Frequency-Selective Grounding for 3ϕ Power Transformers

2019 IEEE/IAS 55th Industrial and Commercial Power Systems Technical Conference (I&CPS) Pub Date : 2019-05-05 DOI:10.1109/ICPS.2019.8733333

S. Saleh, X. F. St. Onge, C. Richard, E. Ozkop, S. Panetta

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引用次数: 19

Abstract

Three phase $(3\phi)$ power transformers can have their windings configured to create local neutral points that can be grounded. The grounding of a $3\phi$ power transformer is designed to limit ground fault currents and maintain low ground potentials. These constraints can be translated into a resistive grounding that is usually designed based on the system ratings and parameters. The resistive grounding, however, can impact the flow of the harmonic components present in the exciting currents. As a result, undesired harmonic components are induced in primary and secondary voltages. This paper presents the design and performance of a frequency-selective grounding that can meet the constraints for grounding a $3\phi$ power transformer. The developed grounding is designed to provide a resistive path for low frequency currents (faults), while providing a low impedance path for high frequency currents (harmonics). The frequency-selective grounding is experimentally tested for a $3\phi$ power transformer with different primary and secondary winding configurations, different fault types, and source grounding. Test results show that the developed grounding can reduce the ground potential, harmonic distortion in primary and secondary voltages, and ground fault currents with a minimum interference with ground fault protective devices.

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3φ型电力变压器的频率选择接地

三相$(3\phi)$电力变压器的绕组可以配置为创建可以接地的局部中性点。$3\phi$电力变压器的接地设计用于限制接地故障电流并保持低接地电位。这些限制可以转化为电阻接地，通常是根据系统额定值和参数设计的。然而，电阻接地会影响励磁电流中谐波分量的流动。因此，在一次电压和二次电压中会产生不需要的谐波分量。本文介绍了一种频率选择接地的设计和性能，它可以满足3\phi$电力变压器接地的限制。开发的接地旨在为低频电流(故障)提供电阻路径，同时为高频电流(谐波)提供低阻抗路径。对具有不同主、次绕组配置、不同故障类型和源接地的3\phi$电力变压器进行了频率选择接地实验测试。试验结果表明，该接地方式对接地保护装置的干扰最小，能有效降低接地电位、降低一次、二次电压谐波畸变和接地故障电流。

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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2019 IEEE/IAS 55th Industrial and Commercial Power Systems Technical Conference (I&CPS)

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