基于改进电压模型的无轴承同步磁阻电机转子位移估计方法被引量：3

Rotor Displacements Estimation Method Based on Modified Voltage Model for Bearingless Synchronous Reluctance Motor

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摘要为缩短无轴承同步磁阻电机轴向长度,降低包含位移传感器在内的系统总成本,拓宽无轴承同步磁阻电机的应用领域,需去除电机的转子径向位移传感器。采用改进电压模型的反电动势积分方法对电机悬浮绕组磁链进行观测,进而设计转子位移估计器,建立了电机的无位移传感器控制系统。仿真和实验结果表明该方法能有效估计转子位移,可实现转矩扰动时无轴承同步磁阻电机的稳定悬浮运行。 In order to decrease the shaft length of bearingless synchronous reluctance motor, to reduce the total cost of the system included displacement sensors and to expand the application fields for the motor, so the rotor displacement sensors should be canceled. A back-EMF integration combined with modified voltage model was used for estimating the flux in the suspension winding, so the rotor displacements estimator was designed, and the displacements sensorless control system of the motor was set up. Simulation and experiment results verify that the proposed method can track the rotor displacements effectively, furthermore, the stable suspension operation is realized under condition of load disturbance.

作者张汉年孙刚刘合祥

机构地区南京信息职业技术学院电子信息学院东南大学电气工程学院

出处《电气传动》北大核心 2012年第3期52-56,共5页 Electric Drive

基金南京信息职业技术学院重点科研项目(YKJ10-006)

关键词无轴承同步磁阻电机电压模型磁链观测位移估计 bearingless synchronous reluctance motor voltage model flux observer displacements estimation

分类号 TM35 [电气工程—电机]

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