AIP Advances (Jan 2024)

Design and analysis of a hybrid permanent magnet variable leakage flux motor for low core loss and wide speed range

  • Mingwei Yang,
  • Li Quan,
  • Xiaoyong Zhu,
  • Zixuan Xiang,
  • Deyang Fan,
  • Wenjie Fan,
  • Min Jiang

DOI
https://doi.org/10.1063/9.0000783
Journal volume & issue
Vol. 14, no. 1
pp. 015215 – 015215-7

Abstract

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In this paper, a new hybrid permanent magnet variable leakage flux (VLF-HPM) motor is proposed. In order to enhance motor speed range, short arc-shaped and elliptical-shaped magnetic barriers are placed on the q-axis magnet circuit, realizing the so-called leakage flux effect. In addition, ferrite PMs are artfully designed, so self-leakage flux can be reduced while main flux is enhanced. The relationship among PM topology, flux barrier and flux-regulation capability are also investigated in detail. Finally, the electromagnetic performance of VLF-HPM motor is evaluated by the finite element analysis and compared with a conventional V-typed PM motor. It is noted that, compared with conventional V-typed PM motor, the VLF-HPM motor possesses lower core losses and a wider speed range, which offers a new research path for high-performance PM motor.