Optimization of Cogging Torque Based on the Improved Bat Algorithm

IF 0.8 Q4 Computer Science
Wenbo Bai, Huajun Ran
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引用次数: 0

Abstract

Permanent magnet motors have the advantages of high output torque, high efficiency, and low noise, but the cogging effect is obvious. The 24-slot 4-pole surface-mounted permanent magnet synchronous motor is taken as an example to reduce the cogging torque of permanent magnet synchronous motors. Firstly, the generation mechanism of cogging torque is analysed based on the energy method, and the pole arc coefficient, air gap length, magnetic pole eccentricity, permanent magnet thickness, and slot opening width are determined as optimisation parameters. Then, a cogging torque optimisation method is further proposed based on the Taguchi method and the response surface method, and the bat algorithm with the Lévy flight feature is applied to obtain the optimal solution for the response surface model. Finally, finite element software is used to simulate the optimal motor model. The experimental results show that the efficiency of the motor solved by optimal parameters is increased by 1.6%, the cogging torque is reduced by 82.16%, and the torque ripple is reduced by 8.2%. The optimisation of cogging torque in this paper avoids fluctuations in torque, reduces motor vibration and noise, and improves the control characteristics of the permanent magnet motors drive system, operational reliability, and low-speed performance in the motor speed control system and high accuracy positioning in the position control system.
基于改进Bat算法的齿槽转矩优化
永磁电机具有输出转矩大、效率高、噪声低的优点,但齿槽效应明显。以24槽四极明装永磁同步电动机为例,降低了永磁同步电机的齿槽转矩。首先,基于能量法分析了齿槽转矩的产生机理,确定了极弧系数、气隙长度、磁极偏心率、永磁体厚度和槽口宽度作为优化参数。然后,在田口方法和响应面方法的基础上,进一步提出了一种齿槽转矩优化方法,并应用具有Lévy飞行特征的bat算法来获得响应面模型的最优解。最后,利用有限元软件对电机的优化模型进行了仿真。实验结果表明,通过优化参数求解的电机效率提高了1.6%,齿槽转矩降低了82.16%,转矩脉动降低了8.2%。本文对齿槽转矩的优化避免了转矩的波动,降低了电机的振动和噪声,改善了永磁电机驱动系统的控制特性,电机速度控制系统中的高精度定位、操作可靠性和低速性能。
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
自引率
12.50%
发文量
29
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