Influence of air-gap length on rotor bar current waveform of squirrel-cage induction motor

Gundogdu T., Zhu Z., Mipo J., Farah P.

19th International Conference on Electrical Machines and Systems, ICEMS 2016, Chiba, Japan, 13 - 16 November 2016 identifier

  • Publication Type: Conference Paper / Full Text
  • City: Chiba
  • Country: Japan
  • Keywords: air-gap length, bar current, Induction machines, power factor, saturation, slot leakage, torque ripple
  • Istanbul Technical University Affiliated: No


© 2016 The Institute of Electrical Engineers of Japan.The rotor bar current in an induction motor (IM) is usually assumed to be sinusoidal. However, it is found that the rotor bar current may become non-sinusoidal even if the stator windings are fed with a sinusoidal source. Influence of air-gap length on the rotor bar current waveform of an IM, which is designed by using the same geometrical and operational parameters as the Toyota Prius 2010 interior permanent magnet machine, has been investigated in depth. It reveals that the air-gap length has a significant effect on the rotor bar current waveform, torque ripple, slot leakage, and efficiency. The conditions when the non-sinusoidal rotor bar current waveform occurs and the reasons behind this phenomenon are investigated by finite element method (FEM).