6-slot/2-pole permanent magnet (PM) motors with tooth-coil windings are employed widely for high-speed application due to short end-winding and no inherent magnetic force. However, tooth-coil windings can be replaced by 2 and 3 coil-pitch windings for winding factor improvement. Different winding configurations mainly affect winding factor and end-winding length, and consequently average torque and torque density. In this paper, three 6-slot/2-pole high-speed PM (HSPM) motors with 1, 2, and 3 coil-pitch windings are optimized for maximum average torque by finite element method (FEM). Their electromagnetic performances are then compared, accounting for the influence of motor axial length and end-winding. It is found that for high-speed application, compared with 1 and 3 coil-pitches, 2 coil-pitch has a good trade-off between winding factor and end-winding axial length which are attractive for high efficiency and large torque density.


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    Title :

    Comparison of 6-slot/2-pole High-Speed Permanent Magnet Motors with Different Winding Configurations


    Contributors:
    He, T. R. (author) / Zhu, Z.Q. (author) / Xu, F. (author) / Bin, H. (author) / Wu, D. (author) / Gong, L.M. (author) / Chen, J.T. (author)


    Publication date :

    2020-09-10


    Size :

    955322 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English