedures do not cover the associated antenna and transmission lines. Key Words: spurious, emissions, communication, Land mobile radio transmitters, Land mobile radio interference Designation: P378 Sponsor: IEEE Instrumentation and Measurement Society/TC4 - High Frequency Measurement Title: Recommended Practice for Scattering Parameter Measurements and Uncertainty Analysis Using Network Analyzers Status: New Standard Project Technical Contact: Yeon-Song Lee, Phone:408-778-2000, Email:brian.lee@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: Vector Network Analyzers (VNAs) are used to measure reflection and transmission coefficients of multi-port networks at radio, microwave and millimeter-wave frequencies from a few kHz to 110 GHz and beyond. This standard provides a common base for analysis of measurements made on vector network analyzers. A description of terminology is included so that a common language can be used to understand the measurement instruments and parameters, the methods of measurement, and the uncertainty associated with a measurement. Because of the complexities of the measurement parameters, instruments and uncertainties, this standard does not cover all of the possible techniques and analysis methods. Project Purpose: Provide definitions of terms commonly used by users and manufacturers of vector network analyzers. Define and describe measurement techniques, measurement errors, and the use of standards to quantify the effects of these errors. Assist users to specify, and manufacturers to meaningfully describe essential performance parameters. Assist users to verify the specified performance parameters with proven test methods and well defined standards. Provide users with examples to evaluate and express the uncertainty of measurements made using VNAs. Designation: 378 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: Standard for Scattering Coefficient Measurement Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. **Revision of IEEE Stds 314-1971 and 378-1986. Technical Contact: William Oldfield, Phone:(408) 778-2000 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 22, 1994 Project Scope: One-port and two-port impedance standards and measurement techniques in the frequency range 100 kHz to 110 GHz. Limited to linear passive devices. Techniques to include at least bridges, slotted lines, reflectometers, network analyzers, six-ports, resonance techniques, time and pulse domain, and vector meters. Standards to include requirements for national standards, transfer standards, and calibration standards. Project Purpose: Standards 314 and 387 are obsolete and limited in scope and frequency range. Agreement is needed on methods of determination, use, and uncertainty statement of transmission line standards and measurement techniques. Agreement is needed on the derivation, use and uncertainties in high frequency resistance, capacitance, inductance, and impedance standards and measurement techniques. Requirements on NIST need definition. Key Words: scattering, coefficient, measurement Designation: 378-1986 Sponsor: IEEE Instrumentation and Measurement Society/TC4 - High Frequency Measurement Title: IEEE Standard on Network Analyzers (100 kHz to 18 GHz) Status: Withdrawn Standard. Withdrawn Date: Mar 19, 1992. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 6/29/92. History: BD APP: Mar 22, 1984, ANSI APP: Oct 12, 1984 Key Words: network, analyzers Designation: 379-2000 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2008 Title: IEEE Standard Application of the Single-Failure Criterion to Nuclear Power Generating Station Safety Systems Status: Approved Publication of IEEE , Published Date: Mar 09, 2001 **Supersedes 379-1994. Technical Contact: David J Zaprazny, Phone:570-542-1837, Email:djzaprazny@pplweb.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 20, 1997, BD APP: Sep 21, 2000, ANSI APP: Jan 08, 2001 Project Scope: This document covers the application of the single-failure criterion to the electrical power, instrumentation, and control portions of nuclear power generating station safety systems. Project Purpose: The purpose of this standard is to interpret and provide guidance in the application of the single-failure criterion, discuss failures, and present an acceptable method of single-failure analysis. It is not the function of this standard to identify where the single-failure criterion is to be applied or to force compliance on any system; however, in those cases where the single-failure criterion has been invoked, this standard establishes the requirements for its application. This standard shall be used to establish conformance with the requirements of IEEE Std. 603-1981 and the single-failure criterion as stated in that standard. NOTE--The single-failure criterion is also applied to designated safety functions in other standards, e.g., IEEE Std 308-1992, ANSI/ANS 51.1-1983, and ANSI/ANS 52.1-1983. Application of the single- failure criterion to the aggregate of all plant structures, systems, and components is specified in 3.2.1 of ANSI/ANS 51.1-1983, ANSI/ANS 52.1-1983, and IAEA Safety Series No. 50-P-1 (1990). Abstract: " Application of the single-failure criterion to the electrical power, instrumentation, and con-trol portions of nuclear power generating safety systems is covered in this standard." Key Words: "actuator, cascaded failure, common-cause failure, design basis event, detectable failure, effects analysis, safety system, single-failure criterion, system actuation, system logic" Designation: 379-1994 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Application of the Single-Failure Criterion to Nuclear Power Generating Station Safety Systems Status: Superseded **Revision of IEEE Std 379-1988. Superseded by 379-2000. History: PAR APP: Sep 15, 1993, BD APP: Sep 22, 1994, ANSI APP: Mar 21, 1995 Abstract: The application of the single-failure criterion to the electrical power, instrumentaion, and control portions of nuclear power generating station safety systems is covered. Conformance with the requirements of IEEE Std 603-1991 and the single-failure criterion as stated in that document is established. Interpretation and guidance in the application of the single-failure criterion, a discussion of the failures, and an acceptable method of single-failure analysis are presented. Key Words: generating station, safety systems, single failure, criterion, single-failure criterion, Nuclear power generating station Designation: 379-1988 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Application of the Single-Failure Criterion to Nuclear Power Generating Station Safety Systems Status: Superseded History: BD APP: Mar 10, 1988, ANSI APP: Feb 16, 1988 Abstract: This standard describes the manner in which the single-failure criterion should be applied to shared systems. The application of the criterion to the electrical power, instrumentation, and control portions of nuclear power generating station safety systems is covered. The purpose is to interpret and provide guidance in the application of the criterion, discuss failures, and present an acceptable method of single-failure analysis. Key Words: failure, criterion, nuclear, single, reliability Designation: 380 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 381 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard for Qualification of Class 1E Modules for Nuclear Power Generating Stations Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: G. J Toman, Phone:(215) 654-1620 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 22, 1984 Designation: 381-1977 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1984 Title: IEEE Standard Criteria for Type Tests of Class 1E Modules Used in Nuclear Power Generating Stations Status: Withdrawn Standard. Withdrawn Date: Jun 14, 1994. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 3/20/91. History: BD APP: Dec 09, 1976, ANSI APP: Mar 20, 1980 Abstract: The basic requirements of a type test program with the objective of verifying that a module used as a Class 1E equipment in a nuclear power generating station meets or exceeds its design specifications are described. This standard is limited to Class 1E modules from and including the sensor through the logic circuitry of the final actuation devices. Except for those that are part of a module, switchgear, cables, connections, motors, valve actuators, station batteries, and penetrations are not included and are covered by other IEEE documents. Key Words: type, tests, clas 1E, nuclear, modules Designation: 382-2006 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard for Qualification of Safety-Related Actuators for Nuclear Power Generating Stations Status: Approved Publication of IEEE , Published Date: Mar 15, 2007 Technical Contact: William F. Sadowski, Phone:256-716-4154, Email:bill.sadowski@wylelabs.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 15, 2006, BD APP: Dec 06, 2006, ANSI APP: Jun 06, 2007 Project Scope: This standard establishes criteria for qualification of safety- related actuators, and actuator components, in Nuclear Power Generating Stations in order to demonstrate their ability to perform their intended safety functions. Project Purpose: This standard establishes criteria for qualification of safety-related actuators, and actuator components, in Nuclear Power Generating Stations in order to demonstrate their ability to perform their intended safety functions. Abstract: Direction for the implementation of the requirements of IEEE Std 323™-2003 as they apply to the specific features of safety-related actuator qualification are provided. This standard establishes criteria for qualification of safety-related actuators, and actuator components, in Nuclear Power Generating Stations in order to demonstrate their ability to perform their intended safety functions under all required conditions. Key Words: actuator components, AOV, HOV, MOV, nuclear power generating stations, safety-related actuators, SOV Designation: 382-1996 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2004 Title: IEEE Standard for Qualification of Actuators for Power-Operated Valve Assemblies With Safety-Related Functions for Nuclear Power Plants Status: Superseded **Revision of Std 382-1985. History: PAR APP: Mar 21, 1991, BD APP: Mar 21, 1996, ANSI APP: Sep 11, 1996 Project Scope: This standard describes the qualification of all types of power- driven valve actuators, including damper actuators, for safety-related functions in nuclear power generating stations. This standard may also be used to separately qualify actuator components. Project Purpose: This standard establishes the minimum requirements for, and guidance regarding, the methods and procedures for qualification of power- driven valve actuators with safety-related functions. Abstract: The qualification of all types of power-driven valve actuators, including damper actuators, for safety-related functions in nuclear power generating stations, is described. This standard may also be used to separately qualify actuator components. The minimum requirements for, and guidance regarding, the methods and procedures for qualification of power-driven valve actuators with safety-related functions are provided. Key Words: class 1E safety equipment, nuclear power plants, qualification Designation: 382-1985 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard for Qualification of Actuators for Power Operated Valve Assemblies with Safety-Related Functions for Nuclear Power Plants Status: Superseded **Revision of IEEE Std 382-1980. History: PAR APP: Jul 31, 1982, BD APP: Jun 14, 1984, ANSI APP: Mar 31, 1986 Abstract: Minimum requirements for, and guidance regarding, the methods and procedures for qualification of power-driven valve actuators with safety-related functions are established. The qualification of all types of power-driven valve actuators, including damper actuators, is covered. The standard qualification cases and their environmental parameters for the usual locations of safety-related equipment in a nuclear generating station are described. Test procedures are presented. Key Words: qualification, valves, safety, nuclear, actuators Designation: 382 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard for Qualification of Actuators for Safety-Related Power- Operated Valve Assemblies for Nuclear Power Plants Status: Superseded Technical Contact: P G McQuillan, Phone:434-528-4400x9714, Email:pmcquillan@flowserve.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 09, 2005 Project Scope: This standard describes the qualification of all types of actuators, including damper actuators, for Safety-Related Power-Operated Valve Assemblies for nuclear power plants. This standard may also be used to separately qualify actuator components. Project Purpose: The standard establishes the minimum requirements for qualification of safety-related power driven valve actuators. Designation: 383-2003 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2008 Title: IEEE Standard for Qualifying Class 1E Electric Cables and Field Splices for Nuclear Power Generating Stations Status: Approved Publication of IEEE , Published Date: Jun 10, 2004 **Supersedes 383-1974 (R1992). Technical Contact: John L White Jr., Phone:254-897-6674, Email:j.l.white@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 22, 1994, BD APP: Dec 10, 2003, ANSI APP: Mar 31, 2004 Project Scope: This standard provides requirements for qualifying electric cables and field splices for service in Class 1E systems in nuclear power generating stations. Basic requirements for qualifiction are given in IEEE Standard 323 (Standard for Qualifying Class 1E Equipment in Nuclear Power Generating Stations). Categories of cables covered are those used for power, control, and instrumentation services including signal and communication cables. This standard does not address qualification of cables used in services that include high neutron doses such as the mineral insulated cables in certain nuclear instrumentation applications. Project Purpose: The purpose of the project is to incorporate updated information, techniques and experience. Abstract: This standard provides general requirements, direction, and methods for qualifyingClass1E electric cables, field splices, factory splices, and factory rework for service in nuclear power generating stations. Categories of cables covered are those used for power, control, andinstrumentation services, including signal and communication cables. Field cables, wires, and splic-es are within the scope of this standard. Cables, wires, and splices within or integral to other devices(e.g., instruments, panels, motors, etc.) should be qualified using the requirements in the applicabledevice standard or IEEE Std 323TM-1983, as appropriate. However, this standard's requirementsmay be applied to the wire and cable within these devices. Key Words: class 1E electric cables, factory rework, factory splices, field splices, qualified life, rep-resentative cable, representative splices Designation: 383-1974 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1992 Title: IEEE Standard for Type Test of Class 1E Electric Cables, Field Splices, and Connections for Nuclear Power Generating Stations Status: Superseded **Superseded by 383-2003. History: BD APP: Feb 28, 1974, ANSI APP: Apr 30, 1975 Abstract: Directions for establishing type tests that may be used in qualifying Class 1E electric cables, field splices, and other connections for service in nuclear power generating stations are provided. Though intended primarily for cable for field installation, this guide may also be used for the qualification of internal wiring of manufactured devices. It does not cover cables for service within the reactor vessel. Key Words: type, class 1E, nuclear, cables, splices Designation: 384-2008 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Criteria for Independence of Class 1E Equipment and Circuits Status: Approved Publication of IEEE , Published Date: Dec 20, 2008 **Revision of IEEE Std 384-1992 Technical Contact: Paul L. Yanosy, Phone:412-374-6402, Email:paul.l.yanosy@us.westinghouse.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 17, 2001, BD APP: Sep 26, 2008, ANSI APP: Feb 10, 2009 Project Scope: This standard describes the independence requirements of the circuits and equipment comprising or associated with Class 1E systems. It sets forth criteria for the independence that can be achieved by physical separation and electrical isolation of circuits and equipment that are redundant, but does not address the determination of what is to be considered redundant. Project Purpose: This standard establishes the criteria for implementation of the independence requirements of IEEE Std 308™ 1 and IEEE Std 603™. Abstract: The independence requirements of the circuits and equipment comprising or associated with Class 1E systems are described. Criteria for the independence that can be achieved by physical separation and electrical isolation of circuits and equipment that are redundant are set forth. The determination of what is to be considered redundant is not addressed. Key Words: 384-2008, associated circuit, barrier, Class 1E, independence, isolation, isolation device, raceway, separation Designation: 384-1992 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1998 Title: IEEE Standard Criteria for Independence of Class 1E Equipment and Circuits Status: Superseded **Revision of IEEE Std 384-1981. Superseded by 384-2008. History: PAR APP: Mar 19, 1992, BD APP: Jun 18, 1992, ANSI APP: Dec 31, 1992 Project Scope: This standard describes the independence requirements of the circuits and equipment comprising or associated with Class 1E systems. It sets forth criteria for the independence that can be acheived by physical separation and electrical isolation of circuits and equipment that are redundant, but does not address the determination of what is to be considered redundant. Project Purpose: This standard establishes the criteria for implementation of the independence requirements of IEEE Std 603-1991 and IEEE Std 308-1991. Abstract: The independence requirements of the circuits and equipment comprising or associated with Class 1E systems are described. Criteria for the independence that can be achieved by physical separation and electrical isolation of circuits and equipment that are redundant are set forth. The determination of what is to be considered redundant is not addressed. Key Words: associated, circuit, barrier, Class 1E, independance, isolation device, device, raceway, separation Designation: 384-1981 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Criteria for Independence of Class 1E Equipment and Circuits Status: Superseded History: BD APP: Sep 18, 1980, ANSI APP: Jan 20, 1983 Key Words: independence, nuclear, class 1E, circuits, equipment Designation: 385 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 386-2006 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Standard for Separable Insulated Connector Systems for Power Distribution Systems above 600 V Status: Approved Publication of IEEE , Published Date: Mar 01, 2007 Technical Contact: Frank Stepniak, Phone:973-919-4552, Email:fstepniak62@comcast.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: May 09, 2002, BD APP: Sep 15, 2006, ANSI APP: Jan 26, 2007 Project Scope: This standard establishes definitions, service conditions, ratings, interchangeable construction features, and tests for loadbreak and deadbreak separable insulated connector systems rated above 600 V, 600 A or less, for use on power distribution systems. Project Purpose: Revision to the standard are needed to provide the user with stacking dimensions of assembled 200 A and 600 A medium voltage insulated deadbreak connectors. New test procedures will improve reliability and provide repeatable results for both user and manufacturer evaluations. Abstract: Definitions, service conditions, ratings, interchangeable construction features, and tests are established for loadbreak and deadbreak separable insulated connector systems rated above 600 V and, 600 A or less, for use on power distribution systems. Key Words: deadbreak connector, elbow connector, loadbreak connector, power distribution systems, separable conductor, separable insulated connector systems Designation: 386-1995 Sponsor: IEEE Power & Energy Society/Insulated Conductors Reaffirmation Status and Year: 2001 Title: IEEE Standard for Separable Insulated Connector Systems for Power Distribution Systems above 600 V Status: Superseded **Revision of IEEE Std 386-1985. History: PAR APP: Dec 06, 1990, BD APP: Mar 16, 1995, ANSI APP: Oct 06, 1995 Abstract: Definitions, service conditions, ratings, interchangeable construction features, and tests are established for load-break and dead-break separable insulated connector systems rated 601 V and above, 600A or less, for use on power distribution systems. Key Words: dead break, connector, elbow connector, load break, power distribution, separable conductor, separable insulated, connector systems Designation: 386-1985 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Reaffirmation Status and Year: 1991 Title: IEEE Standard for Separable Insulated Connector Systems for Power Distribution Systems Above 600 V Status: Superseded History: BD APP: Sep 22, 1983, ANSI APP: Mar 22, 1985 Abstract: Service conditions, ratings, interchangeable construction features, and tests for load-break and dead-break separable insulated connector systems rated 601 V and above, 600 A or less, for use on power distribution systems, are established. Included are: corona voltage-level tests, dielectric tests, short-time current test, switching test, fault-closure test, current- cycling tests, accelerated sealing-life test, cable pull-out test, operating-force test, operating-eye test, test-point cap test, test-point tests, and shielding test. Key Words: separable, insulated, connectors, distribution, power, dead-break connector, elbow connector, load-break connector, separable conductor, connector systems Designation: 387-1995 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2007 Title: IEEE Standard Criteria for Diesel-Generator Units Applied as Standby Power Supplies for Nuclear Power Generating Stations Status: Approved Publication of IEEE **Revision of IEEE Std 387-1984. Technical Contact: Paul R Johnson, Phone:802-451-3178, Email:pjohnso@entergy.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Aug 17, 1989, BD APP: Dec 12, 1995, ANSI APP: Aug 01, 1996 Project Scope: Criteria for the application and testing of D/G units as Class 1E standby power supplies in nuclear power generating stations. Abstract: The criteria for the application and testing of diesel-generator units as Class 1E standby power supplies in nuclear power generating stations is described. Key Words: aging classification, auxiliary equipment, capability, controls, design criteria, design features, load profile, modifications, operation, periodic testing, engine, generator, pre-operational test, production testing, protection, rating, records, reliability program, seismic qualification, site testing, test parameters, type testing Designation: P387 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard Criteria for Diesel-Generator Units Applied as Standby Power Supplies for Nuclear Power Generating Stations Status: Revision Project Technical Contact: Paul R Johnson, Phone:802-451-3178, Email:pjohnso@entergy.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: Criteria for the application and testing of D/G units as Class 1E standby power supplies in nuclear power generating stations. Project Purpose: The purpose of this standard is to provide the principal design criteria, the design features, testing, and qualification requirements for individual diesel-generator units that enable them to meet their functional requirements as part of the standby power supply under the conditions produced by the design basis events cataloged in the Plant Safety Analysis. Designation: 387-1984 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Criteria for Diesel-Generator Units Applied as Standby Power Supplies for Nuclear Power Generating Stations Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 3/17/93. History: BD APP: Mar 11, 1982, ANSI APP: Nov 21, 1984 Abstract: 8/90: rev in progress Designation: 388-1992 Sponsor: IEEE Power Electronics Society/Standards Committee Reaffirmation Status and Year: 2007 Title: IEEE Standard for Transformers and Inductors in Electronic Power Conversion Equipment Status: Approved Publication of IEEE , Published Date: Jul 09, 1992 Technical Contact: David N Ratliff, Phone:517-546-6330, Email:marelco@htonline.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 12, 1985, BD APP: Mar 19, 1992, ANSI APP: Dec 15, 1992 Project Scope: This standard pertains to transformers and inductors of both the saturating and nonsaturating type that are used in electronic power conversion equipment. Power conversion equipment includes items known as inverters, converters, power conditioners, switching power supplies, switched mode power supplies, and the like. These items are mostly devices used to change dc power from one voltage to another, to change dc power to ac, and to change ac power of one frequency to another frequency. This equipment is best described as utilizing transistors, silicon controlled rectifiers (SCRs), or other similar devices that switch power on and off at a high rate in order to achieve the power conversion or regulation desired. Therefore, this standard covers the various transformers and inductors that are used in any of tyhe above mentioned equipment or devices, except for transformers operated directly from the mains. Abstract: Transformers and inductors of both the saturating and nonsaturating type are covered. The power transfer capability of the transformers and inductors covered ranges from less than 1 W to the multikilowatt level. The purpose is to provide a common basis between the engineers designing power conversion circuits and the engineers designing the transformers and inductors used in those circuits. Apparatus used in equipment for high-voltage power conversion for distribution by electric utilities is not covered. Key Words: inductors, electronic, power, equipment, transformer, inductor, Converter Designation: 388 Sponsor: IEEE Power Electronics Society/Standards Committee Title: Standard for Transformers and Inductors in Electronic Power Conversion Equipment Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Matthew Wilkowski, Phone:908-575-7550, Email:wilkowski@enpirion.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 02, 1993 Designation: 389-1996 Sponsor: IEEE Power Electronics Society/Standards Committee Reaffirmation Status and Year: 2007 Title: IEEE Recommended Practice for Testing Electronics Transformers and Inductors Status: Approved Publication of IEEE , Published Date: Apr 22, 1997 **Revision of IEEE Std 389-1990. Technical Contact: David N Ratliff, Phone:517-546-6330, Email:marelco@htonline.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 21, 1991, BD APP: Jun 20, 1996, ANSI APP: Jan 06, 1997 Project Scope: This recommended practice presents a number of tests for use in determining the significant parameters and performance characteristics of electronics transformers and inductors. These tests are designed primarily for transformers and inductors used in all types of electronic applications, but they may apply to the other types of transformers of large apparent- power rating used in the electric power utility industry. Some of the tests described are intended for qualifying a product for a specific application, while others are test practices used widely for manufacturing and customer acceptance testing. Section 3 is intended to serve as a guide for particular application categories. The tests described in this recommended practice include those most commonly used in the electronic transformer industry: electric strength, resistance, power loss, inductance, impedance, balance, ratio of transformation, and many others used less frequently. Project Purpose: This recommended practice has been prepared to serve as a guide in the design, testing, and specifying of electronic transformers and inductors. The publication contains many tests and experimental methods for evaluating almost every aspect of electronic transformers performance, including a number of tests for determining transformer environmental charactreristics such as audible-niose generation. The tests and specifications included are aimed primarily at the testing and evaluation of transformers of relatively low apparent-power rating, such as those used in communications, instrumentation, control, small appliance, and computer applications. However, most of these tests are perfectly applicable to transformers of any rating. Abstract: A number of tests are presented for use in determining the significant parameters and performance characteristics of electronics transformers and inductors. These tests are designed primarily for transformers and inductors used in all types of electronics applications, but they may apply to the other types of transformers of large apparent-power rating used in the electric power utility industry. Key Words: common-mode rejection tests, corona tests, current transformer tests, electronic inductors, electronic power transformers, inductance measurements, inrush-current evaluation, insulation tests, large rectifiers, noise tests, product rating, pulse transformers, quality factor, resistance tests, self-resonance, temperature rise tests, terminated impedance measurements, transformer capacitance, voltage-time shielding Designation: 389-1990 Sponsor: IEEE Power Electronics Society/Standards Committee Title: IEEE Recommended Practice for Testing Electronic Transformers and Inductors Status: Superseded **Revision of IEEE Std 389-1979. History: BD APP: May 03, 1990, ANSI APP: Aug 24, 1990 Abstract: Tests for use in determining the significant parameters and performance characteristics of electronic transformers and inductors are presented. They include those most commonly used in the electronic transformer industry, i.e., electric strength, resistance, power loss, inductance, impedance, balance, and ratio of transformation, as well as others used less frequently. The tests are designed primarily for transformers and inductors used in all types of electronic applications, but they may apply to the other types of transformers of large apparent-power rating used in the electric power utility industry. Some of the tests are intended for qualifying a product for a specific application, while others are test practices used widely for manufacturing and customer acceptance testing. A guide for particular application categories is included. Key Words: common mode, rejection tests, corona tests, current transformer , electronic inductors, power transformers, inductance , inrush current, insulation tests, large rectifiers, noise tests, product rating, pulse transformers, quality factors, resistance tests, self resonance, temperature rise, terminated rise test, voltage time, time shielding, Voltage-time shielding, Transformer capacitance, Temperature rise tests, Self-resonance, Quality factor, Inductance measurements, Electronic power transformers, Current transformer tests, Common-mode rejection tests Designation: 389-1979 Sponsor: IEEE Magnetics Society Title: IEEE Recommended Practice for Testing Electronics Transformers and Inductors Status: Superseded History: PAR APP: Dec 28, 1981, BD APP: Mar 09, 1978 Key Words: testing, electronics, transformers, inductors Designation: 390-1987 Sponsor: IEEE Power Electronics Society/Standards Committee Reaffirmation Status and Year: 2007 Title: IEEE Standard for Pulse Transformers Status: Approved Publication of IEEE , Published Date: Oct 14, 1987 **Revision of ANSI/IEEE Std 390-1975 and IEEE Std 391-1976. Transferred from Magnetics Society to Power Electronics Society. Technical Contact: David N Ratliff, Phone:517-546-6330, Email:marelco@htonline.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Dec 11, 1986, ANSI APP: May 18, 1987 Abstract: Pulse transformers for use in electronic equipment are considered. This standard applies to the following transformer types: power output (drivers), impedance matching, interstage coupling, current sensing, and blocking-oscillator transformers. For these transformers, the peak power transmitted ranges from a few milliwatts to many kilowatts, and the peak voltage transmitted ranges from a few volts to many kilovolts. Symbols, performance tests, equivalent circuits, preferred test methods, marking, and service conditions are covered. Key Words: pulse, transformers Designation: 390 Sponsor: IEEE Power Electronics Society/Standards Committee Title: Standard for Pulse Transformers Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Charles J Elliott, Phone:631-432-2337, Email:cjelliott@on.aibn.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 18, 1999 Project Scope: This standard pertains to pulse transformers for use in electronic equipment. For the various types of these transformers, the peak power transmitted ranges from a few milliwatts to kilowatts; and the peak voltage transmitted ranges from a few volts to many kolovolts. These transformers are required to transmit unipolar or bipolar pulses of voltage or current within specified tolerances of amplitude and time when operated between specified impedances. They are typically used as coupling devices in electronic circuits. In blocking oscillators, they are connected to provide positive feedback in the circuit. In radar or similar use, they are used to couple the modulator to a magnetron, a klystron, a traveling-wave tube or a cross-field amplifier load. Project Purpose: Update the pulse transformer standard by updating applications, definitions and test methods. Designation: 391-1976 Sponsor: IEEE Magnetics Society Title: Hi-Power (>300W, peak) Pulse Transformers Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Withdrawn 3/9/89. Replaced by IEEE Std 390. Key Words: transformer, pulse Designation: 392-1976 Sponsor: IEEE Magnetics Society Reaffirmation Status and Year: 1982 Title: IEEE Recommended Practice for Achieving High Reliability in Electronics Transformers and Inductors Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI (R85). ANSI withdrawn 6/29/92. History: BD APP: Sep 04, 1975, ANSI APP: Jun 09, 1977 Key Words: reliability, electronice, transformers, inductors Designation: 393-1991 Sponsor: IEEE Power Electronics Society/Standards Committee Reaffirmation Status and Year: 2007 Title: IEEE Standard for Test Procedures for Magnetic Cores Status: Approved Publication of IEEE , Published Date: Mar 10, 1992 **Revision of IEEE Std 393-1977. Transferred from Magnetics Society to Power Electronics Society. Publication type: Special Publication Technical Contact: David N Ratliff, Phone:517-546-6330, Email:marelco@htonline.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 17, 1981, BD APP: Jun 26, 1991, ANSI APP: Dec 09, 1991 Project Scope: This standard specifies applicable tests to describe the significant properties of magnetic cores used in electronic applications. It is primarily concerned with magnetic cores of the type used in electronics transformers, magnetic amplifiers, inductors, and related devices. However, many of the tests specified herein are general in scope and adaptable to magnetic cores used in many other applications. Standards covered by this publication include tests for specifying or measuring, or both, permeability, core loss, apparent core, induction, hysteresis, thermal characteristics, and other properties of all commonly used typoes of magnetic cores. Abstract: IEEE standard for test procedures for magnetic cores - IEEE Std 393-1991 Key Words: Author: IEEE Designation: 393-1977 Sponsor: IEEE Magnetics Society Title: IEEE Test Procedures for Magnetic Cores Status: Superseded History: BD APP: Jun 26, 1991, ANSI APP: Dec 09, 1991 Key Words: test, procedures, magnetic, cores Designation: 394 Sponsor: IEEE Microwave Theory and Techniques Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 395 Sponsor: IEEE Microwave Theory and Techniques Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 396 Sponsor: IEEE Microwave Theory and Techniques Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 397 Sponsor: IEEE Microwave Theory and Techniques Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 398-1972 Sponsor: Nuclear and Plasma Sciences Society/Nuclear Instruments and Detectors Reaffirmation Status and Year: 2006 Title: IEEE Standard Test Procedures for Photomultipliers for Scintillation Counting and Glossary for Scintillation Counting Field Status: Approved Publication of IEEE , Published Date: Sep 20, 1972 **aka ANSI N42.9-1972. Technical Contact: Ronald M Keyser, Phone:865-483-2146, Email:ron.keyser@ortec-online.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Mar 21, 1972, ANSI APP: Apr 28, 1972 Abstract: Tests for measuring the pulse-height, spurious-pulse, and pulse-timing characteristics of photomultipliers used in scintillation and Cerenkov counters are presented. Five different measurement techniques are described. They are rise-time measurements, fall-time measurements, photocathode transit-time difference measurements, and transit-time spread measurements. Key Words: photo, multipliers, scintillation, counting, test Designation: 399-1997 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for Industrial and Commercial Power Systems Analysis (Brown Book) Status: Approved Publication of IEEE , Published Date: Aug 31, 1998 Technical Contact: L. Guy Jackson, Phone:251-626-6890, Email:gjackson@powerplot.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 14, 1994, BD APP: Sep 16, 1997 Project Scope: Analytical Principle and Recommended Techniques most often employed in the Design, Operation and Trouble-Shooting of Electric Power Systems for Industrial Facilities and Commerical Buildings. Covers Basic Principles and Specific Techniques for Short-Circuit, Load Flow, Transient Stability, Coordination and other Types of Analysis. Project Purpose: Basic Tutorial Guide and Reference Source on Power System Analysis for Electrical Engineers who Design and Operate Industrial Plant and Commercial Building Power Systems. Abstract: " This Recommended Practice is a reference source for engineers involved inindustrial and commercial power systems analysis. It contains a thorough analysis of the powersystem data required, and the techniques most commonly used in computer- aided analysis, inorder to perform specific power system studies of the following" Key Words: "cable ampacity,dc power system studies,ground mat studies,harmonic analysis,load flow studies,motor-starting studies,power system analysis,power system modeling, power system studies,protective coordination studies,reliability studies,short-circuit studie" Designation: 399 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: Recommended Practice for Industrial and Commercial Power Systems Analysis Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Gene A Poletto, Phone:630-842-2304, Email:gpoletto@worldnet.att.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 27, 2001 Project Scope: This Recommended Practice, commonly known as the IEEE Brown Book, is published by the Institute of Electrical and Electronics Engineers, Inc. (IEEE) as a reference source to give plant engineers a better understanding of the purpose for and techniques involved in power system studies. The IEEE Brown Book can also be a helpful reference source for system and data acquisition for engineering consultants performing necessary studies prior to designing a new system or expanding an existing power system. This Recommended Practice will help ensure high standards of power system reliability and maximize the utilization of capital investment. The IEEE Brown Book emphasizes up-to-date techniques in system studies that are Most applicable to industrial and commercial power systems. It complements the other IEEE Color Books, and is intended to be used in conjunction with, not as a replacement for, the many excellent texts available in this field. Project Purpose: While the 1997 edition had many changes; this edition will concentrate on updating and improving the presentation of those chapters. Also, two chapters are outdated, due to computer technology enhancements, and need a complete rewrite. Designation: 399-1990 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for Industrial and Commercial Power System Analysis Status: Superseded **IEEE Brown Book. Revision of IEEE Std 399-1980. Superseded by 399-1997 History: PAR APP: Oct 20, 1988, BD APP: May 31, 1990, ANSI APP: Oct 12, 1990 Abstract: This Recommended Practice is intended as a practical, general treatise for engineers on power system analysis theory and as a reference work on the analytical techniques that are most commonly applied to the computer-aided analysis of electric power systems in industrial plants and commercial buildings. It covers applications of power system analysis, analytical procedures, system modeling, computer solutions and systems, load flow, short circuits, stability, motor starting, harmonic analysis, switching transients, reliability, cable ampacity, ground mats, and protective-device coordination. Key Words: brown book, industrial power, commercial power, power systems, analysis theory, Power system studies, Power system stability, Power system analysis theory, Power cables, Load flow analysis, harmonics, Grounding Designation: 399-1980 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for Power System Analysis (IEEE Brown Book) Status: Superseded History: BD APP: Dec 20, 1979, ANSI APP: Jun 28, 1982 Key Words: power, system, analysis, brown Designation: 400-2001 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: Guide for Field Testing and Evaluation of the Insulation of Shielded Power Cable Systems Status: Approved Publication of IEEE , Published Date: Jan 29, 2002 **Supersedes 400-1991. Technical Contact: William A Thue, Phone:202-244-3240, Email:wthue@aol.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 26, 1997, BD APP: Dec 06, 2001, ANSI APP: Apr 29, 2002 Project Scope: This Guide lists the various field test methods that are presently available or under development to perform field tests on insulated, shielded power cable systems rated 5 kV through 500 kV. A summary of advantages and disadvantages of the methods will be included. Users should avail themselves of th technical papers that are included as References and in the Bibliography before deciding whether to perform a test and which test to utilize. In making such decisions, consideration should be given to the performance of the entire cable system, including joints, terminations, and associated equipment. Project Purpose: The purpose of this revision is to replace the present IEEE 400 with a Guide presenting an overview of the various tests presently available for evaluating the insulation of cable systems in the field. This will be the umbrella document for a series of Guides that cover each individual test method. These test methods that have been sufficiently developed to become approved Guides will become subdocuments. The content of the present IEEE 400 will be revised and will become the first subdocument. Abstract: " This Guide lists the various field test methods that are currently available or underdevelopment with guidance on HOW to perform each test. The Guide covers shielded, insulatedpower cable systems rated 5 kV through 500 kV unless these voltages are modified by the specific""point"" document." Key Words: "alternating-polarity dc-biased ac voltage, dissipation factor testing, field test, high-voltage dc testing" Designation: P400 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Guide for Field Testing and Evaluation of the Insulation of Shielded Power Cable Systems Rated 5kV and Above Status: Revision Project Technical Contact: William A Thue, Phone:202-244-3240, Email:wthue@aol.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This guide lists the various field test methods that are currently available or under development. The guide covers shielded, insulated power cable systems rated 5 kV and above. The guide describes the tests and gives advantages and disadvantages, suggested applications, and typical results. Complete guides covering some of the test methods listed are available in the form of IEEE 400 “point” documents. Project Purpose: The purpose of this guide is to provide an overview of the various test methods available for evaluating the insulation of shielded cable systems in the field, and to assist cable owners in selecting one or more appropriate tests for a specific application. Designation: 400-1991 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Guide for Making High-Direct-Voltage Tests on Power Cable Systems in the Field Status: Superseded **Revision of IEEE Std 400-1980. Superseded by 400-2001 and 400.1-2007. History: PAR APP: Sep 10, 1987, BD APP: Feb 28, 1991, ANSI APP: Jul 17, 1991 Abstract: Procedures and recommended test voltage values for acceptance and maintenance high-direct-voltage testing of shielded power cable systems are set forth. They apply to all types of shielded, insulated power cable. The aim is to provide uniform test procedures and guidelines for evaluation of the test results. This guide is not intended to apply to unshielded power cables, communication cables, control cables, high-frequency cables, or other special-purpose cables, nor does it purport to require that testing be performed, either at the time of installation or maintenance. Key Words: cable installation, cable maintenance, cable tests, insulated cable, test procedures, Shielded power cable systems, High direct voltage tests Designation: 400-1980 Sponsor: IEEE Power & Energy Society/Insulated Conductors Reaffirmation Status and Year: 1987 Title: IEEE Guide for Making High-Direct-Voltage Tests on Power Cable Systems in the Field Status: Superseded History: BD APP: Dec 14, 1978, ANSI APP: Sep 08, 1988 Key Words: dc, tests, field, cable, high voltage Designation: 400.1-2007 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Guide for Field Testing of Laminated Dielectric, Shielded Power Cable Systems Rated 5 kV and Above with High Direct Current Voltage Status: Approved Publication of IEEE , Published Date: Sep 21, 2007 Technical Contact: Vern L Buchholz, Phone:604-298-2279, Email:vern.buchholz@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Aug 14, 2003, BD APP: Mar 22, 2007, ANSI APP: Aug 28, 2007 Project Scope: This guide presents the recommended practices and procedures for direct voltage acceptance and maintenance testing of shielded, laminated dielectric insulated power cable systems rated 5 kV and above. It applies to all types of laminated power cable systems such as paper-insulated lead covered, pipe-type, and pressurized cables that are intended for the transmission or distribution of electric power. The tabulated test levels assume that the cable systems have an effectively grounded neutral system or a grounded metallic shield. Project Purpose: The purpose of this guide is to provide uniform practices and procedures for performing direct voltage acceptance and maintenance tests on shielded, laminated power cable systems in the field and to provide guidelines for evaluation of the test results. Abstract: The recommended practices and procedures for direct voltage acceptance and maintenance testing of shielded, laminated dielectric insulated power cable systems rated 5 kV and above are presented in this guide. It applies to all types of laminated power cable systems such as paper insulated, lead covered, pipe-type, and pressurized cables that are intended for the transmission or distribution of electric power. The tabulated test levels assume that the cable systems have an effectively grounded neutral system or a grounded metallic shield. Key Words: cable, cable installation, cable maintenance, cable tests, field test procedures, high direct voltage tests, insulated cable, power cable systems, shielded power cable systems Designation: 400.1 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: Guide for Making High-Direct-Voltage Tests on Shielded Power Cable Systems in the Field Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: William A Thue, Phone:202-244-3240, Email:wthue@aol.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 26, 1997 Project Scope: Provide uniform procedures for performing high-direct-voltage acceptance test and maintenance tests on shield power cable systems in the field. Provide guidelines for evaluation of the test results. Project Purpose: The purpose of this project is to revise the content of the present IEEE 400 document to bring it up to date with current industry practices. Designation: 400.2-2004 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Guide for Field Testing of Shielded Power Cable Systems Using Very Low Frequency (VLF) Status: Approved Publication of IEEE , Published Date: Mar 08, 2005 Technical Contact: Hans R Gnerlich, Phone:610-865-3432, Email:hgnerlich@aol.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jan 30, 2000, BD APP: Sep 23, 2004, ANSI APP: Feb 02, 2005 Project Scope: This guide describes very low frequency (VLF) withstand and diagnostic tests and the measurements that are performed in the field on service-aged shielded medium voltage cables with extruded and laminated dielectric insulation. VLF test methods utilize ac signals at frequencies less than 1 Hz. The most commonly used, commerically available, VLF test frequency is 0.1 Hz. Whenever possible, cable systems are treated in a similar manner to individual cables. Charts are included as an aid in identifying the effectiveness of the VLF test for various cable insulation problems. Project Purpose: The introduction of cables with extruded dielectric insulation has imposed new standards and restrictions on field testing of shielded medium voltage systems. DC testing of shielded medium voltage cable systems frequently causes service-aged cables with solid dielectric insulation to fail after they are returned to service. This guide is intended to provide troubleshooting and testing personnel with information to test shielded medium voltage cable systems using very low frequency techniques. Abstract: This guide describes very low frequency (VLF) withstand and diagnostic tests and the measurements that are performed in the field on shielded power cable systems. Whenever possible, cable systems are treated in a similar manner to individual cables. Tables are included as an aid to indentifying the effectiveness of the VLF test for v arious cable system insulation problems. Key Words: cable fault locating, cable system testing, cable testing, dielectric spectroscopy, grounding, hipot testing, partial discharge testing, proof testing, safety, tan delta testing, very low frequency (VLF testing Designation: P400.2 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: Guide for Field Testing of Shielded Power Cable Systems Using Very Low Frequency (VLF) Status: Revision Project Project Scope: This guide describes very low frequency (VLF) withstand and other diagnostic tests and the measurements that are performed in the field on service-aged shielded medium voltage cables with extruded and laminated dielectric insulation. VLF test methods utilize ac signals at frequencies less than 1 Hz. The most commonly used, commerically available, VLF test frequency is 0.1 Hz. Whenever possible, cable systems are treated in a similar manner to individual cables. Tables are included of the recommended test voltage levels for installation, acceptance and maintenance tests. Project Purpose: This guide is intended to provide troubleshooting and testing personnel with information to test shielded medium voltage cable systems using very low frequency techniques. Designation: 400.3-2006 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Guide for Partial Discharge Testing of Shielded Power Cable Systems in a Field Environment Status: Approved Publication of IEEE , Published Date: Feb 05, 2007 Technical Contact: Matthew S Mashikian, Phone:860-427-7621, Email:m.s.mashikian@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jan 30, 2000, BD APP: Sep 15, 2006, ANSI APP: Feb 01, 2007 Project Scope: This guide covers the diagnostic testing of new or service-aged installed shielded power cable systems, which include cable, joints, and terminations, using PD detection, measurement, and location. Partial discharge testing, which is a useful indicator of insulation degradation, may be carried out on-line or by means of an external voltage source. This guide does not include the testing of compressed gas insulated systems or continuous on-line monitoring at normal service voltage. Project Purpose: This guide describes diagnostic methods capable of detecting and locating partial discharges from defects and damage in installed shielded power cable systems. The results of PD tests are used to assess the condition of cables and accessories. Abstract: This guide covers the diagnostic testing of new or service-aged installed shielded power cable systems, which include cable, joints, and terminations, using partial discharge (PD)detection, measurement, and location. Partial discharge testing, which is a useful indicator of insulation degradation, may be carried out on-line or off-line by means of an external voltage source. This guide does not include the testing of compressed gas insulated systems or continuous on-line monitoring at normal service voltage. Key Words: cable system testing, cable testing, diagnostic testing, off-line partial discharge testing, on-line partial discharge testing, partial discharge testing Designation: 401 Sponsor: IEEE Power & Energy Society/Insulated Conductors Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 402-1974 Sponsor: IEEE Power & Energy Society/Insulated Conductors Reaffirmation Status and Year: 1982 Title: IEEE Guide for Measuring Resistivity of Cable-Insulation Materials at High Direct Voltages Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Sep 06, 1973 Abstract: 1/92 memo from S. Vogel - Reaff in progress. Submittal expected June 1992 Key Words: resistivity, cable, insulation, direct, voltages Designation: 403 Sponsor: IEEE Power & Energy Society/Insulated Conductors Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 404-2006 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Standard for Extruded and Laminated Dielectric Shielded Cable Joints Rated 2 500v to 500 000v Status: Approved Publication of IEEE , Published Date: Mar 15, 2007 Technical Contact: Glenn J Luzzi, Phone:973-371-1771x407, Email:g.luzzi@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 13, 2002, BD APP: Dec 06, 2006, ANSI APP: May 24, 2007 Project Scope: This standard establishes electrical ratings and test requirements of cable joints used with extruded and laminated dielectric shielded cables rated in preferred voltage steps from 2500 V to 500 000 V. In addition, it defines test requirements for cable jacket and cable shield restoration devices. This standard also defines a variety of common joint constructions. Joints that connect more than two cables or connect cables with two different conductor sizes are not covered by this standard. However, manufacturers and users are encouraged to use appropriate parts of this standard to evaluate these joints. Project Purpose: The original standard provided manufacturers and users with a consistent set of guidelines for cable joints. This revision is needed to insure cable joint designs are consistent and appropriate for the latest industry-accepted cable designs and also to add qualification guidelines not fully addressed in the current standard. Purpose from Previous PAR - To provide a standard for the qualification and production testing of high voltage joints. This standard will specify uniform testing procedures, levels and requirements that can be used by both manufacturers and users to design and specify underground cable joints which will perform safely and reliably in service. The latest proposed revision of the standard would provide harmonization to appropriate international standards and also extend requirements to those voltage classes not presently covered by any standards. Abstract: Electrical ratings and test requirements of cable joints used with extruded and laminated dielectric shielded cable rated in preferred voltage steps from 2500 V to 500 000 V are established in this standard. In addition, test requirements for cable jacket and cable shield restoration devices are defined. A variety of common joint constructions are also defined. This standard has been designed to provide uniform testing procedures that can be used by manufacturers and users to evaluate the ability of underground power cable joints, and associated cable shield and cable jacket restoration components, to perform reliably in service. Key Words: cable joints, dielectric integrity tests, extruded dielectric cable, impulse withstand voltage (BIL), laminated dielectric cable, sheath/shield sectionalizers, transition joints, withstand voltage Designation: 404-2000 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: Standard for Extruded and Laminated Dielectric Shielded Cable Joints Rated 2500-500 000V Status: Superseded **Supersedes 404-1993. Technical Contact: Glenn J Luzzi, Phone:973-371-1771x407, Email:g.luzzi@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 25, 1998, BD APP: Sep 21, 2000, ANSI APP: Jan 08, 2001 Project Scope: Revision of IEEE 404-1993 to incorporate: 1) general comments resulting from the 1997 reaffirmation balloting attempt; 2) address "usual service conditions" for qualification purposes; 3) provide consistency with international standards IEC 60502-4 and IEC 60840 where appropriate; 4) expand extruded dielectric cable joints requirements to 500kV; and 5) modify the title appropriately. Project Purpose: To provide a standard for the qualification and production testing of high voltage joints. This standard will specify uniform testing procedures, levels and requirements that can be used by both manufacturers and users to design and specify underground cable joints which will perform safely and reliably in service. The latest proposed revision of the standard would provide harmonization to appropriate international standards and also extend requirements to those voltage classes not presently covered by any standards. Abstract: This standard establishes electrical ratings and test requirements of cable joints usedwith extruded and laminated dielectric shielded cable rated in preferred voltage steps from 2500 Vto 500 000 V. It also defines a variety of common joint constructions. This standard is designed toprovide uniform testing procedures that can be used by manufacturers and users to evaluate theability of underground power cable joints to perform reliably in service. Key Words: "cable joints, dielectric integrity tests, extruded dielectric cable, impulse withstandvoltage (BIL), laminated dielectric cable, sheath/shield sectionalizers, transition joints, withstandvoltage" Designation: 404-1993 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Standard for Cable Joints for Use With Extruded Dielectric Cable Rated 5000-138 000 V and Cable Joints for Use With Laminated Dielectric Cable Rated 2500-500 000 V Status: Superseded **Revision of IEEE Std 404-1986. Superseded by 404-2000. History: PAR APP: Jun 01, 1989, BD APP: Dec 02, 1993, ANSI APP: Aug 04, 1994 Abstract: This standard establishes electrical ratings and test requirements for cable joints for use with extruded dielectric shielded cable rated in preferred voltage steps from 5000--138 000 V and cable joints for use with laminated dielectric cable rated in preferred voltage steps from 2500--500 000 V. It also defines a variety of common joint constructions. This standard is designed to provide uniform testing procedures that can be used by manufacturers and users to evaluate the ability of underground power cable joints to perform reliably in service. Key Words: cable joints, BIL, transition joints, withstand voltage, Sheath/shield sectionalizers, Laminated dielectric cable, Impulse withstand voltage , Extruded dielectric cable, Dielectric integrity tests Designation: 404-1986 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Standard for Cable Joints for Use with Extruded Dielectric Cable Rated 5000 V through 46 000 V and Cable Joints for Use with Laminated Dielectric Cable Rated 2500 V Through 500 000 V Status: Superseded History: BD APP: Dec 13, 1984, ANSI APP: Jul 30, 1985 Key Words: power, cable, joints Designation: 405 Sponsor: IEEE Power & Energy Society/Insulated Conductors Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 407 Sponsor: IEEE Power & Energy Society/Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 409 Sponsor: IEEE Power & Energy Society/Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 415-1986 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1992 Title: IEEE Guide for Planning of Preoperational Testing Programs for Class 1E Power Systems for Nuclear Power Generating Stations Status: Withdrawn Standard. Withdrawn Date: Mar 19, 1998. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 415-1976. History: BD APP: May 02, 1985, ANSI APP: Jul 26, 1985 Abstract: Directions for establishing an acceptable pre-operational testing program for Class 1E power systems in nuclear power generating stations are provided. The pre-operational tests are performed after the appropriate construction tests have been completed. Their purpose is to verify that the Class 1E power systems perform their required function as designed. The power systems are considered to include the ac and dc power supplies, but do not include the equipment that utilizes the power. Key Words: preoperational, test, 1E, power, systems Designation: 416-1984 Sponsor: SASB/SCC20- Title: IEEE Standard ATLAS Test Language Status: Withdrawn Standard. Withdrawn Date: Mar 18, 1993. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Dec 22, 1983, ANSI APP: Apr 30, 1985 Designation: 420-2001 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2008 Title: IEEE Standard for the Design and Qualification of Class 1E Control Boards, Panels, and Racks Used in Nuclear Power Generating Stations Status: Approved Publication of IEEE , Published Date: Feb 08, 2002 **Revision project for IEEE Std 420-1982. Supersedes 420-1982. Technical Contact: Paul L. Yanosy, Phone:412-374-6402, Email:paul.l.yanosy@us.westinghouse.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 16, 1995, BD APP: Oct 10, 2001, ANSI APP: Jan 30, 2002 Project Scope: This standard applies to the design and qualification of Class 1E control boards, panels, and racks. It does not apply to individual components, modules, and external field-run cables except as they may affect the design and qualification of Class 1E control boards, panels, and racks. Project Purpose: The purpose of this standard is to specify the design requirements for Class 1E control boards, panels, and racks and to establish the methods to verify that these requirements have been satisfied. Abstract: " This standard specifies the design requirements for new and/or modified Class 1E control boards,panels, and racks and establishes the methods to verify that these requirements have been satisfied. Methodsfor meeting the separation criteria contained in ANSI/IEEE Std 384-1992 are addressed. Qualification is alsoincluded to address the overall requirements of ANSI/IEEE Std 323-1983 and ANSI/IEEE Std 344-1987." Key Words: "cabling, control boards, independence, isolation, nuclear, panels, qualification, racks, safety, separation, wiring" Designation: 420-1982 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard for the Design and Qualification of Class 1E Control Boards, Panels, and Racks Used in Nuclear Power Generating Stations Status: Superseded **Superseded by 420-2001. History: BD APP: Dec 17, 1981, ANSI APP: Apr 29, 1983 Abstract: Design requirements that are unique to Class 1E control boards, panels, and racks are specified. Standards for qualification tests to verify that these design requirements have been satisfied are provided. This standard is not intended to define the selection, design, or qualification of piping, modules, or other equipment mounted on the Class 1E control boards, panels, or racks. It is concerned, however, with the effect such mounted equipment has on the design and qualifications. Qualification and testing of individual Class 1E control board components and modules and external field-run cables are not covered. Key Words: qualifications, 1E, control, panels, racks Designation: 421.1-2007 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Standard Definitions for Excitation Systems for Synchronous Machines Status: Approved Publication of IEEE , Published Date: Jul 15, 2007 Technical Contact: Alexander Murdoch, Phone:518-385-9384, Email:alexander.murdoch@ge.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 08, 1998, BD APP: Mar 08, 2007, ANSI APP: Sep 27, 2007 Project Scope: This standard defines elements and commonly used components in excitation control systems and contains definitions for excitation systems as applied to synchronous machines. These definitions should be useful in the following areas: -- Writing excitation systems specifications -- Evaluating excitation system performance -- Specifying methods for excitation system tests -- Preparing related excitation system standards -- Serving as an educational means for those becoming acquainted with excitation systems -- Modeling excitation systems Project Purpose: This standard provides a common base for terminology in common usage related to excitation control systems. The definitions given in this standard are an adjunct to IEEE Std 100 dictionary in describing terms specifically related to excitation systems. With the advent of new excitation systems and changes in common terminology and usage there are revisions required to keep this standard relevant. Abstract: This standard defines elements and commonly used components in excitation systems and contains definitions for excitation systems applied to synchronous machines. An included annex contains one-line block diagrams of some typical excitation systems. These are presented to illustrate the defined terminology referenced in this standard and clarify the understanding of the excitation control system. Key Words: definitions of excitation controls, excitation block diagrams, excitation control systems, excitation systems terminology, synchronous generator controls Designation: 421.1 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: Standard Definitions for Excitation Systems for Synchronous Machines Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. History: PAR APP: Dec 06, 1990 Project Scope: This standard defines elements and commonly used components in excitation control systems and contains definitions for excitation systems as applied to synchronous machines. The primary purpose is to provide a vocabulary for (1) Writing excitation systems specifications (2) Evaluating excitation system performance (3) Specifying methods for excitation system tests (4) Preparing excitation system standards (5) Serving as an educational means for those becoming acquainted with excitation systems. Project Purpose: This effort is to review and revise the existing standard (Std 421.1-1986) which is one of five of the 421 series standards for excitation systems for synchronous machines. Designation: 421.1-1986 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Reaffirmation Status and Year: 1996 Title: IEEE Standard Definitions for Excitation Systems for Synchronous Machines Status: Superseded **Revision of IEEE Std 421-1972. Superseded by 421.1-2007. History: BD APP: Jun 13, 1985, ANSI APP: Nov 21, 1985 Abstract: Elements and commonly used components in excitation control systems and for excitation systems as applied to synchronous machines are defined. The primary purpose of the standard is to provide a vocabulary for writing excitation systems specifications, evaluating excitation system performance, specifying methods for excitation system tests, and preparing excitation system standards. It is also intended to serve as an educational aid for those becoming acquainted with excitation systems. Key Words: excitation system, synchronous machines Designation: 421.2-1990 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Guide for Identification, Testing, and Evaluation of the Dynamic Performance of Excitation Control Systems Status: Approved Publication of IEEE , Published Date: Aug 07, 1990 **This is a revision of IEEE 421A-1978. Technical Contact: Jay C Agee, Phone:303-445-2309, Email:jagee@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 23, 1983, BD APP: May 31, 1990, ANSI APP: Oct 12, 1990 Project Scope: This guide includes criteria, definitions, and test objectives for evaluating the dynamic performance of excitation control systems as applied by electric utilities. The term “excitation control system” (see Fig 1) is used to distinguish the combined performance of the synchronous machine, power system, and excitation system from that of the excitation system alone (see IEEE Std 100-1988, IEEE Standard Dictionary of Electrical and Electronics Terms (ANSI) [1]1 and IEEE Std 421.1-1986, IEEE Standard Definitions for Excitation Systems for Synchronous Machines (ANSI) [2]). The primary purpose of this guide is to provide a basis for evaluating closed-loop performance of excitation control systems for both large and small signal disturbances; confirming the adequacy of mathematical models of excitation control systems for use in analytical studies of power systems; identifying objectives for tests of excitation control systems and their components; and preparing excitation system specifications and additional standards. Portions of this guide will also serve as educational material for people who are becoming acquainted with excitation control systems. Traditionally, large signal performance (see 2.1) has been more closely associated with equipment specification and acceptance testing, while small signal performance (see 2.2) has been more closely associated with stability and model studies. Matching actual disturbance data with model simulations requires that both large and small signal performance criteria be considered during design specification and acceptance testing. Abstract: This standard presents dynamic performance criteria, definitions, and test objectives for excitation control systems as applied by electric utilities. It should be specifically noted that the term "excitation control system" refers to the entire control system including the synchronous machine and power system as well as the excitation system. Key Words: Small signal disturbances, Large signal disturbances, Excitation system specification, Excitation control systems, Closed loop performance Designation: 421.2 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: Guide for Identification, Testing, and Evaluation of the Dynamic Performance of Excitation Control Systems Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Jay C Agee, Phone:303-445-2309, Email:jagee@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 20, 1996 Project Scope: The working group plans to update the standard in the following areas: references, update all sections, add a subsection on excitation limiters, add new, modern test methods, reduce the size of Appendix B, update all figures and check definitions with new Std 421.1, add testing and explanation of PF/Var Regulators and Controllers. Project Purpose: This project is being done to reflect changes in excitation systems (to digital controllers) and testing methods that have occurred in the past 5 years. Designation: P421.2 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: Guide for Identification, Testing, and Evaluation of the Dynamic Performance of Excitation Control Systems Status: Revision Project Technical Contact: Jay C Agee, Phone:303-445-2309, Email:jagee@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This guide includes criteria, definitions, and test procedures for evaluating the dynamic performance of excitation control systems for synchronous machines as applied by electric utilities. Project Purpose: To provide a basis for evaluating the closed-loop performance of excitation control systems (including the effects of both the synchronous machine and its excitation system) for both large and small signal disturbance; thus confirming the adequacy of mathematical models of excitation systems for use in analytical studies of electric power systems. Designation: 421.3-1997 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Reaffirmation Status and Year: 2004 Title: IEEE Standard for High-Potential Test Requirements for Excitation Systems for Synchronous Machines Status: Approved Publication of IEEE **Revision project for Std 421B-1979. Technical Contact: Robert E Howell, Phone:704-849-9285, Email:rhowell4@carolina.rr.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 06, 1990, BD APP: Dec 09, 1997, ANSI APP: Feb 04, 1999 Project Scope: This standard applies to high-potential testing of complete excitation systems and their components for synchronous machines. The components of the excitation system are described in IEEE Std 421-1972, Criteria and Definitions for Excitation Systems for Synchronous Machines. Also included are auxiliary devices that are exposed to excitation system stresses. Examples of such auxiliary devices are temperature indicators, transducers, meters, etc. This standard does not cover the synchronous- machine field winding or field circuit breaker and discharge resistor. Project Purpose: This effort is to review the existing standard (IEEE Std 421B- 1979) which is one of 5 standards in the 421 series on Excitation Systems for Synchronous Machines. Abstract: High-potential test voltages for excitation systems used with synchronous machines areestablished. Test voltages are established based on whether equipment is connected to the exciterpower circuit or is electrically isolated from the exciter power circuit. Key Words: "dielectric testing,excitation systems,test voltages" Designation: 421.4-2004 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Guide for the Preparation of Excitation System Specifications Status: Approved Publication of IEEE , Published Date: Dec 20, 2004 **Supersedes 421.4-1990. Technical Contact: Richard C Schaefer, Phone:618-654-2341x757, Email:richschaefer@basler.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 20, 1996, BD APP: Jun 24, 2004, ANSI APP: Dec 16, 2004 Project Scope: Application information is being provided to help specify excitation systems. Scope includes review of this document and revisions/additions based on updated information and equipment. Project Purpose: The application information is being incorporated to give the user the guidelines and background data required to specify excitation systems. Updates based on modern equipment will be provided. The benefit it properly specified equipment that meets user needs. Abstract: This guide is intended to provide to the specification writer the information to prepare a specification for the purchase of an excitation system. This guide is presented in narrative form with descriptions of functions typical of excitation systems. Narrative is provided describing types of excitation systems and information required for sizing the excitation system. Key Words: communications, compound exciters, digital, excitation guide, exciter types, potential,integral, derivative (PID), potential source exciters, power system stabilizers, redundant controllers, rotating exciters Designation: 421.4-1990 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Guide for the Preparation of Excitation System Specifications Status: Superseded **Superseded by 421.4-2004. History: PAR APP: Jun 28, 1979, BD APP: May 31, 1990, ANSI APP: Oct 12, 1990 Abstract: This guide is intended to be a narrative description of items and functions that should be considered in the preparation of excitation system specifications. This guide applies to excitation systems for synchronous machines rated at 5000 kVA or larger. Key Words: 421.4, exciter, machine regulators, Synchronous machine regulators, Excitation system specification, Excitation control systems Designation: 421.5-2005 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Recommended Practice for Excitation System Models for Power System Stability Studies Status: Approved Publication of IEEE , Published Date: Apr 21, 2006 Technical Contact: Les Hajagos, Phone:905-272-2191, Email:les@kestrelpower.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 09, 1997, BD APP: Oct 25, 2005, ANSI APP: Dec 29, 2005 Project Scope: When the behavior of synchronous machines is to be simulated accurately in power system stability studies,it is essential that the excitation systems of the synchronous machines be modeled in sufficient detail (see Byerly and Kimbark [B7]1). The desired models must be suitable for representing the actual excitation equipment performance for large, severe disturbances as well as for small perturbations. A 1968 IEEE Committee Report (see [B18]) provided initial excitation system reference models. It established a common nomenclature, presented mathematical models for excitation systems then in common use, and defined parameters for those models. A 1981 report (see IEEE Committee Report [B20]) extended that work. It provided models for newer types of excitation equipment not covered previously as well as improved models for older equipment. This document, based heavily on the 1981 report, is intended to again update the models, provide models for additional control features, and formalize those models in a recommended practice. To some extent, the model structures presented in this document are intended to facilitate the use of field test data as a means of obtaining model parameters. The models are, however, reduced order models, and they do not represent all of the control loops on any particular system. In some cases, the model used may represent a substantial reduction, resulting in large differences between the structure of the model and the physical system. The excitation system models themselves do not allow for regulator modulation as a function of system frequency, an inherent characteristic of some older excitation systems. The models are valid for frequency deviations of ±5% from rated frequency and oscillation frequencies up to about 3 Hz. These models would not normally be adequate for use in studies of subsynchronous resonance or other shaft torsional interaction problems. Delayed protective and control functions that may come into play in long-term dynamic performance studies are not represented. See additional information in Annex F. Where possible, the supplied models are referenced to commercial equipment and vendor names shown in Annex I. This information is given for the convenience of users of this recommended practice and does not constitute an endorsement by the IEEE of these products. The models thus referenced may be appropriate for equivalent excitation systems supplied by other manufacturers. A sample set of data (not necessarily typical) for each of the models, for at least one particular application, is provided in Annex H. A suffix “A” is used for the designation of models introduced or modified in IEEE Std 421.5-1992, and a suffix “B” is used for models introduced or modified in this latest recommended practice,IEEE Std 421.5-2005. Modeling work outside of the IEEE is documented in IEC 60034-16:1991 [B17]. Additional background is found in IEEE Committee Report [B19]. Project Purpose: Many of those who perform power system simulations require the complete and accurate representation of the particular excitation systems which are being applied. This document will provide standardized models such that a free and understandable exchange of data can occur and model programmers can include all excitation systems within the standardized models. Abstract: Excitation system models suitable for use in large-scale system stability studies are presented. Important limiters and supplementary controls are also included. The model structures presented are intended to facilitate the use of field test data as a means of obtaining model parameters. The models are, however, reduced order models and do not represent all of the control loops on any particular system. The models are valid for frequency deviations of ±5% from rated frequency and oscillation frequencies up to 3 Hz. These models would not normally be adequate for use in studies of subsynchronous resonance or other shaft torsional interaction problems. Delayed protective and control features that may come into play in long term dynamic performance studies are not represented. A sample set of data for each of the models, for at least one particular application, is provided. Key Words: excitation limiters, excitation systems, power system stability Designation: 421.5-1992 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Recommended Practice for Excitation System Models for Power System Stability Studies Status: Superseded History: PAR APP: Sep 28, 1982, BD APP: Mar 19, 1992, ANSI APP: Sep 22, 1992 Abstract: Excitation system models suitable for use in large scale system stability studies are presented. With these models, most of the excitation systems currently in widespread use on large, system-connected synchronous machines in North America can be represented. They include updates of models published in the IEEE Transactions on Power Apparatus and Systems in 1981 as well as models for additional control features such as discontinuous excitation controls. Key Words: excitation systems, power system stability Designation: 421A-1978 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Guide for Identification, Testing, and Evaluation of the Dynamic Performance of Excitation Control Systems Status: Superseded **Superseded by 421.2-1990 History: BD APP: Dec 09, 1976, ANSI APP: Jul 17, 1981 Key Words: 421.2 Designation: 421B-1979 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Reaffirmation Status and Year: 1984 Title: IEEE Standard for High-Potential-Test Requirements for Excitation Systems for Synchronous Machines Status: Superseded **Being revised as 421.3 History: BD APP: Dec 15, 1977, ANSI APP: Jul 21, 1981 Key Words: 421B Designation: P422 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: Guide for the Design of Cable and Raceway Systems in Electric Generating Stations Status: New Standard Project Technical Contact: Joseph R Jancauskas, Phone:937-549-2641X5735, Email:joseph.jancauskas@dplinc.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This Guide includes cable and raceway systems for fossil fuel electric generating stations and the portions of nuclear generating stations that are not “nuclear safety related”. Project Purpose: The guide presents methods for the design of cable and raceway systems including selection of equipment and materials and the configuration of raceway and cable . Designation: 422-1986 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Guide for the Design and Installation of Cable Systems in Power Generating Stations Status: Withdrawn Standard. Withdrawn Date: Mar 17, 1994. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: Steve LaPidus, Phone:(201) 886-7821 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Mar 21, 1985, ANSI APP: Jul 26, 1985 Key Words: Cable, systems, design, installation, pgs Designation: 425 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 426 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 427 Sponsor: IEEE Ultrasonics, Ferroelectrics and Frequency Control Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 428 Title: Standard Definitions and Requirements for Thyristor AC Power Controllers Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Allan Ludbrook, Phone:905-628-0024, Email:a.ludbrook@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 10, 1987 Designation: 428-1981 Sponsor: Industrial Power Converter Title: IEEE Standard Definitions and Requirements for Thyristor AC Power Controllers Status: Withdrawn Standard. Withdrawn Date: Jun 14, 1994. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 3/31/94. Technical Contact: Allan Ludbrook, Phone:905-628-0024, Email:a.ludbrook@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Mar 05, 1981, ANSI APP: May 05, 1983 Designation: 429 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Recommended Practice for Thermal Evaluation of Sealed Insulation Systems for AC Electric Machinery Employing Form-Wound Pre-insulated Stator Coils for Machines Rated 6900 V and Below Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Charles A Wilson, Phone:+1-512-869-8451, Email:229@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 07, 2005 Project Scope: This recommended practice outlines a test procedure for comparing two or more sealed insulation systems in accordance with their expected life at rated temperature. The procedure is limited to insulation systems for ac electrical machines using form-wound preinsulated stator coils rated 6900 V and below. The intent of this test procedure is to evaluate insulation systems for use with air cooling under severe environmental conditions, where the insulation is exposed to conducting contaminants. This procedure does not cover special requirements, such as those for machines enclosed in gas atmospheres or machines subjected to strong chemicals or submersion in liquid, etc. The procedure includes instructions for testing candidate systems in comparison with known systems having a proven record of service experience and interpreting the results of these tests. Project Purpose: The purpose of this procedure is to classify sealed insulation systems for the machinery used in severe environmental conditions (and falling within the scope of this recommended practice) in accordance with their temperature capabilities by test, rather than by chemical composition. Data from such tests may be used to establish the temperature classification of new insulation systems before they are service-proven. In order to provide data from which a base of reference for temperature classification can be established, service-proven sealed systems should also be tested according to this test procedure. Designation: 429-1994 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Recommended Practice for Thermal Evaluation of Sealed Insulation Systems for AC Electric Machinery Employing Form-Wound Preinsulated Stator Coils for Machines Rated 6900 V and Below Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 429-1972. 16-Jan-04: Administratively withdrawn. Technical Contact: Charles A Wilson, Phone:+1-512-869-8451, Email:229@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 28, 1990, BD APP: Sep 22, 1994, ANSI APP: Apr 17, 1995 Abstract: A test procedure for comparing two or more sealed insulation systems in accordance with their expected life at rated temperature is outlined. The procedure is limited to insulation systems for alternating-current (ac) electrical machines using form-wound preinsulated stator coils rated 6900 V and below. Key Words: insulation system, stator coils, thermal evaluation, ac electric machinery Designation: 429 Sponsor: IEEE Power & Energy Society/Electric Machinery Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 430 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: Standard Procedures for the Measurement of Radio Noise from Overhead Power Lines and Substations Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Thomas J McDermott, Phone:(914) 681-6454 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 05, 1991 Designation: 430-1986 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Reaffirmation Status and Year: 1991 Title: IEEE Standard Procedures for the Measurement of Radio Noise from Overhead Power Lines and Substations Status: Withdrawn Standard. Withdrawn Date: Jan 17, 1997. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Administratively withdrawn 17 January 1997. History: BD APP: Sep 19, 1985, ANSI APP: Jun 15, 1992 Abstract: Uniform procedures are established for the measurement of radio noise generated by corona from overhead power lines with meters that conform to ANSI C63.2-1980. The measurement procedures are also valid for other power-line noise sources such as gaps and harmonics; however, most of the precautionary information, analys is, and data plotting techniques were written and developed primarily for corona discharges. The procedures are not valid for measuring transient radio noise sources that occur during breaker or disconnect switching operations. Procedures are suggested for measurements in and near substations. This standard is applicable to both AC and DC transmission lines and substations. Key Words: radio, noise, overhead, lines, Substation measurements, Power transmission electromagnetic, Power system measurements, Electromagnetic interference Designation: 431 Sponsor: IEEE Components, Hybrids and Manufacturing Technology Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 432-1976 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1982 Title: IEEE Guide for Insulation Maintenance for Rotating Electrical Machinery (5 hp to less than 10 000 hp) Status: Superseded History: BD APP: Sep 04, 1975, ANSI APP: Nov 28, 1977 Key Words: insulation, maintenance, rotating, electrical, machinery Designation: 432-1992 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1998 Title: IEEE Guide for Insulation Maintenance for Rotating Electric Machinery (5 hp to less than 10 000 hp) Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 432-1976. 16-Jan-04: Administratively withdrawn. Technical Contact: Roy L Balke, Phone:(814) 866-6683 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 23, 1982, BD APP: Jun 18, 1992, ANSI APP: Jan 04, 1993 Abstract: Information necessary to permit an effective evaluation of the insulation systems of medium and small rotating electrical machines is presented. The guide is intended to apply in general to industrial air-cooled machines rated from 5 hp to 10 000 hp. However, the procedures may be found useful for other types of machines. Key Words: Rotating machine insulation, Power system maintenance, Industrial power system maintenance Designation: 433 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Recommended Practice for Insulation Testing of AC Electric Machinery with High Voltage at Very Low Frequency Status: Superseded Technical Contact: Howard Sedding, Phone:416-207-6000 Et 6172, Email:howard.sedding@kinectrics.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 07, 2005 Project Scope: This document describes very low frequency (VLF) testing of ac electric machines. It covers acceptance testing of new machines in the factory or on-site after erection. Also covered is the routine maintenance testing of machines that have been in service. In order to facilitate communication and comparison among investigators, this document recommends that the very low frequency used be 0.1 Hz. Project Purpose: The purposes of this recommended practice are: (1) To provide a uniform procedure for testing the stator (armature) insulation of ac electric machines with VLF voltage, in order to obtain consistent results. (2)To recommend constants for relating VLF tests to power-frequency and direct-voltage tests to obtain equally effective test levels. (3)To describe VLF-test equipment and wave shape. (4)To define terms which have specific meaning in VLF testing. Designation: 433-1974 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1991 Title: IEEE Recommended Practice for Insulation Testing of Large AC Rotating Machinery with High Voltage at Very Low Frequency Status: Withdrawn Standard. Withdrawn Date: Jan 16, 2004. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **16-Jan-04: Administratively withdrawn. 8-Dec-09: Revision 433-2009. Technical Contact: Bal K Gupta, Phone:416-621-6035, Email:bal.gupta@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Dec 13, 1973, ANSI APP: May 06, 1992 Abstract: Terms that have a specific meaning in VLF testing are defined, and VLF test equipment and wave shape are described. A uniform procedure for testing the armature insulation of large AC machines with VLF voltage is provided. Constants for relating VLF tests to power-frequency and direct-voltage tests to obtain equally effective test levels are recommended. Key Words: testing, machinery, voltage, frequency, Rotating machine insulation testing, AC machines Designation: 434-2006 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: IEEE Guide for Functional Evaluation of Insulation Systems for AC Electric Machines Rated 2300 V and Above Status: Approved Publication of IEEE , Published Date: Mar 15, 2007 Technical Contact: Lori Rux, Phone:503-808-4221, Email:lori.rux@usace.army.mil **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Nov 18, 2004, BD APP: Dec 06, 2006, ANSI APP: Apr 26, 2007 Project Scope: This guide describes a procedure that may be used to evaluate and compare insulation systems used, or proposed for use, in large ac electric machines. The tests outlined herein are applicable to the groundwall insulation systems applied to form-wound, pre-insulated armature (stator) winding coils and/or bars of generators, motors, and synchronous condensers rated 2300 V or higher. The basic component of these insulation systems is usually mica combined with reinforcing, bonding, and impregnating materials. This guide is based on the experience of the industry with mica- based systems; any evaluation of other insulation systems should, however, consider the requirements of this guide. This document is not intended for use as a manufacturer’s quality assurance test plan. Nor should it be used for specifying or procuring armature winding coils/bars. Project Purpose: During operation, an insulation system is subjected to electrical, thermal, mechanical, and environmental stresses that act and interact to cause irreversible changes in the properties of the insulation. The applied stresses initiate aging mechanisms that eventually lead to failure. The purpose of this guide is to provide winding manufacturers a means of evaluation in which an insulation system is exposed to influencing factors that simulate or are characteristic of actual service conditions. This guide establishes the basis for evaluating the aging of the electrical insulation system as a result of these influences. Abstract: A procedure that may be used to evaluate and compare insulation systems used, or proposed for use, in large ac electric machines is described in this guide. Key Words: ac, accelerated aging, armature winding, electric machine, electrical insulation, electromechanical, functional evaluation, stator winding, thermal endurance, thermal expansion, thermomechanical, voltage endurance Designation: 434-1973 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1991 Title: IEEE Guide for Functional Evaluation of Insulation Systems for Large High-Voltage Machines Status: Superseded History: BD APP: May 24, 1973, ANSI APP: May 06, 1992 Abstract: Classification test methods that may be used to compare insulation systems in use, or proposed for use, in large high- voltage rotating machines are described. Thermal aging, voltage endurance, thermomechanical forces, and electromechanical forces are addressed. Key Words: evaluation, high voltage, machines, Rotating machine insulation testing, Insulation life Designation: 434 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Guide for Functional Evaluation of Insulation Systems for AC Electric Machines Status: Superseded Technical Contact: Lori Rux, Phone:503-808-4221, Email:lori.rux@usace.army.mil **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 31, 2002 Project Scope: This guide describes a procedure which may be used to evaluate and compare insulation systems used, or proposed for use, in large ac electric machines. The tests outlined herein are applicable to the groundwall insulation systems applied to form-wound, insulated stator (armature) winding coils and/or bars of generators, motors, and synchronous condensers rated 6000 V or higher. The basic ingredient of these insulation systems is usually mica combined with reinforcing, bonding, and impregnating materials. This guide is based on the experience of the industry with micaceous systems; any evaluation of nonmicaceous systems should, however, consider the requirements of this guide. This document is not intended for use as a manufacturer's Quality Assurance Test Plan. Nor should it be used for specifying or procuring armature winding coils/bars. Project Purpose: During operation, an insulation system is subjected to electrical, thermal, mechanical, and environmental stresses which may act and interact to cause irreversible changes in the properties of the insulation. The applied stresses initiate aging mechanisms that eventually lead to failure. The purpose of this guide is to provide a means of evaluation in which an insulation system is exposed to influencing factors that simulate or are characteristic of actual service conditions. This guide establishes the basis for evaluating the aging of the electrical insulation system as a result of these influences. This standard is being revised because the working group feels that more definitions are need to be added to the document to further clarify the information presented in the standard. Also, more specific test detail will be added to the document. Designation: 435 Sponsor: IEEE Power & Energy Society/Electric Machinery Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 436-1991 Sponsor: IEEE Power Electronics Society/Standards Committee Reaffirmation Status and Year: 2007 Title: IEEE Guide for Making Corona (Partial Discharge) Measurements on Electronics Transformers Status: Approved Publication of IEEE , Published Date: May 07, 1991 Publication type: Special Publication Technical Contact: David N Ratliff, Phone:517-546-6330, Email:marelco@htonline.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 10, 1988, BD APP: Feb 11, 1991, ANSI APP: Jun 28, 1991 Project Scope: This guide covers the detection of corona (partial discharge) and the measurement of its magnitude in electronics transformers. Test conditions, test apparatus, and test requirements are included. Project Purpose: Corona (partial discharge) is an ionization phenomenon that can cause deterioration in certain insulation systems. Its presence in electronic equipment can be harmful through its manifestation as circuit noise, spurious voltage or current pulses, or other undesirable effects that lead to circuit malfunctions. Transformers and inductors used in electronic circuits at high voltages can be locations where this harmful phenomenon originates. Even in instances where discharges are not of concern in circuit performance, they be of concern because of their adverse effect on component life. It is, therefore, essential that the insulation system be free of corona discharges at operating voltage stresses. The magnitude or intensity of these discharges is usually of such a low level that very sensitive electronic measuring apparatus and techniques are required to detect them. This guide presents a uniform procedure for making corona (partial discharge) measurements by electrical means on electronics transformers. Methods of applying voltage stress, the use of sine-wave voltage to simulate dc and ac combinations, the types and limitations of voltage stresses encountered, and the acceptable limits of discharge pulse energy are included. Recommended test conditions and the need for negotiation of special tests are discussed. Abstract: A uniform procedure for making corona (partial discharge) measurements by electrical means on electronic transformers is presented. Methods of applying voltage stress, the use of a sine-wave voltage to simulated dc and ac combinations, the types and limitations of voltage stresses encountered, and the acceptable limits of discharge pulse energy are included. Recommended test conditions and the need for negotiation of special tests are discussed. Test apparatus and calibration are described. The aim is to establish a common ground of understanding between transformer and systems design engineers and transformer manufacturers in the development of service and performance requirements. Key Words: corona, partial discharge, insulation breakdown, Transformer insulation Designation: 436-1977 Sponsor: Electronic Transformers Title: IEEE Guide for Making Corona (Partial Discharge) Measurements on Electronics Transformers Status: Superseded History: BD APP: Sep 09, 1976 Designation: 438 Sponsor: IEEE Power & Energy Society/Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 442-1981 Reaffirmation Status and Year: 2003 Title: IEEE Guide for Soil Thermal Resistivity Measurements Status: Approved Publication of IEEE History: BD APP: Mar 05, 1981, ANSI APP: May 15, 1997 Abstract: A method for measurement of soil thermal resistivity that is based on the theory that the rate of temperature rise of a line heat source is dependent upon the thermal constants of the medium in which it is placed is given. This information will enable the user to properly install and load underground cables. The aim is to provide sufficient information to enable the user to select useful commercial test equipment, or to manufacture equipment that is not readily available on the market, and to make meaningful resistivity measurements with this equipment, in the field or on soil samples in the laboratory. Designs for both laboratory and field thermal needles are described. Key Words: soil, resistivity, Soil measurements, Power transmission lines, Power cable thermal factors, Power cable installation Designation: 444 Sponsor: Industrial Power Converter Title: Standard Practices and Requirements for Thyristor Converters for Motor Drives; Part 1 - Converters DC Motor Armature Supplies Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: A. C Stevenson, Phone:540-387-8471, Email:stevenson-ac@salem.ge.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 10, 1987 Designation: 444-1973 Sponsor: Industrial Power Converter Reaffirmation Status and Year: 1992 Title: IEEE Standard Practices and Requirements for Thyristor Converters for Motor Drives Part 1- Converters for DC Motor Armature Supplies Status: Withdrawn Standard. Withdrawn Date: Mar 06, 2000. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: A. C Stevenson, Phone:540-387-8471, Email:stevenson-ac@salem.ge.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Dec 02, 1971, ANSI APP: Feb 23, 1993 Abstract: This standard applies to all types of line-commutated semiconductor power converters employing monocrystalline semiconductor thyristors or diodes, as used in industrial motor-drive applications requiring adjustable direct voltage for dc motor armature or field, or adjustable voltage and frequency in the case of ac motor drives (cycloconverter). It covers thyristor converter circuits, general requirements, test procedures, general recommendations for loading and operating converter units, and thyristor converter transformers. Although written primarily around the requirements of motor drives needing sufficient power to utilize multiphase power converters, this standard is applicable with reasonable interpretation to all line-commutated power converters used in industrial motor-drive applications. Key Words: requirements, thyristor, converters, motor drives, DC motor drives Designation: 446-1995 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Reaffirmation Status and Year: 2000 Title: IEEE Recommended Practice for Emergency and Standby Power Systems for Industrial and Commercial Applications Status: Approved Publication of IEEE , Published Date: Jul 03, 1996 **Revision of Std 446-1987. Technical Contact: James M Daley, Phone:610 866 3673, Email:jmdaley@rcn.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 18, 1992, BD APP: Dec 12, 1995, ANSI APP: Aug 01, 1996 Project Scope: As presently stated in IEEE Std 446-1987. Project Purpose: To update IEEE Std 446-1987 by incorporating references to current codes and standards and by including new technology and practices. Abstract: This Recommended Practice addresses the uses, power sources, design, and maintenance of emergency and standby power systems. Chapter 3 is a general discussion of needs for and the configuration of emergency and standby systems. Chapter 9 lists the power needs for specific industries. Chapters 4 and 5 deal with the selection of power sources. Chapter 6 provides recommendations for protecting both power sources and switching equipment during fault conditions. Chapter 7 provides recommendations for design of system grounding, and Chapter 10 provides recommendations for designing to reliability objectives. Chapter 8 provides recommended maintenance practices. Key Words: batteries, emergency generators, emergency power, emergency systems, system design, engine generators, standby power, standby system, stored energy, transfer switch, uninterruptible , power supplies, UPS, UPS batteries Designation: 446 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: Recommended Practice for Emergency and Standby Power systems for Industrial and Commercial Applications Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: James M Daley, Phone:610 866 3673, Email:jmdaley@rcn.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Feb 14, 2002 Project Scope: As presently stated in 446-87. This standard presents recommended engineering principles, practices and guidelines for the selection, design, installation, application, operation and maintenance of emergency and standby power systems. This information is primarily presented from a user's viewpoint; however, managing the effects of power system disturbances requires close cooperation between users, electric utilities and equipment manufacturers. This standard addresses the following questions: Is an emergency or standby power system (or both) needed, and what will it accomplish?; What types of systems are available, and which can best meet users' needs?; How should the most suitable system be designed and applied to the existing power system?; What are the maintenance and operating requirements for maintaining system reliability?; Where can additional information be obtained?; What are the design considerations for maintaining system reliability? The following industries and fields are considered specialized and beyond the scope of inclusion and direct address buy this standard: transport, government, military and utility. Project Purpose: To update 446-87 by including new technology and practices. Significant advances in equipment and applications have occurred over the recent past. Their collective impact on the design options available to a user should be made visible so that the designer can implement an appropriate design for the application. This revision to the standard incorporates appropriate advances. Designation: 446 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: Recommended Practice for Emergency and Standby Power Systems for Industrial and Commercial Applications Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Charles D Hughes, Phone:803-208-2953, Email:cdhughes@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 16, 1997 Project Scope: This standard presents recommended engineering principles, practices, and guidelines for the selection, design, installation, application, operation, and maintenance of emergency and standby power systems. This information is primarily presented from a user's viewpoint; however, managing the effects of power system disturbances requires close cooperation between users, electric utilities, and equipment manufacturers. Project Purpose: To update Std 446-1995 by incorporating references to current codes and standards, and by including new technology and practices. Designation: 446-1987 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for Emergency and Standby Power Systems for Industrial and Commerical Applications Status: Superseded **(IEEE Orange Book) Revision of ANSI/IEEE Std 446-1980. History: BD APP: Jun 19, 1986, ANSI APP: Nov 17, 1986 Abstract: Recommended engineering principles, practices, and guidelines for the selection and application of emergency and standby power systems are presented. Industrial and commercial users' needs are outlined and discussed, and the material is primarily presented from a user's viewpoint. General requirements, protection, grounding, applications by specific industry, and maintenance guidelines are included. Key Words: emergency, standby, power, system, orange book Designation: 447 Sponsor: IEEE Magnetics Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 448 Sponsor: IEEE Instrumentation and Measurement Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 449-1998 Sponsor: IEEE Power Electronics Society/Standards Committee Reaffirmation Status and Year: 2007 Title: IEEE Standard for Ferroresonant Voltage Regulators Status: Approved Publication of IEEE , Published Date: Jun 10, 1999 **Revision of IEEE Std 449-1990. Technical Contact: David N Ratliff, Phone:517-546-6330, Email:marelco@htonline.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 02, 1993, BD APP: Dec 08, 1998, ANSI APP: May 24, 1999 Project Scope: This standard pertains to ferroresonant voltage regulators which operate at relatively constant frequencies and provide substantially constant output voltages in spite of relatively large changes of input voltage, and to controlled ferroresonant regulators which maintain substantially constant output voltage regardless of variations, within limits, of input voltage, temperature, frequency and output load. Guides to application and test procedures are included. Provision is made for relating the rectifiers and circuits. Definitions pertaining to ferroresonance and ferroresonant regulators which have not been found elsewhere are included with an appropriate discussion. This standard includes, but is not limited to, the following types of ferroresonant regulators 1) Series ferroresonant regulators 2) Series-parallel ferroresonant regulars(electrically connected) 3) Ferroresonant transformer regulars(magnetically connected) 4) Controlled ferroresonant regulators Project Purpose: Add new voltage regulator topologies to ferroresonant voltage regulator scheme. New Topology improves overload, stability, size and efficiency over current technology. Abstract: Ferroresonant transformers used as regulators in electronic power supplies and in otherequipment are covered. Guides to application and test procedures are included. Key Words: "controlled ferroresonant regulators,ferroresonant transformer regulators,series feroresonant regulators,series-parallel ferroresonant regulators" Designation: 449-1984 Sponsor: Electronic Transformers Title: IEEE Standard for Ferroresonant Voltage Regulators Status: Superseded Abstract: This standard pertains to ferroresonant transformers used as regulators in electronic power supplies and in other equipment. Guides to application and test procedures are included. Key Words: standard, ferroresonant, voltage, regulators Designation: 449-1990 Sponsor: IEEE Power Electronics Society/Standards Committee Title: IEEE Standard for Ferroresonant Voltage Regulators Status: Withdrawn Standard. Withdrawn Date: Dec 09, 1997. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 449-1984. History: PAR APP: Jun 01, 1989, BD APP: Feb 15, 1990, ANSI APP: Jul 19, 1990 Abstract: Requirements are provided for ferroresonant voltage regulators that operate at relatively constant frequencies and provide substantially constant output voltages in spite of relatively large changes of input voltage. Requirements for controlled ferroresonant regulators that maintain substantially constant output voltages regardless of variations, within limits, of input voltage, temperature, frequency, and output load are also included. The requirements cover definitions, symbols, and circuit schematics; service conditions; ratings; nameplate and other markings; testing; application; and maintenance. Provision is made for relating the characteristics of ferroresonant regulators to associated rectifiers and circuits. Key Words: regulators Designation: 450-2002 Sponsor: IEEE Power & Energy Society/Stationary Batteries Committee Title: IEEE Recommended Practice for Maintenance, Testing , and Replacement of Vented Lead-Acid Batteries for Stationary Applications Status: Approved Publication of IEEE , Published Date: Apr 03, 2003 **Sep-02: Sponsor changed from SCC29 to PE/SB. Supersedes 450-1995. Technical Contact: Tim Bolgeo, Phone:423-751-8399, Email:rtbolgeo@tva.gov **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 12, 1995, BD APP: Dec 11, 2002, ANSI APP: Apr 18, 2003 Project Scope: General revision of contents of the standard with no change in the existing scope of the standard. Project Purpose: General revision to standard to incorporate lessons learned from the industry, incorporate recent developments from the industry, and explanation of new testing recommendations from the 1995 version of the standard. Abstract: " Maintenance, test schedules, and testing procedures that can be used to optimize thelife and performance of permanently installed, vented lead-acid storage batteries used for standbypower applications are provided. This recommended practice also provides guidance to determinewhen batteries should be replaced. This recommended practice is applicable to full-float stationaryapplications where a charger maintains the battery fully charged and supplies the dc loads. " Key Words: "acceptance test, battery capacity, battery installation, battery maintenance, battery replacement criteria, battery service test, battery terminal voltage, connection resistance measurements, electrolyte level, equalize charge, float voltage" Designation: P450 Sponsor: IEEE Power & Energy Society/Stationary Batteries Committee Title: Recommended Practice for Maintenance, Testing, and Replacement of Vented Lead-Acid Batteries for Stationary Applications Status: Revision Project Technical Contact: Mark S. Clark, Phone:361-972-8234, Email:sclark@stpegs.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 22, 2005 Project Scope: This document provides recommended maintenance, test schedules, and testing procedures that can be used to optimize the life and performance of permanently-installed, vented lead-acid storage batteries used for standby power applications. It also provides guidance to determine when batteries should be replaced. This recommended practice is applicable to full-float stationary applications where a battery charger normally maintains the battery fully charged and provides the dc loads. However, specific applications, such as emergency lighting units and semi-portable equipment, may have other appropriate practices that are beyond the scope of this recommended practice. Sizing, installation, qualification, other battery types, and application are also beyond the scope of this recommended practice. The maintenance and testing programs described in this recommended practice represent the best program based on the information available at the time this document was developed. The user should evaluate these practices against their operating experience, operating conditions, manufacturers recommendations, resources, and needs in developing a maintenance program for a given application. These maintenance and testing recommendations were developed without consideration of economics, availability of testing equipment and personnel, or relative importance of the application. Development of a maintenance and testing program for a specific application requires consideration of all issues, not just the technical issues considered in this document. This recommended practice does not include any other component of the dc system, or inspection and testing of the dc system, even though the battery is part of that system. Pre-operational and periodic dc system tests of chargers and other dc components may require that the battery be connected to the system. Details for these tests depend on the requirements of the dc system and are beyond the scope of this recommended practice. Project Purpose: The purpose of this recommended practice is to provide the user with information and recommendations concerning the maintenance, testing, and replacement of vented lead-acid batteries used in stationary applications. Incorporate errata sheet. Designation: 450-1995 Sponsor: IEEE Power & Energy Society/Stationary Batteries Committee Title: IEEE Recommended Practice for Maintenance, Testing, and Replacement of Vented Lead-Acid Batteries for Stationary Applications Status: Superseded **Revision of IEEE Std 450-1987. Sep-02: Sponsor changed from SCC29 to PE/SB. Superseded by 450-2002. History: PAR APP: Dec 02, 1993, BD APP: Jan 24, 1995, ANSI APP: Aug 02, 1995 Abstract: Maintenance, test schedules, and testing procedures that can be used to optimize the life and performance of permanently installed, vented lead-acid storage batteries used for standby power applications are provided. This recommended practice also provides guidance to determine when batteries should be replaced. This recommended practice is applicable to all stationary applications. However, specific applications, such as emergency lighting units and semiportable equipment, may have other appropriate practices and are beyond the scope of this recommended practice. Key Words: acceptance test, capacity, maintenance, replacement, battery service test, battery terminal voltage, connection resistance, electrolyte level, equalize charge, float voltage, modified performance, performance test, specific gravity, standby power applic, state of charge, test discharge rate, vented lead-acid batteries, standby power applications, modified performance test, connection resistance readings, battery terminal voltage, battery replacement criteria, Battery installation Designation: 450-1987 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Recommended Practice for Maintenance,Testing, and Replacement of Large Lead Batteries for Generating Stations and Substations Status: Superseded History: BD APP: Jun 19, 1986, ANSI APP: Nov 17, 1986 Abstract: Maintenance practices, test schedules, and testing procedures that can be used to optimize the life and performance of large lead storage batteries are recommended. Guidance in determining when batteries should be replaced is provided. The methods described are applicable to all installations and battery sizes. The installations considered are designed for full-float operation with a battery charger serving to maintain the battery in a charged condition as well as to supply the normal dc load. Key Words: maintenance, lead, storage, batteries, stations Designation: 451 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 452 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 454-1973 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Title: Recommended Practice for the Detection and Measurement of Partial Discharges (Corona) During Dielectric Tests Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 455-1985 Sponsor: IEEE Communications Society/Transmission Systems Reaffirmation Status and Year: 1992 Title: IEEE Standard Test Procedure for Measuring Longitudinal Balance of Telephone Equipment Operating in the Voice Band Status: Withdrawn Standard. Withdrawn Date: Mar 06, 2000. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 455-1976. History: BD APP: Dec 13, 1984, ANSI APP: Apr 30, 1985 Abstract: The basic requirements for a test circuit that can be used to measure longitudinal balance are defined. Resistive elements are specified because they are generally considered easy to duplicate and balance. Standard test conditions and procedures are established. Key Words: measuring, longitudinal, balance, telephone, equipment, Communication system testing Designation: 456 Sponsor: IEEE Microwave Theory and Techniques Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 457-1982 Sponsor: IEEE Microwave Theory and Techniques Society Title: IEEE Standard Definitions of Terms for Nonlinear, Active, and Nonreciprocal Waveguide Components Status: Withdrawn Standard. Withdrawn Date: Jun 14, 1994. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 3/31/94. History: BD APP: Mar 11, 1982, ANSI APP: Apr 29, 1983 Key Words: terms, non-linear, active, waveguide, measurements Designation: 458 Sponsor: SASB/SCC10-SCC10 - Terms and Definitions Title: Electrical & Electronics Engineering Abbreviations Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. History: PAR APP: Feb 28, 1971 Key Words: electrical, electronic, engineering, abbreviations Designation: 460-1988 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Title: IEEE Standard for Electrical Measuring Transducer for Converting AC Electrical Quantities into DC Electrical Quantities Status: Withdrawn Standard. Withdrawn Date: Dec 02, 1993. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Mar 12, 1987, ANSI APP: Sep 07, 1987 Key Words: electrical, transducers, converting, ac, dc Designation: 463-2006 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: IEEE Standard for Electrical Safety Practices in Electrolytic Cell Line Working Zones Status: Approved Publication of IEEE , Published Date: Feb 28, 2007 Technical Contact: Kenneth P White, Phone:716-278-6414, Email:kpwhite@olin.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 24, 2004, BD APP: Dec 06, 2006, ANSI APP: Jun 13, 2007 Project Scope: This standard covers means of improved safeguarding of personnel while operating or maintaining equipment located in electrolytic cell line working zones. Included are related requirements for equipment and electrical conductor installations. The general types of electrolytic cells covered include, but are not limited to, the direct current (dc) cells used in the production of aluminum, cadmium, sodium chlorate, chlorine, copper, fluorine, hydrogen peroxide, magnesium, sodium and zinc. This standard does not cover the following: a) Any electrical equipment that is neither part of the electrolytic process equipment nor installed or used in the cell line working zone b) Electroplating and anodizing facilities c) AC cells or furnaces d) Electrothermal process furnaces e) Arc furnaces f) Melting or heat treating facilities g) Cells for hydrogen production h) Cells used as a source of electric energy Project Purpose: The purpose of this standard is to provide methods for practical improved safeguarding of personnel operating or maintaining equipment in electrolytic cell line working zones from electrical hazards. The cell line working zone is defined in Clause 5. Abstract: Means for improved safeguarding of personnel while operating or maintaining equipment located in electrolytic cell line working zones are provided. Included are related requirements for equipment and electrical conductor installations. The general types of electrolytic cells covered include, but are not limited to, the direct current cells used in the production of aluminum, cadmium, sodium chlorate, chlorine, copper, fluorine, hydrogen peroxide, magnesium, sodium, and zinc. Key Words: cell line working zone, electrical conductor installations, electrical safety, electrolytic cell line Designation: 463-1977 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Reaffirmation Status and Year: 1987 Title: IEEE Standard for Electrical Safety Practices in Electrolytic Cell Line Working Zones Status: Superseded History: BD APP: Jun 03, 1976, ANSI APP: Feb 19, 1988 Key Words: electrical, safety, electrolytic, cell, zones Designation: 463-1993 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: IEEE Standard for Electrical Safety Practices in Electrolytic Cell Line Working Zones Status: Withdrawn Standard. Withdrawn Date: Jan 16, 1999. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 463-1977. Technical Contact: Clay L Pittman, Phone:423 984 2322 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 27, 1991, BD APP: Dec 02, 1993, ANSI APP: Jun 03, 1994 Abstract: Means of safeguarding personnel while operating or maintaining equipment located in electrolytic cell line working zones are provided. Included are related requirements for equipment and electrical conductor installations. The general types of electrolytic cells covered include, but are not limited to, the dc cells used in the production of aluminum, cadmium, chlorate, chlorine, copper, fluorine, hydrogen peroxide, magnesium, sodium, and zinc. Key Words: electrical safety, Electrolytic cell line, Electrical conductor installation, Cell line working zone Designation: 464-1981 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: IEEE Recommended Practice for Grounded 830 V Three-Phase Electrical System for Oil Field Service Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 3/31/94. Technical Contact: Clark R Lockerd, Phone:713 840 4234 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Sep 27, 1979, ANSI APP: May 05, 1983 Key Words: grounded, 830V, oil, field, service Designation: 466 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 467-1980 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard Quality Assurance Program Requirements for the Design and Manufacture of Class 1E Instrumentation and Electric Equipment for Nuclear Power Generating Stations Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Jun 07, 1979 Designation: 469-1988 Sponsor: IEEE Communications Society/Transmission Systems Reaffirmation Status and Year: 1994 Title: IEEE Recommended Practice for Voice-Frequency Electrical-Noise Tests of Distribution Transformers Status: Withdrawn Standard. Withdrawn Date: Mar 06, 2000. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 469-1977. History: PAR APP: Dec 28, 1979, BD APP: Jun 09, 1988, ANSI APP: Sep 26, 1988 Abstract: Instruction for the testing of distribution transformers as sources of voice-frequency noise for communication circuits is provided. The tests measure the degree to which a transformer may contribute to electrical noise in communication circuits that are physically paralleling the power-supply circuits feeding the transformer. They provide a standard method for use by the transformer manufacturer, user, and others in the industry for the purpose of better evaluating the design choices that are available and moving toward industry objectives with regard to levels of harmonic exciting current. Key Words: electrical, noise, distribution, transformers, Wire communication, Power transformer testing, Electromagnetic interference Designation: 470-1972 Sponsor: IEEE Instrumentation and Measurement Society Title: IEEE Standard Application Guide for Bolometric Power Meters Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. History: BD APP: Jun 22, 1972 Key Words: application, guife, bolometric, power, meters Designation: 473 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Title: Recommended Practice for an Electromagnetic Site Survey (10 kHz to 10 GHz) Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Elya Joffe, Phone:972-976-57065, Email:eb.joffe@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: May 30, 2001 Project Scope: The Standard requires revision, in several areas: a) Revision/extension of the standard from 10 GHz to 40 GHz; b) Updating the Standard to incorporate references to modern test and measurement equipment; c) Modifying the Standard to include time domain characteristics of time- variable waveforms. Project Purpose: This standard which has served a very useful purpose is now dated and in need of revision. The purpose of this revision is to make the standard reflective of current test instrumentation, measurement techniques and measurement environments. Designation: 473-1985 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Reaffirmation Status and Year: 1997 Title: IEEE Recommended Practice for an Electromagnetic Site Survey (10 kHz to 10 GHz) Status: Withdrawn Standard. Withdrawn Date: Feb 06, 2006. This historical standard is available for sale in electronic format (PDF) through the IEEE Online Store at www.shop.ieee.org. You may also order by calling +1 800 678 IEEE (in the US) or +1 732 981 0060 (outside of the US). History: BD APP: Dec 17, 1981, ANSI APP: May 06, 1992 Abstract: Guidelines for the systematic, documented investigation of the amplitudes of RF electromagnetic fields found at one or more locations with respect to frequency, time, and position are provided. Periodic and random radiated electric and magnetic fields and conducted interference within the frequency range of 10 kHz to 10 GHz are considered. Although several aspects of radio-emission investigation are not addressed directly, including signal identification and discrimination; field emissions from regularly occurring, low-frequency, pulsed sources; and test enclosure fields, much information pertinent to these areas is provided. Key Words: electromagnetic, site, survey Designation: 474 Title: Standard Specifications and Test Methods for Fixed and Variable Attenuators, DC-40 GHz Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. History: PAR APP: Aug 17, 1989 Designation: 474-1973 Reaffirmation Status and Year: 1982 Title: IEEE Standard Specifications and Test Methods for FIxed and Variable Attenuators, DC-40 GHz Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 3/8/93. Technical Contact: Bruno O Weinschel, Phone:301-948-8342 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Dec 12, 1972 Abstract: 7/90: rev in progress - expect to complete early 1991. Key Words: test, methods, fixed, variable, attenuators Designation: 475-2000 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Reaffirmation Status and Year: 2006 Title: IEEE Standard Measurement Procedure for Field Disturbance Sensors 300 MHz to 40 GHz Status: Approved Publication of IEEE , Published Date: May 31, 2000 Technical Contact: Edward F Hare, Phone:860 594 0318, Email:ehare@arrl.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 26, 1999, BD APP: Mar 30, 2000, ANSI APP: Jan 22, 2001 Project Scope: This standard sets forth a test procedure for measurement of radio frequency (RF) emissions from intrusion-alarm field disturbance sensors in the frequency range 300 MHz to 40 GHz. Project Purpose: This project is being proposed in order to update the existing standard to the current state of the art. Abstract: " Test procedures for microwave field disturbance sensors to measure radio frequency(RF) radiated field strength of the fundamental frequency, harmonic frequencies, near field powerflux density, and nonharmonic spurious emissions of sensors operating within the frequency rangeof 300 MHz to 40 GHz are defined. " Key Words: "field disturbance sensors, field strength measurements, measurement instrumentation,spurious emissions, test sites, test reports" Designation: 475 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Title: Standard Measurement Procedure for Field Disturbance Sensors, 300 MHz to 40 GHz Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Hugh W Denny, Phone:404-633-9363, Email:hugh.denny@gtri.gatech.edu **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Aug 17, 2001 Project Scope: This standard sets forth a test procedure for measurement of radio frequency (RF) emissions from miscrowave type intrusion-alarm field disturbance sensors in the frequency range of 300 MHz to 40 GHz {See additional comment at item 16} Project Purpose: This project is being proposed in order to update the existing standard to the current state-of-the-art. {See additional comment at item 16} Designation: 475 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Title: Standard Measurement Procedure for Field-Disturbance Sensors Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: David L Traver, Phone:719-538-4624, Email:davidtraver@adelphia.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 18, 1992 Designation: 475-1983 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Reaffirmation Status and Year: 1994 Title: IEEE Standard Measurement Procedure for Field-Disturbance Sensors (rf Intrusion Alarms) Status: Superseded **Superseded by 475-2000. History: BD APP: May 21, 1981, ANSI APP: Jul 20, 1983 Abstract: A test procedure for field-disturbance sensors to measure radiated field strength of the fundamental frequency, including second and third harmonics, and of any nonharmonic spurious emission within the frequency range from 0.3 GHz to 40.0 GHz is defined. Power line measurement of electromagnetic emission within the frequency range from 30 MHz to 300 MHz is specified. The intent is to assist manufacturers, standards laboratories, and test engineers in determining compliance with established technical specifications. Perimeter protection systems that employ a balanced transmission line around the property being protected are not covered. Key Words: field, disturbance, sensors, intrusion, alarm, Site security monitoring Designation: 477 Sponsor: IEEE Communications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 479 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 481 Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 482 Sponsor: IEEE Electromagnetic Compatibility Society/Standards Development Committee Title: Recommended Practice for Testing of Cable, Cable Assemblies and Connector Shielding Properties in the Frequency Range from DC to 40 GHz Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Lothar O Hoeft, Phone:505-298-2065, Email:bud.hoeft@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 02, 1993 Project Scope: This recommended practice will cover the measurement of shielding properties of coaxial and multi-conductor cables, connectors, and cable assemblies. The frequency range will be DC to 40 GHz. Project Purpose: Provide recommendations in selecting among the various existing and potential alternative test methods and procedures. Key Words: cable, shield, transfer, impedance Designation: 483 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 484-2002 Sponsor: IEEE Power & Energy Society/Stationary Batteries Committee Reaffirmation Status and Year: 2008 Title: IEEE Recommended Practice for Installation Design and Installation of Vented Lead-Acid Batteries for Stationary Applications Status: Approved Publication of IEEE , Published Date: Feb 12, 2003 **Supersedes 484-1996. Sep-02: Sponsor changed from SCC29 to PE/SB. Technical Contact: John K Coyle, Phone:610-765-5691, Email:john.coyle@exeloncorp.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Feb 21, 2001, BD APP: Sep 12, 2002, ANSI APP: Jan 22, 2003 Project Scope: This recommended practice provides recommended design practices and procedures for storage, location, mounting, ventilation, instrumentation, preassembly, assembly, and charging of vented lead-acid batteries. Required safety practices are also included. This recommended practice applies to all stationary applications. However, specific applications, such as emergency lighting units and semiportable equipment, and alternate energy applications, may have other appropriate practices and are beyond the scope of this recommended practice. The portions of this recommended practice that specifically relate to personnel safety are mandatory instructions and are designated by the word shall; all other portions are recommended practices and are designated by the word should. Sizing, maintenance, capacity testing, charging equipment, dry charged cells, and consideration of other types of batteries are beyond the scope of this recommended practice. Project Purpose: As part of its 5-year life cycle, the Recommended Practice should be updated to be consistent with similar Recommended Practices. Recent industry practices and developments are to be incorporated. Abstract: " Recommended design practices and procedures for storage, location, mounting, ventilation, instrumentation, preassembly, assembly, and charging of vented lead-acid batteries are provided."">IEEE Std 484TM-2002(Revision of IEEE Std 484-1996)IEEE Standards484TMIEEE Recommended Practice forInstallation Design and Installation of Vented Lead-Acid Batteries for Stationary ApplicationsPublished by The Institute of Electrical and Electronics Engineers, Inc.3 Park Avenue, New York, NY 10016-5997, USA12 February 2003IEEE Power Engineering SocietySponsored by theStationary Battery CommitteeIEEE StandardsPrint" Key Words: "alarms, assembly, data collection, float operation, flooded cells, freshening charge, installation design criteria, installation procedures, instrumentation, internal ohmic measurements, mounting, precautions," Designation: 484-1996 Sponsor: IEEE Power & Energy Society/Stationary Batteries Committee Title: IEEE Recommended Practice for Installation Design and Installation of Vented Lead-Acid Batteries for Stationary Applications Status: Superseded **Revision of IEEE Std 484-1987. Superseded by 484-2002. Sep-02: Sponsor changed from SCC29 to PE/SB. History: PAR APP: Jun 14, 1995, BD APP: Apr 10, 1996, ANSI APP: Sep 11, 1996 Project Scope: Expand the scope of the present standard from Generating Stations and Substations to all Stationary applications. Project Purpose: This recommended practice provides recommended design practices and procedures for storage, location, mounting, ventilation, instrumentation, preassembly, assembly and charging of vented lead-acid batteries. Abstract: Recommended design practices and procedures for storage, location, mounting, ventilation, instrumentation, preassembly, assembly, and charging of vented lead-acid batteries are provided. Required safety practices are also included. These recommended practices are applicable to all stationary applications. However, specific applications, such as emergency lighting units and semiportable equipment, and alternate energy applications, may have other appropriate practices and are beyond the scope of this recommended practice. Key Words: alarms, assembly, data collection, float operation, flooded cells, freshening charge, installation design, instrumentation, internal ohmic, ohmic measurements, mounting, precautions, protective equipment, resistance readings, seismic Designation: 484-1987 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Recommended Practice for Installation Design and Installation of Large Lead Storage Batteries for Generating Stations and Substations Status: Superseded **Revision of IEEE Std 484-1981 and includes Supplement IEEE Std 484a-1984. History: BD APP: Dec 11, 1986, ANSI APP: May 18, 1987 Abstract: Recommended design practices and procedures for storage, location, mounting, ventilation, instrumentation, preassembly, assembly, and charging of large lead storage batteries are provided. Required safety practices are also included. This standard applies particularly to installations at generating stations, including nuclear, and large substations. Portions of this recommended practice that speci fically relate to personnel and nuclear plant safety are mandatory and are designated by the word shall; all other portions are recommended practices and are designated by the word should. Key Words: installation, lead, storage, batteries Designation: 485-1997 Sponsor: IEEE Power & Energy Society/Stationary Batteries Committee Reaffirmation Status and Year: 2003 Title: IEEE Recommended Practice for Sizing Lead-Acid Batteries for Stationary Applications Status: Approved Publication of IEEE **Revision of IEEE Std 485-1983. Sep-02: Sponsor changed from SCC29 to PE/SB. Technical Contact: Robert J Fletcher, Phone:847-838-6475, Email:r.j.fletcher@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 14, 1995, BD APP: Mar 20, 1997, ANSI APP: Aug 20, 1997 Project Scope: Expand the scope of the present standard from generating stations to all stationary applications, except for UPS applications which are covered by Std 1184. Project Purpose: This document describes methods for sizing lead-acid batteries for stationary applications. The batteries for these applications are maintained in a fully charged condition known as full float operation. Abstract: Methods for defining the dc load and for sizing a lead-acid battery to supply that load for stationary battery applications in full float operations are described. Some factors relating to cell selection are provided for consideration. Installation, maintenance, qualification, testing procedures, and consideration of battery types other than lead-acid are beyond the scope of this recommended practice. Design of the dc system and sizing of the battery charger(s) are also beyond the scope of this recommended practice. Key Words: battery duty cycle, cell selection, dc load, full float operation, lead acid batteries, rated capacity, sizing, stationary applications, valve regulated lead acid (VRLA) cell, vented battery Designation: P485 Sponsor: IEEE Power & Energy Society/Stationary Batteries Committee Title: Recommended Practice for Sizing Lead-Acid Batteries for Stationary Applications Status: Revision Project Technical Contact: Robert J Fletcher, Phone:847-838-6475, Email:r.j.fletcher@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 25, 2004 Project Scope: Methods for defining the dc load and for sizing a lead-acid battery to supply that load for stationary battery applications in full float operations are described. Some factors relating to cell selection are provided for consideration. Installation, maintenance, qualification, testing procedures, and consideration of battery types other than lead-acid are beyond the scope of this recommended practice. Design of the dc system and sizing of the battery charger(s) are also beyond the scope of this recommended practice. Project Purpose: This recommended practice describes methods for defining the dc load and for sizing a lead-acid battery to supply that load for stationary battery applications in full float operations. Some factors relating to cell selection are provided for consideration. Revision will provide additional guidance on sizing with respect to various applications, additional information on load types, and address items of impact due to revision of related documents. Designation: 485-1983 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Recommended Practice for Sizing Large Lead Storage Batteries for Generating Stations and Substations Status: Superseded History: BD APP: Jun 23, 1983, ANSI APP: Jul 24, 1984 Abstract: Methods for defining the dc load in a generating station or a substation and for sizing a lead storage battery to supply that load are described. Some factors relating to cell selection are provided for consideration. This standard is based on commonly accepted methods used to define the load and to ensure adequate battery capacity and is applicable to all installations and battery sizes. The installations considered are designed for full-float operation with a battery charger serving to maintain the battery in a charged condition as well as to supply the normal dc load. Key Words: sizing, large, lead, storage, batteries, Substations Designation: 487-2007 Sponsor: IEEE Power & Energy Society/Power System Communications Title: IEEE Recommended Practice for the Protection of Wire-Line Communication Facilities Serving Electric Supply Locations Status: Approved Publication of IEEE , Published Date: Oct 08, 2007 Technical Contact: Percy E Pool, Phone:972-418-0341, Email:pepool@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Aug 12, 2004, BD APP: Jun 07, 2007, ANSI APP: Oct 04, 2007 Project Scope: This recommended practice presents engineering design practices for special high-voltage protection systems intended to protect wire-line telecommunication facilities serving electric supply locations. The following topics are included in this document: a) A description of the electric supply locations environment, i.e., ground potential rise (GPR), induced voltages, lightning, and switching transients; b)A discussion of special high-voltage protection devices; c)Definitions of service types and service performance objectives for electric supply locations telecommunication services; d)Special protection theory and philosophy; e)Special protection system design guidelines; f)Personnel safety considerations; g)Grounding; h)Cables with metallic members. Other telecommunication alternatives such as radio and optica fiber systems are excluded from this recommended practice. Project Purpose: This recommended practice presents workable methods for the protection of wire-line telecommunication facilities serving electric supply locations. In general, special protective measures, handling procedures, and administrative procedures are necessary to provide for personnel safety, protection against damage to telecommunication facilities and terminal equipment, and reliability of service. Disturbances may arise from a number of causes,including the following: a)Ground (earth)potential rise; b)Longitudinal induction into the serving telecommunication facilities; c)Electrical contact between power and telecommunication conductors; d)Lightning surges and switching transients induced into the telecommunication system. Divided and differing opinions exist between and within the various administrations and users regarding the merits of any one protection method, voltage limits, and equipment design characteristics. This standard is not intended to supplant specific or general instructions contained in the practices of any utility, or in any agreement between a telecommunication and a power utility. Readers of this standard should evaluate all alternative procedures, methods, voltage limits, and equipment characteristics for their own use. Different administrations and users will use either peak or rms for specifying voltage levels. In the case of leased facilities, mutually agreeable methods for the design and installation of protective equipment that may be owned by either party are recommended. Abstract: Workable methods for protecting wire-line communication circuits entering electric supply locations are presented. This document covers: the electric supply location environment; protection apparatus; service types, reliability, service performance objective classifications, and transmission considerations; protection theory and philosophy; protection configurations; installation and inspection; and safety. Key Words: electric supply locations, high-voltage tower, power stations, protection, wire-line communication Designation: 487-2000 Sponsor: IEEE Power & Energy Society/Power System Communications Title: IEEE Recommended Practice for the Protection of Wire-Line Communication Facilities Serving Electric Supply Locations Status: Superseded **Project to revise IEEE Std 487-1992. Supersedes 487-1992. Technical Contact: Percy E Pool, Phone:972-418-0341, Email:pepool@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 20, 1997, BD APP: Sep 21, 2000, ANSI APP: Jan 30, 2001 Project Scope: This project will provide recommended engineering design practices for special high-voltage protection systems intended to protect wire-line telecommunication facilities servind electric supply locations such as power stations and power line supporting structures. Project Purpose: To review and update existing standard 487-1992. Abstract: Workable methods for protecting wire-line communication circuits entering electric supplylocations are presented. This document covers Key Words: "electric supply locations, high-voltage tower, power stations, protection, wire-linecommunication" Designation: 487-1992 Sponsor: IEEE Power & Energy Society/Power System Communications Title: IEEE Recommended Practice for the Protection of Wire-Line Communication Facilities Serving Electric Power Stations Status: Superseded **Revision of IEEE Std 487-1980. Superseded by 487-2000. History: PAR APP: Dec 05, 1991, BD APP: Mar 19, 1992, ANSI APP: Dec 15, 1992 Abstract: Workable methods for protecting wire-line communication circuits entering power stations are presented. This document covers: the electric power station environment; protection apparatus; service types, reliability, service performance objective classifications, and transmission considerations; protection theory and philosophy; protection configurations; installation and inspection; and safety. Key Words: wire, line, communication, protection Designation: 487-1980 Sponsor: IEEE Power & Energy Society/Power System Communications Title: IEEE Guide for the Protection of Wire-Line Communication Facilities Serving Electric Power Stations Status: Superseded History: BD APP: Jun 07, 1979, ANSI APP: Apr 20, 1981 Key Words: protection, wire, line, communications Designation: 487a Sponsor: IEEE Power & Energy Society/Power System Communications Title: Supplement to IEEE Recommended Practice for Protction of Wire-Line Communication Facilities Serving Electric Power Stations Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Daniel C Jendek, Phone:416/592-8423 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 02, 1993 Designation: 488.1-2003 Sponsor: IEEE Instrumentation and Measurement Society/TC8 - Automated Test Systems and Instrumentation Reaffirmation Status and Year: 2009 Title: IEEE Standard For Higher Performance Protocol for the Standard Digital Interface for Programmable Instrumentation Status: Approved Publication of IEEE , Published Date: Dec 12, 2003 **Supersedes 488.1-1987 (R1994). Technical Contact: Robert W Canik, Phone:(512)-683-8519, Email:robert.canik@ni.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 14, 1995, BD APP: Jun 12, 2003, ANSI APP: Oct 20, 2003 Project Scope: This standard will build on the interface functions defined in IEEE Std. 488.1-1987 to define a set of interface functions that will enable higher transfer rates between devices adhering to this specification while still maintaining the ability for these devices to communicate with existing IEEE Std. 488.1 devices. Topics within the scope of this standard include: Extensions to the interface functions defined in IEEE Std. 488.1; Definition of new interface functions; Possible extensions to the remote message codes defined in IEEE Std. 488.1; Guidelines for calculating delays required to implement the new protocol at different distances. Project Purpose: The purpose is to develop an extension of the IEEE Std. 488.1 that provides a means for achieving significantly higher data transfer rates (3-10 MB/sec) than the current standard while maintaining compatibility with existing devices. Abstract: IEEE Std 488.1-2003 IEEE Standard for Higher Performance Protocol for the Standard Digital Interface for Programmable Instrumentation Key Words: "GPIB, HPIB, HS488, non-interlocked handshake, three-wire handshake " Designation: 488.1-1987 Sponsor: IEEE Instrumentation and Measurement Society/TC8 - Automated Test Systems and Instrumentation Reaffirmation Status and Year: 1994 Title: IEEE Standard Digital Interface for Programmable Instrumentation Status: Superseded **Revision of Std 488-1978. Now sold together with Std 488.2-1992. Superseded by 488.1-2003. History: BD APP: Jun 11, 1987, ANSI APP: Feb 02, 1988 Abstract: Interface systems used to interconnect both programmable and nonprogrammable electronic measuring apparatus with other apparatus and accessories necessary to assemble instrumentation systems are considered. The standard applies to the interface of instrumentation systems, or portions of them, in which the: data exchanged among the interconnected apparatus is digital, the number of devices that may be interconnected by one contiguous bus does not exceed 15, total transmission path lengths over the interconnecting cables do not exceed 20 m, and the data rate across the interface on any signal line does not exceed 1 Mb/s. The basic functional specifications of this standard may also be used in digital interface applications that require longer distances, more devices, increased noise immunity, or combinations of these. Key Words: 488.1, programmable, system data, digital interface, instrumentation, Measurement system Designation: 488.2-1992 Sponsor: IEEE Instrumentation and Measurement Society/TC8 - Automated Test Systems and Instrumentation Reaffirmation Status and Year: 2004 Title: IEEE Standard Codes, Formats, Protocols, and Common Commands for Use With IEEE Std 488.1-1987, IEEE Standard Digital Interface for Programmable Instrumentation Status: Approved Publication of IEEE History: PAR APP: Aug 17, 1989, BD APP: Jun 18, 1992, ANSI APP: Jan 04, 1993 Project Scope: This standard specifies a set of codes and formats to be used by devices connected via the IEEE 488.1 bus. This standard also defines communication protocols necessary to effect application independent device- dependent message exchanges and further defines common commands and characteristics useful in instrument system applications. This standard is intended to apply directly to small-scale to medium-scale instrument systems. It applies to systems comprised mainly of measurement, stimulus, and interconnect devices with an instrumentation controller. The standard may also apply to certain devices outside the scope of the instrument system environment. As well aas defining a variety of device-dependent messages, this standard extends and further interprets certain interface functions contained in IEEE Std 488.1 while remaining compatible with that standard. Abstract: A set of codes and formats to be used by devices connected via the IEEE 488.1 bus is specified. This standard also defines communication protocols that are necessary to effect application-independent and device-dependent message exchanges, and further defines common commands and characteristics useful in instrument system applications. It is intended to apply to small-scale to medium-scale instrument systems comprised mainly of measurement, stimulus, and interconnect devices with an instrumentation controller. The standard may also apply to certain devices outside the scope of the instrument system environment. IEEE 488.1 subsets, standard message-handling protocols including error handling, unambiguous program and response-message syntactic structures, common commands useful in a wide range of instrument system applications, standard status reporting structures, and system configuration and synchronization protocols are covered. Key Words: controller, device, System interface, System bus Designation: 488.2-1987 Sponsor: IEEE Instrumentation and Measurement Society/TC8 - Automated Test Systems and Instrumentation Title: IEEE Standard Codes, Formats, Protocols, and Common Commands for use with ANSI/IEEE Std 488.1-1987 IEEE Standard Digital Interface for Programmable Instrumentation Status: Superseded **formerly IEEE 728. History: PAR APP: Mar 28, 1986, BD APP: Jun 18, 1992, ANSI APP: Feb 02, 1988 Key Words: 488.2 Designation: 489 Sponsor: IEEE Instrumentation and Measurement Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 491 Sponsor: SASB/SCC14- Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 492-1999 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 2005 Title: IEEE Guide for Operation and Maintenance of Hydro-Generators Status: Approved Publication of IEEE , Published Date: Feb 19, 1999 History: PAR APP: Jun 25, 1998, BD APP: Jan 28, 1999, ANSI APP: May 12, 1999 Project Scope: This guide covers general recommendations for the operation, loading and maintenance of Hydro-Generators and generator/motors having salient pole rotors and conventional cooling systems. Project Purpose: Various areas of the withdrawn standard will be updated and revised to current practice. Abstract: " General recommendations for the operation, loading, and maintenance of synchronoushydro-generators and generator/motors are covered. This guide does not apply to synchronousmachines having cylindrical rotors. In this guide, the term hydro-generator is used to describe asynchronous machine coupled to a hydraulic turbine or pump-turbine. This guide is not intended toapply in any way to the prime mover. " Key Words: "generator,generator/motor,horizontal hydro-generator,hydro- generator,loading,maintenance,operation,pumped-storage system,synchronous hydro-generator,vertical hydro-generator" Designation: 492 Sponsor: IEEE Power & Energy Society/Electric Machinery Title: Guide for Operation and Maintenance of Hydro-Generators Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Bal K Gupta, Phone:416-621-6035, Email:bal.gupta@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 05, 1981 Designation: 492-1974 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1986 Title: IEEE Guide for Operation and Maintenance of Hydro-Generators Status: Withdrawn Standard. Withdrawn Date: Aug 05, 1996. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: Bal K Gupta, Phone:416-621-6035, Email:bal.gupta@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Sep 17, 1981, ANSI APP: Feb 07, 1989 Abstract: General recommendations are provided for the operation, loading, and maintenance of hydro-generators and generator/motors (pump/turbines), having salient pole rotors and conventional cooling systems (as distinct from conductor cooling systems). The term hydro-generator refers to a generator driven by a hydraulic turbine or waterwheel. Types of units and bases of rating are included. Generators with cylindrical rotors are not covered. Key Words: guide, operation, maintenance, hydro, generators Designation: 493-2007 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for the Design of Reliable Industrial and Commercial Power Systems Status: Approved Publication of IEEE , Published Date: Jun 25, 2007 Technical Contact: Don O Koval, Phone:780-464-0968, Email:donkoval@shaw.ca **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 11, 2002, BD APP: Feb 12, 2007, ANSI APP: Sep 27, 2007 Project Scope: The objective of this book is to present the fundamentals of reliability analysis applied to the planning and design of industrial and commercial electric power distribution systems. The intended audience for this material is primarily consulting engineers and plant electrical engineers and technicians. The design of reliable industrial and commercial power distribution systems is important because of the high cost associated with power outages. It is necessary to consider the cost of power outages when making design decisions for new power distribution systems as well as to have the ability to make quantitative “cost-versus- reliability” trade-off studies. The lack of credible data concerning equipment reliability and the cost of power outages has hindered engineers in making such studies. This revision of IEEE Std 493™ overcomes these obstacles. The authors of this book have attempted to provide sufficient information so that reliability analyses can be performed on industrial and commercial power systems without requiring cross- references to other texts. Included are the following: — Basic concepts of reliability analysis by probability methods — Fundamentals of power system reliability evaluation — Economic evaluation of reliability — Recent cost of power outage data —New extensive mechanical and electrical equipment reliability data—Complete U.S. Army Corp of Engineers Power Reliability Enhancement Program (PREP)database — Examples of reliability analysis of various industrial distribution system operating configurations — 7× 24 continuous power — Voltage sag analysis — Emergency and standby power — Evaluating and improving the reliability of existing electrical system — Preventative maintenance — Reliability and maintainability verification — Standard data collection techniques Project Purpose: The Gold Book is the only standard dedicated solely to the reliability analysis of industrial and commercial power systems. The present comprehensive equipment reliability surveyed data in the Gold Book will be updated by the Power Reliability Enhancement Program (PREP) sponsored database and will be the only database available publicly in the world for reliability analysis of industrial and commercial power systems. Each chapter in this standard will be updated to reflect current practices necessary for reliable operation of today's computer environments and mission critical facilities including voltage sag analysis based on equipment susceptibility characteristics and utility network feeder voltage sag characteristics. Abstract: The fundamentals of reliability analysis as it applies to the planning and design of industrial and commercial electric power distribution systems are presented. Included are basic concepts of reliability analysis by probability methods, fundamentals of power system reliability evaluation, economic evaluation of reliability, cost of power outage data, equipment reliability data, and examples of reliability analysis. Emergency and standby power, electrical preventive maintenance, and evaluating and improving reliability of the existing plant are also addressed. The presentation is self-contained and should enable trade-off studies during the design of industrial and commercial power systems. Design, installation, maintenance practices for electrical power and grounding (including both power-related and signal-related noise control) of sensitive electronic processing equipment used in commercial and industrial applications are presented. Key Words: designing reliable industrial and commercial power systems, equipment reliability data, industrial and commercial power systems reliability analysis, reliability analysis Designation: 493-1997 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for the Design of Reliable Industrial and Commercial Power Systems (Gold Book) Status: Superseded History: PAR APP: Dec 02, 1993, BD APP: Sep 16, 1997 Project Scope: Present the fundamentals of reliability analysis (i.e., probability methods, cost of interruptions, emergency and standby power, testing to demonstrate the reliability of emergency and standby power, electrical preventive maintenance, equipment reliability data, methods of evaluating and improving the reliability of existing plant facilities and the methodologies for assessing the frequency of interruptions to industrial and commercial power systems caused by voltage sags) that should be used in planning and designing reliable industrial and commercial power systems. Project Purpose: The degradation of industrial and commercial power system reliability caused by voltage sags and the testing methodologies required to demonstrate the reliability of emergency and standby power systems are not currently covered by recommended practices. The emergency and standby power chapter in IEEE Std 493-1990 requires an update to reflect current practices. An update of the existing chapter references in this standard is required to reflect new knowledge pertaining to the planning and design of reliable industrial and commercial power systems. Abstract: " The fundamentals of reliability analysis as it applies to the planning and design ofindustrial and commercial electric power distribution systems are presented. Included are basicconcepts of reliability analysis by probability methods, fundamentals of power system reliabilityevaluation, economic evaluation of reliability, cost of power outage data, equipment reliabilitydata, examples of reliability analysis. Emergency and standby power, electrical preventivemaintenance, and evaluating and improving reliability of the existing plant are also addressed.The presentation is self-contained and should enable trade-off studies during the design of in-dustrial and commercial power systems design, installation, and maintenance practices forelectrical power and grounding (including both power-related and signal-related noise control)of sensitive electronic processing equipment used in commercial and industrial applications arepresented. " Key Words: The fundamentals of reliability analysis to the planning and design of industrial and commercial electric ower distribution systems are presented Designation: 493-1990 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for the Design of Reliable Industrial and Commercial Power Systems Status: Superseded **IEEE Gold Book. Revision of std 493-1980. History: PAR APP: Sep 13, 1984, BD APP: Sep 28, 1990, ANSI APP: Feb 27, 1991 Abstract: The fundamentals of reliability analysis as it applies to the planning and design of industrial and commercial electric power distribution systems are presented. Included are basic concepts of reliability analysis by probability methods, fundamentals of power system reliability evaluation, economic evaluation of reliability, cost of power outage data, equipment reliability data, and examples of reliability analysis. Emergency and standby power, electrical preventive maintenance, and evaluating and improving reliability of the existing plant are also addressed. The presentation is self-contained and should enable trade-off studies during the design of industrial and commercial power systems. Key Words: designing reliable, industrial power, commercial power, industrial analysis, commercial analysis, reliability analysis, Equipment reliability data Designation: 493-1980 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: IEEE Recommended Practice for the Design of Reliable Industrial and Commercial Power Systems (IEEE Gold Book) Status: Superseded History: BD APP: Dec 20, 1979, ANSI APP: Jun 28, 1982 Key Words: design, reliable, industrial, commercial, power Designation: 494 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard Method for Identification of Documents Related to Class 1E Equipment and Systems for Nuclear Power Generating Stations Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. History: PAR APP: Sep 18, 1980 Project Scope: To establish criteria for uniform identification of documents significant to design, construction, testing, operation and maintenance of Class 1E equipment and systems for nuclear power generating stations. Designation: 494-1974 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1990 Title: IEEE Standard Method for Identification of Documents Related to Class 1E Equipment and Systems for Nuclear Power Generating Stations Status: Withdrawn Standard. Withdrawn Date: Apr 28, 1997. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Administratively withdrawn by Stds Bd 28 April 97. aka ANSI N41.28-1976. History: BD APP: May 30, 1974, ANSI APP: Oct 15, 1990 Abstract: Criteria for the uniform identification of documents significant to design, construction, testing, operation, and maintenance of Class 1E equipment and systems for nuclear power generating stations are established. Recommendations for identification of specific parts of these documents are included. Criteria are also established for identification on documents of redundant portions of Class 1E equipment and systems. Designation: 495-2007 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Guide for Testing Faulted Circuit Indicators Status: Approved Publication of IEEE , Published Date: Dec 28, 2007 Technical Contact: David Donovan, Phone:781-910-7724, Email:dave.donovan@joslynhv.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: May 16, 2000, BD APP: Sep 27, 2007, ANSI APP: Mar 25, 2008 Project Scope: This test code establishes definitions, service conditions, test procedures, and test conditions for FCIs for use on power distribution systems. Project Purpose: FCIs are commonly used by electric utilities to aid in service restoration. The purpose of this guide is to identify the various tests and test conditions that FCIs must meet to validate their performance. Abstract: Definitions, service conditions, test procedures, and test conditions for faulted circuit indicators for use on power distribution systems are established in this test code. Key Words: cable fault locator, fault indicators, faulted circuit indicator, FCI Designation: 495-1986 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Reaffirmation Status and Year: 1991 Title: IEEE Guide for Testing Faulted Circuit Indicators Status: Withdrawn Standard. Withdrawn Date: Jan 17, 1997. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Administratively withdrawn by Stds Bd 17 January 1997. History: BD APP: Sep 19, 1985, ANSI APP: Jun 15, 1992 Abstract: Service conditions, test procedures, and conditions for faulted circuit indicators for use on power distribution systems are established. Both design and production tests are covered. Key Words: guide, testing, faulted, circuit, indicators, Power distribution faults Designation: 497-2002 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2008 Title: IEEE Standard Criteria for Accident Monitoring Instrumentation for Nuclear Power Generating Stations Status: Approved Publication of IEEE , Published Date: Sep 30, 2002 Technical Contact: Glenn Lang, Phone:724-733-6403, Email:langge@westinghouse.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: May 30, 2001, BD APP: May 13, 2002, ANSI APP: Mar 07, 2003 Project Scope: The criteria contain the functional and design requirements for accident monitoring instrumentation for nuclear power generating stations. This standard is intended for new plant designs. The guidance provided in this standard may also prove useful for operating nuclear power stations desiring to perform design modifications or design basis evaluations. This standard contains guidance for the selection of variables and establishes design and performance requirements. Guidance on the use of portable instrumentation and defining various display alternatives for accident monitoring instrumentation is also included. Project Purpose: The purpose of IEEE Std 497 -2002 is to direct the user in selecting and categorizing post accident monitoring variables; establishing design requirements; and establishing performance requirements. It provides guidance on the use of portable instrumentation and various display alternatives for accident monitoring instrumentation. Abstract: " Criteria for variable selection, performance, design, and qualification of accidentmonitoring instrumentation are established in this standard. Included requirements for displayalternatives for accident monitoring instrumentation, documentation of design bases, and use ofportable instrumentation. " Key Words: "accident monitoring, display criteria, selection criteria, type variables" Designation: 497 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Standard Criteria for Accident Monitoring Instrumentation for Nuclear Power Generating Stations Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Peter M Kelly, Phone:516/420-3200, Email:pkelly54@aol.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 11, 1987 Designation: 497-1981 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Criteria for Accident Monitoring Instrumentation for Nuclear Power Generating Stations Status: Withdrawn Standard. Withdrawn Date: Jun 14, 1994. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **ANSI withdrawn 3/17/93. History: BD APP: Mar 05, 1981, ANSI APP: Jan 20, 1983 Key Words: post, accident, monitoring, instrumentation, nuclear Designation: 497-2002/Cor 1-2007 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 2008 Title: IEEE Standard Criteria for Accident Monitoring Instrumentation for Nuclear Power Generating Stations - Corrigendum 1: Incorporation of User Feedback through 2005 Status: Approved Publication of IEEE , Published Date: Sep 28, 2007 Technical Contact: Daryl Harmon, Phone:860-731-6174, Email:daryl.l.harmon@us.westinghouse.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 22, 2005, BD APP: Jun 07, 2007, ANSI APP: Sep 12, 2007 Project Scope: The scope of Corrigendum 1 is the resolution of a small set of feedback issues identified by end users during application of the standard . Corrigendum 1 will also incorporate Errata issued since the release of the standard. Project Purpose: The purpose of Corrigendum 1 is to correct a small set of technical issues identified through user feedback in order to make the standard more useable. Abstract: This corrigendum incorporates user feedback by providing editorial and minor technical corrections to IEEE Std 497- 2002. The corrigendum also incorporates published errata into the document. The stakeholders for the project are 1) organizations designing new nuclear power generating stations, 2) owners of operating nuclear power generating stations, and 3) regulatory agencies. Key Words: accident monitoring, display criteria, selection criteria, type variables Designation: 498-1985 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Requirements for the Calibration and Control of Measuring and Test Equipment Used in Nuclear Facilities Status: Superseded History: PAR APP: Oct 31, 1988, BD APP: Dec 13, 1984, ANSI APP: May 03, 1985 Key Words: measuring, test, equipment, nuclear, facilities Designation: 498-1990 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Requirements for the Calibration and Control of Measuring and Test Equipment Used in Nuclear Facilities Status: Withdrawn Standard. Withdrawn Date: Jun 14, 1995. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of Std 498-1985 History: PAR APP: Oct 20, 1988, BD APP: Dec 06, 1990, ANSI APP: Aug 01, 1991 Abstract: This standard sets forth the requirements for a calibration program to control and verify the accuracy of measuring and test equipment used to ensure that safety systems of a nuclear facility are in conformance with prescribed technical requirements and that data provided by testing, inspection, or maintenance are valid. These requirements also cover modifications and those activities occurring during the operating phase that are comparable in nature and extent to related activities occurring during the initial construction of the facility. Key Words: calibration, records, traceability, measuring, test equipment, nuclear Designation: 499-1997 Sponsor: IEEE Industry Applications Society/Cement Industry Title: IEEE Recommended Practice for Cement Plant Electric Drives and Related Electrical Equipment Status: Approved Publication of IEEE , Published Date: Dec 03, 1997 **Revision of IEEE Std 499-1989. Technical Contact: James L Schaadt, Phone:610-866-4400, Email:jachaadt@fast.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 13, 1994, BD APP: Sep 19, 1997, ANSI APP: Apr 27, 1998 Project Scope: This recommended practice applies to all electric drives including motors, control, and control wiring associated with machinery or equipment commonly used in the manufacturing areas of cement plants. The recommendations made here are intended as a guide and may be supplemented where special needs exist. They are not intended to apply to power distribution circuits. These recommendations apply to electrical equipment having a supply voltage of 13 800 V or less. Voltages higher than this are not covered by this recommended practice. Project Purpose: The purpose of this recommended practice is to define and recommend practice for electric drives and related electrical equipment for installation in the cement industry in order to promote the following: — Safety to personnel and equipment — Maximum reliability with minimum loss of production — Reduced maintenance and increased life of equipment — Clarification of needs and conditions to reduce special engineering and chance of error in specification — Overall economy Abstract: All electric drives, including motors and control wiring associated with machinery or equipment commonly used in the manufacturing areas of cement plants are covered. Recommendations are not intended to apply to power distribution circuits. These recommendations apply to electrical equipment having a supply voltage of 13 800 V or less. Key Words: cement plant, electrical drives, practices Designation: 499 Sponsor: IEEE Industry Applications Society/Cement Industry Title: Recommended Practice for Cement Plant Electric Drives and Related Equipment Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Reinhold A Errath, Phone:41-56-486-8624, Email:reinhold.errath@ch.abb.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 12, 2002 Project Scope: The basic content of 499-1997 standard is very sound and complete. The scope of the revision includes changes initiated by technological advances in the past few years. Project Purpose: The standard is being revised so that the end users will have an up-to-date tool to help them evaulated electric drives and related equipment. Designation: P499 Sponsor: IEEE Industry Applications Society/Cement Industry Title: Recommended Practices for Cement Plant Electric Drives and Related Electrical Equipment Status: Revision Project Technical Contact: James L Schaadt, Phone:610-866-4400, Email:jachaadt@fast.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This recommended practices document applies to all electric drives including motors, control, and control wiring associated with machinery or equipment commonly used in the manufacturing areas of cement plants. The recommendations made here are intended as a guide and may be supplemented where special needs exist. They are not intended to apply to power distribution circuits. These recommendations apply to electrical equipment having a supply voltage of 13 800 V or less. Voltages higher than this are not covered by this recommended practice. Project Purpose: The purpose of this recommended practices document is to define and recommend practice for electric drives and related electrical equipment for installation in the cement industry in order to promote the following: — Safety to personnel and equipment — Maximum reliability with minimum loss of production — Reduced maintenance and increased life of equipment — Clarification of needs and conditions to reduce special engineering and chance of error in specification — Overall economy Designation: 499-1989 Sponsor: IEEE Industry Applications Society/Cement Industry Title: IEEE Recommended Practice for Cement Plant Electric Drives and Related Electrical Equipment Status: Superseded History: PAR APP: Feb 28, 1988, BD APP: Apr 14, 1989, ANSI APP: Sep 13, 1989 Abstract: A recommended practice for electric drives and related electrical equipment for installation in the cement industry is set forth. The recommendations apply to all electric drives and include motors, controls, and control wiring associated with machinery or equipment commonly used in the manufacturing areas of cement plants, but they do not apply to power distribution circuits. The intent is to promote safety for personnel and equipment, maximum reliability with minimum loss of production, reduced maintenance and increased life of equipment, clarification of needs and conditions to reduce special engineering and chance of error in specification, and overall economy. Key Words: electric drives, cement plant, Motor drives, Generators, Cement industry Designation: 499-1983 Sponsor: IEEE Industry Applications Society/Cement Industry Title: Recommended Practices for Cement Plant Electric Drives and Related Electric Equipment Status: Superseded **ANSI Apvd 9/4/84 Key Words: cement, plant, electric, drives Designation: 500 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Guide to the Collection and Presentation of Electrical, Electronic, Sensing Component and Mechanical Equipment Reliability Data for Nuclear Power Generating Stations Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. **Project to revise IEEE Std 500-1984. Technical Contact: Joseph R Fragola, Phone:516-764-5218, Email:fragola@prodigy.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 01, 1989 Project Scope: Develop a statement to be added to the current published version of IEEE Std 500-1984 to indicate that the users of the document should be cautioned that the data included in the document is over ten years old and therefore might be in some cases obsolete or outdated. Project Purpose: To provide a caution to users of information contained in the standard that some of the data might be obsolete or outdated. Designation: 500-1984 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Reaffirmation Status and Year: 1991 Title: IEEE Guide To The Collection And Presentation Of Electrical, Electronic, Sensing Component, And Mechanical Equipment Reliability Data for Nuclear- Power Generating Stations Status: Withdrawn Standard. Withdrawn Date: Dec 09, 1997. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Jun 23, 1983, ANSI APP: May 06, 1992 Abstract: A method of collecting and presenting reliability data for use in nuclear power generating station reliability calculations is established. It applies to reliability data for electric, electronic, sensing component, and mechanical equipment. The objectives of the calculations are: (1) to determine system adequacy; (2)  to evaluate system design alternatives; (3)  to evaluate, or contribute to, the development of system test intervals, maintenance programs, or operating procedures, or all three; and (4) to contribute to probabilistic risk-assessment studies. Key Words: reliability, data, pumps, drivers, valves Designation: 500 P&V-1984 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Standard Reliability Data for Pumps and Drivers, Valve Actuators, and Valves Excerpted from ANSI/IEEE Std 500-1984 Status: Withdrawn Standard. Withdrawn Date: Mar 06, 2000. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Technical Contact: Aris S Candris, Phone:(412) 374-5509 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Jun 23, 1983, ANSI APP: Jun 28, 1984 Abstract: A method of collecting and presenting reliability data for use in nuclear power generating station reliability calculations is established. It applies to reliability data for electrical, electronic, sensing component, and mechanical equipment. The objectives of the calculations are: (1) to determine system adequacy; (2) to evaluate system design alternatives; (3) to evaluate, or contribute to, the development of system test intervals, maintenance programs, or operating procedures, or all three; and (4) to contribute to probabilistic risk-assessment studies. Designation: 502-1985 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Reaffirmation Status and Year: 1998 Title: IEEE Guide for Protection, Interlocking, and Control of Fossil-Fueled Unit-Connected Steam Stations Status: Withdrawn Standard. Withdrawn Date: Jan 09, 2010. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Administratively withdrawn on 9-January-2010. Technical Contact: Joseph R Jancauskas, Phone:937-549-2641X5735, Email:joseph.jancauskas@dplinc.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Sep 22, 1983, ANSI APP: Nov 01, 1985 Project Scope: This guide presents information regarding the essential subsystems that make up a fossil-feuled unit-connected boiler-turbine- generator (BTG) station and describes typical interlocking, control, and protection for operating them in a coordinated order to ensure proper start- up and safe shutdown. The primary purpose of this guide is to provide a basis for (1) Qualitative evaluating of overall design of a unit-connected fossil fuel plant (2) Writing general operating guides of an educational nature, thereby serving to aid in acquainting personnel with boiler-turbine- generator systems. Every new fossil plant will have its own special operating sequence due to the type of equipment installed and its operating company's practices. However, this guide purports to include in one document a description of various cycles in a power plant, their sequence of operation, and protection procedures. The information contained in this guide should be coordinated with manufacturers' recommendations to establish individual plant designs. Abstract: Information regarding the essential subsystems that make up a fossil-fueled unit-connected boiler-turbine-generator (BTG) station is presented. Typical interlocking, control, and protection for operating the subsystems in a coordinated order to ensure proper startup and safe shutdown are described. The primary purpose is to provide a basis for qualitative evaluation of overall design of a unit-connected fossil-fuel plant, and for writing general operating guides of an educational nature to aid in acquainting personnel with boiler-turbine-generator systems. Key Words: protection, interlocking, fossil fuel, unit connected, stations, Power generation Designation: 503-1978 Title: IEEE Standard for Measurement and Characterization of Diode-Type Camera Tubes Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Mar 03, 1977 Key Words: measurement, diode, type, camera, tubes Designation: 505-1977 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Reaffirmation Status and Year: 2001 Title: IEEE Standard Nomenclature for Generating Station Electric Power Systems Status: Approved Publication of IEEE History: BD APP: Mar 11, 1976, ANSI APP: May 06, 1992 Abstract: Electric power systems in stationary generating stations that provide electric power to the power system are covered. Nomenclature is included for the following interrelated systems: generating unit power system, generating unit auxiliaries power system, station auxiliaries power system, generating unit dc auxiliaries power system, and station dc auxiliaries power system. Nomenclature for instrumentation, controls, or auxiliaries is not included. Key Words: nomenclature, generating, electric, power, systems Designation: 505 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: Standard Nomenclature for Generating Station Electric Power Systems Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Robert E Howell, Phone:704-849-9285, Email:rhowell4@carolina.rr.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 23, 1982 Designation: 510-1983 Sponsor: IEEE Power & Energy Society/Power System Instrumentation and Measurements Reaffirmation Status and Year: 1992 Title: IEEE Recommended Practices for Safety in High-Voltage and High-Power Testing Status: Withdrawn Standard. Withdrawn Date: Jan 25, 2005. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Jan2005: Administratively withdrawn. History: BD APP: Sep 17, 1981, ANSI APP: Sep 22, 1992 Abstract: Safety practices for those who are involved with making measurements on high-voltage sources or with high-power sources of various types, including power-system lines, 60-Hz test transformers, direct-voltage supplies, lightning-impulse generators, and switching-impulse generators are recommended. Electrical hazards involved in temporary measurements, as opposed to metering, relaying, or routine line work, are considered. Safety is considered in connection with testing in laboratories, in the field, in substations, and on lines, and with the test equipment utilized. Cable-fault location, large-capacitance-load testing, high- current testing, and direct connection to power lines are treated separately. Key Words: voltage, high, Power cable testing, Electric variables measurement Designation: 511 Sponsor: IEEE Broadcast Technology Society/Audio and Visual Techniques Title: Standard on Video Signal Transmission Measurement of Linear Waveform Distortion Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: James R Redford, Phone:212-664-5222, Email:rick.redford@juno.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jun 21, 2000 Project Scope: The scope of the original STD 511 is for the rapid interpretation of linear (amplitude independent) distortions caused by non ideal (imperfect frequency response and group delay) transmission of primarily, but not limited to, analog composite NTSC (system M) video signals. The results are useful to qualify signals to established proof-of- performance limits and are useful to indicate problems during operational and maintenance tests. Even with the more frequent conversion to digital component form, these measurements may, at least in part, be still valid when the video components are represented as digital data. In particular some of the digital/analog conversion and digital signal processing anomalies manifest themselves as the same linear distortions targeted by this measurement standard. Therefore, the scope of the proposed project is to ammend STD 511's scope and related language within the document to more clearly and specifically cover the affects of analog/digital composite/component video processing on these linear measurements and to include component as well as composite NTSC video. Project Purpose: Although many video signals today are represented as component digital data from content to final production, distribution is still largely analog composite NTSC. NTSC is not expected to be completely replaced as a video distribution format for at least the next 15 years and will likely exist as an interface format for some time after that. The standard has served well in the largely analog video content of the past but with the many current and future conversions from compressed, component digital video to composite analog NTSC form, certain minor revisions are necessary to avoid ambiguities in test signal definition and interpretation of results caused by the constraints and non-linear effects of the component digital signal formats and composite conversion. The purpose is to revise and update the STD 511 linear waveform distortion measurement standard in use today to test conformance of composite NTSC and component linear-signal distortion to established performance limits. As an example, the committee may find it desirable to add a reference to international recommendation ITU-R BT.1204 with regard to the addition of dither for measuring linear distortions on analog/digital video processing. Designation: 511-1979 Sponsor: IEEE Broadcast Technology Society Title: IEEE Standard on Video Signal Transmission Measurement of Linear Waveform Distortion Status: Withdrawn Standard. Withdrawn Date: Mar 19, 1992. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Dec 14, 1978, ANSI APP: Aug 15, 1980 Key Words: video, signal, transmission, waveform, distortion Designation: 512 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Withdrawn by IEEE. Same as ANSI Z244. Designation: 513 Sponsor: IEEE Power & Energy Society/Transformers Title: Seismic Guide for Power Transformers and Reactors Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Samuel K Oklu, Phone:213-481-4823 **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 28, 1973 Key Words: seismic, guide, power, transformers, reactors Designation: 515-2004 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: IEEE Standard for the Testing, Design, Installation, and Maintenance of Electrical Resistance Heat Tracing for Industrial Applications Status: Approved Publication of IEEE , Published Date: May 14, 2004 **Supersedes 515-1997. Technical Contact: David O Brown, Phone:918-641-7221, Email:dbrown@ionet.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 21, 2000, BD APP: Feb 09, 2004, ANSI APP: Jun 04, 2004 Project Scope: The scope includes specific test requirements for qualifying electrical resistance heating cables and heating devices for use in industrial applications, as well as a basis for electrical and thermal design. Applications include unclassified, and both North American Division and Zone classified areas. Project Purpose: The purpose of this standard is to provide industry with the basic mechanical and electrical requirements for a reliable heating system and to also provide information and requirements for design, installation and maintenance. The standard is being revised for closer harmonization to IEC standards and updated per the 5-year review cycle. Abstract: "IEEE 515-2004 IEEE Standard for the Testing, Design, Installation, and Maintenance of Electrical Resistance Heat Tracing for Industrial Applications" Key Words: "constant wattage heaters,electrical design,heating cable,heat loss,heat tracing,parallel heating cables,pipelines,series heating cables, self-regulating heating cables,surface heating devices,thermal design,vessel heater" Designation: 515-1997 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: IEEE Standard for the Testing, Design, Installation and Maintenance of Electrical Resistance Heat Tracing for Industrial Applications Status: Superseded **Revision of IEEE Std 515-1989. Superseded by 515-2004. History: PAR APP: Jun 17, 1993, BD APP: Mar 20, 1997, ANSI APP: Aug 20, 1997 Project Scope: Provide specific test requirements for qualifying electrical resistance heating cable for industrial applications, and provide a basis for electrical and thermal design. Applications include unclassified, Class I, Class II and Division I and Division 2 areas. Project Purpose: 1. Revise standard per five year review cycle and 2. Revise style to conform to new style manual and international requirements with the intent of submitting as an international standard. Abstract: The specific test requirements for qualifying electrical resistance heating cables for industrial service are provided, as well as the basis for electrical and thermal design. Heating device characteristics are addressed, and installation and maintenance requirements are detailed. Heating cable and surface heating device application recommendations and requirements are made for ordinary (unclassified) and hazardous (classified) potentially flammable atmospheres and locations. Key Words: electrical design, heat tracing, pipelines, series heating cables, surface heating devices, thermal design Designation: 515-1989 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: IEEE Recommended Practice for the Testing, Design, Installation, and Maintenance of Electrical Resistance Heat Tracing for Industrial Applications Status: Superseded **Revision of IEEE Std 515-1983. History: BD APP: Aug 30, 1989, ANSI APP: Jan 25, 1990 Abstract: This standard provides the specific test requirements for qualifying electrical resistance heating cables for industrial service, and provides the basis for electrical and thermal design. Heater characteristics are addressed, and installation and maintenance requirements are detailed. Recommendations and requirements are made for unclassed, Class I, Division 2, and Class I, Division 1 heating cable applications. Key Words: electrical resistance, heat tracing, industrial , maintenance, Process heating, Cables Designation: 515-1983 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Recommended Practice for Electrical Resistance Heat Tracing Status: Superseded History: PAR APP: Dec 28, 1984 Key Words: electrical, resistance, heat, tracing Designation: 515 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Standard for the Testing, Design, Installation, and Maintenance of Electrical Resistance Heat Tracing for Industrial Applications Status: Superseded Project Scope: The scope includes specific test requirements for qualifying electrical resistance heating cables and heating devices for use in industrial applications, as well as a basis for electrical and thermal design. Applications include unclassified, and both North American Division and Zone classified areas. Project Purpose: The purpose of this standard is to provide industry with the basic mechanical and electrical performance requirements for a reliable heating system. This standard also provides information and requirements for design, installation, and maintenance. Designation: 515.1-2005 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Standard for the Testing, Design, Installation, and Maintenance of Electrical Resistance Heat Tracing for Commercial Applications Status: Approved Publication of IEEE , Published Date: May 08, 2006 Technical Contact: Wayne Williams, Phone:650-474-7964, Email:wwilliams@tycothermal.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 26, 1999, BD APP: Nov 08, 2005, ANSI APP: Mar 16, 2006 Project Scope: This standard provides test criteria to determine the suitability of heating devices and fittings that are used for commercial applications. The standard also includes detailed recommendations for the design,installation, and maintenance of electrical resistance heat tracing in these applications. Commercial applications include installations both inside and outside commercial business buildings, such as office buildings, hospitals, and airports. Typical applications include freeze protection of water pipes; temperature maintenance of hot water piping and other lines and tubing; protection of sprinkler systems; roof, gutter, and pavement deicing; and other applications as shown in Table 1 in 4.1. Commercial applications involving hazardous (classified) locations shall also meet the relevant hazardous location requirements in IEEE Std 515 as well as any other applicable codes and standards. Project Purpose: The provisions of this standard should ensure that adequate material temperatures are maintained and that electrical, thermal, mechanical, and water-exclusion durability are provided to the heat tracing system. In addition, it should provide that under normal use, the products will exhibit long-term performance reliability without damage to the user or surroundings. This standard is a supplement to those provisions outlined in National Electrical Code® (NEC®) (NFPA 70), Articles 426 and 427. Abstract: Specific test requirements for qualifying electrical resistance heat tracing for commercial service. A basis for electrical and thermal design is included. Heating device characteristics are addressed, and installation and maintenance requirements are detailed. Recommendations and requirements for unclassified heating device applications are provided. Key Words: deicing, design, electrical resistance, floor warming, freeze protection, frost heave, heat tracing, heater, heating cable, heating device, installation, maintenance, snow melting, testing Designation: P515.1 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: Standard for the Testing, Design, Installation, and Maintenance of Electrical Resistance Heat Tracing for Commercial Applications Status: Revision Project Project Scope: This standard provides test criteria to determine the suitability of heating devices and fittings that are used for commercial applications. The standard also includes detailed recommendations for the design,installation, and maintenance of electrical resistance heat tracing in these applications. Commercial applications include installations both inside and outside commercial business buildings, such as office buildings, hospitals, and airports. Typical applications include freeze protection of water pipes; temperature maintenance of hot water piping and other lines and tubing; protection of sprinkler systems; roof, gutter, and pavement deicing; and other applications as shown in Table 1 in 4.1. Commercial applications involving hazardous (classified) locations shall also meet the relevant hazardous location requirements in IEEE Std 515 as well as any other applicable codes and standards. Project Purpose: The provisions of this standard should ensure that adequate material temperatures are maintained and that electrical, thermal, mechanical, and water-exclusion durability are provided to the heat tracing system. In addition, it should provide that under normal use, the products will exhibit long-term performance reliability without damage to the user or surroundings. This standard is a supplement to those provisions outlined in National Electrical Code® (NEC®) (NFPA 70), Articles 426 and 427. Designation: 515.1-1995 Sponsor: IEEE Industry Applications Society/Petroleum & Chemical Industry Title: IEEE Recommended Practice for the Testing, Design, Installation, and Maintenance of Electrical Resistance Heat Tracing for Commercial Applications Status: Superseded History: PAR APP: Sep 17, 1992, BD APP: Jun 14, 1995, ANSI APP: Oct 03, 1996 Abstract: Specific test requirements for qualifying electrical resistance heating cables for commercial service and a basis for electrical and thermal design are provided. Heater characteristics are addressed and installation and maintenance requirements are detailed. Recommendations and requirements for unclassified heating cable applications are provided. Key Words: design, electrical resistance, heater, heating cable, heat tracing, installation, maintenance, testing Designation: 516-2003 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: IEEE Guide for Maintenance Methods on Energized Power Lines Status: Superseded **Supersedes 516-1995. Superseded by 516-2009. Technical Contact: Charles W Grose, Phone:727-773-9076, Email:cwgrose@att.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 18, 1999, BD APP: Jan 29, 2003, ANSI APP: Apr 22, 2003 Project Scope: This document provides general recommendations for performing maintenance work on energized power lines. Project Purpose: The purpose of this Guide is to present details of some of the methods presently in use to enable the safe performance of energized line maintenance. It will provide guidance for establishing a safe work area, taking into consideration the physical effects on personnel. Abstract: IEEE Std 516 -2003 IEEE Guide for Maintenance Methods on Energized Power Lines Key Words: "energized, equipment, maintenance, power lines, tools" Designation: 516-1995 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: IEEE Guide for Maintenance Methods on Energized Power Lines Status: Superseded **Revision of IEEE Std 516-1987. Superseded by 516-2003. History: PAR APP: Sep 28, 1990, BD APP: Mar 16, 1995, ANSI APP: Aug 24, 1995 Abstract: General recommendations for performing maintenance work on energized power lines are provided. Technical explanations as required to cover certain laboratory testing of tools and equipment, field maintenance and care of tools and equipment, and work methods for the maintenance of energized lines and for persons working in the vicinity of energized lines are included. Key Words: energized, equipment, maintenance, power lines, tools Designation: 516 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: Guide for Maintenance Methods on Energized Power Lines Status: Superseded Technical Contact: Charles W Grose, Phone:727-773-9076, Email:cwgrose@att.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 22, 2005 Project Scope: This guide provides the general recommendations for performing maintenance work on energized power lines. It is not intended to include all of the proven practical methods and procedures, however, these selected comprehensive recommendations are based on sound engineering principles, engineering safety considerations, and field experience by many utilities. Included are technical explanations as required to cover certain laboratory testing of tools and equipment, in-service inspection, maintenance and care of tools and equipment, and work methods of the maintenance of energized lines for persons working in vicinity of power lines. Project Purpose: The purpose of this guide is to a) Present, in one guide, sufficient details of some the methods and equipment presently in use to enable the performance of safe, energized line maintenance. b)Direct attention to appropriate standards and other documents for the acquisition of knowledge on the inspection, care, and use of required tools and equipment. c) Provide guidance for establishing a safe work area, taking into consideration the physical effects of the work area on personnel. It is not intended that this guide should replace present proven utility practices or imply that these recommendations are superior to existing practices and, therefore, should be universally adopted as utility standards. This compilation of many accepted practices is presented specifically in the form of a guide to be used by those electric utilities and agencies that are seeking guidance in establishing methods and procedures for maintenance of energized power lines. Designation: 516 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: Guide for Maintenance Methods on Energized Power Lines Status: Superseded Technical Contact: Charles W Grose, Phone:727-773-9076, Email:cwgrose@att.net **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. Project Scope: This guide provides the general recommendations for performing maintenance work on energized power lines. It is not intended to include all of the proven practical methods and procedures, however, these selected comprehensive recommendations are based on sound engineering principles, engineering safety considerations, and field experience by many utilities. Included are technical explanations as required to cover certain laboratory testing of tools and equipment, in-service inspection, maintenance and care of tools and equipment, and work methods of the maintenance of energized lines for persons working in vicinity of power lines. Project Purpose: The purpose of this guide is to a) Present, in one guide, sufficient details of some the methods and equipment presently in use to enable the performance of energized line maintenance with maximum safety. b)Direct attention to appropriate standards and other documents for the acquisition of knowledge on the inspection, care, and use of required tools and equipment. c) Provide guidance for establishing an appropriate work area, taking into consideration safety and the physical effects of the work area on personnel. It is not intended that this guide should replace present proven utility practices or imply that these recommendations are superior to existing practices and, therefore, should be universally adopted as utility standards. This compilation of many accepted practices is presented specifically in the form of a guide to be used by those electric utilities and agencies that are seeking guidance in establishing methods and procedures for maintenance of energized power lines. Designation: 516-1987 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: IEEE Guide for Maintenance Methods on Energized Power-Lines Status: Withdrawn Standard. Withdrawn Date: Dec 02, 1993. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Dec 10, 1987, ANSI APP: Aug 18, 1988 Key Words: maintenance, methods, energized, power, lines Designation: 517-1974 Sponsor: IEEE Aerospace and Electronic Systems Society/Gyro Accelerometer Panel Reaffirmation Status and Year: 2005 Title: IEEE Standard Specification Format Guide and Test Procedure for Single- Degree-of-Freedom Rate-Integrating Gyros Status: Approved Publication of IEEE , Published Date: Oct 17, 1974 **IEEE Std 529-1980 is a supplement to this std. Technical Contact: Randall K Curey, Phone:818-712-7131, Email:randall.curey@ngc.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Dec 13, 1973, ANSI APP: May 30, 1983 Abstract: A specification format guide for the preparation of a rate-integrating gyro specification that provides a common meeting ground of terminology and practice for manufacturers and users is presented. A compilation of recommended procedures for testing a rate-integrating gyro is given. Key Words: single, degree, freedom, intergrating, gyros, Gyroscopes Designation: 518 Title: Guide for the Installation of Electrical Equipment to Minimize Electrical Noise Inputs to Controllers from External Sources Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. History: PAR APP: Dec 05, 1991 Designation: 518-1982 Sponsor: Industrial Automation & Control Reaffirmation Status and Year: 1996 Title: IEEE Guide for the Installation of Electrical Equipment to Minimize Electrical Noise Inputs to Controllers from External Sources Status: Withdrawn Standard. Withdrawn Date: Jan 10, 2002. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Revision of IEEE Std 518-1977. Technical Contact: Steven A Larson, Phone:865-574-3201, Email:s.larson@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Dec 17, 1981, ANSI APP: Oct 22, 1990 Abstract: Techniques for the installation and operation of industrial controllers, so as to minimize the disturbing effects of electrical noise on these controllers, are addressed. The identification of noise in control circuits and the classification of noise are discussed. A systems approach to noise reduction is presented. Installation recommendations and wiring practices are covered. Key Words: electrical, equipment, minimize, noise, inputs, Wiring, Electromagnetic interference, Control systems Designation: 519-1992 Sponsor: Industrial Power Converter Title: IEEE Recommended Practices and Requirements for Harmonic Control in Electrical Power Systems Status: Approved Publication of IEEE , Published Date: Apr 09, 1993 **Mar04-Withdrawn by ANSI as overage. Technical Contact: Allan Ludbrook, Phone:905-628-0024, Email:a.ludbrook@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Mar 13, 1986, BD APP: Jun 18, 1992, ANSI APP: Jan 04, 1993 Abstract: This guide applies to all types of static power converters used in industrial and commercial power systems. The problems involved in the harmonic control and reactive compensation of such converters are addressed, and an application guide is provided. Limits of disturbances to the ac power distribution system that affect other equipment and communications are recommended. This guide is not intended to cover the effect of radio frequency interference. Key Words: Reactive power compensation, Harmonics, Harmonic control Designation: 519 Sponsor: Industrial Power Converter Title: Recommended Practices and Requirements for Harmonic Control in Electrical Power Systems Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: S Mark Halpin, Phone:334-844-1824, Email:halpin@eng.auburn.edu **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 16, 1997 Project Scope: This standard will establish limits for the steady state and transient harmonic content of a) current drawn from a utility by a user, b) voltage supplied to a user by a utility, c) voltage on the user's busses, d) current drawn by individual items of equipment on a stand-alone basis, e) limits for voltage notching and ringing on user and utility busses. It will recommend a) methods for calculating harmonic spectra of common loads. It will provide a) application advice for the use of passive and active harmonic filters. It will provide information on: harmonic analysis methods, the effects of harmonics on equipment, system response characteristics, and on definitions and letter symbols. Project Purpose: The work is being done because of deficiencies in the existing standard, especially in relation to limits to notches and converters with pulse numbers greater than 6. Designation: P519 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: Recommended Practices and Requirements for Harmonic Control in Electric Power Systems Status: Revision Project Technical Contact: S Mark Halpin, Phone:334-844-1824, Email:halpin@eng.auburn.edu **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 08, 2004 Project Scope: This recommended practice establishes goals for the design of electrical systems that include both linear and nonlinear loads. The voltage and current waveforms that may exist throughout the system are summarized and waveform distortion goals for the system designer are established. The interface between sources and loads is described as the point of common coupling; and observance of the design goals will minimize interference between electrical equipment. This recommended practice addresses steady- state limitation. Transient conditions exceeding these limitations may be encountered. This document sets the quality of power that is to be provided at the point of common coupling and is not intended for application to individual pieces of electrical equipment. This document does not cover the effects of radio-frequency interference; however, it does include electromagnetic interference with communication systems. Project Purpose: This revision includes the significant experience gained in the last 15 years with regard to power system harmoncs, their effects on power equipment, and how they should be limited. In addition, this document contains certain material dedicated to the harmonization of IEEE and other international standards where possible. Designation: 519-1981 Sponsor: Industrial Power Converter Title: IEEE Guide for Harmonic Control and Reactive Compensation of Static Power Convertors Status: Superseded History: BD APP: Dec 20, 1979, ANSI APP: Apr 29, 1983 Designation: 519.1 Sponsor: SASB/SCC22- Title: Guide for Applying Harmonic Limits on Power Systems Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Mark F McGranaghan, Phone:865-218-8029, Email:m.mcgranaghan@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 17, 1994 Project Scope: The lastest revision of IEEE Std 519 addresses the need for harmonic control on the power system. Important sources of harmonics are described along with methods to analyze system response characteristics. Harmonic limits are proposed for both the electricity supplier and the electricity customer. The limits for the comsumer are in the form of harmonic current generation limits at the point of common coupling. The electricity supplier limits are in the form of voltage distortion limits. This document will use the proposed limits in IEEE 519 as a starting point and describe methodologies for implementing these limits. Specifically, the document will accomplish the following objectives: 1. Identify methods for measuring harmonic generation by specific nonlinear loads. Provide typical harmonic characteristics and important factors affecting the harmonic generation. 2. Provide methods for evaluating harmonic levels at the point of common coupling (PCC). The concepts of the PPC, direction of harmonic current flow, the maximum demand load current, the short circuit ration (SCR), and the total demand distortion (TDD) will all be described and defined. Measurement procedures for evaluating both the harmonic currents and voltage distortion at the PCC will be described in particular. Statistical procedures for evaluating these harmonic levels will be presented. 3. Provide methods for evaluating expected harmonic levels at new customers. Methods to estimate harmonic currents for combinations of loads will be presented and procedures for evaluating these currents with respect to the harmonic limits will be described. 4. Describe methods for harmonic control at individual customers and on the overall system. Filter design procedures for individual customers, taking into account concerns for interaction with the power system, will be presented. Alternative methods for controlling harmonics in a customer facility will also by described. Filter design for harmonic voltage control on the overall power system will also be described. 5. Describe methods for ongoing harmonic performance monitoring and evaluations. This will include statistical procedures for characterizing harmonic levels and the role of simulations in assessing system performance. 6. Provide example of IEEE-519 application for a range of different customer types and system characteristics. Project Purpose: Provide guidelines for implementation of harmonic limits for individual customers and for the overall power system. Designation: 519.1 Sponsor: SASB/SCC22- Title: Guide for Applying Harmonic Limits on Power Systems Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Mark F McGranaghan, Phone:865-218-8029, Email:m.mcgranaghan@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Dec 10, 2003 Project Scope: IEEE Standard 519-1992, IEEE Recommended Practices and Requirements for Harmonic Control in Electrical Power Systems, provides procedures for controlling harmonics on the power system along with recommended limits for customer harmonic injection and overall power system harmonic levels. This document provides example applications of the procedures and limits in IEEE 519-1992. Project Purpose: This guide will provide examples and suggestions for developing and implementing harmonic limits throughout the electric power system. This assists utilities and building owners. Designation: 519a Sponsor: SASB/SCC22- Title: Guide for Applying Harmonic Limits on Power Systems Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. History: PAR APP: Mar 17, 1994 Project Scope: The lastest revision of IEEE Std 519 addresses the need for harmonic control on the power system. Important sources of harmonics are described along with methods to analyze system response characteristics. Harmonic limits are proposed for both the electricity supplier and the electricity customer. The limits for the comsumer are in the form of harmonic current generation limits at the point of common coupling. The electricity supplier limits are in the form of voltage distortion limits. This document will use the proposed limits in IEEE 519 as a starting point and describe methodologies for implementing these limits. Specifically, the document will accomplish the following objectives: 1. Identify methods for measuring harmonic generation by specific nonlinear loads. Provide typical harmonic characteristics and important factors affecting the harmonic generation. 2. Provide methods for evaluating harmonic levels at the point of common coupling (PCC). The concepts of the PPC, direction of harmonic current flow, the maximum demand load current, the short circuit ration (SCR), and the total demand distortion (TDD) will all be described and defined. Measurement procedures for evaluating both the harmonic currents and voltage distortion at the PCC will be described in particular. Statistical procedures for evaluating these harmonic levels will be presented. 3. Provide methods for evaluating expected harmonic levels at new customers. Methods to estimate harmonic currents for combinations of loads will be presented and procedures for evaluating these currents with respect to the harmonic limits will be described. 4. Describe methods for harmonic control at individual customers and on the overall system. Filter design procedures for individual customers, taking into account concerns for interaction with the power system, will be presented. Alternative methods for controlling harmonics in a customer facility will also by described. Filter design for harmonic voltage control on the overall power system will also be described. 5. Describe methods for ongoing harmonic performance monitoring and evaluations. This will include statistical procedures for characterizing harmonic levels and the role of simulations in assessing system performance. 6. Provide example of IEEE-519 application for a range of different customer types and system characteristics. Project Purpose: Provide guidelines for implementation of harmonic limits for individual customers and for the overall power system. Designation: 521-2002 Sponsor: IEEE Aerospace and Electronic Systems Society/Radar Systems Panel Reaffirmation Status and Year: 2009 Title: IEEE Standard Letter Designations for Radar-Frequency Bands Status: Approved Publication of IEEE , Published Date: Jan 08, 2003 **Supersedes 521-1984 (R1989). Technical Contact: Joseph Bruder, Phone:770-528-7745, Email:joe.bruder@gtri.gatech.edu **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jan 30, 2000, BD APP: Sep 12, 2002, ANSI APP: Nov 09, 2009 Project Scope: Radar systems operate in frequency bands that since World War II have been identified by letter designations. To recognize and preserve accepted usage, the proposed revision would re-affirm the letter designations for radar, revising the current standard to update it regarding current International Telecommunication Union (ITU) radar band allocations and comments. No change in scope from the current standard is anticipated. Project Purpose: The purpose of the proposed project is to reaffirm the use of letter band designations for radar-frequency bands, and to update and correct the notes referring to the letter band designations in this standard. Because of recent changes in the ITU regulations, some of the notes need to be updated, and changed to correctly reflect the current frequency allocations. No change in purpose from the current standard is anticipated. Abstract: " The Standard Letter Designations for Radar-Frequency Bands was first issued in 1976and was written to remove the confusion that developed from the misapplication to radar of letterband designations of other microwave frequency users. This standard relates the letter terms incommon usage to the frequency ranges that they represent. The 1984 revision defined the applica-tion V and W to a portion of the millimeter wave region while retaining the previous letter designatorsfor frequencies. The current (2002) revision keeps the same letter band designations, includes achange in the definition of millimeter wave frequencies to conform to the ITU designation, and re-vises the notes to Table 1. Table 1 has been modified for international applications by including Re-gions 1 and 3 in addition to Region 2." Key Words: "frequency, letter band, radar" Designation: 521-1984 Sponsor: IEEE Aerospace and Electronic Systems Society/Radar Systems Panel Reaffirmation Status and Year: 1989 Title: IEEE Standard Letter Designations for Radar-Frequency Bands Status: Superseded **Revision of IEEE Std 521-1976. Superseded by 521-2002. History: PAR APP: Mar 05, 1981, BD APP: Mar 22, 1984, ANSI APP: Feb 19, 1985 Abstract: IEEE Std 521-1984 (Revision of IEEE Std 521-1976) IEEE Standard Letter Designations for Radar-Frequency Bands Key Words: "Since World War II, radar systems engineers have used letter designations as a short notation for describing the frequency band of operation. This usage has continued throughout the years and is now an accepted practice of radar engineers. Radar-frequency" Designation: 522-2004 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 2009 Title: IEEE Guide for Testing Turn Insulation of Form-Wound Stator Coils for Alternating-Current Electric Machines Status: Approved Publication of IEEE , Published Date: Aug 09, 2004 **Supersedes 522-1992 (R1998). Technical Contact: Charles A Wilson, Phone:+1-512-869-8451, Email:229@ieee.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 06, 2001, BD APP: Feb 09, 2004, ANSI APP: May 12, 2004 Project Scope: The purpose of this guide is to make suggestions on testing the dielectric strength of the insulation separating the various turns from each other within multiturn form-wound coils to determine the acceptability of the coils. Typical ratings of machines employing such coils normally lie within the range of 200 kW to 100 MW. Test voltage levels described herein do not evaluate the ability of the turn insulation to withstand abnormal voltage surges, as contrasted to surges associated with normal operation. These suggestions apply to: (1) Individual stator coils after manufacture (2) Coils in completely wound stators of original manufacture (3) Coils and windings for rewinds of used machinery (4) Windings of machines in service to determine their suitability for further service (preventive- maintenance testing) The repetitive voltage surges (spikes) associated with Variable Frequency Drives (VFD's) are also not addressed here. Project Purpose: The purpose of this publication is to: (1) Define surge / impulse testing as applied to the windings of an electric machine; (2) Review the service conditions which affect or change voltage levels in a coil; (3) Recommend devices suitable for measuring surges, with precautions to avoid erroneous results; (4) Describe various points at which surge testing should be performed; (5) Present suggested surge test levels for various types of electric machines. Abstract: Suggestions are made for testing the dielectric strength of the insulation separating the various turns from each other within multiturn form-wound coils to determine their acceptability. Typical ratings of machines employing such coils normally lie within the range of 200 kW to 100 mW (270 hp to 135 000 hp). The test levels described do not evaluate the ability of the turn insulation to withstand abnormal voltage surges, only surges associated with normal operation. The suggestions apply to: (1) individual stator coils after manufacture; (2) coils in completely wound stators; (3) coils and windings for rewinds of used machinery; and (4) windings of machines in service to determine their suitability for further service (preventive- maintenance testing). Coil service conditions, test devices, and test sequence are discussed. Key Words: ac machines, impulses, surges, testing turn insulation, transients Designation: 522-1992 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1998 Title: IEEE Guide for Testing Turn-to-Turn Insulation on Form-Wound Stator Coils for Alternating-Current Rotating Electric Machines Status: Superseded **Revision of IEEE Std 522-1977. Superseded by 522-2004. History: PAR APP: Jun 28, 1979, BD APP: Jun 18, 1992, ANSI APP: Jan 04, 1993 Abstract: Suggestions are made for testing the dielectric strength of the insulation separating the various turns from each other within multiturn form-wound coils to determine their acceptability. Typical ratings of machines employing such coils normally lie within the range of 200 kW to 100 MW. The test voltage levels described do not evaluate the ability of the turn insulation to withstand abnormal voltage surges, as contrasted to surges associated with normal operation. The suggestions apply to: (1) individual stator coils after manufacture; (2) coils in completely wound stators of original manufacture; (3) coils and windings for rewinds of used machinery; and (4) windings of machines in service to determine their suitability for further service (preventive-maintenance testing). Coil service conditions, test devices, and test sequence are discussed. High-frequency test levels for new coils during winding, and for applying surge tests to complete windings, are given. Key Words: ac machines, rotating machine, insulation testing, Power system transients Designation: 522-1977 Sponsor: IEEE Power & Energy Society/Electric Machinery Reaffirmation Status and Year: 1981 Title: IEEE Guide for Testing Turn-to-Turn Insulation on Form-Wound Stator Coils for Alternating-Current Rotating Electric Machines - For Trial Use Status: Superseded **Correlate w/792 History: BD APP: Jun 03, 1976 Key Words: testing, turn, insulation, electric, machines Designation: 523 Sponsor: IEEE Power & Energy Society/Transformers Title: Control of Transformer Sound See Status: Superseded **See C57.112 History: PAR APP: Dec 28, 1973 Key Words: control, transformer, sound Designation: 524-2003 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: IEEE Guide to the Installation of Overhead Transmission Line Conductors Status: Approved Publication of IEEE , Published Date: Mar 11, 2004 **Supersedes 524-1992 (R1997) and 524a-1993 (R1998). Technical Contact: Frank Ferracane, Phone:217 362 6322, Email:fferracane@ameren.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 21, 2000, BD APP: Oct 17, 2003, ANSI APP: Dec 29, 2003 Project Scope: This guide provides general recommendations for the selection of methods, equipment, and tools that have been found to be practical for the stringing and grounding of overhead transmission line conductors, overhead groundwires and fiber optic cables. The guide also includes a comprehensive list of definitions for equipment and tools used in stringing and for stringing terms commonly employed. This guide does not address special conductors such as those used for river and canyon crossing. These conductors may be custom designed and may often require special considerations. Installation of overhead conductors for distributions circuits generally involves similar conditions; however, the specific recommendations of this guide have not been developed to include all situations encountered at distribution voltages. Project Purpose: The purpose of this guide is to present in one document sufficient details of present day methods, materials, and equipment to outline the basic considerations necessary for maintaining safe and adequate control and grounding of conductors during stringing operations. References are given for those desiring more detailed information. Because the terminology used for many hardware items and for many stringing terms varies from place to place, a list of definitions is included to provide correlation and clarification of the terms most commonly employed. Abstract: IEEE Std 524-2003 IEEE Guide to the Installation of Overhead Transmission Line Conductors Key Words: "overhead transmission line conductors, overhead groundwires" Designation: 524-1992 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Reaffirmation Status and Year: 1997 Title: IEEE Guide to the Installation of Overhead Transmission Line Conductors Status: Superseded **Revision of IEEE Std 524-1980. Superseded by 524-2003. History: PAR APP: Sep 18, 1986, BD APP: Jun 18, 1992, ANSI APP: Jan 04, 1993 Project Scope: This guide provides general recommendations for the selection of methods, equipment and tools that have been found practical for the stringing of overhead groundwires. The guide also includes a comprehensive list of definitions for equipment and tools used in stringing and for stringing terms commonly employed. Abstract: General recommendations for the selection of methods, equipment, and tools that have been found to be practical for the stringing of overhead transmission line conductors and overhead groundwires are provided. The aim is to present in one document sufficient details of present day methods, materials, and equipment to outline the basic considerations necessary to maintain safe and adequate control of conductors during stringing operations. Key Words: guide, overhead, conductors, Terminology, Power transmission lines, Power cable installation, Grounding Designation: 524-1980 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: IEEE Guide to the Installation of Overhead Transmission Line Conductors Status: Superseded History: BD APP: Dec 14, 1978, ANSI APP: Apr 29, 1983 Key Words: installation, transmission, line, conductors Designation: 524a-1993 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Reaffirmation Status and Year: 1998 Title: IEEE Guide to Grounding During the Installation of Overhead Transmission Line Conductors Status: Superseded **Supplement to IEEE Std 524-1992. Superseded by 524-2003. History: PAR APP: Jun 27, 1991, BD APP: Dec 02, 1993, ANSI APP: Jun 03, 1994 Abstract: The design, installation, and protection of wire and cable systems in substations are considered, with the objective of minimizing failures and their consequences. The purpose is to give direction to the substation engineer in established practices for the application and installation of metallic cables in electric power transmission and distribution substations. This guide emphasizes reliable electrical service during the design life of the substation. It does not apply to wire and cable systems in generating stations. Key Words: conductor stringing, grounding equipment, grounding practices, overhead transmision, line conductors, protective grounding Designation: 525-2007/Cor 1-2008 Sponsor: IEEE Power & Energy Society/Substations Title: IEEE Guide for the Design and Installation of Cable Systems in Substations - Corrigendum 1 Status: Approved Publication of IEEE , Published Date: Apr 02, 2008 Technical Contact: Hanna E Abdallah, Phone:602-371-6524, Email:hannaessa.abdallah@aps.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Mar 27, 2008, ANSI APP: Jul 15, 2008 Project Scope: Correcting the axis labels of a figure J1 located in annex J. Project Purpose: to correct a technical error. Designation: 525-2007 Sponsor: IEEE Power & Energy Society/Substations Title: IEEE Guide for the Design and Installation of Cable Systems in Substations Status: Approved Publication of IEEE , Published Date: Apr 02, 2008 **Revision of IEEE Std 525-1992/IncorporatesIEEE Std 525-2007/Cor1:2008 Technical Contact: Hanna E Abdallah, Phone:602-371-6524, Email:hannaessa.abdallah@aps.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Aug 17, 2001, BD APP: Mar 08, 2007, ANSI APP: Sep 19, 2007 Project Scope: This document is a guide for the design, installation, and protection of insulated wire and cable systems in substations with the objective of minimizing cable failures and their consequences. This guide is not an industry standard or a compliance standard. Project Purpose: The purpose of this guide is to provide guidance to the substation engineer in established practices for the application and installation of metallic and optical cables in electric power transmission and distribution substations with the objective of minimizing premature cable failures and their consequences. This guide emphasizes reliable electrical service and safety during the design life of the substation. Regarding cable performance, no single cable characteristic should be emphasized to the serious detriment of others. In addition to good installation, design, and construction practices, a balance of cable characteristics is necessary to provide a reliable cable system. Solutions presented in this guide may not represent the only acceptable practices for resolving problems. This guide should not be referred to or used as an industry standard. It is being presented to aid in the development of wire and cable system installations and is not a compliance standard. Abstract: The design, installation, and protection of wire and cable systems in substations are covered in this guide, with the objective of minimizing cable failures and their consequences. Key Words: 525-2007, acceptance testing, cable, cable installation, cable selection, communication cable, electrical segregation, fiber-optic cable, handling, power cable, pulling tension, raceway, recommended maintenance, routing, separation of redundant cable, service conditions, substation, transient protection Designation: 525-1992 Sponsor: IEEE Power & Energy Society/Substations Reaffirmation Status and Year: 1999 Title: IEEE Guide for the Design and Installation of Cable Systems in Substations Status: Superseded **Revision of IEEE Std 525-1987. Technical Contact: Alan E Kollar, Phone:330-384-5552, Email:kollara@firstenergycorp.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Sep 26, 1991, BD APP: Sep 17, 1992, ANSI APP: Feb 23, 1993 Abstract: Guidance for the design, installation, and protection of wire and cable systems in substations with the objective of minimizing cable failures and their consequences is provided. The design of wire and cable systems in generating stations is not covered. Key Words: cable, installation, testing, fire protection, raceway, substations, wire cable shield Designation: 525-1987 Sponsor: IEEE Power & Energy Society/Substations Title: IEEE Guide for the Design and Installation of Cable Systems in Substations Status: Superseded History: BD APP: Sep 10, 1987, ANSI APP: Feb 09, 1988 Key Words: design, installation, cable, systems, substations Designation: 526 Sponsor: IEEE Power & Energy Society/Power System Relaying Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 528-2001 Sponsor: IEEE Aerospace and Electronic Systems Society/Gyro Accelerometer Panel Reaffirmation Status and Year: 2007 Title: IEEE Standard for Inertial Sensor Terminology Status: Approved Publication of IEEE , Published Date: Nov 29, 2001 **Supersedes 528-1994. Technical Contact: Michael E Ash, Phone:617-258-2884, Email:mash@draper.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Dec 08, 1998, BD APP: Aug 07, 2001, ANSI APP: Jan 02, 2002 Project Scope: To review all of the definitions included in the standard and to revise them as required. New terminology will be added to bring the document up to date with current technology. Project Purpose: This revision is part of the 5 year review cycle for IEEE Standards. Since the last publication of this standard, three major revisions of, or new, inertial sensor standards have been published by the IEEE AESS Gyro and Accelerometer panel. In addition, sigificant advances have been made in related technology for which new standards are being developed. Abstract: Terms and definitions relating to inertial sensors are presented in this standard. Usage asunderstood by the inertial sensor community is given preference over general technical usage of theterms herein. The criterion for inclusion of a term and its definition in this standard is usefulness asrelated to inertial sensor technology. Key Words: "inertial sensor technology, inertial sensor terminology" Designation: 528-1994 Sponsor: IEEE Aerospace and Electronic Systems Society/Gyro Accelerometer Panel Title: IEEE Standard for Inertial Sensor Terminology Status: Superseded **Revision of IEEE Std 528-1984. Superseded by 528-2001. History: PAR APP: Jun 27, 1991, BD APP: May 04, 1994, ANSI APP: Dec 08, 1994 Abstract: Terms and definitions relating to inertial sensors are presented. Usage as understood by the inertial sensor community is given preference over general technical usage of the terms herein. The criterion for inclusion of a term and its definition in this document is usefulness as related to inertial sensor technology. Key Words: Inertial sensor terminology, Inertial sensor technology Designation: 528-1984 Sponsor: IEEE Aerospace and Electronic Systems Society/Gyro Accelerometer Panel Title: IEEE Standard Inertial Sensor Terminology Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Jun 23, 1983, ANSI APP: Jan 01, 1985 Abstract: 8/90: Will vote to reaffirm/revise by 12/90. Key Words: inertial, sensor, terminology Designation: 529-1980 Sponsor: IEEE Aerospace and Electronic Systems Society/Gyro Accelerometer Panel Reaffirmation Status and Year: 2005 Title: Supplement for Strapdown Applications to IEEE Standard Specification Format Guide and Test Procedure for Single-Degree-of-Freedom Rate- Integrating Gyros Status: Approved Publication of IEEE , Published Date: Jan 29, 1981 **Supplement to IEEE Std 517-1974. Technical Contact: Michael E Ash, Phone:617-258-2884, Email:mash@draper.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: BD APP: Sep 27, 1979, ANSI APP: May 05, 1983 Abstract: A specification format guide for the preparation of a rate-integrating gyroscope specification is presented. Recommended procedures for testing a rate-integrating gyroscope are compiled. This standard, when combined with IEEE Std 517-1974 (R1980), defines the requirements and test procedures in terms of characteristics unique to the gyroscope or those applications in which the dynamic angular inputs are significantly greater than the limitations identified in IEEE Std 517. Key Words: strapdown, single degree, rate integrating , integrating gyro, Testing, Gyroscopes Designation: 530-1978 Sponsor: IEEE Aerospace and Electronic Systems Society/Gyro Accelerometer Panel Reaffirmation Status and Year: 1992 Title: IEEE Standard Specification Format Guide and Test Procedure for Linear, Single-Axis, Digital, Torque-Balance Accelerometer Status: Superseded **Under revision with Std 337; combined revisions will be designated IEEE 1293. Superseded by IEEE 1293-1998. History: BD APP: Mar 09, 1978, ANSI APP: Aug 15, 1980 Abstract: A guide for the preparation of a digital accelerometer specification and test procedure is provided. It is intended to provide common terminology and practice for manufacturers and users. The accelerometer considered utilizes a linear, single-axis, nongyroscopic accelerometer sensor with a permanent magnet torquer. The torquing electronics are considered part of the accelerometer. General design, performance, environmental, and reliability requirements are covered. Information on classification of tests, acceptance tests, qualification tests, reliability tests, standard test conditions, test equipment, test methods, and data submittal is given. Key Words: linear, single axis, digital, torque, accelerometer, Torque measurement, Acceleration measurement Designation: 532-2007 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Guide for Selecting and Testing Jackets for Power, Instrumentation, and Control Cables Status: Approved Publication of IEEE , Published Date: Jan 07, 2008 **Revision of IEEE Std 532-1993 Technical Contact: Paul Caronia, Phone:732-271-7954, Email:caronipj@dow.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 13, 2002, BD APP: Sep 27, 2007, ANSI APP: Mar 24, 2008 Project Scope: This guide covers the selection and testing of jackets and other protective coverings for power, instrumentation, and control cables. It is written for those individuals responsible for optimizing cable designs. The purpose is to present a reasonably complete picture of the role of jackets so that the subject can be approached in an orderly and organized manner. An effort has been made to avoid the highly technical language and theory commonly used by electrical engineers and chemists to discuss the more detailed application of jackets. Project Purpose: The purpose of this guide is to provide cable users guidance in the selection of jackets and protective covers to optimize cable design. A secondary purpose is to present a reasonably complete picture of the types and functions of jackets so that the user can approach the subject in an orderly and logical manner. Abstract: This guide covers properties of commonly used jackets as well as selection and testing of jackets. It is written for those responsible for optimizing cable designs. The purpose is to present a reasonably complete picture of the role of jackets so that the subject can be approached in an orderly and organized manner. An effort has been made to avoid the highly technical language and theory commonly used by electrical engineers and chemists to discuss the more detailed application of jackets. Key Words: 532-2007, cables, jackets, testing Designation: 532 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: Guide for Selecting and Testing Jackets for Underground Cables Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: Kenneth E Bow, Phone:+1 989 695 4659, Email:kblecnslt@consultant.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Jan 30, 2000 Project Scope: Revise the guide which covers the use of jackets and other protective coverings for power cables in underground installations. Project Purpose: Provide cable users guidance in the selection of jackets and protective covers for the purpose of optimizing underground cable installations. A secondary purpose is to present a reasonably complete picture of the types and rules of jackets so that the user can approach the subject in an orderly and logical manner. Designation: 532-1993 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Guide for Selecting and Testing Jackets for Underground Cables Status: Superseded **Revision of IEEE Std 532-1982. Mar04-Withdrawn by ANSI as overage. History: PAR APP: Jun 17, 1993, BD APP: Jun 17, 1993, ANSI APP: Nov 24, 1993 Abstract: This guide covers corrosion protection, properties of commonly used jackets, electrical characteristics of jackets, physical requirements for jackets referenced in industry standards, and selection and testing of jackets. It is written for those responsible for optimizing underground cable installations. The purpose is to present a reasonably complete picture of the role of jackets so that the subject can be approached in an orderly and organized manner. An effort has been made to shun the highly technical language and theory commonly used by electrical engineers, corrosion engineers, and chemists to discuss the more detailed application of jackets. Key Words: cables, jackets, testing, underground cable Designation: 532-1982 Sponsor: IEEE Power & Energy Society/Insulated Conductors Title: IEEE Guide for Selecting and Testing Jackets for Cables Status: Withdrawn Standard. Withdrawn Date: Dec 05, 1991. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: BD APP: Dec 18, 1980, ANSI APP: Apr 29, 1983 Key Words: selecting, testing, jackets, cables Designation: 534 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 535-2006 Sponsor: IEEE Power & Energy Society/Stationary Batteries Committee Title: IEEE Standard for Qualification of Class 1E Lead Storage Batteries for Nuclear Power Generating Stations Status: Approved Publication of IEEE , Published Date: Jun 06, 2007 **Sep-02: Sponsor changed from SCC29 to PE/SB. Technical Contact: Robert R Beavers, Phone:815-416-3812, Email:robert.beavers@exeloncorp.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 16, 1999, BD APP: Dec 06, 2006, ANSI APP: Jun 05, 2007 Project Scope: This standard describes qualification methods for Class 1E vented lead acid batteries and racks to be used in nuclear power generating stations outside primary containment. Qualification required by IEEE Std 308™-20011 or IEEE Std 765™-2002 can be demonstrated by using the procedures in this standard in accordance with IEEE Std 323™-2003. Battery sizing, maintenance, capacity testing, installation, charging equipment, and consideration of other type batteries are beyond the scope of this standard. Project Purpose: The revision will address issues raised on the testing process, provide clarified guidance on battery qualification and revise references from the 1986 issue of the standard. Abstract: Qualification methods for Class 1E vented lead acid batteries and racks to be used in nuclear power generating stations outside primary containment are described in this standard. Key Words: battery, battery aging, battery qualification, battery qualification methods, battery seismic testing, Class 1E battery, qualification, vented lead acid battery Designation: P535 Sponsor: IEEE Power & Energy Society/Stationary Batteries Committee Title: Standard for Qualification of Class 1E Vented Lead Storage Batteries for Nuclear Power Generating Stations Status: Revision Project Project Scope: This standard describes qualification methods for Class 1E vented lead acid batteries and racks to be used in nuclear power generating stations outside primary containment in a mild environment. Qualification required by IEEE Std 308™ or IEEE Std 765™ can be demonstrated by using the procedures in this standard in accordance with IEEE Std 323™. Application of batteries in Nuclear Power Generating Stations can be divided into two sections; duty cycles equal to or less than 8 hours and duty cycles greater than 8 hours. This standard provides a process to demonstrate qualification for both applications. Battery sizing, maintenance, capacity testing, installation, charging equipment, and consideration of other type batteries are beyond the scope of this standard. Project Purpose: The revision will address issues raised on the qualification process for the new passive Nuclear Steam Supply Systems which have duty cycles of 24-72 hours which are much longer than the duty cycles used as the basis for the initial IEEE 535 standard. Designation: 535-1986 Sponsor: IEEE Power & Energy Society/Stationary Batteries Committee Reaffirmation Status and Year: 1994 Title: IEEE Standard for Qualification of Class 1E Lead Storage Batteries for Nuclear Power Generating Stations Status: Superseded **Revision of IEEE Std 535-1979. History: BD APP: Sep 19, 1985, ANSI APP: Feb 28, 1986 Abstract: Qualification methods for Class 1E lead storage batteries and racks to be used in nuclear power generating stations outside of primary containment are described. Principles and methods of qualification, qualification information, qualification by type testing, type tests and analysis procedures, and documentation are covered. Battery sizing, maintenance, capacity testing, installation, charging equipment, and other types of batteries that are beyond the scope of this standard are not considered. Key Words: qualifications, 1E, lead, storage, batteries, Nuclear power generation protection Designation: 539-2005 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: IEEE Standard Definitions of Terms Relating to Corona and Field Effects of Overhead Power Lines Status: Approved Publication of IEEE , Published Date: Sep 16, 2005 **Revision project for IEEE Std 539-1990. Technical Contact: Dave Phillips, Phone:619-553-3057, Email:dave.phillips@navy.mil **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Jun 14, 1995, BD APP: Mar 20, 2005, ANSI APP: Jul 25, 2005 Project Scope: The document defines terms related to the areas of corona and the electromagnetic environment of overhead power lines. Its scope is to define the most widely used terms specific to or associated with overhead power-line corona and fields. This includes terms used in electric and magnetic fields, ions, radio frequency propagation, electromagnetic signals and noise, audible noise, coupled voltages and currents, shock and perception, weather and related statistical terms, and measurements and measuring devices. Project Purpose: The purpose of this standard is to achieve uniformity in the use of terms relating to the areas of corona and the electromagnetic environment of power lines. The standard defines the most widely used terms specific to or associated with overhead power line corona and fields. Abstract: The scope of this standard is to define the most widely used tems specific to or associated with overhead power-line corona and field effects. Key Words: audible noise, corona, electric field, electric field meter, fair weather, field effects, foul weather, freezing rain, magnetic field, perturbed field, radio noise, rain, snow, Trichel streamers, uniform field, wet snow, Designation: 539-1990 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: IEEE Standard Definitions of Terms Relating to Corona and Field Effects of Overhead Power Lines Status: Superseded **Revision of IEEE Std 539-1979. (IEEE Std 539A-1981 was included in revision.) History: PAR APP: Sep 13, 1984, BD APP: Nov 14, 1990, ANSI APP: Mar 29, 1991 Abstract: This standard defines terms related to the areas of corona and the electromagnetic environment of overhead power lines. Its scope is to define the most widely used terms specific to or associated with overhead power-line corona and fields. This includes terms used in electric and magnetic fields, ions, radio frequency propagation, electromagnetic signals and noise, audible noise, coupled voltages and current, shock and perception, weather and related statistical terms, and measurements and measuring devices. Key Words: audible noise, electric field, magnetic field, radio noise, Electromagnetic interference Designation: 539-1979 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: IEEE Standard Definitions of Terms Relating to Overhead-Power-Line Corona and Radio Noise Status: Superseded **Superseded by IEEE 539-1990 History: BD APP: Dec 17, 1981, ANSI APP: Dec 15, 1981 Key Words: overhead, power, lines, radio, noise Designation: 539A-1984 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Title: Supplement to 539 Status: Superseded History: BD APP: Dec 17, 1981, ANSI APP: Dec 15, 1981 Key Words: 539A Designation: 541 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 544-1975 Sponsor: IEEE Instrumentation and Measurement Society Title: IEEE Standard for Electrothermic Power Meters Status: Withdrawn Standard. Withdrawn Date: Dec 06, 1990. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Standard administratively withdrawn 12/6/90. History: BD APP: May 30, 1974 Key Words: standard, electrothermic, power, meters Designation: 545 Sponsor: IEEE Power & Energy Society/Transformers Title: Partial Discharge Corona Tst/Xfrmrs Trial Use Status: Superseded **Approved as IEEE Std C57.113. History: PAR APP: May 28, 1974 Key Words: partial, discharge, corona, test, transformers Designation: 548-1984 Sponsor: IEEE Power & Energy Society/Energy Development & Power Generation Title: IEEE Standard Criteria and Guidelines for the Laboratory Measurement and Reporting of Fly Ash Resistivity Status: Withdrawn Standard. Withdrawn Date: Jan 17, 1997. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Administratively withdrawn by Stds Bd 17 January 1997. Technical Contact: Marco W Migliaro, Phone:732-236-0316, Email:m.migliaro@ieee-isto.org **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: BD APP: Dec 08, 1983, ANSI APP: Jul 26, 1985 Abstract: Uniform criteria and guidelines for laboratory measurement and reporting of fly ash resistivity data obtained in the laboratory are presented. Fly ashes produced from the burning of any rank of coal are covered. Methods for ashing core bore samples of coal that have not been burned previously in a full-scale boiler are considered. Key Words: Resistivity measurement, Power generation, Air Pollution Designation: 551-2006 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: Recommended Practice for Calculating AC Short-Circuit Currents in Industrial and Commercial Power Systems Status: Approved Publication of IEEE , Published Date: Nov 17, 2006 Technical Contact: Jason M MacDowell, Phone:(86 10) 65611166x576, Email:jason.macdowell@ps.ge.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer- service@ieee.org. To purchase this standard, or for pricing and availability go to http://shop.ieee.org/ieeestore and type in the standard number. History: PAR APP: Sep 12, 2002, BD APP: May 09, 2006, ANSI APP: Oct 02, 2006 Project Scope: Electric power systems in industrial plants and commercial and institutional buildings are designed to serve loads in a safe and reliable manner. One of the major considerations in the design of a power system is adequate control of short circuits or faults as they are commonly called. Uncontrolled short-circuits can cause service outage with accompanying production downtime and associated inconvenience, interruption of essential facilities or vital services, extensive equipment damage, personnel injury or fatality, and possible fire damage. Short-circuits are caused by faults in the insulation of a circuit, and in many cases an arc ensues at the point of the fault. Such an arc may be destructive and may constitute a fire hazard. Prolonged duration of arcs, in addition to the heat released, may result in transient overvoltages that may endanger the insulation of equipment in other parts of the system. Clearly, the fault must be quickly removed from the power system, and this is the job of the circuit protective devices—the circuit breakers and fusible switches. A short-circuit current generates heat that is proportional to the square of the current magnitude, I2R. The large amount of heat generated by a short-circuit current may damage the insulation of rotating machinery and apparatus that is connected into the faulted system, including cables, transformers, switches, and circuit breakers. The most immediate danger involved in the heat generated by short-circuit currents is permanent destruction of insulation. This may be followed by actual fusion of the conducting circuit, with resultant additional arcing faults. The heat that is generated by high short-circuit currents tends not only to impair insulating materials to the point of permanent destruction, but also exerts harmful effects upon the contact members in interrupting devices. The small area common between two contact members that are in engagement depends mainly upon the hardness of the contact material and upon the amount of pressure by which they are kept in engagement. Owing to the concentration of the flow of current at the points of contact engagement, the temperatures of these points reached at the times of peak current are very high. As a result of these high spot temperatures, the material of which the contact members are made may soften. If, however, the contact material is caused to melt by excessive I2R losses, there is an imminent danger of welding the contacts together rendering it impossible to separate the contact members when the switch or circuit breaker is called upon to open the circuit. Since it requires very little time to establish thermal equilibrium at the small points of contact engagement, the temperature at these points depends more upon the peak current than upon the rms current. If the peak current is sufficient to cause the contact material to melt, resolidification may occur immediately upon decrease of the current from its peak value. Other important effects of short-circuit currents are the strong electromagnetic forces of attraction and repulsion to which the conductors are subjected when short-circuit currents are present. These forces are proportional to the square of the current and may subject any rotating machinery, transmission, and switching equipment to severe mechanical stresses and strains. The strong electromagnetic forces that high short-circuit currents exert upon equipment can cause deformation in rotational machines, transformer windings, and equipment bus bars, which may fail at a future time. Deformation in breakers and switches will cause alignment and interruption difficulties. Modern interconnected systems involve the operation in parallel of large numbers of synchronous machines, and the stability of such an interconnected system may be greatly impaired if a short-circuit in any part of the system is allowed to prevail. The stability of a system requires short fault clearing times and can be more limiting than the longer time considerations imposed by thermal or mechanical effects on the equipment. Project Purpose: The purpose is to provide information that will facilitate the proper design of electric power circuits such that the equipment is adequately rated and/or protected with respect to short circuit or fault currents, since uncontrolled short circuits can cause a service outage. Abstract: This recommended practice provides short-circuit current information including calculated short-circuit current duties for the application in industrial plants and commercial buildings, at all power system voltages, of power system equipment that senses, carries, or interrupts short-circuit currents. Equipment coverage includes, but should not be limited to, protective device sensors such as series trips and relays, passive equipment that may carry short-circuit current such as bus, cable, reactors and transformers as well as interrupters such as circuit breakers and fuses. Key Words: available fault current, circuit breaker, circuit breaker applications, fuse, power system voltage, reactors, short-circuit applications guides, shortcircuit duties Designation: 551 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: Recommended Practice for Calculating Short Circuit Currents in Industrial and Commercial Power Systems Status: Withdrawn PAR. Standards project no longer endorsed by the IEEE. Technical Contact: L. Guy Jackson, Phone:251-626-6890, Email:gjackson@powerplot.com **For non-technical questions, including pricing, availability and ordering, please contact IEEE Customer Service at 1-800-678-IEEE (in the U.S.and Canada); or 1-732-981-0060 (outside the U.S. and Canada); or send a detail email to customer-service@ieee.org. History: PAR APP: Mar 28, 1981 Project Scope: This recommended practice provides short-circuit current information including calculated short-circuit current duties for the application in industrial plants and commercial buildings, at all power system voltages or power system equipment that senses, carries, or interrupts short circuit currents. Project Purpose: To provide adequate control of short-circuits or faults, as uncontrolled short-circuits can cause service outage with accompanying production downtime and associated inconvenience, interruption of essential facilities or vital services, extensive equipment damage, personnel injury or fatality and possible fire damage. Designation: 562 Sponsor: IEEE Power & Energy Society/Switchgear Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 563-1978 Sponsor: IEEE Power & Energy Society/Transmission and Distribution Reaffirmation Status and Year: 2007 Title: IEEE Guide on Conductor Self-Damping Measurements Status: Approved Publication of IEEE History: BD APP: Mar 03, 1977, ANSI APP: May 21, 1991 Abstract: Methods for measuring the inherent vibration damping characteristics of overhead conductors are presented. The intent is to obtain information in a compatible and consistent form that will provide a reliable basis for studying the vibration and damping of conductors in the future, and for comparing data of various investigators. The methods and procedures recommended are not intended for quality-control test purposes. Key Words: Power system measurements, Power cable mechanical factors Designation: 564 Sponsor: IEEE Industry Applications Society Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. Designation: 566-1977 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: Recommended Practice For the Design of Display and Control Facilities for Central Control Rooms of Nuclear Power Generating Stations Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Withdrawn by Stds Board 3/22/84 Designation: 567-1980 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Trial-Use Standard Criteria for the Design of the Control Room Complex for a Nuclear Power Generating Station Status: Withdrawn Standard. Withdrawn Date: Jun 17, 1993. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **issued for trial use 10/80 Publication type: Trial-Use History: PAR APP: Sep 28, 1980, BD APP: Dec 20, 1979 Key Words: design, control, room, complex, NPGS Designation: 567 Sponsor: IEEE Power & Energy Society/Nuclear Power Engineering Title: IEEE Trial-Use Standard Criteria for the Design of the Control Room Complex for a Nuclear Power Generating Station Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. History: PAR APP: Oct 20, 1988 Designation: 570 Sponsor: IEEE Industry Applications Society/Power Systems Engineering Title: System Voltage Nomenclature Table Status: Withdrawn Standard. No longer endorsed by the IEEE. Available for purchase as archive document from Global Engineering, Phone: 1-800-854-7179, Fax: 303-397-2740. Out side the U.S. call 303-792-2181. **Not pub. Incorporated in 141;100;C84 Key Words: system, voltage, nomenclature, table Designatio