期刊文献+

无轴承同步磁阻电机高频信号注入法无位移传感器控制 被引量:4

Displacements Sensorless Control of Bearingless Synchronous Reluctance Motor Based on High Frequency Signal Injection
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摘要 为降低无轴承同步磁阻电机系统总成本,缩短电机轴向长度,需去除电机的转子位移传感器。本文提出了一种基于高频信号注入法的电机转子位移估算方法,通过在电机转矩绕组注入脉动高频电压信号,从悬浮绕组提取高频感应电流来估计转子位移,从而设计转子位移估算器,建立了电机的无位移传感器控制系统。仿真结果表明高频信号注入法能有效估计转子位移,可实现转矩扰动时全速范围内电机的稳定悬浮运行。 In Order to meet requirements of low cost and short shaft for bearingless synchronous reluctance motor, the rotor displacements sensor should be canceled. In this paper, a novel rotor displacements estimation scheme using fluctuating high frequency voltage signal injection method was suggested, by injecting fluctuating high voltage signal into the torque winding, and the induced high frequency current was distinguished from the suspension winding, then a rotor displacements estimator was designed, and set up the displacements sensorless control system of the motor. Simulation results verify that proposed method can track the rotor displacements effectively, furthermore, the stable suspension operation is realized under condition of load disturbance and in full speed region.
出处 《微电机》 北大核心 2012年第1期67-70,共4页 Micromotors
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 高频信号注入法 无位移传感器控制 bearingless synchronous reluctance motor high frequency signal injection displacements sensorless control
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参考文献9

  • 1张汉年,刘合祥.无轴承电机研究回顾、应用现状与技术基础[J].微电机,2010,43(7):81-84. 被引量:4
  • 2李永东,朱昊.永磁同步电机无速度传感器控制综述[J].电气传动,2009,39(9):3-10. 被引量:91
  • 3年珩,贺益康,黄雷.内插式永磁无轴承电机转子位置/位移综合自检测[J].中国电机工程学报,2007,27(9):52-58. 被引量:16
  • 4Tera T, Yamauchi Y, Chiba A, et al. Perfomances of Bearingless and Sensorless Induction Motor Drive Based on Mutual Inductances and Rotor Displacements Estimation [ J ]. IEEE Trans. on Industry Applications, 2006, 53(1 ) : 187 - 194.
  • 5Michioka C, Sakamoto T, Ichikawa O, et al. A Decoupling Control Method of Reluctance-type Bearingless Motors Considersing Magnetic Saturtion[JJ. IEEE Trans. on Industry Applications, 1996, 32 (5) : 1204 -1210.
  • 6Zhang Harmian, Zhu Huangqiu, Zhang Zhibao, et al. Design and Simulation of Control System for Beatingless Synchronous Reluctance Motor[C]. Nanjing: Proe. of ICEMS, 2005:554-558,.
  • 7Hertel L, Hofmann W. Design and Test Results of a High Speed Beating, less Reluctance Motor[ C]. Lausanne: Proc. of 8th European Conference on Power Electronics and Applications, 1999:1 -7.
  • 8Bimal K Bose.现代电力电子学与交流传动[M].王聪,赵金,译.北京:机械:T:业出版社,2006.
  • 9秦峰,贺益康,刘毅,章玮.两种高频信号注入法的无传感器运行研究[J].中国电机工程学报,2005,25(5):116-121. 被引量:216

二级参考文献67

  • 1年珩,贺益康,秦峰,刘毅.永磁型无轴承电机的无传感器运行研究[J].中国电机工程学报,2004,24(11):101-105. 被引量:27
  • 2秦峰,贺益康,刘毅,章玮.两种高频信号注入法的无传感器运行研究[J].中国电机工程学报,2005,25(5):116-121. 被引量:216
  • 3吴春华,陈国呈,孙承波.基于滑模观测器的无传感器永磁同步电机矢量控制系统[J].电工电能新技术,2006,25(2):1-3. 被引量:72
  • 4Eskola M, Tuusa H. Sensorless Control of Salient Pole PMSM Using a Low-frequency Signal Injection[C]ffEuro- pean Conference on Power Electronics and Applications, 2005,1: 10--14.
  • 5Schroedl M. Operation of the Permanent Magnet Synchronous Machine Without a Mechanical Sensor[C]// 4th IEE Conference on Power Electronics and Variablespeed Drives, 1990,1 : 51--56.
  • 6Sehrodl M, Lambeek M. Statistic Properties of the INFORM Method for Highly Dynamic Sensorless Control of PM Motors Down to Standstill[C] // The 29th Annual Conference of the IEEE Industrial Electronics Society, IECON,2003,2 : 1479--1486.
  • 7Boussak M. Implementation and Experimental Investigation of Sensorless Speed Control with Initial Rotor Position Estimation for Interior Permanent Magnet Synchronous Motor Drive[J]. IEEE Transactions on Power Electronics, 2005,20(6):1413--1422.
  • 8Tanaka K, Yuzawa T, Moriyama R, et al. Initial Rotor Position Estimation Sor Surface Permanent Magnet Syn- chronous Motor[C]//Proceedings of the Fifth International Conference on Electrical Machines and Systems, ICEMS,2001,2 : 824--827.
  • 9Chung Dae-Woong,Kang Jun-Koo, Sul Seung-Ki. Initial Rotor Position Detection of PMSM at Standstill Without Rotational Transducer[C]///International Conference of Electric Machines and Drives, IEMD, 1999,2 : 785- 787.
  • 10Wang Limei, Guo Qinging. Principles and Implementation of Permanent Magnet Synchronous Motor Zero-speed Sensorless Control[C]//International Workshop on Advanced Motion Control, 2002,1 : 247-- 250.

共引文献319

同被引文献38

  • 1张兴华.感应电机的无速度传感器逆解耦控制[J].电工技术学报,2005,20(9):55-60. 被引量:14
  • 2蒋栋,赵争鸣,郭伟.同步磁阻永磁电机无传感器直接转矩控制仿真研究[J].电工技术学报,2006,21(1):58-64. 被引量:7
  • 3年珩,贺益康.永磁型无轴承电机无径向位移传感器运行研究[J].电工电能新技术,2006,25(4):15-18. 被引量:11
  • 4Tera T, Yamauchi Y, Chiba A, et al. Perfomances of bear- ingless and sensorless induction motor drive based on mu- tual inductances and rotor displacements estimation[J]. IEEE Trans. on Industry Applications, 2006, 53 (1) : 187 - 194.
  • 5Suzuki T O. An air2 gap2 flux2 oriented veet or con2 trol- ler for stable operati on of bearingless inducti on motros [J]. IEEE Trans on Ind,2000, 7 (4) :1069 - 1076.
  • 6Abdelrahaman Yousif, Eshag Lesan. Comparative Study of Speed Es- timation Techniques for Sensorless Vector Control of Induction Ma- chine[ C ]. 38th Annual Conference on IEEE Industrial Electronics Society, 2012 : 4298-4303.
  • 7Pavel B, Martin K, Estimation D. Techniques for Sensorless Speed Control of Induction Motor Drive[ C ]. IEEE International on Indus- trial Electronics Symposium, 2006 : 154-159.
  • 8Zefikat M, Chekroun S, Mechemene A. Fuzzy-neural Networks Con-troller-based Adapatation Mechanism for MRAS Sensorless Induction Motor Dfives[ C ]. 8th International Symposium on Advanced Electro- mechanical Motion Systems & Electric Drives Joint Symposium, 2009 : 1-7.
  • 9Caruana C, Asher G, Sumner M. Effect of Motor Type on Perform- ance of Sensorless Induction Motor Control Using HF Injection [ C ]. International Conference on Power Electronics, Machines and Drives, 2002 : 515-521.
  • 10Raute R, Camana C. A Review of Sensorless Control in Induction Machines Using HF Injection, Test Vectors and PWM Harmonics [ C]. Symposium on Sensorless Control for Electrical Drives, 2012: 47-55.

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