This paper presents the comparison between the cogging torques produced by four IPMSGs (Interior Permanent Magnet Synchronous Generators) with different stator winding configurations. More in detail, an IPMSG model, which is derived from a commercial geometry, is analyzed through means of a FEM (Finite Element Method) approach. Then, three more structures are determined and analyzed by adequately changing the number of stator slots of the basic IPMSG stator structure and by maintaining the same rotor configuration. From the obtained simulation results, the cogging torque components for each structure are determined and compared. From this comparison, it can be stated that the use of dissymmetric windings does not affect significantly the generated cogging torque.
Caruso, M., Di Tommaso, A., Mastromauro, R., Miceli, R., Rizzo, R., Viola, F. (2017). Cogging torque comparison of Interior Permanent Magnet Synchronous Generators with different stator windings. In 2017 6th International Conference on Clean Electrical Power: Renewable Energy Resources Impact, ICCEP 2017 (pp.778-783). Institute of Electrical and Electronics Engineers Inc. [10.1109/ICCEP.2017.8004780].
Cogging torque comparison of Interior Permanent Magnet Synchronous Generators with different stator windings
CARUSO, Massimo;DI TOMMASO, Antonino Oscar;MICELI, Rosario;VIOLA, Fabio
2017-01-01
Abstract
This paper presents the comparison between the cogging torques produced by four IPMSGs (Interior Permanent Magnet Synchronous Generators) with different stator winding configurations. More in detail, an IPMSG model, which is derived from a commercial geometry, is analyzed through means of a FEM (Finite Element Method) approach. Then, three more structures are determined and analyzed by adequately changing the number of stator slots of the basic IPMSG stator structure and by maintaining the same rotor configuration. From the obtained simulation results, the cogging torque components for each structure are determined and compared. From this comparison, it can be stated that the use of dissymmetric windings does not affect significantly the generated cogging torque.
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