Study on Position Polarity Compensation for Permanent Magnet Synchronous Motor Based on High Frequency Signal Injection
The application of a high frequency signal injection method as speed and position observer in PMSM drives has been a research focus. At present, the precision of this method is nearly good as that of ten-bit encoder. But there are some questions for estimating position polarity. Based on high frequency signal injection, this paper presents a method to compensate position polarity for permanent magnet synchronous motor (PMSM). Experiments were performed to test the effectiveness of the proposed algorithm and results present the good performance.
[1] Wang cheng-yuan, Xia jia-kuan, Yang jun-you etc. Modern Control
Technology for Electrical Machine (M). Beijing: China Machine Press, 2006.5.
[2] Yan Ruzhong, Li Beizhi, Zhou Fu, Sensorless Control of PMSM based on
Parameter Optimized-MRAS Speed Observer(C). Proceedings of the
IEEE International Conference on Automation and Logistics, 2008,
P1573-1578.
[3] Shinnaka, S. New Sensorless Vector Control Using Minimum-Order Flux
State Observer in a Stationary Reference Frame for Permanent Magnet
Synchronous Motors (J). IEEE Transactions on Power Systems, 2006,
53(2), P388-398.
[4] Shao Liwei, Liao Xiaozhong, Zhang, Yuhe, Application of Active
Disturbance Rejection Controller and Extend State Observer for PMSM(J), Transactions of China Electro technical Society, 2006, 21(6),P35-39.
[5] Xiaodong Xiang, Yikang He, Sensorless Vector Control Operation of a
PMSM by Rotating High-Frequency Voltage Injection Approach.
Electrical Machine and system, 2007.ICEMS.International conference
2007.10, P752-756.
[6] Dong Chen, Heng Nian, Yikang He, Lei Huang, Sensorless Operation of
PMSM by High Frequency Signal Injection Using the Field-Circuit Coupled Solution. Electrical Machines and system. 2007. ICEMS.
International Conference2007.10, P 735-739.
[7] Qin Feng, He Yi-kang, Jia Hong-ping, Investigation of the Sensorless
Control for PMSM Based on a Hybrid Rotor Position Self-sensing
Approach(J). Proceedings of the CSEE, Vol.27, No.3, 2007, P12-17.
[8] Shinji, Shinnaka, A New High Frequency Voltage Injection Method for
Sensorless Drive of Permanent Magnet Synchronous Motors with Pole Saliency (C). Electrical Engineering in Japan, Vol. 164, No. 4, 2008. P62-77.
[9] Sung-Yeol Kim, In-Joong Ha, A New Observer Design Method for HF
Signal Injection Sensorless Control of IPMSM (J). IEEE Transactions on
Industrial Electronics Vol 55, No, 6, June 2008. P 2525-2529.
[10] Gheorghe-Daniel Andreescu, Cristian Ilie Pitic, Frede Blaabjerg,
Combined Flux Observer With Signal Injection Enhancement for Wide
Speed Range Sensorless Direct Torque Control of IPMSM Drives (J).
IEEE Transactions on energy conversion, Vol, 23, No, 2, June 2008, P393-402.
[11] H. Kim and R. D. Lorenz, Carrier signal injection based sensorless control
methods for IPM synchronous machine drives(C). 2004 IEEE Industry
Applications Conference, Oct. 2004, vol. 2, P. 977-984.
[12] Mutasim Nour, New Yen Ee, Eyad Radwan, Improvements on the High
Frequency Signal Injection Method for Permanent Magnet Synchronous
Motors and its Application in the Hybrid Drive Position Control (C). IEEE International Conference on Power and Energy, December1-3,
2008, P 295-300.
[13] Alonge F. , Di Tommaso, A.O., Miceli, R., Sensorless Control of
Permanent Magnet Synchronous Motors for Wide Speed Range
Applications(C). International Symposium on Power Electronics, Electrical Drives, Automation and Motion, 2006, P 1008-1013.
[14] Shanshan Wu, Yongdong Li, Xuejin Miao, Two Signal Injection
Methods for Sensorless Control of PMSM at Very Low Speeds(C),
Power Electronics Specialist Conference. 2007. P.568-573.
[1] Wang cheng-yuan, Xia jia-kuan, Yang jun-you etc. Modern Control
Technology for Electrical Machine (M). Beijing: China Machine Press, 2006.5.
[2] Yan Ruzhong, Li Beizhi, Zhou Fu, Sensorless Control of PMSM based on
Parameter Optimized-MRAS Speed Observer(C). Proceedings of the
IEEE International Conference on Automation and Logistics, 2008,
P1573-1578.
[3] Shinnaka, S. New Sensorless Vector Control Using Minimum-Order Flux
State Observer in a Stationary Reference Frame for Permanent Magnet
Synchronous Motors (J). IEEE Transactions on Power Systems, 2006,
53(2), P388-398.
[4] Shao Liwei, Liao Xiaozhong, Zhang, Yuhe, Application of Active
Disturbance Rejection Controller and Extend State Observer for PMSM(J), Transactions of China Electro technical Society, 2006, 21(6),P35-39.
[5] Xiaodong Xiang, Yikang He, Sensorless Vector Control Operation of a
PMSM by Rotating High-Frequency Voltage Injection Approach.
Electrical Machine and system, 2007.ICEMS.International conference
2007.10, P752-756.
[6] Dong Chen, Heng Nian, Yikang He, Lei Huang, Sensorless Operation of
PMSM by High Frequency Signal Injection Using the Field-Circuit Coupled Solution. Electrical Machines and system. 2007. ICEMS.
International Conference2007.10, P 735-739.
[7] Qin Feng, He Yi-kang, Jia Hong-ping, Investigation of the Sensorless
Control for PMSM Based on a Hybrid Rotor Position Self-sensing
Approach(J). Proceedings of the CSEE, Vol.27, No.3, 2007, P12-17.
[8] Shinji, Shinnaka, A New High Frequency Voltage Injection Method for
Sensorless Drive of Permanent Magnet Synchronous Motors with Pole Saliency (C). Electrical Engineering in Japan, Vol. 164, No. 4, 2008. P62-77.
[9] Sung-Yeol Kim, In-Joong Ha, A New Observer Design Method for HF
Signal Injection Sensorless Control of IPMSM (J). IEEE Transactions on
Industrial Electronics Vol 55, No, 6, June 2008. P 2525-2529.
[10] Gheorghe-Daniel Andreescu, Cristian Ilie Pitic, Frede Blaabjerg,
Combined Flux Observer With Signal Injection Enhancement for Wide
Speed Range Sensorless Direct Torque Control of IPMSM Drives (J).
IEEE Transactions on energy conversion, Vol, 23, No, 2, June 2008, P393-402.
[11] H. Kim and R. D. Lorenz, Carrier signal injection based sensorless control
methods for IPM synchronous machine drives(C). 2004 IEEE Industry
Applications Conference, Oct. 2004, vol. 2, P. 977-984.
[12] Mutasim Nour, New Yen Ee, Eyad Radwan, Improvements on the High
Frequency Signal Injection Method for Permanent Magnet Synchronous
Motors and its Application in the Hybrid Drive Position Control (C). IEEE International Conference on Power and Energy, December1-3,
2008, P 295-300.
[13] Alonge F. , Di Tommaso, A.O., Miceli, R., Sensorless Control of
Permanent Magnet Synchronous Motors for Wide Speed Range
Applications(C). International Symposium on Power Electronics, Electrical Drives, Automation and Motion, 2006, P 1008-1013.
[14] Shanshan Wu, Yongdong Li, Xuejin Miao, Two Signal Injection
Methods for Sensorless Control of PMSM at Very Low Speeds(C),
Power Electronics Specialist Conference. 2007. P.568-573.
@article{"International Journal of Electrical, Electronic and Communication Sciences:56219", author = "Gu Shan-Mao and He Feng-You and Ye Sheng-Wen and Ma Zhi-Xun", title = "Study on Position Polarity Compensation for Permanent Magnet Synchronous Motor Based on High Frequency Signal Injection", abstract = "The application of a high frequency signal injection method as speed and position observer in PMSM drives has been a research focus. At present, the precision of this method is nearly good as that of ten-bit encoder. But there are some questions for estimating position polarity. Based on high frequency signal injection, this paper presents a method to compensate position polarity for permanent magnet synchronous motor (PMSM). Experiments were performed to test the effectiveness of the proposed algorithm and results present the good performance.
", keywords = "permanent magnet synchronous motor, sensorless, high-frequency signal injection, magnetic pole position.", volume = "3", number = "10", pages = "1836-5", }
