Electromagnetic and Thermal Analysis of Interior Permanent Magnet Motors Using Filled Slots and Hairpin Windings

IF 1.5 0 ENGINEERING, MULTIDISCIPLINARY
D. B. Minh, N. H. Phuong, V. D. Quoc, H. B. Duc
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引用次数: 2

Abstract

This paper analyzes the electromagnetic and thermal design of interior permanent magnet motors using filled slots and hairpin windings for electric vehicle applications. Two models of ∇ shape of the interior permanent magnet motors have been proposed to evaluate the temperature distribution and cogging torque performance. A narrow opening slot of the interior permanent magnet of 48 slots/8 poles with the filled winding has been designed to investigate the electromagnetic torque because the cogging torque depends on opening stator slots. A parallel–rectangle slot of the interior permanent magnet with the hairpin winding has been also implemented with finite element analysis to evaluate their performances. Normally, the slot opening of the interior permanent magnet stator equals the slot width, it is greater than the size of hairpin windings, and the cogging torque is increased significantly with a bigger slot opening. The main advantage of the hairpin winding design is the high slot fill factors. Hence, the lower the current density, the higher torque, and efficiency are, than the normal design with the same geometry parameters. To improve the cogging torque due to the wide slot opening, the step–skew rotor slices have been arranged to minimize the torque ripple with different skewing angles.
使用填充槽和发夹绕组的内部永磁电机的电磁和热分析
本文分析了电动汽车用填充槽式和发夹式内置式永磁电机的电磁和热设计。提出了两种内部永磁电机的∇形状模型来评估温度分布和齿槽转矩性能。由于排齿转矩取决于定子槽的开度,因此设计了48槽/8极填充绕组的内永磁体窄开槽来研究电磁转矩。并对带发夹绕组的内永磁体平行矩形槽进行了有限元分析,以评价其性能。通常情况下,内部永磁定子的槽开度等于槽宽,大于发卡绕组的尺寸,槽开度越大,齿槽转矩显著增加。发夹绕组设计的主要优点是高槽填充系数。因此,在相同的几何参数下,电流密度越低,转矩和效率就越高。为了提高宽槽开度带来的齿槽转矩,设计了阶梯斜转子片,以减小不同斜角度下的转矩波动。
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来源期刊
Engineering, Technology & Applied Science Research
Engineering, Technology & Applied Science Research ENGINEERING, MULTIDISCIPLINARY-
CiteScore
3.00
自引率
46.70%
发文量
222
审稿时长
11 weeks
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