降低五相感应电动机的轴电压和轴承电流

H. Hussain, H. Toliyat
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引用次数: 9

摘要

感应电动机通常用于许多工业应用中。为了保持电机的可靠运行,识别可能导致电机故障的潜在故障是很重要的。轴承故障是电机故障的主要原因之一。在某些情况下,轴承失效是由于通过它们的电流。本文研究了变频器驱动五相异步电动机的轴承电流问题,提出了一种新的解决方案。首先,介绍了轴电压和轴承电流的相关理论。在此基础上,提出了五相感应电动机的新型开关方式。对系统进行了仿真,并将新开关方式的结果与传统开关方式进行了比较。最后,利用数字信号处理器(DSP)控制功率变换器对新方案进行了实验测试。实验证明,该开关方式可以在不影响电机性能的前提下降低轴电压和轴承电流。
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Reduction of shaft voltages and bearing currents in five-phase induction motors
Induction motors are commonly used in numerous industrial applications. To maintain a reliable operation of the motor, it is important to identify the potential faults that may cause the motor to fail. Bearing failures are one of the main causes of motor breakdown. In some cases, bearings fail due to the electric current passing through them. In this paper, bearing currents in inverter driven five-phase induction motors are studied and a novel solution is proposed. First, theories of shaft voltage and bearing current are presented. Then, new switching patterns are proposed for the five-phase induction motor. The system is simulated and the results of the new switching patterns are compared with the conventional switching pattern. Finally, the new schemes are experimentally tested using a digital signal processor (DSP) to control the power converter. The experiments verified that the new switching pattern could reduce shaft voltages and bearing current without affecting motor performance.
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