Propagation observation of creepage discharge using multi-array coaxial probe

2020 IEEE Conference on Electrical Insulation and Dielectric Phenomena (CEIDP) Pub Date : 2020-10-18 DOI:10.1109/CEIDP49254.2020.9437540

T. Kawashima, S. Hanamoto, Y. Murakami, N. Hozumi

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Abstract

The clarification of the discharge phenomenon in micro-gap is strongly required in a wide range of application fields such as surface processing technology, MEMS, actuators, and thin film sensors. An optical measurement using a high-speed camera is suitable for observing the occurrence and development of the discharge. It is possible to find the discharge characteristics such as the shape, propagation velocity and so on. However, in order to discuss the insulation performance, the charge amount of the discharge, in other words, the electric field is important. Although the emission intensity caused by the discharge has a correlation with the electric field, it is difficult to evaluate the field quantitatively by an optical measurement only. In this research, a prototype for a creepage discharge measurement system using a multi-array coaxial probe was developed. The propagation characteristics of the creepage discharge was evaluated in the millimeter gap, and the feasibility of the measurement technique was shown.

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用多列同轴探头观察蠕滑放电的传播

在表面加工技术、MEMS、致动器、薄膜传感器等广泛的应用领域，迫切需要对微间隙放电现象的澄清。利用高速摄像机进行光学测量，适合观察放电的发生和发展。可以找到放电的形状、传播速度等特性。然而，为了讨论绝缘性能，放电的电荷量，换句话说，电场是重要的。虽然放电引起的发射强度与电场有相关性，但仅通过光学测量很难定量地评价电场。本文研制了一种基于多阵列同轴探头的漏电放电测量系统样机。分析了蠕滑放电在毫米间隙内的传播特性，证明了该测量技术的可行性。

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

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