制造缺陷对永磁同步电机齿槽转矩水平的影响

2011 IEEE Ninth International Conference on Power Electronics and Drive Systems Pub Date : 2011-12-01 DOI:10.1109/PEDS.2011.6147390

L. Gašparin, R. Fišer

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引用次数: 14

摘要

通过对齿槽转矩分量的详细分析，发现除了已知的固有齿槽转矩分量外，在批量生产中还存在由于装配公差而产生的额外齿槽转矩分量。由于这两组齿槽扭矩组件在参考常用的应用设计技术中大多存在矛盾，因此最小化总齿槽扭矩成为电机设计人员的一项具有挑战性的任务。采用有限元法和快速傅立叶变换对永磁同步电机的简单模型和批量生产的实际设计进行了研究和分析，实现了制造公差和装配缺陷的仿真。计算和测量证实，批量生产中的不精确会导致额外的齿槽转矩谐波分量的现象，而这在完美组装的电机中是不存在的。

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Impact of manufacturing imperfections on cogging torque level in PMSM

A detailed analysis of cogging torque components reveals that besides well-know native cogging torque components exist also additional cogging torque components which are provoked by assembly tolerances in mass-production. Since these two groups of cogging torque components are within reference to common applied design techniques mostly in contradiction, a minimization of the total cogging torque becomes a challenging task for motor designers. A finite element method and Fast Fourier transformation were used to study and analyse a simple model of PMSM and a real design of PMSM from mass-production which enable simulation of manufacturing tolerances and assembly imperfections. Calculations and measurements confirmed that imprecision in mass-production cause the phenomena of additional cogging torque harmonic components, which are not present in the case of a perfectly assembled motor.

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2011 IEEE Ninth International Conference on Power Electronics and Drive Systems

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