• DocumentCode
    1316219
  • Title

    New winding configurations for doubly salient reluctance machines

  • Author

    Mecrow, Barrie C.

  • Author_Institution
    Dept. of Electr. & Electron. Eng., Newcastle upon Tyne Univ., UK
  • Volume
    32
  • Issue
    6
  • fYear
    1996
  • Firstpage
    1348
  • Lastpage
    1356
  • Abstract
    This paper develops the concept of employing a fully pitched winding in a doubly-salient reluctance motor. In a conventional switched reluctance machine, there is complete magnetic decoupling between phases, so that torque is produced entirely due to the rate of change of winding self-inductance. This effectively limits each phase to contributing to positive torque production to a maximum of one-half of the cycle of rotation. If the same machine is wound with fully pitched windings, then it can be shown that the new configuration produces torque entirely as a result of changing mutual inductance between phases, while maintaining a unipolar conduction sequence. Compared with the conventional short-pitched winding machine, far better utilization of the electric circuit results, with each phase contributing to positive torque production for at least two-thirds of the cycle of rotation. A subsequent increase in torque per unit volume inevitably results. The application of such an idea to three-phase switched reluctance motors (SRMs) is developed theoretically and through a series of experimental tests upon a 7.5 kW machine, showing static torque curves for the new machine and comparing them to a conventionally wound SRM
  • Keywords
    inductance; machine testing; machine theory; machine windings; reluctance motors; switching; torque; 7.5 kW; circuit utilisation; doubly-salient reluctance motor; experimental tests; fully pitched winding; mathematical modelling; mutual inductance; three-phase switched reluctance motors; torque per unit volume; unipolar conduction sequence; Circuits; Inductance; Industry Applications Society; Machine windings; Magnetic switching; Production; Reluctance machines; Reluctance motors; Torque; Wounds;
  • fLanguage
    English
  • Journal_Title
    Industry Applications, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0093-9994
  • Type

    jour

  • DOI
    10.1109/28.556638
  • Filename
    556638