Torque Ripple Minimization Control Strategy in Synchronous Reluctance Machines

IF 7.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Industry Applications Pub Date : 2022-07-14 DOI:10.1109/OJIA.2022.3190905

Anant K Singh;Ramakrishnan Raja;Tomy Sebastian;Kaushik Rajashekara

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引用次数: 1

Abstract

Torque smoothness is an essential requirement for high-performance motor drive applications. Synchronous reluctance machines (SyRM) have high torque ripple due to non-linear magnetic circuit and saturation. Typically, in Permanent magnet machines the active torque ripple compensation is achieved by injecting a compensating ripple current in the q-axis . For SyRM, the current injection method for active torque ripple cancellation can be used in both the d-axis and q-axis . However, the saturation of the motor parameters with the changing current can result in varied performance between the two methods. This paper evaluates the effectiveness of both of these methods for torque ripple cancellation. For evaluation, the impact of parameter saturation with ripple current injection on the d-axis and the q-axis is studied. The mathematical conclusions obtained are evaluated by both the simulation and the experimental results performed on a 4 pole 1200W Synchronous reluctance machine.

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同步磁阻电机转矩脉动最小化控制策略

扭矩平滑度是高性能电机驱动应用的基本要求。同步磁阻电机（SyRM）由于非线性磁路和饱和而具有较高的转矩脉动。通常，在永磁电机中，通过在q轴中注入补偿纹波电流来实现主动转矩纹波补偿。对于SyRM，用于主动转矩纹波消除的电流注入方法可用于d轴和q轴。然而，电机参数随电流变化而饱和可能导致两种方法之间的性能变化。本文评估了这两种方法对转矩脉动消除的有效性。为了评估，研究了纹波电流注入对d轴和q轴参数饱和的影响。通过在四极1200W同步磁阻电机上进行的仿真和实验，对所得到的数学结论进行了评价。

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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IEEE Open Journal of Industry Applications

CiteScore

13.50

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