In this paper, self-starting permanent magnet synchronous motor electromagnetic design of some generic formula, combined with multi-pole motor design features to complete the motor design, parameter calculation and work characteristics and starting characteristics of the analysis to finalize the program. Ansoft electromagnetic analysis software used by field-circuit coupled method to calculate the transient performance of the motor parameters, and design value by constantly adjusting to get the electromagnetic design. The results show that large multi-polar low self-starting permanent magnet synchronous motor torque and the experimental data was consistent application design, the correct procedure proved feasible, simple and convenient. This research work, further improve the design of permanent magnet synchronous motor has important theoretical significance and value of the works.
This paper attempts to present an optimal design strategy and characteristics of multipolar inverter-driven induction motor (MIDIM) for hybrid electric vehicle. The structures of stator lamination and layout of stator windings are analyzed. Analysis and calculation of Stator end Region Magnetic Field and the end of magnetic induction and electromagnetic force of MIDIM are discussed.The MATLAB is used to design the prototype. And, the computer simulation results of magnetic field of the motor are shown by ANSOFT according to its model. The structure and design method of this motor can be used on common MIDIM.
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