Stimulating and detecting changes in the insulation health state of inverter fed ac machines

C. Zoeller, M. Vogelsberger, P. Nussbaumer, T. Wolbank
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Abstract

In modern traction drive applications condition monitoring is getting more and more important. Insulation health state monitoring can be done by evaluating the high frequency current response to voltage step excitation by the signal analyses of the current sensors, which are also used for the control of the machine. This reduces the costs and number of necessary system components. A change in the current response is, amongst others, correlated to a change through insulation degradation. The dominant influencing parameters of the high frequency current response of the machine are parasitic winding capacitances as well as insulation resistances, which are slowly changing over time if the insulation is deteriorated through different stresses, e.g. thermal or electrical. These slow changes can be monitored over long time period and give evidence if additional maintenance steps are required. Thus an unforeseeable outage of the traction drive system caused by damage of the machine can be prevented. Before the insulation state can be evaluated certain signal processing steps are necessary to increase the sensitivity. In this work the method of stimulation as well as detection of changes in the dominant parameters is verified on a 1.4MW induction machine.
刺激和检测逆变供电交流电机绝缘健康状态的变化
在现代牵引传动应用中,状态监测显得越来越重要。通过对电流传感器的信号分析,对电压阶跃激励下的高频电流响应进行评估,从而实现绝缘健康状态的监测。这降低了成本和必要系统组件的数量。电流响应的变化,除其他外,与绝缘退化的变化相关。影响机器高频电流响应的主要参数是寄生绕组电容和绝缘电阻,如果绝缘因不同应力(如热应力或电应力)而恶化,它们会随着时间缓慢变化。可以长时间监视这些缓慢的变化,并在需要额外维护步骤时提供证据。这样就可以防止由于机器损坏而引起的牵引传动系统不可预见的中断。在评估绝缘状态之前,需要采取一定的信号处理步骤来提高灵敏度。本文在一台1.4MW的感应电机上验证了该方法的激励和检测主要参数的变化。
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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