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Simplified Current-Equivalent Circuit Models of Synchronous Reluctance Machines and Salient Pole Synchronous Machines Considering the Reluctance Torque

Author

Listed:
  • Gustav Mörée

    (Division of Electricity, Department of Electrical Engineering, Uppsala University, 751 21 Uppsala, Sweden)

  • Mats Leijon

    (Division of Electricity, Department of Electrical Engineering, Uppsala University, 751 21 Uppsala, Sweden)

Abstract

This paper describes a simplified one-phase equivalent circuit model of three-phase salient pole synchronous machines and synchronous reluctance machines. The model represents the pole saliency as a susceptance, with a magnitude based on the pole saliency and a phase angle based on twice the load angle. The reluctance torque itself is then modeled equivalent to a conductance. The model is made as an extension to Norton equivalents, where the internal inductance is connected as a shunt. This approach shares similarities to the magnetization shunt branch in circuit models of transformers and induction motors. The model is derived using the rotating d q -frame, using Park transform and two-reaction theory. The model is then rewritten to better fit one-phase equivalent circuit models, with the terminal voltage as the angular reference. The resulting two-pole model can then more easily be combined with basic circuit theory, thereby synthesizing d q -theory and phasor circuit models.

Suggested Citation

  • Gustav Mörée & Mats Leijon, 2024. "Simplified Current-Equivalent Circuit Models of Synchronous Reluctance Machines and Salient Pole Synchronous Machines Considering the Reluctance Torque," Energies, MDPI, vol. 17(5), pages 1-37, February.
    • Handle: RePEc:gam:jeners:v:17:y:2024:i:5:p:1015-:d:1343069
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