Torque Separation in Flux-Modulating Consequent Pole Motors

  • Aramaki Soga
    Graduate School of Engineering, Kanazawa Institute of Technology
  • Mitsuda Hiroshi
    Graduate School of Engineering, Kanazawa Institute of Technology Advanced Technology R&D Center, Mitsubishi Electric Corp.
  • Fukami Tadashi
    Graduate School of Engineering, Kanazawa Institute of Technology
  • Koyama Masato
    Graduate School of Engineering, Kanazawa Institute of Technology
  • Tanaka Toshinori
    Advanced Technology R&D Center, Mitsubishi Electric Corp.

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<p>The flux-modulating consequent pole motor (FCM) is a new type of variable-flux permanent magnet (PM) motor with a field winding on the stator. The magnetic poles of the rotor are consequent poles containing PM and iron poles. In this paper, the cross-coupling effects between d- and q-axes on the torque characteristics are analyzed for each MMF source when the permeability distribution in the FCM is frozen under each operating condition. Experimental results of a prototype machine are provided to justify the analysis. The results show that the cross-coupling effects between d- and q-axes can be reduced by appropriately designing the shape of the iron poles.</p>

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