Identification of charge injection and conduction properties of epoxy resin from polarization current measurements

2017 3rd International Conference on Condition Assessment Techniques in Electrical Systems (CATCON) Pub Date : 2017-11-01 DOI:10.1109/CATCON.2017.8280236

N. Haque, S. Dalai, B. Chatterjee, S. Chakravorti

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引用次数: 1

Abstract

Accumulation of space charge is a very important issue in the design and development of high voltage insulation systems. The formation of space charge is intrinsically related to charge injection, trapping and conduction in a dielectric. In case of polar dielectrics like epoxy resin, in addition to space charge injection and accumulation, dipolar polarization also plays a prominent role in determining its behavior at high electric fields. In this work, a method has been proposed to separately identify charge injection conduction and dipolar polarization from polarization current measurements performed on thin epoxy resin samples. The samples were stressed at 10 kV/mm and 20 kV/mm electric fields prior to depolarization. The time domain measurements were correlated with frequency domain measurements using Hamon approximation. It was found that at both electric fields, the observed polarization current was highly influenced by charge injection.

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从极化电流测量中鉴定环氧树脂的电荷注入和导电性能

在高压绝缘系统的设计和开发中，空间电荷的积累是一个非常重要的问题。空间电荷的形成与介电介质中的电荷注入、俘获和传导有着内在的联系。对于像环氧树脂这样的极性介质，除了空间电荷注入和积累外，偶极极化对其在高电场下的行为也起着突出的作用。在这项工作中，提出了一种方法，分别识别电荷注入传导和偶极极化从极化电流测量薄环氧树脂样品。样品在去极化前分别在10 kV/mm和20 kV/mm的电场下受力。利用Hamon近似将时域测量值与频域测量值进行相关。结果表明，在两个电场下，电荷注入对观察到的极化电流影响很大。

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2017 3rd International Conference on Condition Assessment Techniques in Electrical Systems (CATCON)

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