Superseded Standard

IEEE C37.41-2008

IEEE Standard Design Tests for High-Voltage (>1000 V) Fuses, Fuse and Disconnecting Cutouts, Distribution Enclosed Single-Pole Air Switches, Fuse Disconnecting Switches, and Fuse Links and Accessories Used with These Devices

Required procedures for performing design tests for high-voltage distribution class and power class fuses, as well as for fuse-disconnecting switches and enclosed single-pole air switches, are specified. These design tests, as appropriate to a particular device, include the following test types: dielectric, interrupting, load-break, radio-influence, short-time current, temperature rise, time-current, manual operation, thermal-cycle, bolt torque, and liquid tightness.

Standard Committee
PE/SWG - Switchgear
Status
Superseded Standard
PAR Approval
2008-09-26
Superseded by
C37.41-2016
Superseding
C37.41-2000
Board Approval
2008-11-10
History
ANSI Approved:
2009-03-24
Published:
2009-03-13

Additional Resources

Erratas
C37.41-2008_errata.pdf

Working Group Details

Society
IEEE Power and Energy Society
Standard Committee
PE/SWG - Switchgear
Working Group
HVF/C37.41 - C37.41 - Standard for Design Tests and Specifications for High-Voltage (> 1000 V) Fuses and Accessories
IEEE Program Manager
Jennifer Santulli
Contact Jennifer Santulli
Working Group Chair
Sterlin Cochran

Other Activities From This Working Group

Current projects that have been authorized by the IEEE SA Standards Board to develop a standard.


PC37.41
IEEE Draft Standard for Design Tests and Specifications for High-Voltage (> 1000 V) Fuses and Accessories

Required procedures for performing design tests for high-voltage fuses, as well as for fuse disconnecting switches, are specified. These design tests, as appropriate to a particular device, include the following test types: dielectric, interrupting, radio-influence, temperature-rise, time-current, manual-operation, liquid-tightness, thermal-cycle, bolt-torque, withstand tests for motor circuit fuses, expulsion fuses using polymeric insulators, load-break, and short-time current.

Learn More About PC37.41

Standards approved by the IEEE SA Standards Board that are within the 10-year lifecycle.


C37.41-2016
IEEE Standard Design Tests for High-Voltage (>1000 V) Fuses and Accessories

Revision of IEEE C37.41-2008 and supersedes IEEE C37.40-2003. Required procedures for performing design tests for high-voltage fuses, as well as for fuse disconnecting switches, are specified. These design tests, as appropriate to a particular device, include the following test types: dielectric, interrupting, radio-influence, temperature-rise, time-current, manual-operation, liquid-tightness, thermal-cycle, bolt-torque, withstand tests for motor circuit fuses, expulsion fuses using polymeric insulators, load-break, and short-time current.

Learn More About C37.41-2016

C37.41-2016/Cor 1-2017
IEEE Standard Design Tests for High-Voltage (>1000 V) Fuses and Accessories Corrigenda 1

Corrigenda concerning required procedures for performing design tests for high-voltage fuses are specified. These design tests, are appropriate to expulsion fuses, and cover interrupting tests and fuses using polymeric insulators.

Learn More About C37.41-2016/Cor 1-2017

These standards have been replaced with a revised version of the standard, or by a compilation of the original active standard and all its existing amendments, corrigenda, and errata.


C37.41-2000
IEEE Standard Design Tests For High-Voltage Fuses, Distribution Enclosed Single-Pole Air Switches, Fuse Disconnecting Switches, and Accessories

Required procedures for performing design tests for high-voltage distribution-class and power-class fuses, as well as for fuse disconnecting switches and enclosed single-pole air switches are specified. These design tests, as appropriate to a particular device, include the following test types-dielectric, interrupting, load-break, making current, radio-influence, short-time current, temperature-rise, time-current, mechanical, and liquid-tightness.

Learn More About C37.41-2000

These standards have been removed from active status through a ballot where the standard is made inactive as a consensus decision of a balloting group.


No Inactive-Withdrawn Standards

These standards are removed from active status through an administrative process for standards that have not undergone a revision process within 10 years.


No Inactive-Reserved Standards
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