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IEEE C93.3

Requirements for Power-Line Carrier Line Traps (30 kHz to 500 kHz)

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Organization: IEEE
Publication Date: 14 February 2017
Status: active
Page Count: 46
scope:

This standard applies to a line trap inserted into a power line to provide a high impedance at power line carrier frequencies (30 kHz to 500 kHz). The purpose is to isolate the carrier signal from system impedance changes due to faults or switching behind the point of insertion, and to guide the signal in the proper direction. The standard covers line traps in which the main coil is designed as a single-phase, air-cooled inductor of the dry type.

Purpose

This standard is vital to the application of power line carrier systems on all power line 69kV and above. Power-line carrier systems are used for protection systems and other communications. The line trap is part of the system that allows the carrier signal to be coupled to the power line with optimal performance. Performance requirements will be established so that their interaction with the power system is known and performance can be predicted.

Document History

IEEE C93.3
February 14, 2017
Requirements for Power-Line Carrier Line Traps (30 kHz to 500 kHz)
This standard applies to a line trap inserted into a power line to provide a high impedance at power line carrier frequencies (30 kHz to 500 kHz). The purpose is to isolate the carrier signal from...
IEEE C93.3
January 1, 1995
Requirements for Power-Line Carrier Carrier Traps
This standard applies to a line trap inserted into a power circuit to minimize carrier-frequency signal losses. The standard covers line traps in which the main coil is designed as a single phase,...

References

This document references:
IEEE 4 - High-Voltage Testing Techniques
Published by IEEE on March 6, 2013
This standard is applicable to: - Dielectric tests with direct voltages - Dielectric tests with alternating voltages - Dielectric tests with impulse voltages - Tests with impulse currents - Tests...
This document references:
IEEE 693 - Recommended Practice for Seismic Design of Substations
Published by IEEE on October 23, 2018
The recommended practice contains recommendations for the seismic design of substation buildings and structures, and the seismic design and qualification of substation equipment. Purpose This...
This document references:
C57.21 - Standard for Requirements, Terminology, and Test Code for Shunt Reactors Rated Over 500 kVA
Published by IEEE on May 9, 2021
This standard applies to all liquid-immersed or dry-type, single-phase or three-phase, outdoor or indoor shunt reactors rated over 500 kVA. This standard also applies to thyristor-controlled shunt...
This document is referenced by:
IEEE C57.16 - Requirements, Terminology, and Test Code for Dry-Type Air-Core Series-Connected Reactors
Published by IEEE on October 31, 2011
This standard applies to series-connected dry-type air-core single-phase and three-phase outdoor or indoor reactors of distribution and transmission voltage class that are connected in the power...
This document is referenced by:
IEEE 1267 - Guide for Development of Specifications for Turnkey Substation Projects
Published by IEEE on February 8, 2019
The scope of this guide is to provide methodology, requirements and practices for both the users and suppliers for a systematic and coordinated approach for development of specification for turnkey...
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