Performance analysis of asymmetrical less-rare-earth permanent magnet motor for electric vehicle

IF 1.9 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

IET Electrical Systems in Transportation Pub Date : 2021-09-18 DOI:10.1049/els2.12036

Bingchang Lv, Liwei Shi, Lintao Li, Kaiwen Liu, Jianning Jing

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引用次数: 5

Abstract

To reduce the manufacturing cost, the cogging torque and the torque ripple of the traditional V-shaped permanent magnet motor (TPMM), an asymmetrical less-rare-earth permanent magnet motor (ALREPMM) is proposed. An equivalent air-gap flux density model is established, the model is employed to calculate the analytical expression of the no-load back-EMF, and the multiple objectives optimisation are carried out for the motor parameters based on the Taguchi algorithm. Electromagnetic performance of the TPMM structure and the ALREPMM structure is compared by finite element method-based simulation. It is shown that the ALREPMM structure can reduce the amount of rare-earth materials by 19%, and the cogging torque and the THD values of no-load back-EMF are reduced by 77.3% and 26.8%, respectively. Finally, a prototype is manufactured, thus verifying the rationality of the design of the ALREPMM structure through experiments.

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电动汽车用非对称少稀土永磁电机性能分析

为降低传统v型永磁电机的制造成本、齿槽转矩和转矩脉动，提出了一种非对称型低稀土永磁电机。建立等效气隙磁通密度模型，利用该模型计算空载反电动势的解析表达式，并基于田口算法对电机参数进行多目标优化。通过有限元仿真比较了TPMM结构和ALREPMM结构的电磁性能。结果表明，ALREPMM结构可以减少19%的稀土材料用量，空载反电动势的齿槽转矩和THD值分别降低77.3%和26.8%。最后制作了样机，通过实验验证了该结构设计的合理性。

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