Superseded Standard

IEEE 2030.5-2013

IEEE Adoption of Smart Energy Profile 2.0 Application Protocol Standard

The 'APPLICATION' layer with TCP/IP providing functions in the 'TRANSPORT' and 'INTERNET' layers is defined in this standard. Depending on the physical layer in use (e.g., IEEE 802.15.4(TM), IEEE 802.11(TM), IEEE 1901(TM)), a variety of lower layer protocols may be involved in providing a complete solution. Generally, lower layer protocols are not discussed in this standard except where there is a direct interaction with the application protocol. This standard defines the mechanisms for exchanging application messages, the exact messages exchanged including error messages, and the security features used to protect the application messages. With respect to the OSI network model, this standard is built using the four-layer Internet stack model. The defined application protocol is an IEC 61968 common information model [61968] profile, mapping directly where possible, and using subsets and extensions where needed, and follows an IETF RESTful architecture [REST]. (NOTE: additional files for this standard is available at http://standards.ieee.org/downloads/2030.5/)

Sponsor Committee
COM/PLC - Power Line Communications
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Status
Superseded Standard
PAR Approval
2013-05-10
Superseded by
2030.5-2018
Board Approval
2013-10-31
History
Published:
2013-11-11

Additional Resources

Downloads
2030.5-2013_downloads.zip

Working Group Details

Society
IEEE Communications Society
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Sponsor Committee
COM/PLC - Power Line Communications
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Working Group
SEP2 - Smart Energy Profile 2.0
IEEE Program Manager
Jennifer Santulli
Contact
Working Group Chair
Robby Simpson

P2030.5

Standard for Smart Energy Profile Protocol

This Standard defines an application profile which provides an interface between the smart grid and users. It enables management of the end user energy environment, including demand response, load control, price communication, distributed generation, energy storage, and electric vehicles as well as the support of additional commodities including water, natural gas, and steam. This standard defines the mechanisms for exchanging application messages, the exact messages exchanged including error messages, and the security features used to protect the application messages. This standard focuses on a variety of possible architectures and usage models including direct communications between a service provider and consumers/prosumers, communications within a premises or home area network (HAN), and communications between a service provider and an aggregator. Lastly, this Standard sources elements from many existing standards, including IEC 61968 and IEC 61850, and follows a RESTful architecture utilizing widely adopted protocols such as TCP/IP and HTTP. In addition it supports all of the needs of IEEE 1547-2018 This revision maintains backwards compatibility with IEEE 2030.5-2018 while providing an expanded feature set.

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2030.5-2018

IEEE Standard for Smart Energy Profile Application Protocol

The application layer with TCP/IP providing functions in the transport and Internet layers to enable utility management of the end user energy environment, including demand response, load control, time of day pricing, management of distributed generation, electric vehicles, etc. is defined in this standard. Depending on the physical layer in use (e.g., IEEE 802.15.4™, IEEE 802.11™, IEEE 1901™, IEEE 1901.2™), a variety of lower layer protocols may be involved in providing a complete solution. Generally, lower layer protocols are not discussed in this standard except where there is direct interaction with the application protocol. The mechanisms for exchanging application messages, the exact messages exchanged including error messages, and the security features used to protect the application messages are defined in this standard. With respect to the Open Systems Interconnection (OSI) network model, this standard is built using the four layer Internet stack model. The defined application profile sources elements from many existing standards, including IEC 61968 and IEC 61850, and follows a RESTful architecture (Fielding [B3]) using IETF protocols such as HTTP. (Additional files for downloads can be found at https://standards.ieee.org/content/dam/ieee-standards/standards/web/download/2030.5-2018_downloads.zip)

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No Superseded Standards
No Inactive-Withdrawn Standards
No Inactive-Reserved Standards
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