谐波
游标尺
转矩脉动
磁铁
转矩密度
扭矩
控制理论(社会学)
有限元法
计算机科学
谐波分析
涟漪
直接转矩控制
物理
机械工程
电子工程
电气工程
电压
工程类
感应电动机
光学
人工智能
热力学
控制(管理)
作者
Min‐Fu Hsieh,Chia-Yuan Chang,Thanh Anh Huynh,David G. Dorrell
标识
DOI:10.1109/tmag.2023.3293268
摘要
This article develops a method for the cancellation of the inherent even-order harmonics in consequent-pole permanent-magnet vernier motors (CP-PMVMs) to improve the performance. Vernier motors can achieve high torque density; however, their high pole number means a high amount of rare-earth permanent magnet (PM) usage at a high cost. The consequent-pole design can reduce PM material cost but leads to high even-order harmonics and torque ripple. This article analyzes two winding configurations in order to develop the method for even-order harmonics cancellation in the CP-PMVMs. Two CP-PMVMs with different slot–pole combinations are analyzed to verify the proposed method. The effect of magnetic barriers on the torque output of the CP-PMVM with canceled even-order harmonics is evaluated. Finally, a multi-objective genetic algorithm is used to optimize the motor. Finite element analysis (FEA) is used to validate the design, with subsequent confirmation of simulations through prototype testing.
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