Analysis, characterization and minimization of IPMSMs cogging torque with different rotor structures

2015 Tenth International Conference on Ecological Vehicles and Renewable Energies (EVER) Pub Date : 2015-06-01 DOI:10.1109/EVER.2015.7112968

M. Caruso, A. D. Di Tommaso, S. Emma, R. Miceli

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引用次数: 12

Abstract

This paper presents the analysis, characterization and comparison of the cogging torque components generated by five different IPMSM rotor structures. More in detail, an IPMSM model (named IPMSM1), which is derived from a commercial geometry, is analyzed by using a Finite Element Method (FEM) approach. Then, four other IPMSM models, which are obtained by modifying the IPMSM1 rotor structure and by maintaining the same stator configuration, are proposed and analyzed. From the obtained simulation results, the cogging torque components for each structure are determined and compared. From this comparison, a significant cogging torque decrease is occurring for the modified geometries, without affecting the values of the generated torque. Furthermore, a meaningful relationship between the peak values of the cogging torque and the gradients of the flux density around the neutral area is reported and discussed. Therefore, simple structure modifications applied to the rotor geometry can bring significant improvements in terms of motor performances and cogging torque reduction.

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不同转子结构的永磁同步电动机齿槽转矩分析、表征及最小化

本文对五种不同转子结构产生的齿槽转矩分量进行了分析、表征和比较。更详细地说，IPMSM模型(命名为IPMSM1)，它是由商业几何推导出来的，使用有限元方法(FEM)分析。然后，通过对IPMSM1转子结构的修改和定子结构的保持，提出并分析了另外四种IPMSM1的模型。根据得到的仿真结果，确定并比较了各结构的齿槽扭矩分量。通过比较可以发现，在不影响产生的扭矩值的情况下，修改后的几何形状显著减小了齿槽扭矩。此外，还报道并讨论了齿槽转矩的峰值与中性区周围磁通密度梯度之间的有意义的关系。因此，对转子几何形状进行简单的结构修改，可以显著改善电机性能，降低齿槽转矩。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 Tenth International Conference on Ecological Vehicles and Renewable Energies (EVER)

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