Please wait a minute...
浙江大学学报(工学版)
J4  2014, Vol. 48 Issue (4): 581-588    DOI: 10.3785/j.issn.1008-973X.2014.04.004
电气工程     
基于模型补偿的永磁同步电机自抗扰控制
盖江涛1,2, 黄庆1, 黄守道1, 刘旺1, 周滔滔1, 潘小清1
1.湖南大学 国家电能变换与控制工程技术研究中心,湖南 长沙 410082; 2.中国北方车辆研究所 车辆传动重点实验室,北京 100072
Active-disturbance rejection controller for permanent magnet synchronous motor based on model compensation
GAI Jiang-tao1,2, HUANG Qing1, HUANG Shou-dao1, LIU Wang1,ZHOU Tao-tao1, PAN Xiao-qing1
1. National Engineering Research Center of Energy Conversion and Control, Hunan University, Changsha 410082, China; 2. Science and Technology on Vehicle Transmission Laboratory, China North Vehicle Research Institute, Beijing 100072, China
 全文: PDF(1362 KB)   HTML
摘要:

在永磁同步电机(PMSM)调速系统中,提出新型模型补偿的无参数整定自抗扰控制策略.将模型辨识补偿与自抗扰控制技术相结合,采用离散最速反馈控制(fhan)函数解决了自抗扰控制器(ADRC)中非线性状态误差反馈控制律(NLSEF)参数整定的问题,使得系统结构更加简化,动态响应能力增强;引入负载观测器对负载扰动进行观测,对扰动进行部分补偿,使得速度控制系统稳态性能更好.通过仿真和实验的验证,模型补偿NMT-ADRC控制策略用于速度驱动系统具有快速的动态响应能力、转矩脉动更小、宽调速等特点,对负载及系统内部参数变化具有很强的抗扰动能力,使得该控制策略能够更好地应用于车辆驱动系统调速控制领域.
Abstract:

A new modal-compensation without parameters tuning active-disturbance rejection controller (NMT-ADRC) was proposed in speed modulation system of permanent magnet synchronous motor (PMSM). Model identification compensation was combined with active-disturbance rejection control (ADRC) technology. The discrete steepest feedback control function (fhan) was used to solve the problem of parameter tuning in nonlinear state error feedback control law (NLSEF). The method simplified the system structure and improved the dynamic response capacity. The steady-state performance of speed control system became better
with the introduction of load observer to measure disturbance and partial compensate for disturbance. Simulation and experimental results show that the improved model compensation NMT-ADRC speed control system has fast dynamic response capability, smaller torque ripple, wide speed range, which makes system possess strong anti-interference ability to the variation of load and internal variation of parameters. This control strategy can be better applied in speed control of vehicle driving system.
出版日期: 2014-09-03
:  TM 921  
基金资助:

国家“十二五”科技支撑计划资助项目(2012BAZ02072).
  
作者简介: 盖江涛(1981—),男,副研究员,从事车辆电传动、特种电机及其控制的研究.E-mail: 30299720@qq.com
服务  
把本文推荐给朋友
加入引用管理器
E-mail Alert
RSS
作者相关文章  

引用本文:

盖江涛, 黄庆, 黄守道, 刘旺, 周滔滔, 潘小清. 基于模型补偿的永磁同步电机自抗扰控制[J]. J4, 2014, 48(4): 581-588.

GAI Jiang-tao, HUANG Qing, HUANG Shou-dao, LIU Wang,ZHOU Tao-tao, PAN Xia. Active-disturbance rejection controller for permanent magnet synchronous motor based on model compensation. J4, 2014, 48(4): 581-588.

链接本文:

http://www.zjujournals.com/eng/CN/10.3785/j.issn.1008-973X.2014.04.004        http://www.zjujournals.com/eng/CN/Y2014/V48/I4/581

[1] LI S H, ZONG K, LIU H X. A composite speed controller based on a second-order model of permanent magnet synchronous motor system [J]. Transactions of the Institute of Measurement and Control, 2011, 33(5): 522-541.

[2] MOHAMED Z, AHMED O , NEJIB S .Controlling chaos in the permanent magnet synchronous motor [J]. Chaos Solitons and Fractals, 2009, 41(3): 12661276.

[3] 陈荣,邓智泉,严仰光.基于负载观测的伺服系统抗扰研究[J].中国电机工程学报,2004,24(8):103-108.

CHEN Rong, DENG Zhi-quan, YAN Yang-guang. Reserch on resist-disturbance of servo system based on load observer [J]. Proceedings of the CSEE, 2004, 24(8): 103-108.

[4] 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: 243-287.

[5] VU N T, YU D Y, CHOI H H, et al. T-S fuzzy-model-based sliding-mode control for surface-mounted permanent-magnet synchronous motors considering uncertainties [J]. IEEE Transactions on Industrial Electronics, 2013, 60(10): 4281-4291.

[6] LIU D, LI M. Adaptive predictive control system with disturbance compensation based on self-recurrent wavelet neural network [J]. International Journal of Advancements in Computing Technology, 2011, 3(10): 330-338.

[7] 高扬,杨明,于泳,等.基于扰动观测器的PMSM交流伺服系统低速控制[J].中国电机工程学报,2005,25(22): 125-128.

GAO Yang, YANG Ming, YU Yong, et al. Disturbance observer based low speed control of servo system [J]. Proceedings of the CSEE, 2005, 25(22): 125128.

[8] 刘颖,周波,方斯琛.基于新型扰动观测器的永磁同步电机滑模控制[J].中国电机工程学报,2010,30(9): 8085.

LIU Ying, ZHOU Bo, FANG Si-chen. PMSM sliding mode control based on novel disturbance observer [J]. Proceedings of the CSEE, 2010,30(9): 80-85.

[9] 章玮,王伟颖.基于降阶负载扰动观测器的永磁同步电机控制[J].机电工程,2012,39(7): 821-832.

ZHANG Wei, WANG Wei-ying. PMSM control based on reduced-order load disturbance observer [J]. Mechanical and Electrical Engineering, 2012, 39(7): 821-832.

[10] HAN Jing-qing. From PID to active disturbance rejection control [J].IEEE Transactions on Industrial Electronics , 2009, 56(3): 900-906.

[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): 118123.

LIU Zhi-gang,LI Shi-hua. Active disturbance rejection controller based on permanent magnet synchronous motor model identification and compensation [J]. Proceedings of the CSEE, 2008, 28(24): 118-123.

[12] 卢达,赵光宙,曲轶龙,等.永磁同步电机无参数整定自抗扰控制器[J].电工技术学报, 2013, 28(3): 27-34.

LU Da, ZHAO Guang-zhou, QU Yi-long, et al. Permanent magnet synchronous motor control system based on no manual tuned active disturbance rejection control [J]. Transactions of China Electrotechnical Society, 2013, 28(3): 27-34.

[13] 黄庆,黄守道,匡江传,等.基于模糊自抗扰控制器的PMSM无速度传感器控制[J].湖南大学学报:自然科学版,2012,39(7): 37-43.

HUANG Qing, HUANG Shou-dao, KUANG Jiang-chuan, et al. PMSM sensorless control based on fuzzy active-disturbance rejection [J]. Journal of Hunan University: Natural Sciences, 2012,39(7): 37-43.

[14] 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): 4346.

SUN Kai, XU Zhen-lin, 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.

[15] 刘子建,吴敏,陈鑫,等.永磁同步电机混合非线性控制策略[J].浙江大学学报:工学版,2010, 44(7): 1303-1307.

LIU Zi-jian, WU Min, CHEN Xin, et al. Hybrid nonlinear control strategy of permanent magnet synchronous machine [J]. Journal of Zhejiang University: Engineering Science, 2010, 44(7): 1303-1307.

[16] HUANG Shou-dao, KUANG Jiang-chuan, HUANG Qing, et al. IPMSM sensorless control based on fuzzy active-disturbance rejection controller for electric vehicle [C]∥Power Engineering, Energy and Electrical Drives International Conference. Torremolinos (Mlaga), Spain: [s.n.], 2011: 1-6.


[17] 孙彪,孙秀霞.离散系统最速控制综合函数[J].控制与决策,2010, 25(3): 473-477.

SUN Biao, SUN Xiu-xia. Optimal control synthesis function of discrete-time system [J]. Control and Decision, 2010, 25(3): 473-477.

[18] 邵立伟,廖晓钟,张宇河,等.自抗扰控制在永磁同步电机无速度传感器调速系统的应用[J].电工技术学报,2006,21(6): 35-39.

SHAO Li-wei, LIAO Xiao-zhong, ZHANG Yu-he, et al. Application of active disturbance rejection controller and extend state observer for PMSM [J]. Transactions of China Electrotechnical Society, 2006,21(6): 35-39.
[1] 姜季宏, 刘鸿鹏, 江振洲, 王卫. 储能电梯中超级电容选取和控制策略[J]. J4, 2014, 48(4): 610-615.