GEOMETRY BASED FLUX BARRIER OPTIMIZATION OF INTERIOR PM MOTORS Cover Image

GÖMÜLÜ MIKNATISLI SENKRON MOTORLARIN GEOMETRİ TABANLI AKI BARİYERİ OPTİMİZASYONU
GEOMETRY BASED FLUX BARRIER OPTIMIZATION OF INTERIOR PM MOTORS

Author(s): Adem DALGALI, Cemil Ocak
Subject(s): Essay|Book Review |Scientific Life
Published by: Rating Academy
Keywords: electric vehicles; finite element method; flux barrier; synchronous motor;

Summary/Abstract: n recent years, due to their superior features, interior permanent magnet (IPM) motors are often preferred in traction applications such as electric vehicles. The rotor geometry ofan IPM motor significantly affects motor performance. To improve the electromagnetic performance of the IPM motor such as maximum torque per ampere (MTPA), efficiency, and the torque pulsations, rotor and its lux barriers geometry have to be optimized due to the difficult modeling dominated by magnetic saturation. Thus, this study is focused on the optimization of flux barriers by varying the rotor geometric parameters which have significant influences. Performance and the electromagnetic parameters of the motor are verified by using 3D-Finite Element Method. The proposed motor has the following parameters; 4-pole, 48V, 500W and 3000rpm

  • Issue Year: 3/2018
  • Issue No: Special
  • Page Range: 225-234
  • Page Count: 10
  • Language: Turkish
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