基于模糊自抗扰控制器的永磁同步电动机伺服系统

摘要
图/表
参考文献
相关文章 (15)

全文: PDF (416 KB)
输出: BibTeX | EndNote (RIS)

摘要针对永磁同步电机伺服系统要求高精度、快速响应及稳态性能好等问题, 该文设计了一种新型永磁同步电动机模糊自抗扰位置伺服控制系统。首先, 根据自抗扰与模糊控制原理, 设计了模糊自抗扰控制器;其次, 通过对位置速度环控制器的改进, 使得在保持原自抗扰控制器特点的同时减少了可调参数, 改善了系统控制性能, 并在此基础上, 对交轴输出方程进行分析, 提出了一种新的位置环模糊自抗扰控制方案, 在保证系统动态性能的同时, 提高了抗负载扰动的能力;最后, 通过仿真和实验验证, 改进后的系统具有响应速度快、无超调、控制精度高的特点, 对负载及系统内部参数变化具有很强的鲁棒性。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	黄庆
	黄守道
	伍倩倩
	李孟秋
	黄科元
	匡江传

关键词 ：永磁同步电机, 伺服系统, 位置环, 模糊控制, 自抗扰控制器

Abstract：A novel fuzzy active-disturbance rejection position controller of permanent magnet syn chronous motor (PMSM) servo system is presented in this paper, which aims to satisfy the features of PMSM servo system such as high accuracy, fast response, and better steady-state performance. First, fuzzy active-disturbance rejection controller is designed based on fuzzy control theory. Besides, through the improvement of position speed loop controller, the original features of controller are maintained and the adjustable parameters are reduced, which improves the system control performance. On this basis, q-axis output equation is analyzed and a new position fuzzy active-disturbance rejection controller (F-ADRC) scheme is proposed. It can not only ensure the dynamic performance of system but also improve the ability of the anti-disturbance. At last, simulation and experimental results show that the improved system has the characteristics of fast response, no overshoot and high control accuracy, and has strong robustness to load and inner parameter changes.

Key words： PMSM servo system position loop fuzzy control ADRC

收稿日期: 2012-09-17 出版日期: 2014-03-25

PACS:

TM351

基金资助:国家国际科技合作(2011DFA62240), 国家“十二五”科技支撑计划重点项目(2012BAZ02072)和湖南省国际科技合作(2011WK2012)资助项目

作者简介: 黄庆男, 1982年生, 博士研究生, 工程师, 研究方向为伺服系统及其控制。黄守道男, 1962年生, 教授, 博士生导师, 研究方向为电力电子传动装置及其控制、特种电机及其控制。

引用本文:

黄庆, 黄守道, 伍倩倩, 李孟秋, 黄科元, 匡江传. 基于模糊自抗扰控制器的永磁同步电动机伺服系统[J]. 电工技术学报, 2013, 28(9): 294-301. Huang Qing, Huang Shoudao, Wu Qianqian, Li Mengqiu, Huang Keyuan, Kuang Jiangchuan. PMSM Servo System Based on Fuzzy Active-Disturbance Rejection Controller. Transactions of China Electrotechnical Society, 2013, 28(9): 294-301.

链接本文:

http://dgjsxb.ces-transaction.com/CN/Y2013/V28/I9/294

[1] 唐任远. 现代永磁电机理论与设计[M]. 北京: 机械工业出版社, 2000.
[2] Dinh Quang Truong, Truong Quoc Thanh, Kyoung Kwan. Development of a novel linear magnetic actuator with trajectory control based on an online tuning fuzzy PID controller[J]. International Journal of Precision Engineering and Manufacturing, 2012, 13(8): 1403-1411.
[3] 韩京清. 自抗扰控制技术—估计补偿不确定因素的控制技术[M]. 北京: 国防工业出版社, 2008.
[4] Chi Hong Lin , Wei Chongyao, Wang Mengting. The fuzzy neural network control with adaptive algorithm for a PM synchronous motor drive[C]. Proceedings of the 6th IEEE Conference on Industrial Electronics and Applications, 2011: 2518-2523.
[5] Ezzat M, Glumineau A, Plestan F. Sensorless high order sliding mode control of permanent magnet synchronous motor[C]. 2010 11th International Workshop on Variable Structure Systems, 2010: 233-238.
[6] Fazeli S M, Zarchi H A, Soltani J, et al. Adaptive sliding mode speed control of surface permanent magnet synchronous motor using input-output feedback linearization[C]. 2008 11th International Conference on Electrical Machines and Systems, 2008: 1375-1380.
[7] Shoudao Huang , Jiangchuan Kuang, Qing Huang, et al. IPMSM sensorless control based on fuzzy active-disturbance rejection controller for electric vehicle[C]. Power Engineering, Energy and Electrical Drives International Conference, 2011: 1-6.
[8] 韩京清. 从PID技术到“自抗扰控制”技术[J]. 控制工程, 2002, 9(3): 13-18.
Han Jingqing. From PID technique to active disturbances reject ion control technique[J]. Control Engineering of China, 2002, 9(3): 13-18.
[9] 韩京清. 自抗扰控制技术[J]. 前沿科学, 2007, 1(1): 24-31.
Han Jingqing. Auto disturbance rejection control technique[J]. Frontier Science, 2007, 1(1): 24-31.
[10] Guang Su. Fuzzy ADRC controller design for PMSM speed regulation system[J]. Advanced Materials Research, 2011, 201-203 (2) : 2405-2408.
[11] 刘志刚, 李世华. 基于永磁同步电机模型辨识与补偿的自抗扰控制器[J]. 中国电机工程学报, 2008, 28(24): 118-123.
Liu Zhigang, Li Shihua. Active disturbance rejection controller based on permanent magnetic synchronous motor model identification and compensation[J]. Proceedings of the CSEE, 2008, 28(24): 118-123.
[12] 孙凯, 许镇琳, 盖廓, 等. 基于自抗扰控制器的永磁同步电机位置伺服系统[J]. 中国电机工程学报, 2007, 27(15): 43-46.
Sun Kai, Xu Zhenlin, Gai Kuo, et al. A novel position controller of PMSM servo system based on active-disturbance rejection controller[J]. Proceedings of the CSEE, 2007, 27(15): 43-46.
[13] 陈洪, 高延滨, 孙华. 自适应模糊自抗扰控制器的研究与设计[J]. 控制系统, 2008, 24(8): 32-33.
[14] Hongmei Shi, Wei Si. Simulation & realization of PMSM servo system based on fuzzy active- disturbance rejection[C]. The Ninth International Conference on Electronic Measurement & Instruments, 2009: 446-451.
[15] 王耀南, 孙炜. 智能控制理论及应用[M]. 北京: 机械工业出版社, 2008.
[16] Liu Huixian, Li Shihua. Speed control for PMSM servo system using predictive functional control and extended state observer[J]. IEEE Transactions on Industrial Electronics, 2012, 59(2): 1171-1183.