Useful Details about Testing Protective Relays with Signals that Include Effects of Travelling Waves

2021 IEEE Fifth Ecuador Technical Chapters Meeting (ETCM) Pub Date : 2021-10-12 DOI:10.1109/ETCM53643.2021.9590716

E. Sorrentino, Carlos Ferreiro, Eduardo Cabeza

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引用次数: 1

Abstract

This article shows useful details about testing protective relays with signals that include effects of travelling waves. Test signals were obtained from two electromagnetic transient programs: a) RSCAD for RTDS, which is a real-time tool; b) Matlab/Simulink, for off-line tests with an injector. Furthermore, test signals were obtained using two models for the faulted transmission line (Bergeron model and a frequency-dependent model). The tested relays were a travelling wave relay (SEL-T400L) and two distance relays (SEL-421 and Micom P545). The tests with RTDS were performed at the low-level interface of SEL relays, whereas the tests with the inj ector were performed at the usual voltage and current inputs of distance relays. In general, the results are useful to emphasize the need of contrasting the expected output signals with oscilloscope captured waveforms, because the expected output signals (as shown by injectors' interfaces) can be different than the real injected signals. Despite this fact, the observed behavior of tested relay functions can be considered adequate.

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关于用包含行波影响的信号测试保护继电器的有用细节

这篇文章展示了有关用包含行波影响的信号测试保护继电器的有用细节。测试信号由两个电磁瞬变程序获取:a) RTDS的RSCAD，是一个实时工具;b) Matlab/Simulink，用于使用注入器进行离线测试。此外，采用两种故障传输线模型(Bergeron模型和频率相关模型)获得测试信号。测试的继电器为一个行波继电器(SEL-T400L)和两个距离继电器(SEL-421和Micom P545)。使用RTDS的测试在SEL继电器的低电平接口进行，而使用喷射器的测试在距离继电器的常用电压和电流输入处进行。一般来说，这些结果有助于强调将预期输出信号与示波器捕获的波形进行对比的必要性，因为预期输出信号(如注入器接口所示)可能与实际注入信号不同。尽管如此，所测试的继电器功能的观察行为可以被认为是足够的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 IEEE Fifth Ecuador Technical Chapters Meeting (ETCM)

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