Quantitative Comparison of Modular Linear Permanent Magnet Vernier Machines with and Without Partitioned Primary

Q1 Engineering Chinese Journal of Electrical Engineering Pub Date : 2023-09-01 DOI:10.23919/CJEE.2023.000024

Yunpeng Xu;Jinghua Ji;Zhijian Ling;Chen Wang;Wenxiang Zhao

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Abstract

A comparison of two modular linear permanent-magnet vernier (LPMV) machines is presented. A modular LPMV machine with a partitioned primary, which can significantly improve the modulation effect, is proposed. Benefitting from the partition design, the space conflict between the permanent magnet (PM) and the armature magnetic field is relieved. First, the topologies of modular LPMV machines with and without a partitioned primary are presented. Then, the effect of the partitioned primary on the modular LPMV machine is analyzed using flux modulation theory. Moreover, analytical expressions for the trapezoidal permeance are derived. In addition, the harmonic components, back electromotive forces, and thrust forces of the machines with and without the partitioned primary are comparatively analyzed. The results reveal that the thrust force density of the LPMV machine with a partitioned primary is increased by 32.3%. Finally, experiments are performed on a prototype machine for validation.

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模块化线性永磁游标机的定量比较

对两种模块化线性永磁游标（LPMV）机床进行了比较。提出了一种具有分区初级的模块化LPMV机，可以显著提高调制效果。得益于分区设计，永磁体（PM）和电枢磁场之间的空间冲突得到了缓解。首先，给出了具有和不具有分区主的模块化LPMV机的拓扑结构。然后，利用磁通调制理论分析了分区初级对模块化LPMV电机的影响。此外，还导出了梯形渗透率的解析表达式。此外，还对带和不带分区初级电机的电机的谐波分量、反电动势和推力进行了比较分析。结果表明，采用分区初级的LPMV电机的推力密度提高了32.3%。最后，在样机上进行了实验验证。

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