A Similarity Based Index for Stator Inter-Turn Fault Detection in Induction Motors
Mohsen Tajdinian (Hitachi Energy Research)
Behzad Behdani (TU Delft - Intelligent Electrical Power Grids)
Harold Chamorro (KTH Royal Institute of Technology)
Vijay Sood (Ontario Tech University)
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Abstract
Failures of Induction Motors (IMs) can lead to unscheduled downtime and interruption in industry processes. This paper concentrates on the detection of the stator's inter-turn faults which are one of the most frequent causes of failures in IMs. The proposed detection method is based on a similarity index that uses the current waveform. To be more specific, the proposed algorithm presents a full-cycle sliding-window-based index based on cosine similarity that only uses current signals for detection of the stator's inter-turn faults. The proposed index cuts the phase difference before/after the disturbance and, as a result, it only depends on the size variations of the current waveform. The proposed method is technically unaffected by non-fault transient conditions including voltage imbalance, voltage sag, voltage swell, and heavy load changes. The performance of the proposed method is validated with numerous simulated scenarios and has good accuracy and speed of convergence.