The Verification of HF Signal Transmission via Grounding System for Online PD Measurement

2022 8th International Conference on Engineering, Applied Sciences, and Technology (ICEAST) Pub Date : 2022-06-08 DOI:10.1109/iceast55249.2022.9826316

Chissanupong Srinangyam, P. Pannil, K. Thungsook, S. Promwong, P. Nimsanong, N. Pattanadech

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Abstract

This paper discusses signal transmission in the grounding system. During online partial discharge (PD) measurement for the high voltage (HV) apparatus, various PD pulse currents recharge the dielectric of HV apparatus when a PD occurs. One of the noise typologies that affects PD patterns is called the cross-talk, that is, discharges that appear in the measured point due to coupling from another point. In order to study the cross-talk signal, the two PD measuring circuits which are circuit no.1 and circuit no.2, on the same grounding system in the HV laboratory were performed. The distance between two PD measuring circuits is about 20 meters. The artificial PD models were utilized to generate the PD signal injecting to the test circuit no.1, while the cross-talk signals were investigated in circuit no.2. The HFCT sensors were used to measure the PD signal in circuit 1 and the cross-talk signal in circuit 2. The measurement results found that the cross-talk signal transmission in grounding systems provides a bipolar PRPD pattern, and the pulse waveform shows an oscillation shape. Moreover, onsite PD measurements of the generator steam turbine were studied. It is noticeable that the knowledge about cross-talk phenomena in grounding systems can help the PD verification and location for online PD measurement.

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在线PD测量中高频信号通过接地系统传输的验证

本文讨论了接地系统中的信号传输问题。在高压仪器的局部放电在线测量中，当局部放电发生时，不同的局部放电脉冲电流对高压仪器的电介质进行充电。影响局部放电模式的噪声类型之一被称为串扰，即由于与另一点的耦合而出现在测量点的放电。为了研究串扰信号，设计了2路PD测量电路。1和电路号。2、在高压实验室同一接地系统上进行。两个PD测量电路之间的距离约为20米。利用人工PD模型生成注入测试电路的PD信号。在电路2中对串扰信号进行了研究。HFCT传感器用于测量电路1中的PD信号和电路2中的串扰信号。测量结果表明，串扰信号在接地系统中的传输呈现双极PRPD模式，脉冲波形呈现振荡形态。此外，还对发电机汽轮机的现场PD测量进行了研究。值得注意的是，对接地系统串扰现象的了解可以帮助对接地系统进行接地电流的验证和定位。

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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2022 8th International Conference on Engineering, Applied Sciences, and Technology (ICEAST)

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