Inactive-Withdrawn Standard

IEEE C62.2-1987

IEEE Guide for the Application of Gapped Silicon-Carbide Surge Arresters for Alternating Current Systems

The application of gapped silicon-carbide surge arresters to safeguard electric power equipment against the hazards of abnormally high voltage surges of various origins is addressed. General considerations with respect to overvoltages, valve arresters, protective levels, insulation-withstand, separation effects, and insulation coordination are discussed. Procedures for the protection of stations and distribution systems are provided.

Sponsor Committee
PE/SPDHV - Surge Protective Devices/High Voltage
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Status
Inactive-Withdrawn Standard
Board Approval
1987-03-12
History
Withdrawn:
2000-03-06
ANSI Approved:
1988-02-04
Published:
1989-04-12
Reaffirmed:
1994-06-14

Working Group Details

Society
IEEE Power and Energy Society
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Sponsor Committee
PE/SPDHV - Surge Protective Devices/High Voltage
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Working Group
HV3.4.14 - 3.4.14 Continuous Revision of C62.22 Application Guide WG
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IEEE Program Manager
Christian Orlando
Contact
Working Group Chair
Thomas Field

PC62.22

Guide for the Application of Metal-Oxide Surge Arresters for Alternating-Current Systems

This guide covers the application of metal-oxide surge arresters [see IEEE Standard for Metal-Oxide Surge Arresters for AC Power Circuits (>1 kV) C62.11-2012] to safeguard electric power equipment against the hazards of abnormally high voltage surges of various origins. This application guide does not cover the application of low-voltage surge protective devices below 1000 V alternating current (ac), except when applied to the secondary of a transformer.

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No Active Standards

C62.22-1991

IEEE Guide for the Application of Metal Oxide Surge Arresters for AC Systems

The application of metal-oxide surge arresters to safeguard electric power equipment against the hazards of abnormally high voltage surges of various origins is covered. Step-by step directions toward proper solutions of various applications are provided. In many cases, the prescribed steps are adequate. More complex and special solutions requiring study by experienced engineers are described, but specific solutions are not always given. The procedures are based on theoretical studies, test results, and experience.

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C62.22-1997

IEEE Guide for Application of Metal-Oxide Surge Arresters for Alternating-Current Systems

The application of metal-oxide surge arresters to safeguard electric power equipment against the hazards of abnormally high voltage surges of various origins is covered. Step-by- step directions toward proper solutions of various applications are provided. In many cases, the prescribed steps are adequate. More complex and special solutions requiring study by experi- enced engineers are described, but specific solutions are not always given. The procedures are based on theoretical studies, test results, and experience.

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No Inactive-Withdrawn Standards

C62.22-2009

IEEE Guide for the Application of Metal-Oxide Surge Arresters for Alternating-Current Systems

This guide covers the application of metal-oxide surge arresters to safeguard electric power equipment, with a nominal operating voltage 1000 V and above, against the hazards of abnormally high voltage surges of various origins. This guide provides information on the characteristics of metal-oxide surge arresters, and the protection of substation equipment, distribution systems, overhead lines, and large electrical machines.

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C62.22a-2013

IEEE Guide for the Application of Metal-Oxide Surge Arresters for Alternating-Current Systems Amendment 1: Supplement to Consider Energy Handling Capabilities

New tests added to IEEE Std C62.11TM-2012: a switching surge energy capability test (thermal energy rating), a repetitive single-impulse withstand capability test, and the inductive voltage drop effects of the internal arrester metal current carrying components determined during the front-of-wave (FOW) discharge voltage test are included in this amendment to IEEE Std C62.22TM-2009.

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