Dynamic model and co-simulation for a planar switched reluctance direct drive system based on maxwell and simplorer

Ji-lin Fang, Fen Xu, G. Cao, Su-Dan Huang
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引用次数: 0

Abstract

To solve the problem of complex designing and time consuming for the design process of the PSRM, dynamic model of the PSRM is built and co-simulation of the PSRM is performed based on Ansoft/Maxwell and Ansoft/Simplorer in this paper. Taking a new type of PSRM as the research object, the configuration, principle, and mathematical model of the PSRM are clarified. With the Maxwell, the initial value of the PSRM is calculated and the performance of the PSRM is optimized. By the built optimization model of the PSRM, static and transient analysis of the PSRM are analyzed based on Maxwell 2D. Asymmetrical half-bridge power converter circuit and control circuit are established based on the Simplorer. Connecting Maxwell and Simplorer, the dynamic model of the PSRM is constituted. Then, co-simulation of the PSRM is implemented. The simulation results show that the dynamic co-simulation model is able to regulate the phase currents distribution and output the corresponding propulsion force. The validity of the proposed dynamic model and co-simulation are verified.
基于maxwell和simplover的平面开关磁阻直接驱动系统动力学模型及联合仿真
为解决PSRM设计复杂、设计过程耗时的问题,建立了PSRM的动态模型,并基于Ansoft/Maxwell和Ansoft/ simplover对PSRM进行了联合仿真。以一种新型PSRM为研究对象,阐述了PSRM的结构、原理和数学模型。利用Maxwell计算了PSRM的初始值,并对PSRM的性能进行了优化。通过建立的PSRM优化模型,基于Maxwell 2D对PSRM进行了静态和瞬态分析。在此基础上,建立了非对称半桥功率转换电路和控制电路。结合Maxwell和simplover,建立了PSRM的动力学模型。然后,对PSRM进行了联合仿真。仿真结果表明,该动态联合仿真模型能够调节相电流分布并输出相应的推进力。验证了所提动力学模型和联合仿真的有效性。
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