同步磁阻电机分析与设计(连载之七) 转子不均匀分布磁障的对比分析  被引量:3

Analysis and Design of Synchronous Reluctance Machines Part Ⅶ:Comparative Analysis of Unevenly Distributed Rotor Barriers

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作  者:沈建新[1] 蔡顺[1] 郝鹤[1] 金孟加[1] 

机构地区:[1]浙江大学电气工程学院,杭州310027

出  处:《微电机》2017年第1期83-86,共4页Micromotors

摘  要:本文研究同步磁阻电机两种典型磁障形状(U型与C型)的转子优化设计参数。对比这两种不同形状磁障结构对同步磁阻电机性能的影响。通过对两种形状磁障参数全局优化,比较其各自所能获得的最大输出转矩和转矩脉动。针对两台优化了的U型和C型磁障转子的同步磁阻电机,分析比较磁密分布、铁耗、效率、功率因数及转子应力分布。讨论磁障层数对不均匀分布磁障的同步磁阻电机的转矩性能影响,并总结不同磁障层数选择下采用均匀分布磁障和不均匀分布磁障的优势与劣势。This paper proposed the basic parameters of two typical rotor flux barrier shapes of the synchro- nous reluctance machine (SynRM), namely the U-shape and C-shape. The machine performances with these two flux barrier shapes were compared. The maximum output torque and minimum torque ripple were calculated with global parameters optimization. For the optimized machines with U-shape and C-shape flux barriers, respectively, the flux density distribution, iron loss, efficiency, power factor and mechanical stress distribution were all comparatively studied. Finally, the impact of the number of flux barrier layers was ana- lyzed for the SynRM with unevenly distributed flux barriers. Both the advantages and disadvantages were concluded for the SynRM with either evenly distributed flux barriers or unevenly distributed flux barriers.

关 键 词:同步磁阻电机 磁障形状 磁障层数 磁障分布 

分 类 号:TM352[电气工程—电机]

 

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