Limitations of Attempting Calibration of Partial Discharge Measurements in VHF and UHF Ranges

2020 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP) Pub Date : 2020-10-18 DOI:10.1109/CEIDP49254.2020.9437476

G. Behrmann, D. Gross, S. Neuhold

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引用次数: 1

Abstract

There is an obvious desire to assign units of charge (pC) to on-site/on-line partial discharge (PD) measurements made using radio-frequency (RF) techniques by employing some means of calibration in a way similar to that defined in IEC 60270. While moving just a few MHz past the IEC 60270 mandated maximum cut-off frequency (1 MHz) may still allow the principle of quasi-integration to hold, and thus allow a valid charge-based calibration, this is strongly dependent on the test object and test circuit. However, at higher (RF/VHF/UHF) frequency regions in which PD diagnostics are often being made today on GIS and HV transformers, physical effects profoundly affect the RF signal generated at the PD source and its path to the receiving sensor, thus directly impacting the received RF signal strength. We explain the problems inherent in attempting charge calibration at these higher frequencies by looking at the fundamental difference in how the measurement methods acquire the PD signal, and we point out the relative unimportance of charge level for certain critical defects.

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尝试校准VHF和UHF范围局部放电测量的局限性

显然，人们希望通过采用类似于IEC 60270中定义的校准方法，将电荷单位(pC)分配给使用射频(RF)技术进行的现场/在线局部放电(PD)测量。虽然仅移动几MHz超过IEC 60270规定的最大截止频率(1 MHz)可能仍然允许准积分原理保持不变，从而允许有效的基于电荷的校准，但这强烈依赖于测试对象和测试电路。然而，在较高的(RF/VHF/UHF)频率区域，PD诊断通常在GIS和高压变压器上进行，物理效应会深刻影响PD源产生的RF信号及其到接收传感器的路径，从而直接影响接收到的RF信号强度。我们通过观察测量方法如何获得PD信号的根本差异来解释在这些更高频率下尝试电荷校准所固有的问题，并指出电荷水平对某些关键缺陷的相对不重要。

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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2020 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP)

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