Control Strategies for the Identification and Reduction of Cogging Torque in PM Motors

2019 International Conference on Electrical Drives & Power Electronics (EDPE) Pub Date : 2019-09-01 DOI:10.1109/EDPE.2019.8883892

M. Sumega, P. Rafajdus, G. Scelba, M. Stulrajter

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引用次数: 8

Abstract

In this work two different methods for the identification of the cogging torque in three-phase Permanent Magnet (PM) motors are presented. The cogging torque map carried out from these methods is then used in a Field Oriented Control (FOC) algorithm to mitigate the ripple in speed and torque. The first method uses a high bandwidth position control loop in a FOC structure, in which a slow and accurate positioning of the rotor is implemented and the cogging torque map is extracted from the q-axis current. Second method uses Load Torque Observer (LTO), which is able to observe various disturbances like load, friction but also the cogging torque. These two methods are experimentally verified and compared. After having identified the most significant harmonics in the cogging torque waveform, they have been suitably added to the q-axis current reference of a FOC in order to mitigate the ripple in torque and speed caused by cogging torque. The effectiveness of the cogging torque reduction algorithm was experimentally verified by significant minimization of the speed ripple.

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永磁电机齿槽转矩辨识与减小控制策略

本文介绍了三相永磁电机齿槽转矩的两种识别方法。然后将这些方法得到的齿槽转矩图用于场定向控制(FOC)算法，以减轻速度和转矩的波动。第一种方法是在FOC结构中使用高带宽位置控制环，实现转子的慢速精确定位，并从q轴电流中提取齿槽转矩图。第二种方法使用负载扭矩观测器(LTO)，它能够观察各种干扰，如负载、摩擦和齿槽扭矩。对这两种方法进行了实验验证和比较。在确定了齿槽转矩波形中最显著的谐波后，将它们适当地添加到FOC的q轴电流参考中，以减轻齿槽转矩引起的转矩和速度波动。通过实验验证了齿槽转矩减小算法的有效性。

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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2019 International Conference on Electrical Drives & Power Electronics (EDPE)

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