The performance of transformers in the presence of oscillatory transients is addressed in this guide. Oscillatory transients are typically produced by the interaction of the switching device, transformer, load, and system. This guide describes operating conditions that may produce oscillatory switching transient voltages damaging to the transformer insulation system. It discusses the electrical characteristics of the source, switching device, transformer, load and the nature of their transient interaction. It discusses several mitigation methods. Two generic examples are included. This guide focuses on mechanical switching devices and does not address semiconductor switching devices.
- Standard Committee
- PE/TR - Transformers
- Joint Sponsors
-
PE/SWG
- Status
- Inactive-Reserved Standard
- PAR Approval
- 2008-12-10
- Board Approval
- 2010-12-08
- History
-
- ANSI Approved:
- 2011-08-23
- Published:
- 2011-04-27
- Inactivated Date:
- 2021-03-25
Working Group Details
- Society
- IEEE Power and Energy Society
- Standard Committee
- PE/TR - Transformers
- Working Group
-
PerfCharac-WGC57.142 - Performance Characteristics - Mitigation of Switching Transients CB/Xfrmr Interaction Working Group
Learn More About PerfCharac-WGC57.142 - Performance Characteristics - Mitigation of Switching Transients CB/Xfrmr Interaction Working Group - IEEE Program Manager
- Malia Zaman
Contact Malia Zaman - Working Group Chair
- James Mcbride
Other Activities From This Working Group
Current projects that have been authorized by the IEEE SA Standards Board to develop a standard.
PC57.142
IEEE Draft Guide to Describe the Occurrence and Mitigation of Switching Transients Induced by Transformers, Switching Device, and System Interaction
The performance of transformers in the presence of oscillatory transients is addressed in this guide. Oscillatory transients are typically produced by the interaction of the switching device, transformer, load, and system. This guide describes operating conditions that may produce oscillatory switching transient voltages damaging to the transformer insulation system. It discusses the electrical characteristics of the source, switching device, transformer, load, and the nature of their transient interaction. It discusses several mitigation methods. Two generic examples are included. This guide focuses on mechanical switching devices and does not address semiconductor switching devices.
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