内嵌式永磁同步电机改进型解耦控制

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摘要内嵌式永磁同步电机（IPMSM）具有好的转矩性能和宽的调速范围,但其电流控制器需要精确的参数模型,由于饱和效应影响,电感参数会随运行条件不同发生改变,控制器受耦合影响,系统容易出现速度及转矩超调、扰动等现象。为了提高IPMSM恒转矩及恒功率区的控制性能,本文设计了一种改进型电流解耦控制器。控制器基于模型参考自适应法对参数进行在线检测,检测系统加入了前馈及闭环反馈,保证了参数检测的准确性及鲁棒性。这种解耦电流控制器结构简单、紧凑,有效改善了控制性能。实验和仿真结果表明,这种改进型控制器能有效准确的实时在线检测参数,同时使得整个系统响应速度快、无超调、系统转速稳定无扰动现象,能明显地提升系统性能。

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	吴荒原
	王双红
	辜承林
	邵可然
	孙剑波

关键词 ：内嵌式永磁同步电机, 弱磁控制, 参数辨识, 解耦

Abstract：Interior permanent magnet synchronous motor(IPMSM) is better suited to high perfor- mance torque drive and wide speed range applications; however the accurate parameters of the IPMSM are needed. Due to the saturation effect, the inductances are changed in different conditions, because of the coupling phenomenon. The speed and the torque of the system will be disturbed and overshoot. This paper presents an improved decoupling control strategy for the IPMSM which is based on the parameters online estimation. The strategy improves the control performance in the full range of the system. The feedforward and closed-loop feedback parts are added to ensure the accuracy and robustness of parameter detection. The structure of the decoupling controller is simple and compact, which is obviously improved the control performance. Simulation and experiments show that the system has a faster speed response and no disturbance and overshoot phenomenon and can significantly improve the system performance.

Key words： IPMSM flux weakening on-line parameter estimation decoupling

收稿日期: 2013-08-20 出版日期: 2015-03-23

PACS:

TM351

基金资助:国家自然科学基金资助项目(50807019)

作者简介: 吴荒原男,1982年生,博士研究生,研究方向永磁同步电机智能控制。王双红男,1968年生,副教授,研究方向为电机系统及其控制。

引用本文:

吴荒原, 王双红, 辜承林, 邵可然, 孙剑波. 内嵌式永磁同步电机改进型解耦控制[J]. 电工技术学报, 2015, 30(1): 30-37. Wu Huangyuan, Wang Shuanghong, Gu Chenglin, Shao Keran, Sun Jianbo. An Improved Decoupling Control Strategy for the IPMSMS. Transactions of China Electrotechnical Society, 2015, 30(1): 30-37.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2015/V30/I1/30

[1] Morimoto S, Sanada M. Wide-speed operation of interior permanent magnet synchronous motors with highperformance current regulator[J]. IEEE Transactions on Industry Applications, 1994, 30(4): 920-926.
[2] Yu Seok, Jun Young Lee. Adaptive flux observer with on-line inductance estimation of an interior PMSM considering magnetic saturation[J]. Journal of Power Electronics, 2009, 9(2): 188-197.
[3] Cheng B, Tesch T R. Torque feed forward control technique forpermanent-magnet synchronous motors[J]. IEEE Transactions on Industrial Electronics, 2010, 57(3): 969-974.
[4] Underwood, S J Husain I. Online parameter estimation and adaptive control of permanent magnet synchronous machines[J]. IEEE Transactions on Industrial Electro- nics, 2010, 57(7): 2435-2443.
[5] Rahman M A, Milasi R M, Lucas C. Implementation of emotional controller for interior permanent-magnet synchronous motor drive[J]. IEEE Transactions on Industry Applications, 2008, 44(5): 1466-1476.
[6] Jinhwan Jung, Kwanghee Nam. A dynamic decoupling control scheme for high speed operation of induction motors[J]. IEEE Transactions on Industrial Electronics, 2002, 46(1): 100-110.
[7] Huangyuan Wu, Shuanghong Wang, C L Gu. Simplified fuzzy logic based flux weakening speed control of IPMSM drive[C]. Proceedings of IEEE Conference on Electrical Machines and Systems, Beijing, China, 2011.
[8] Yukinori Inoue, Koji Yamada, Shigeo Morimoto, et al. Accuracy improvement of IPMSM sensorless drives with on-line parameter identification[C]. Power Conver- sion Conference, Nagoya, Japan, 2007: 860-866.
[9] Sugimoto H, Tamai S. Secondary resistance identifica- tion of an induction-motor applied model reference adaptive system and its characteristics[J]. IEEE Transaction on Industry Applications, 1987, 23(2): 296-303.
[10] Rajendra, Shrestha L, Seok Jul Ki. Online compensation of parameter variation effects for robust interior PM synchronous motor drives[J]. Journal of Power Electronics, 2011, 5(11): 713-718.
[11] Reyes M Velez, Verghese G C. Subset selection in identification, and application to speed and parameter estimation for induction machines[C]. Proceedings of IEEE Conference on Control Applications, Albany NY, 1995: 991-997.
[12] Kwon T S, Sul S K. Novel antiwindup of a current regulator of asurface-mounted permanent-magnet motor for flux-weakening control[J]. IEEE Transactions on Industrial Electronics, 2006, 42(5): 1293-1300.
[13] Dutta R, Rahman M F. A comparative analysis of two test methods of measuring dq-axes inductances of interior permanent magnet machine[J]. IEEE Transac- tions on Magnetics, 2006, 42(11): 3712-3718.
[14] Cheol Jo, Ji Yun Seol, In Joong Ha. Flux-weakening control of IPM motors with significant effect of magnetic saturation and stator resistance[J]. IEEE Transactions on Industrial Electronics, 2008, 55(3): 1330-1340.
[15] Jinhwan Jung, Sunkyoung Lim, Kwanghee Nan. PI type decoupling control scheme for high speed operation of induction motors[C]. 28th Annual IEEE Power Electronics Specialists Conference, St. Louis, America, 1997: 1082-1085.
[16] Kim H, Lorenz R D. Improved current regulators for IPM machine drives using on-line parameter estima- tion[C]. IEEE IAS Annual Meeting, Pittsburgh, PA, USA, 2002: 86-91.
[17] 杨书生, 钟宜生. 永磁同步电机转速伺服系统鲁棒控制器设计[J]. 中国电机工程学报, 2009, 29(3): 84-90. Yang Shusheng, Zhong Yisheng. Robust controller design for PMSM speed servo systems[J]. Proceedings of the CSEE, 2009, 29(3): 84-90.
[18] 尹华杰, 林金铭, 金振荣. 弱磁型永磁同步电机参数与调速特性的关系研究[J]. 电工技术学报, 1997, 12(1): 24-28. Yin Huajie, Lin Jinming, Jin Zhenrong. Effects of parameters on variable speed characteristic of permanent magnet synchronous machine for flux weakening operation[J]. Transactions of China Electrotechnical Society, 1997, 12(1): 24-28.
[19] 安群涛, 孙力, 赵克. 一种永磁同步电机参数的自适应在线辨识方法[J]. 电工技术学报, 2008, 23(6): 31-36. An Quntao, Sun Li, Zhao Ke, An adaptive on line identification method for the parameters of permanent maget synchronous motor[J]. Transactions of China Electrotechnical Society, 2008, 23(6): 31-36.
[20] 许家群, 朱建光, 刑伟, 等. 电动汽车驱动用永磁同步电动机系统效率优化控制研究[J]. 电工技术学报, 2004, 19(7): 81-86. Xu Jiaqun, Zhu Jianguang, Xing Wei, et al. Study of efficiency optimization control of permanent magnet synchronous motor drives for electric vehicle[J]. Transactions of China Electrotechnical Society, 2004, 19(7): 81-86.