宽带局部放电标定中的带宽限制及相应对策

2013 Annual Report Conference on Electrical Insulation and Dielectric Phenomena Pub Date : 2013-10-01 DOI:10.1109/CEIDP.2013.6748174

Jianyin Liu, Zhong Zheng, Wei Feng, Xiaoyun Chen, Hong Yu, Zhiwei Huang, Rongliang Wang

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引用次数: 1

摘要

IEC60270中定义的局部放电(Partial discharge, PD)测量方法只捕获被测信号的低频能量，而95%以上的能量分布在30kHz~30MHz范围内。因此，一种覆盖整个带宽的高频宽带测量方法成为一种时尚。在此频率范围内，杂散电感和电容的影响占主导地位，特别是在传统的校准过程中，校准脉冲通过长单线直接连接到套管上。在IEC带宽中，这不是问题，因为频率很低。在高频率下，它使记录的校准费用比命名量小得多。因此，校准过程变得毫无意义。本文通过电路分析和实测，研究了这种影响对实际110kV变压器套管的影响。提出了一种新型的同轴传感器，具有良好的频率响应和测量精度。

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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Band width limits in wide band partial discharge calibration and corresponding countermeasures

Partial discharge (PD) measurement method defined in IEC60270 only captures the low frequency energy of measured signals, while more than 95% of the energy is distributed in the range of 30kHz~30MHz. Thus a high frequency wide band measurement method becomes fashionable to cover the entire bandwidth. In such frequency range, the influence of stray inductance and capacitance become dominant, especially in the conventional calibration process, where the calibration pulses are directly wired to the bushing through long single wires. In IEC bandwidth, this is not a problem since frequency is low. In high frequency, it makes the recorded calibration charge much smaller than the named quantity. Thus the calibration process becomes meaningless. This paper has studied such influence in a real 110kV transformer bushing through circuit analyses and real measurement. An innovative co-axial sensor is presented and shows good frequency response and measurement accuracy.

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来源期刊

2013 Annual Report Conference on Electrical Insulation and Dielectric Phenomena

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