Journal
ENERGIES
Volume 14, Issue 6, Pages -Publisher
MDPI
DOI: 10.3390/en14061630
Keywords
fault diagnosis; permanent magnet synchronous motor; inter-turn short-circuit; fast Fourier transform; envelope of stator current; discrete wavelet transform
Categories
Funding
- National Science Center of Poland [2017/27/B/ST7/00816]
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This paper discusses selected methods for detecting stator winding faults in permanent magnet synchronous motors, with effectiveness confirmed through experimental verification based on stator phase current signal analysis. The research distinguishes original fault indicators through observation of stator winding fault symptoms, showing which symptom is most sensitive to incipient faults in PMSMs.
Stator winding faults are one of the most common faults of permanent magnet synchronous motors (PMSMs), and searching for methods to efficiently detect this type of fault and at an early stage of damage is still an ongoing, important topic. This paper deals with the selected methods for detecting stator winding faults (short-circuits) of a permanent magnet synchronous motor, which are based on the analysis of the stator phase current signal. These methods were experimentally verified and their effectiveness was carefully compared. The article presents the results of experimental studies obtained from the spectral analysis of the stator phase current, stator phase current envelope, and the discrete wavelet transform. The original fault indicators (FIs) based on the observation of the symptoms of stator winding fault were distinguished using the aforementioned methods, which clearly show which symptom is most sensitive to the incipient fault of the stator winding of PMSMs.
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