abstract

• This paper addresses the analysis of inter-turn winding faults of a permanent magnet synchronous motor. The analysis methodology used to study inter-turn windings faults is based on the use of linear coupled circuits. The stator windings are resolved into harmonic conductor density distributions allowing the calculation of coupling impedances in the machine. Instantaneous Park%27s vector module was used as a diagnostic tool for incipient winding faults in steady-state operation of the permanent magnet synchronous motor. © 2015 IEEE.
• This paper addresses the analysis of inter-turn winding faults of a permanent magnet synchronous motor. The analysis methodology used to study inter-turn windings faults is based on the use of linear coupled circuits. The stator windings are resolved into harmonic conductor density distributions allowing the calculation of coupling impedances in the machine. Instantaneous Park's vector module was used as a diagnostic tool for incipient winding faults in steady-state operation of the permanent magnet synchronous motor. © 2015 IEEE.

authors

• Hernandez-Robles I.A.
• Peralta-Sanchez E.
• Álvarez Salas José Antonio
• Álvarez Salas Ricardo

publication date

• 2016-01-01

published in

• 2015 IEEE International Autumn Meeting on Power, Electronics and Computing, ROPEC 2015  Proceedings

keywords

• harmonic conductor density distributions; instantaneous Park's vector module; inter-turn; linear coupled circuits; permanent magnet synchronous motor Coupled circuits; Machine windings; Magnets; Permanent magnets; Reconfigurable hardware; Winding; Coupling impedances; Density distributions; Diagnostic tools; Park's vector; Permanent Magnet Synchronous Motor; Stator winding; Steady-state analysis; Steady-state operation; Synchronous motors

Digital Object Identifier (DOI)

• 10.1109/ROPEC.2015.7395075

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