Influence of Load on Optimal Rotor Skew Angles for Minimum Torque Ripple in Interior and Surface PMSMs

Q1 Engineering

Chinese Journal of Electrical Engineering Pub Date : 2025-06-01 DOI:10.23919/CJEE.2025.000133

Shensheng Wang;Z. Q. Zhu;Dawei Liang

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Abstract

The influence of load conditions on the effectiveness of rotor skew in interior and surface permanent magnet synchronous machines (PMSMs) and the determination of the optimal skew angles for minimizing the on-load torque ripple are investigated. Herein, both continuous and stepped skews are considered. It is found that the effectiveness of the rotor skew depends on the load/electric loading and magnetic saturation and is generally inferior in interior PMSMs (IPMSMs) than in surface-mounted PMSMs (SPMSMs). The conventional skew angle, that is, the one on-load torque-ripple periodicity, works well in SPMSMs under light-load conditions. However, when SPMSMs are under heavy-load conditions with significant magnetic saturation or IPMSMs are under all load conditions, an optimal skew angle exists to simultaneously deliver a higher average torque and lower torque ripple than those obtained with the conventional skew angle. This is regardless of whether a continuous or stepped skew is applied. Therefore, a tradeoff between the optimal skew angle, torque production, torque ripple, and load conditions should be considered carefully when selecting skew strategies for different applications.

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负载对内、面永磁同步电机转矩脉动最小转子最佳斜倾角的影响

研究了内、面永磁同步电机中不同负载条件对转子偏转效果的影响，并确定了使有载转矩波动最小的最优偏转角。这里考虑了连续和阶梯式的偏态。研究发现，转子偏转的有效性取决于负载/电负载和磁饱和，并且在内置式永磁同步电动机（IPMSMs）中通常不如表面安装式永磁同步电动机（SPMSMs）。传统的斜倾角，即负载转矩脉动周期性，在轻载条件下可以很好地应用于spmsm。然而，当永磁同步电动机处于显著磁饱和的重载工况或永磁同步电动机处于所有负载工况时，存在一个最佳的斜倾角，与常规斜倾角相比，可以同时提供更高的平均转矩和更低的转矩脉动。这与是否应用连续或阶梯式倾斜无关。因此，在选择不同应用的倾斜策略时，应仔细考虑最佳倾斜角度、扭矩产生、扭矩脉动和负载条件之间的权衡。

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