Demagnetization Analysis of a Split-Tooth Concentrated-Winding Vernier Machine using Halbach-array-based Ferrite Magnets

Cheng Gong, Fang Deng
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Abstract

For home appliance industry, since cost and space are the two main concerns, high-torque-density low-speed direct drive solutions are always what people look for. A new type of split-tooth concentrated winding Vernier motor that uses consequent-pole Halbach-array-based ferrite magnets and additional stator magnets between the stator split teeth is proposed in a preliminary study that shows a promising increase in the torque density. However, due to the use of low-coercivity ferrite magnets, the side magnets of the Halbach assembly are prone to suffer from demagnetization problems, which significantly reduces its performance. In this paper, the demagnetization of this new motor topology is analyzed in detail. First, the demagnetization under no load and full load conditions is analyzed. Then, in order to understand the mechanism of demagnetization, the assembly process of the rotor magnets is simulated. An equivalent model that takes into account the demagnetization is then proposed. In order to validate the proposed model, the static field and torque constant of the prototyped motor are measured and compared between the ideal model and proposed model. Finally, the effect of the aspect ratio of the rotor magnets on the demagnetization performance is discussed.
采用哈巴赫阵列铁氧体磁体的散齿集中卷绕游标机消磁分析
对于家电行业来说,由于成本和空间是两个主要问题,高扭矩密度低速直驱解决方案一直是人们所追求的。初步研究提出了一种新型的分齿集中绕组游标电机,该电机采用基于结果极halbach阵列的铁氧体磁体,在定子分齿之间增加定子磁体,显示出有希望提高转矩密度。然而,由于使用低矫顽力铁氧体磁铁,Halbach组件的侧磁铁容易出现退磁问题,这大大降低了其性能。本文详细分析了这种新型电机拓扑结构的消磁特性。首先,分析了空载和满载条件下的消磁特性。然后,为了了解消磁机理,对转子磁体的装配过程进行了仿真。然后提出了一个考虑退磁的等效模型。为了验证所提出的模型,测量了原型电机的静场和转矩常数,并将理想模型与所提出的模型进行了比较。最后,讨论了转子磁体长径比对消磁性能的影响。
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