IEEE - Institute of Electrical and Electronics Engineers, Inc. - PC62.11/D11, Feb 2012
IEEE Draft Standard for Metal-Oxide Surge Arresters for AC Power Circuits (> 1 kV)
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Organization: | IEEE - Institute of Electrical and Electronics Engineers, Inc. |
Publication Date: | 10 July 2012 |
Status: | inactive |
Page(s): | 1 - 113 |
ICS Code (Fuses and other overcurrent protection devices): | 29.120.50 |
ISBN (Online): | 978-0-7381-7453-2 |
Standard:
This standard applies to metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (> 1000 V) by passing surge discharge current and... View More
Document History
May 8, 2020
IEEE Approved Draft Standard for Metal-Oxide Surge Arresters for AC Power Circuits (> 1 kV)
Metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (>1000 V) by passing surge discharge current and automatically limiting the flow...
December 17, 2019
IEEE Draft Standard for Metal-Oxide Surge Arresters for AC Power Circuits (> 1 kV)
Metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (>1000 V) by passing surge discharge current and automatically limiting the flow...
November 21, 2019
IEEE Draft Standard for Metal-Oxide Surge Arresters for AC Power Circuits (> 1 kV)
Metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (>1000 V) by passing surge discharge current and automatically limiting the flow...
October 23, 2019
IEEE Draft Standard for Metal-Oxide Surge Arresters for AC Power Circuits (> 1 kV)
Metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (>1000 V) by passing surge discharge current and automatically limiting the flow...
January 18, 2019
IEEE Draft Standard for Metal-Oxide Surge Arresters for AC Power Circuits (> 1 kV)
Metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (>1000 V) by passing surge discharge current and automatically limiting the flow...
December 20, 2012
IEEE Standard for Metal-Oxide Surge Arresters for AC Power Circuits (>1 kV) - Redline
Metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits ( 1000 V) by passing surge discharge current and automatically limiting...
December 20, 2012
IEEE Standard for Metal-Oxide Surge Arresters for AC Power Circuits (>1 kV)
Metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits ( 1000 V) by passing surge discharge current and automatically limiting...
August 23, 2012
IEEE Draft Standard for Metal-Oxide Surge Arresters for AC Power Circuits (> 1 kV)
This standard applies to metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (> 1000 V) by passing surge discharge current and...
PC62.11/D11, Feb 2012
July 10, 2012
IEEE Draft Standard for Metal-Oxide Surge Arresters for AC Power Circuits (> 1 kV)
This standard applies to metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (> 1000 V) by passing surge discharge current and...
July 18, 2008
IEEE Standard for Metal-Oxide Surge Arresters for AC Power Circuits (>1 kV) Amendment 1: Short-Circuit Tests for Station, Intermediate, and Distribution Arresters
Metal-oxide surge arresters designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (>1000 V) by passing surge discharge current and automatically limiting the flow of system...
January 1, 2008
IEEE Draft Standard for Metal-Oxide Surge Arresters for AC Power Circuits (> 1 kV) - Amendment: Short Circuit Tests for Station, Intermediate and Distribution Arresters
This standard applies to metal-oxide surge arresters designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (>1000 V) by passing surge discharge current and automatically...
January 1, 2007
Unapproved IEEE Draft Standard for Metal-Oxide Surge Arresters for Ac Power Circuits (> 1 kV) - Amendment: Short Circuit Tests for Station, Intermediate and Distribution Arresters
A description is not available for this item.
January 1, 2007
IEEE Draft Standard for Metal-Oxide Surge Arresters for Ac Power Circuits (> 1 kV) - Amendment: Short Circuit Tests for Station, Intermediate and Distribution Arresters (Amendment to IEEE C62.11-2005)
This standard applies to metal-oxide surge arresters designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (>1000 V) by passing surge discharge current and automatically...
March 22, 2006
IEEE Standard for Metal-Oxide Surge Arresters for AC Power Circuits (> 1 kV)
This standard applies to metal-oxide surge arresters (MOSAs) designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits (>1000 V) by passing surge discharge current and...
January 1, 2004
Approved Draft IEEE Standard for Metal-Oxide Surge Arresters for AC Power Circuits (>1 kV) (Revision of IEEE C62.11-1999) Superseded by C62.11-1999
A description is not available for this item.
August 2, 1999
IEEE Standard for Metal-Oxide Surge Arresters for Alternating Current Power Circuits (>1KV)
Superseded by IEEE Std C62.11-2005 Metal-oxide surge arresters designed to repeatedly limit the voltage surges on 48¬62 Hzpower circuits (>1 kV) are covered in this standard. These devices operate by...
May 13, 1994
IEEE Standard for Metal-Oxide Surge Arresters for Alternating Current Power Circuits
Metal-oxide surge arresters designed to repeatedly limit the voltage surges on 48-Hz to 62-Hz power circuits by passing surge discharge current and automatically limiting the flow of system power...
July 24, 1987
IEEE Standard for Metal-Oxide Surge Arresters for AC Power Circuits
Metal-oxide surge arresters designed to repeatedly limit the voltage surges on 48 Hz to 62 Hz power circuits by passing surge discharge current and automatically limiting the flow of system power...