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Investigation of a 3D-Magnetic Flux PMSM With High Torque Density for Electric Vehicles

Hao Chen, Nabeel A. O. Demerdash, Ayman El‐Refaie, Youguang Guo, Wei Hua, Christopher H. T. Lee

2021IEEE Transactions on Energy Conversion81 citationsDOIOpen Access PDF

Abstract

This paper presentsan investigation of a 3D-magnetic flux permanent magnet synchronous motor (3D-MF PMSM) used for electric vehicle applications. The investigated 3D-MF PMSM consists of an integrated radial-flux and axial-flux structure. It has two radial-flux air-gaps and two axial-flux air-gaps, as well as a toroidal winding wound stator. The integrated structure helps to concentrate all the flux within the motor to maximize torque production. Moreover, there are no end-windings in this motor and all the stator windings effectively are used in torque production. A comprehensive performance evaluation, in terms of the back-electromotive force, average output torque, cogging torque, torque ripple, flux-weakening capability, etc., of the investigated 3D-MF PMSM is conducted. An interior PMSM is purposely included as a benchmark for comparison. The results show that compared to the benchmark interior PMSM, the original 3D-MF PMSM exhibits significantly improved torque density, higher power factor, and higher efficiency, but suffers from serious cogging torque and torque ripple. Accordingly, a skewed arrangement is introduced to the 3D-MF PMSM. As a result, the cogging torque and torque ripple are significantly reduced.

Topics & Concepts

Cogging torqueDirect torque controlTorque rippleTorqueControl theory (sociology)StatorStall torqueTorque densityCounter-electromotive forceSynchronous motorDamping torqueElectromagnetic coilPhysicsComputer scienceEngineeringInduction motorElectrical engineeringVoltageArtificial intelligenceThermodynamicsControl (management)Electric Motor Design and AnalysisMagnetic Bearings and Levitation DynamicsSensorless Control of Electric Motors