Multiphase machines are increasingly used for reasons of reliability and power segmentation. This paper proposes to study a common example of these machines, six-phase squirrel cage induction motor. The study focuses on the broken bars fault when the motor is supplied by voltage source inverter. The originality of this work lies in the application of diagnostic techniques in a non-conventional machine such as six-squirrel cage induction motor. Therefore, this paper discusses the effect of the broken rotor bar fault in the induction six-phase squirrel cage motor. The drive of this motor requires a multiphase power supply. This is the reason why a six-phases inverter has been built to ensure the healthy or faulty operation of this motor. In order to study the rotor fault, a test bench contains several rotors with rotor broken bars. In order to detect this fault, Motor Current Signature Analysis (MCSA) has become the most common method in the field due to its simplicity, its low computation time, and remote monitoring capability this why this technique is used in this work. The experimental results show the interest and the efficiency of the technique used for the diagnosis of rotor bar faults in the six-phase squirrel cage induction motor.
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