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内置式永磁同步电机隔磁桥影响研究 被引量:9

Research the Effect of Bridge on IPMSM
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摘要 内置式永磁同步电机d、q轴磁路不对称产生的磁阻转矩有助于提高电机的过载能力和功率密度,为减少漏磁,转子隔磁桥尺寸较小,但过小的隔磁桥在高速旋转时,隔磁桥强度能否满足要求是保证电机安全运行的关键。本文针对常见的三种内置式转子结构,用有限元法计算不同隔磁桥厚度对电机电磁性能及转子应力的影响规律,并对带辅助隔磁桥"V"形转子隔磁桥厚度进行优化计算。结果表明,带辅助隔磁桥"V"形转子的内置式永磁同步电机能够兼顾电磁性能和结构强度,因此更适合高速运行。 As the Interior Permanent Magnet Synchronous Motor's( IPMSM) direct-axis and quadrature-axis magnetic circuits asymmetry,the reluctance torque is helpful to improve the motor's overload capacity and power density. In order to reduce the magnetic leakage,the bridge is designed very small. When the motor works in the high speed operation,the bridge's strength is the key to ensure the motor operate safely. The paper aimed at three kinds of interior permanent magnet rotor structure,at different bridge's size,using FEM to calculate the effect of magnetic property and the stress distribution,and optimized the auxiliary bridge's"V"shaped rotor's bridge size. The results show that,the auxiliary bridge's V shaped rotor's IPMSM can take account of the electromagnetic properties and structure strength simultaneously,so it can be more suitable for high speed operation.
作者 胡光伟 严欣平 黄嵩 艾波
机构地区 重庆大学输配电装备及系统安全与新技术国家重点实验室
出处 《微电机》 北大核心 2014年第7期31-34,共4页 Micromotors
关键词 永磁电机 有限元 结构强度 电磁性能 permanent magnet motor FEM structural strength magnetic property
分类号 TM351 [电气工程—电机] TM341 [电气工程—电机]
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参考文献4

  • 1唐仟远.现代永磁电机理论与设计[M].北京:机械工业出版社,1997.
  • 2张涛,朱熀秋,孙晓东,杨泽斌.基于有限元法的高速永磁转子强度分析[J].电机与控制学报,2012,16(6):63-68. 被引量:43
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二级参考文献10

  • 1王继强,王凤翔,鲍文博,关恩录.高速永磁电机转子设计与强度分析[J].中国电机工程学报,2005,25(15):140-145. 被引量:96
  • 2王凤翔.高速电机的设计特点及相关技术研究[J].沈阳工业大学学报,2006,28(3):258-264. 被引量:167
  • 3DEGNER Michael W, VAN MAAREN Richard, FAHIM Azza, et al. A rotor lamination design for surface permanent magnet reten- tion at high speeds [ J ]. IEEE Transactions on Industry Applica- tion,1996, 32(2) :380 -385.
  • 4CHO H W, KO K J, CHOI J Y, et al. Rotor natural frequency in high-speed permanent magnet synchronous motor for turbo-com- pressor application [ J ]. IEEE Transactions on Magnetics, 2011, 47(10) : 4258 -4261.
  • 5SCHNEIDER T, BINDER A. Design and evaluation of a 60 000 rpm permanent magnet bearingless high speed motor[ C ]//7th In-ternational Conference on Power Electronics and Drive Systems 2007, PEDS 07, November 27 - 30, Bangkok, Thailand. 2007 42(4) : 1 -8.
  • 6BIANCHI N, BOLOGNANI S, LUISE F. Potentials and limits , high-speed PM motors [ J 3. IEEE Transactions on Industry Appl cations, 2004, 40 (6) : 1570 - 1578.
  • 7JAE W J, BYEONG H L, DO J K, et al. Mechanical stress re- duction of rotor core of interior permanent magnet synchronous mo- tor[J]. IEEE Transactions on Magnetics, 2012, 48 (2) : 911 -914.
  • 8SEO J H, KIM S M, JUNG H K. Rotor design strategy of IPMSMfor 42 V integrated starter generator [ J ]. IEEE Transactions on Magnetics, 2010, 46 (6) : 2458 - 2461.
  • 9ALEKSANDAR B, HENK P, JAN A F. On the speed limits of permanent magnet machines [ J ]. IEEE Transactions on Magnet- ics, 2010, 57(1) : 220 -227.
  • 10SUNG I K, YOUNG K K, GEUN H L, et al. A novel rotor con- figuration and experimental verification of interior PM synchro- nous motor for high Speed applications [ J ]. IEEE Transactions on Magnetics, 2012, 48 (2) : 843 - 846.

共引文献42

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引证文献9

二级引证文献11

微电机
2014年 第7期

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