Comparative Analysis of Signal Processing Techniques for Fault Detection in Three Phase Induction Motor

Thomas Amanuel, Amanuel Ghirmay, Huruy Ghebremeskel, Robel Ghebrehiwet, Weldekidan Bahlibi
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引用次数: 23

Abstract

Signal processing is considered as an efficient technique to detect the faults in three-phase induction motors. Detection of different varieties of faults in the rotor of the motor are widely studied at the industrial level. To extend further, this research article presents the analysis on various signal processing techniques for fault detection in three-phase induction motor due to the damages in rotor bar. Usually, Fast Fourier Transform (FFT) and STFT are used to analyze the healthy and faulty motor conditions based on the signal characteristics. The proposed study covers the advantages and limitations of the proposed wavelet transform (WT) and each technique for detecting the broken bar of induction motors. The good frequency information can be collected from FFT techniques for handling multiple faults identification in three-phase induction motor. Despite the hype, the detection accuracy gets reduced during the dynamic condition of the machine because the frequency information on sudden time changes cannot be employed by FFT. The WT method signal analysis is compared with FFT to propose fault detection method for induction motor. The WT method is proving better accuracy when compared to all existing methods for signal information analysis. The proposed research work has simulated the proposed method with MATLAB / SIMULINK and it helps to effectively detect the healthy and faulty conditions of the motor.
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三相异步电动机故障检测信号处理技术的比较分析
信号处理被认为是三相异步电动机故障检测的一种有效方法。电机转子各种故障的检测在工业层面上得到了广泛的研究。在此基础上,本文分析了三相异步电动机转子条损坏故障检测的各种信号处理技术。通常,快速傅里叶变换(FFT)和短时傅里叶变换(STFT)是基于信号特征分析电机健康状态和故障状态的常用方法。本研究涵盖了所提出的小波变换(WT)的优点和局限性,以及用于感应电机断条检测的各种技术。快速傅里叶变换技术可以收集到良好的频率信息,用于三相异步电动机的多故障识别。尽管大肆宣传,但由于FFT无法利用突然时间变化的频率信息,因此在机器动态状态下检测精度降低。将小波变换的信号分析方法与快速傅里叶变换的信号分析方法进行比较,提出了感应电动机的故障检测方法。与所有现有的信号信息分析方法相比,小波变换方法被证明具有更好的准确性。所提出的研究工作已在MATLAB / SIMULINK中进行了仿真,该方法有助于有效地检测电机的健康状态和故障状态。
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