Comparative Study on Three Novel Hybrid Excited Multitooth Flux-switching Permanent Magnet Machines

Zichen Jin, Xiaofeng Zhu, Shaoxian Chen, Z. Li, S. Ding
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Abstract

In this paper, to apply the advantages of hybrid excited (HE) machine to flux switching permanent magnet machine with multi-tooth stator structure (MFSPM), three novel hybrid excited multitooth flux switching permanent magnet (HE-MFSPM) machines are proposed. The three topologies are basically the same except that PM with radial magnetization is added in each dummy slot in Model II, while a fault tolerant tooth is employed and wound with field winding in Model III. In order to have better flux regulation and lower demagnetization risk, parallel-hybrid-excited structure is adopted in all of the three machines. Then, to evaluate the electromagnetic performance and flux regulation capability of the three HE-MFSPM machines, a series of comparisons, such as flux linkage, back electromotive force (back-EMF), cogging torque, electromagnetic torque, torque ripple, overload capability and flux weakening capability, are conducted by finite element analysis (FEA). The predicted results show that all the proposed three HE-MFSPM machines exhibit good ability of flux regulation due to the addition of field windings. But Model III is superior to Model I and Model II since it exhibits most effective flux regulation capability, highest average torque on rated current density, best overload capability and widest speed range. Moreover, fault-tolerant ability and modularity exist in Model III because of the existence of fault-tolerant teeth.
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三种新型混合激励多齿磁通开关永磁电机的比较研究
为了将混合激励(HE)电机的优点应用于多齿定子结构磁通开关永磁电机(MFSPM),提出了三种新型混合激励多齿磁通开关永磁电机(HE-MFSPM)。三种拓扑结构基本相同,只是模型II在每个假槽中添加径向磁化的PM,而模型III采用容错齿并绕磁场绕组。为了更好地调节磁通,降低退磁风险,三台电机均采用并联-混合励磁结构。然后,通过有限元分析(FEA)对3台HE-MFSPM电机的磁链、反电动势(back- emf)、齿槽转矩、电磁转矩、转矩脉动、过载能力和磁链弱化能力等进行了一系列比较,以评价其电磁性能和磁链调节能力。预测结果表明,三种HE-MFSPM电机由于增加了磁场绕组,都具有良好的磁通调节能力。但模型III具有最有效的磁通调节能力,额定电流密度下的平均转矩最大,过载能力最好,调速范围最宽,优于模型I和模型II。此外,由于容错齿的存在,模型III具有容错能力和模块化。
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The 2022 Joint MMM-INTERMAG Program Committee 2-D Analytical Modeling of Surface Mounted Permanent Magnet Machines With External Rotor Core A New Staggered Dual Stator Field Modulation Machine with O-Shape Permanent Magnet Excitation Comparative Study on Three Novel Hybrid Excited Multitooth Flux-switching Permanent Magnet Machines Proposal of inspection method for rear side defect in steel plate using electromagnetic force vibration
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