The optimum design of the magnetic orientation of permanent magnets for IPMSM under hot environments

2017 IEEE 12th International Conference on Power Electronics and Drive Systems (PEDS) Pub Date : 2017-12-01 DOI:10.1109/PEDS.2017.8289239

N. Nishiyama, Hiroki Uemura, Y. Honda

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引用次数: 1

Abstract

In this study, we investigate the optimum design for improving the demagnetization resistance of a concentrated winding permanent magnet synchronous motor (IPMSM) by changing the magnetization direction of the permanent magnet under a high-temperature environment. IPMSMs (flat plate type, V-shaped type, spoke type) are investigated by finite element analysis (FEA) using the same volume of the permanent magnet while changing the magnet's width, and thickness and magnetic field orientation angle. FEA found that a V angle of 130° and a changed magnet length of 107% (or V angle of 100° and a changed magnet length of 97%) using an oblique magnetic-field-oriented magnet strike a good balance between demagnetization resistance and torque at 180°C. In the V-shaped arrangement, for a motor with the same magnet length, the demagnetization resistance at a magnetic field orientation angle α = 20° is better than that at α = 0°. The magnetic field orientation angle α = 20° has a magnetic flux density distribution closer to a sinusoidal wave form than α = 0° and is thus effective for reducing torque ripple.

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热环境下永磁同步电机永磁体磁取向的优化设计

本文研究了在高温环境下，通过改变永磁体磁化方向来提高集中绕组永磁同步电动机(IPMSM)退磁电阻的优化设计。采用有限元分析方法，研究了在相同永磁体体积下，改变永磁体宽度、厚度和磁场取向角的ipmsm(平板型、v型和辐条型)。有限元分析发现，使用斜向磁场定向磁铁，当V角为130°，磁铁长度变化107%(或V角为100°，磁铁长度变化97%)时，在180°C时，可以很好地平衡退磁电阻和转矩。在v型布置下，相同磁体长度的电机，磁场取向角α = 20°时的退磁电阻优于α = 0°时的退磁电阻。磁场取向角α = 20°比α = 0°具有更接近正弦波的磁通密度分布，能有效减小转矩脉动。

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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来源期刊

2017 IEEE 12th International Conference on Power Electronics and Drive Systems (PEDS)

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