Torque Enhancement of Surface-mounted Permanent Magnet Synchronous Machines via Axial Assisted Magnets

2022 Second International Conference on Sustainable Mobility Applications, Renewables and Technology (SMART) Pub Date : 2022-11-23 DOI:10.1109/SMART55236.2022.9990242

Jinya Chen, Kan Liu, Shichao Zhou, Huaqiang Cai, Yongdan Chen, Chao Huang, Dinghua Zhang

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Abstract

A torque enhancement scheme using axial assisted magnets for surface-mounted permanent magnet synchronous machines (SPMSMs) is proposed in this paper. It divides the total permanent magnets into two parts viz. main magnets mounted on the rotor surface, and assisted magnets in the axial direction, with the restriction of the same volume of magnets. According to the theoretical derivation and the finite element (FE) analyses, the proposed design can effectively enhance the output torque after a reasonable combination of the size parameters of main and assisted magnets, while the machine outer size, armature winding current, and volume of total permanent magnets are the same as the conventional SPMSM. The optimal results, average torque increased by over 6.2% without sacrificing torque ripple, of the proposed machine are obtained with the sequential optimization and validated by the experiments.

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轴向辅助磁体增强表面贴装永磁同步电机的转矩

提出了一种利用轴向辅助磁体增强表面贴装永磁同步电机转矩的方案。它将总永磁体分为两部分，即主磁体安装在转子表面，辅助磁体安装在轴向，磁体体积相同的限制下。理论推导和有限元分析表明，在电机外形尺寸、电枢绕组电流和总永磁体体积与传统永磁同步电动机相同的情况下，合理组合主、副磁体尺寸参数，可以有效地提高电机输出转矩。通过序贯优化得到了在不牺牲转矩脉动的情况下平均转矩提高6.2%以上的最优结果，并通过实验进行了验证。

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2022 Second International Conference on Sustainable Mobility Applications, Renewables and Technology (SMART)

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