Analysis of overvoltage on motor winding insulation fed by PWM pulses

2010 International Conference on High Voltage Engineering and Application Pub Date : 2010-11-18 DOI:10.1109/ICHVE.2010.5640771

R. Włodek, J. Roehrich, P. Zydroń

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引用次数: 7

Abstract

The introduction of Adjustable/Variable Speed Drives (ASD/VSD) caused new exposures for motor insulation systems. Particularly the application of fast transistor switches and pulse-width modulated (PWM) train of pulses may result in the overvoltages on motor insulation. The mechanism of partial discharges in insulating system has been widely investigated for sinusoidal voltage shape. However, fast rising PWM pulses may result in another mechanism of partial discharges initiation and further evolution and thus the degradation of insulating material. The paper discuses the influence of PWM pulses shape on expected exposures on electric motor insulation. For this aim the voltage pulse shape may be represented generally as the trapezoidal one. Voltage pulse of such a shape is propagated through feeding cable to the motor insulation input. As the effect the time transient voltage response arises at this point and acts on the motor insulating system. The shape and value of such an overvoltage depend on the cable parameters, the equivalent impedance of the winding, and on the parameters of feeding voltage shape, i.e. the slope of voltage increase and decrease.

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PWM脉冲对电机绕组绝缘过电压的影响分析

可调/变速驱动器(ASD/VSD)的引入为电机绝缘系统带来了新的风险。特别是快速晶体管开关和脉宽调制(PWM)脉冲序列的应用可能导致电机绝缘过电压。在正弦电压形态下，绝缘系统局部放电的机理得到了广泛的研究。然而，快速上升的PWM脉冲可能导致部分放电的产生和进一步发展，从而导致绝缘材料的降解。本文讨论了PWM脉冲形状对电机绝缘预期暴露的影响。为此目的，电压脉冲形状一般可以表示为梯形形状。这种形状的电压脉冲通过馈电电缆传播到电机绝缘输入端。由于时间的影响，此时产生暂态电压响应，并作用于电机绝缘系统。过电压的形状和值取决于电缆的参数、绕组的等效阻抗以及馈电电压形状的参数，即电压的上升和下降的斜率。

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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2010 International Conference on High Voltage Engineering and Application

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