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感应型无轴承电机磁悬浮力解析模型及其反馈控制 被引量:82

ANALYTICAL MODELING AND FEEDBACK CONTROL OF THE MAGNETIC LEVITATION FORCE FOR AN INDUCTION-TYPE BEARINGLESS MOTOR
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摘要 由于负载、干扰和径向位移检测误差,无轴承电机悬浮运行时定、转子中心并不重合,产生偏心,影响了其稳定悬浮控制性能。该文从运行原理出发,建立了计及定、转子定位偏心的感应型无轴承电机磁悬浮力的较精确解析模型,采用电机电磁场分析软件ANSOFT验证了它的精度。应用这个模型实现了悬浮力的实时观测,在传统气隙磁场定向矢量控制系统基础上添加了悬浮力的闭环控制,有效地提高了感应型无轴承电机稳定悬浮运行的动、静态性能。 Due to the load disturbance and detecting error of radial displacement, the centers of stator and rotor of a bearingless motor do not coincide with each other in practical operation, which will influence the control performance of stable suspension. Based on its operation principle, a relatively accurate analytical expression of the magnetic levitation force for an induction-type bearingless motor is proposed in this paper with the eccentricity in the location of stator and rotor taking into consideration, and its computation accuracy is verified by ANSOFT, an electro-magnetic field analysis software of electrical machines. Applying this analytical levitation force model, the real-time observation of magnetic levitation force can be realized, the closed-loop control of levitation force is then implemented on the basis of air-gap-flux-oriented decoupling control system of the bearingless motor. Simulation study verifies the effectiveness of the approach in improving the static and dynamic performance of an induction-type bearingless motor.
作者 年珩 贺益康
机构地区 浙江大学电气工程学院
出处 《中国电机工程学报》 EI CSCD 北大核心 2003年第11期139-144,共6页 Proceedings of the CSEE
基金 浙江省自然科学基金(502050)
关键词 感应型无轴承电机 磁悬浮力 解析模型 反馈控制 电磁轴承 Bearingless motor Location eccentricity Magnetic levitation force Closed-loop control of levitation force
分类号 TM346 [电气工程—电机]
  • 相关文献

参考文献5

  • 1王凤翔,郑柒拾,王宝国.不同转子结构无轴承电动机的磁悬浮力分析与计算[J].电工技术学报,2002,17(5):6-9. 被引量:17
  • 2Chiba A. An analysis of bearingless AC motors[J]. IEEE Trans on Energy Conversion, 1994, 9(1): 61-67.
  • 3Wang Baoguo. Modeling and analysis of levitation force considering air-gap eccentricity in a bearingless induction motor[C]. Proc of the fifth International Conference on Electrical Machine and Systems, 2001: 934-937.
  • 4Koji Kityu. A radial force detection and feedback effects on bearingless motors[C]. IEEE IAS Annual Meeting Conf Rec, 2001: 64-69.
  • 5Takahiro Suzuki. An air-gap-flux-oriented vector controller for stable operation of bearingless induction motors[J]. IEEE Trans on IA, 2000, 7(4): 1069-1076.

二级参考文献7

  • 1[6]Oshima M,Miyazawa S,et al.Characteristics of a permanent magnet type bearingless motor. IEEE Trans.Industry Application,1996,32(2)∶363~370
  • 2[7]Okada Y,Miyamoto S,Ohishi T.Levitation and torque control of internal permanent magnet type bearingless motor.IEEE Trans.Control System Technology,1996,4(5)∶565~571
  • 3[1]Chiba A,Deido T,et al.An analysis of bearingless AC motors.IEEE Trans.Energy Conversion,1994,9(1)∶61~68
  • 4[2]Yamane T,Ikeda T,et al.Design of a centrifugal blood pump with magnetic suspension.Artificial Organs,1995,19(7)∶625~630
  • 5[3]Chiba A,Power D T,Rahman M A.Analysis of no-load characteristics of a bearingless induction motor.IEEE Trans.Industry Application,1995,31(1)∶77~83
  • 6[4]Chiba A,Rahman M A,Fukao T.Radial force in a bearingless reluctance motor.IEEE Trans.Magnetics,1991,27(2)∶786~790
  • 7[5]Wang Fengxiang,Xu Longya.Calculation and measurement of radial and axial forces for a bearingless PMDC motor.IEEE Industrial Applications Society Annual Meeting,Roma,Italy,2000

共引文献16

同被引文献633

引证文献82

二级引证文献585

中国电机工程学报
2003年 第11期

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