Fault classification and voltage sag parameters computation using voltage ellipses

2018 IEEE/IAS 54th Industrial and Commercial Power Systems Technical Conference (I&CPS) Pub Date : 1900-01-01 DOI:10.1109/icps.2018.8369997

J. Camarillo-Peñaranda, G. Ramos

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引用次数: 2

Abstract

A fault classification and voltage sag parameters computation using voltage ellipses in Clarke's domain is presented in this paper. The voltage sag parameters computed are the point-on-wave of initiation and recovery, residual voltage, and phase-angle jump. A change in the phase reference in Clarke's transformation is proposed to simplify the fault classification procedure. The point-on-wave of initiation and recovery are defined based on the reference circle in Clarke's domain described by the system during normal operation. The residual voltage and phase-angle jump are computed using the expressions of alpha and beta components in Clarke's domain and using some trigonometric theorems. The proposed fault classification and voltage sag characteristics computation are applied to real data provided by IEEE 1159.2 WG. The proposed fault classification algorithm is capable of classifying events and computing the residual voltage and phase-angle jump. Also, the voltage sag duration of short events and multistage events is successfully computed. This work is an incremental contribution in the field of voltage sag analysis in the time domain using Clarke's transformation.

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基于电压椭圆的故障分类及电压暂降参数计算

提出了一种基于克拉克域电压椭圆的故障分类和电压暂降参数计算方法。计算的电压暂降参数为起始和恢复点波、剩余电压和相角跳变。为了简化故障分类过程，提出了改变Clarke变换中的相位参考。起爆和恢复的波上点是根据系统在正常运行时所描述的克拉克域中的参考圆来定义的。利用克拉克域的α和β分量表达式和一些三角定理计算了剩余电压和相位角跳变。将所提出的故障分类和电压暂降特征计算应用于IEEE 1159.2 WG提供的实际数据中。提出的故障分类算法能够对事件进行分类，并计算剩余电压和相角跳变。此外，还成功地计算了短事件和多级事件的电压暂降持续时间。这项工作是在使用Clarke变换进行时域电压暂降分析领域的一项增量贡献。

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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2018 IEEE/IAS 54th Industrial and Commercial Power Systems Technical Conference (I&CPS)

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