High-Resolution Rotor Fault Diagnosis of Wound Rotor Induction Machine Based on Stator Current Signature Analyses

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Ghadirinezhd Reza; Hoseintabar Marzebali Mohammad

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Journal Paper

Paper Information

Journal: AUT Journal of Electrical Engineering Year:2024 | Volume:56 | Issue:1 Page(s): 37-46

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Title

High-Resolution Rotor Fault Diagnosis of Wound Rotor Induction Machine Based on Stator Current Signature Analyses

Author(s)

Ghadirinezhd Reza | Hoseintabar Marzebali Mohammad | Issue Writer Certificate

Keywords

Fault detection

Condition monitoring

Stator current signature analysis

Abstract

Wound rotor induction machine (WRIM) has been extensively used in different applications such as medium-power wind turbines and traction systems. Since these machines work under harsh and difficult conditions, Condition monitoring of such systems is crucial. Different electrical and mechanical signatures of machines were used for electrical and mechanical Fault detection in electrical machines such as vibration, acoustic emission, stray flux, and stator current signature. In recent years, Stator current signature analysis due to simplicity, cost-effectiveness, and availability has been considered for Fault detection process in comparison with previous conventional methods such as acoustic and vibration. In this paper, a high-resolution technique based on the chirp-Z transform is used for rotor asymmetry fault (RAF) detection in induction machines through Stator current signature analysis. In this regard, the Teager-Kaiser energy operator (TKEO) technique for demodulation fault characteristic frequency is used as a pre-processing stage to avoid leakage of the supply frequency. The method has better accuracy due to better spectral resolution and resolvability. Furthermore, computational complexity in the proposed method will be reduced in comparison to the previous conventional ones which have used the Fast Fourier transform (FFT). The proposed technique is tested through synthetic and experimental stator current of WRIM in healthy and faulty conditions with different rotational speeds and fault severities. The results show the validity of the proposed method in rotor asymmetry Fault detection through the stator current signature of WRIM.

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