用于预测磁场和电枢反应场的容错磁通切换永磁电机建模

Ying Fang;Jinghua Ji;Wenxiang Zhao
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引用次数: 2

摘要

本文建立了精确的分析子域模型,用于预测容错磁通开关永磁电机的磁场和电枢反应场。整个区域分为五个子区域,其次是转子槽、气隙、定子槽、PM和外部气隙,以考虑磁通泄漏。线圈匝数和磁体的剩磁是通过保持电机上的磁负载和电负载恒定来调节的。由于引入了容错齿,两个相邻定子槽的中心之间的距离会发生变化。根据变量分离法,可以通过求解偏微分方程组来确定每个区域的通解表达式。子域的磁场分布是通过应用相邻区域之间的连续性条件来获得的。与空载条件下的解析场表达式相比,电枢反应场条件下的一些解析场表达式表现为新的形式。基于所建立的分析模型,可以分别计算空载或电枢反应场条件下的磁通密度分布和电磁性能。通过有限元分析验证了该分析模型的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling of Fault-tolerant Flux-switching Permanent-magnet Machines for Predicting Magnetic and Armature Reaction Fields
The paper develops accurate analytical subdomain models for predicting the magnetic and armature reaction fields in fault-tolerant flux-switching permanent-magnet machines. The entire region is divided into five subdomains, followed by rotor slots, air-gap, stator slots, PM, and external air-gap imported to account for flux leakage. The coil turns and the remanence of magnets are adjusted by keeping the magnetic and electrical loading on the motor constant. The distance between the centers of two adjacent stator slots varies due to the introduction of fault-tolerant teeth. According to the variable separation method, the general solution expression of each region can be determined by solving the partial differential systems of equations. The magnetic field distributions of subdomains are obtained by applying the continuity conditions between adjacent regions. Some analytical field expressions are represented as new forms under armature reaction field condition compared to those under no-load condition. Based on the developed analytical models, the flux density distribution and the electromagnetic performance can be calculated under no-load or armature reaction field condition separately. The finite element analysis is carried out to verify the validity of the proposed analytical model.
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