Transient potential measurement on stress grading under multi-level PWM

2014 International Conference on Advances in Communication and Computing Technologies (ICACACT 2014) Pub Date : 2014-08-01 DOI:10.1109/ICACACT.2014.7223536

T. Nakamura, A. Kumada, H. Ikeda, K. Hidaka, S. Boggs, Y. Tsuboi, T. Yoshimitsu

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引用次数: 11

Abstract

In this paper, the influence of lower-frequency voltage components in PWM voltage on the performance of stress grading system of motor insulation is investigated by observing the light emission of partial discharge and by measuring potential distribution under 2- and 3-level PWM and sinusoidal ac voltages. Computations by finite element method are conducted to determine electrical field on coil surface. According to the results, the potential gradient under PWM voltage is largest during the first pulse after polarity reversal, as space charge of reversed polarity accumulates at the interface between corona armor tape (CAT) and stress grading tape (SGT) due to a fundamental frequency component in PWM voltage. Therefore, the intensity of light emission during the first pulse is the largest. From the computed results, it has become cleared the maximum field at the interface between the CAT and the SGT becomes higher under PWM voltage than that under rectangular ac voltage whose jump voltage is the same due to such charge accumulation.

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多电平PWM下应力梯度的暂态电位测量

本文通过观察局部放电的发光情况以及测量2级和3级PWM电压和正弦交流电压下的电位分布，研究了PWM电压中低频电压分量对电机绝缘应力分级系统性能的影响。用有限元法计算了线圈表面电场的大小。结果表明，在极性反转后的第一个脉冲，PWM电压下的电位梯度最大，这是由于PWM电压中的基频分量在电晕铠装带(CAT)和应力分级带(SGT)之间的界面处积累了极性反转的空间电荷。因此，第一脉冲期间的光发射强度最大。从计算结果可以看出，由于这种电荷积累，在PWM电压下，CAT与SGT界面处的最大电场比在矩形交流电压下的最大电场要大，而矩形交流电压的跳变电压相同。

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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2014 International Conference on Advances in Communication and Computing Technologies (ICACACT 2014)

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