关键词: 永磁同步电动机, 分数槽, 槽极配合, 气隙磁密, 齿槽转矩, 空载反电动势

Abstract:

Fractional-slot concentrated-winding permanent magnet synchronous motors may affect the performance of the motor due to cogging torque and a large number of harmonics of the magnetomotive force. Based on the analysis of the principle of cogging torque and harmonic generation, the cogging torque and the influence factors of harmonics of the magneto-motive force were determined, the motor structure was optimized and designed. For a 400 W permanent magnet synchronous motor, a 12-slot 10 pole double-layer shunt winding and a non-slotted stator structure were designed by analyzing the winding coefficient, cogging torque, force wave vibration and harmonic loss. In order to optimize the air gap magnetic density; volume, cost, performance as a comprehensive indicator, the design of the motor part size. The finite element analysis method was used to simulate the static magnetic field characteristics, no-load air gap flux density, cogging torque and no-load back electromotive force. Prototypes were built and tested for performance. Simulation and test results show that the motor has a reasonable design and good performance.

Key words: permanent magnet synchronous motor, fractional slot, slot/pole number combination, air gap magnetic density, cogging torque, no-load back-EMF