基于mec的辐条式IPM机气隙磁通密度分布预测

2018 Thirteenth International Conference on Ecological Vehicles and Renewable Energies (EVER) Pub Date : 2018-04-01 DOI:10.1109/EVER.2018.8362392

Nada Elloumi, A. Masmoudi, M. Bortolozzi, A. Tessarolo

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引用次数: 2

摘要

本文在考虑转子位置的轮辐式内嵌永磁电机磁等效电路的基础上，对轮辐式内嵌永磁电机气隙磁通密度分布进行了分析预测。该研究是通过对两个特定转子位置的机器MEC的阐述开始的，这些位置对应于定子和转子之间的最大和零磁耦合，从而能够分别预测气隙磁通密度的直接和正交分量。将电枢磁反应分解为直接分量和正交分量，可以推广对任何转子位置的气隙磁通密度波形的预测。该方法考虑了复磁导函数对定子和转子开槽效应的影响，提高了方法的精度。

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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MEC-based prediction of the air gap flux density distribution of spoke-type IPM machines

The paper is aimed at an analytical prediction of the air gap flux density distribution of a spoke type interior permanent magnet machine, based on its magnetic equivalent circuit (MEC) incorporating the rotor position. The study is initiated by an elaboration of the machine MEC in two particular rotor positions corresponding to the maximum and null magnetic coupling between the stator and rotor which enable the prediction of the direct and quadrature components of the air gap flux density, respectively. The decomposition of the armature magnetic reaction into direct and quadrature components enables the generalization of the prediction of the air gap flux density waveform for any rotor position. The accuracy of the proposed approach is improved taking into account the stator and rotor slotting effects that are analytically incorporated considering complex permeance functions.

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2018 Thirteenth International Conference on Ecological Vehicles and Renewable Energies (EVER)

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