Evaluation of eccentricities faults effects on sensorless operation of Switched Reluctance motors

2014 5th Conference on Thermal Power Plants (CTPP) Pub Date : 2014-06-10 DOI:10.1109/CTPP.2014.7040714

S. Yaghubi, M. Tavakoli, F. Faradjizadeh, E. Afjei

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引用次数: 1

Abstract

This paper studies the effects of eccentricities faults (EFs) on sensorless operation of Switched Reluctance motors (SRMs). EFs are among widespread faults in SRMs which make machine airgap uneven and consequently change SRM characteristics such as phase and mutual inductances. One of the most common methods for indirect rotor position estimation is to apply high frequency pulses to idle phases. As phase inductances vary, current pulses may face some alterations which endanger the proper function of sensorless algorithm. This means machine operation will be impaired or even may be unsustainable. In this paper, via Finite Element Analysis (FEA) machine characteristics is examined under EFs and it is evaluated how they affect SRMs' performance. Two modes for injecting high frequency pulses, namely negative slope of inductance and minimum inductance zone have been considered for current pulses. It is shown that although employed algorithm for pulse injection in minimum inductance is relatively more complicated but it is more fault tolerant than pulsing in negative slope. Using FEA and Matlab/Simulink models the main achievements of the paper are validated.

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偏心故障对开关磁阻电机无传感器运行影响的评价

研究了偏心故障对开关磁阻电机无传感器运行的影响。电磁场是SRM中普遍存在的故障之一，它使电机气隙不均匀，从而改变SRM的相位和互感等特性。一种最常用的间接转子位置估计方法是在空转相位施加高频脉冲。随着相电感的变化，电流脉冲可能发生一些变化，从而危及无传感器算法的正常运行。这意味着机器操作将受到损害，甚至可能无法持续。本文通过有限元分析(FEA)研究了电磁场作用下的机械特性，并评估了电磁场对srm性能的影响。考虑了电流脉冲注入高频脉冲的两种模式，即电感负斜率和最小电感区。结果表明，最小电感脉冲注入算法相对复杂，但比负斜率脉冲注入算法容错能力强。利用有限元分析和Matlab/Simulink模型对本文的主要成果进行了验证。

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 5th Conference on Thermal Power Plants (CTPP)

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