Simulation of Field Orientation Control for A Dual Stator/Rotor PM and Winding Flux Modulated PM Machine

S. Jia, Peixiong Chen, Shuai Feng, D. Liang
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Abstract

In recent years, the fault-tolerant performance of electric machine systems has received much attention in the fields of electric vehicles, military industries, aerospace. This paper focuses on modeling, and field orientation control (FOC) for a novel dual stator/rotor PM and winding flux modulated PM machine (FMPM). The remarkable characteristic of the machine is that both the stator and rotor have PMs and windings. The particular structure enables the machine to generate multiple torque components, improving torque density and fault tolerance. Firstly, the machine's topology and multiple torque components are illustrated, then the mathematical model of the machine and control system based on the FOC method are investigated. Finally, simulation is carried out in MATLAB, and the simulation results verify the feasibility of the proposed method.
双定子/转子永磁电机及绕组磁通调制永磁电机磁场定向控制仿真
近年来,电机系统的容错性能在电动汽车、军工、航空航天等领域受到了广泛的关注。本文主要研究了一种新型双定子/转子永磁和绕组磁通调制永磁电机(FMPM)的建模和磁场定向控制(FOC)。该机器的显著特点是定子和转子都有pm和绕组。特殊的结构使机器能够产生多个扭矩分量,提高扭矩密度和容错性。首先对机床的拓扑结构和多力矩分量进行了分析,然后研究了机床的数学模型和基于FOC方法的控制系统。最后在MATLAB中进行了仿真,仿真结果验证了所提方法的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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