基于TMS320F240的矢量控制交流调速系统的研究
摘要
高性能交流传动系统在伺服、轧机等工业领域具有广泛的应用前景。矢量控制策略是实现高性能交流调速系统的技术手段之一。本论文分析了矢量控制的基本原理,对基于直接转子磁场定向、基于间接转子磁场定向、基于气隙磁场定向和基于定子磁场定向四种矢量控制方案进行了简单的对比,对有速度传感器型和无速度传感器型的矢量控制进行了对比,确定了有速度传感器型的直接转子磁场定向矢量控制方案。应用MATLAB仿真软件对该控制方案进行了仿真分析。基于TIMS320F240 DSP实现了该控制方案,进行了测试。仿真试验和测试结果证明本文论述的有速度传感器型的直接转子磁场定向矢量控制方案的可行性和有效性。实现了PC机端基于USS协议局部网络的变频器监控软件,该软件运行稳定,通信数据正确,能够满足实际要求。
The high performance AC induction motor driver is widely used in the industry area such as AC servo, rolling mechine and so on. FOC(Field-Oriented Control) is one of valid technology in implementing the high peformace AC induction motor driver. After this paper analyzed field-oriented control theory, compared the methods among direct rotor-flux-oriented vector control, indirect rotor-flux-oriented vector control, stator-flux-based Vector control and air-gap-flux-based Vector Control, and compared speed sensored FOC with speed sensorless FOC, the speed sensored direct rotor-flux-oriented vector control strategy was adopted. Then this strategy was simulited using MATLAB software. In the end speed sensored direct rotor-flux-oriented vector control system was implemented using TMS320F240 DSP, and the prototype was
tested. The results of simulition and experiment demonstrate the feasibility and validity of this strategy. In addition to , a software on pc ,which monitors coverters connected the local net using USS protocol, was developed , it runs in stability , transfers data is correct, so the software can meet the need of practical applyment.
The high performance AC induction motor driver is widely used in the industry area such as AC servo, rolling mechine and so on. FOC(Field-Oriented Control) is one of valid technology in implementing the high peformace AC induction motor driver. After this paper analyzed field-oriented control theory, compared the methods among direct rotor-flux-oriented vector control, indirect rotor-flux-oriented vector control, stator-flux-based Vector control and air-gap-flux-based Vector Control, and compared speed sensored FOC with speed sensorless FOC, the speed sensored direct rotor-flux-oriented vector control strategy was adopted. Then this strategy was simulited using MATLAB software. In the end speed sensored direct rotor-flux-oriented vector control system was implemented using TMS320F240 DSP, and the prototype was
tested. The results of simulition and experiment demonstrate the feasibility and validity of this strategy. In addition to , a software on pc ,which monitors coverters connected the local net using USS protocol, was developed , it runs in stability , transfers data is correct, so the software can meet the need of practical applyment.
引文
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[13] Wijesundera D.S., Jackson R.D. Observers for field-oriented control of induction motor drives, IEE Procedings-B, Vo1:139, Iss:4, 1992:381-386
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[19] 王妍,杜军红,陶伟宜等.基于DSP的空间电压法PWM的研究.电机与控制学报,4(2),2000:98-105
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[22] 尚敬,胡基士.基于MATLAB的异步电动机矢量控制系统的仿真.电力机车技术,25(4),2002:31-33
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[25] H.W. Vander Broeck, H.C. Skudely, G.V. Stranke. Analysis and Realization of a Pulsewidth Modulator Based on Voltage Space Vectors. IEEE Trans. on IA, 24, 1998:142-150
[26] TI Company. Space-Vector PWM With TMS320C24x/F24x Using
Hardware and Software Determined Switching Patterns. 1999
[27] 杨耕,曾光,钟彦儒.用于电动机控制的几种新型单片微处理器.电气传动,25(1),1995:46-49
[28] 周也平.DSP在高性能变频传动系统中的应用.电气传动与自动化,16(3),1994:2-10
[29] 彭天好,杨华勇.基于TMS320x240高效节能普及型数控系统的研究.机电工程,17(3),2000:49-50
[30] 丘阿瑞,尹雁,王光辉等.基于DSP的无速度传感器异步电机矢量控制系统.清华大学学报(自然科学版),41(3),2001:21-24
[31] 谷爱昱,王春茹.DSP在电机控制领域的应用展望.微电机,34(2),2001:35-36
[32] 李磊,胡育文.基于DSP的新型无速度传感器直接转矩控制系统的研究.电机与控制学报,5(1),2001:27-31
[33] 梁汉滨,钟彦儒.电力电子装置的微型计算机化设计.北京:机械工业出版社.1990
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[35] TI Company. TMS320C24X DSP Controllers Reference Guide—CPU, System and Instruction Set .1999
[36] TI Company. TMS320C24X DSP Controllers Reference Guide—Peripheral Library and Specific Devices. 1999
[37] TI Company. TMS320Clx/C2x/C2xx/C5x Assembly Languages Tools User's Guide, 1995
[38] 阳宪惠.现场总线技术及其应用.北京:清华大学出版社.1999
[39] 刘国林,王福来,吴世红等.带PROFIBUS-DP接口的智能电动机控制器开发.电气传动,31(1),2001:44-47
[40] 曾毅,蒋宏,王宏.一种提高变频器网络通讯效率的接口适配器.山东工业大学学报,3(4),2001:331-335
[41] 吴一高,傅建中.变频器群控的计算机通讯技术.机电工程,18(5),2001:182-185
[42] 朱三元,钱乐秋,宿为民.软件工程技术概论.北京:科学出版社.2002
[43] 吴际,金茂忠.UML面向对象分析.北京:北京航空航天大学出版社.2001
[2] 佟纯厚.近代交流调速.冶金工业出版社.1995
[3] 李永东.交流电机数字控制系统.北京:机械工业出版社.2002
[4] B.K.博斯 主编,姜建国等译.电力电子学与变频传动技术和应用.江苏:中国矿业大学出版社.1999
[5] 苏彦民,李宏.交流调速系统的控制策略.北京:机械工业出社.1998
[6] 余功军.感应电动机的无速度传感器矢量控制若干问题的研究.西安理工大学博士学位论文.1999
[7] 冯垛生,曾岳南.无速度传感器矢量控制原理与实践.北京:机械工业出版社.1997
[8] 刘锋,崔纳新,魏青.双微机实现的矢量控制交流驱动系统.机电工程,16(4),1999:16-19
[9] 陈坚.交流电机数学模型及调速系统.北京:国防工业出版社.1989
[10] 王成元,周美文,郭庆鼎.矢量控制交流伺服驱动电机.北京:机械工业出版社.1994
[11] 马小亮.大功率交-交变频调速及矢量控制技术.北京:机械工业出版社.1996
[12] Lennart Harnefors. Design and Analysis of General Rotor-Flux-Oriented Vector Control Systems. IEEE Trans. on IE, VOL:48, NO:2, 2001:383-390
[13] Wijesundera D.S., Jackson R.D. Observers for field-oriented control of induction motor drives, IEE Procedings-B, Vo1:139, Iss:4, 1992:381-386
[14] Y.R. Kim, S.K. Sul, M.H. Park. Speed-Sensorless Vector Control
of Induction Motor Using Extended Kalman Filter, IEEE Trans. on IA, Vol:30, NO:5, 1994:1225-1233
[15] D.J. Atkinson, P.P. Acarnely, J.W. Finch. Observers for Induction Motor State and Parameter Estimation, IEEE Trans. on IA, Vol:27,NO:6, 1995:1119-1127
[16] TI Company. Field Orientated Control of 3-Phase AC-Motors.1998
[17] TI Company. Implementing Field-Oriented Control of AC Motors with the TMS320C25 DSP.1996
[18] TI Company. Digital Signal Processing Solution for AC Induction Motor. 1996
[19] 王妍,杜军红,陶伟宜等.基于DSP的空间电压法PWM的研究.电机与控制学报,4(2),2000:98-105
[20] 程为国,冯峰,姚东等.MATLAB 5.3应用指南,北京:人民邮电出版社.1999
[21] 蒙以正.MATLAB5.X应用与技巧.北京:科学出版社.1999
[22] 尚敬,胡基士.基于MATLAB的异步电动机矢量控制系统的仿真.电力机车技术,25(4),2002:31-33
[23] 吴守箴,臧英杰.电气传动的脉宽调制控制技术.北京:机械工业出版社.1995
[24] 瞿文龙,黄斐梨,王耀明.逆变器供电感应电机新型空间矢量PWM控制方法,清华大学学报(自然科学版),37(1),1997:69-73
[25] H.W. Vander Broeck, H.C. Skudely, G.V. Stranke. Analysis and Realization of a Pulsewidth Modulator Based on Voltage Space Vectors. IEEE Trans. on IA, 24, 1998:142-150
[26] TI Company. Space-Vector PWM With TMS320C24x/F24x Using
Hardware and Software Determined Switching Patterns. 1999
[27] 杨耕,曾光,钟彦儒.用于电动机控制的几种新型单片微处理器.电气传动,25(1),1995:46-49
[28] 周也平.DSP在高性能变频传动系统中的应用.电气传动与自动化,16(3),1994:2-10
[29] 彭天好,杨华勇.基于TMS320x240高效节能普及型数控系统的研究.机电工程,17(3),2000:49-50
[30] 丘阿瑞,尹雁,王光辉等.基于DSP的无速度传感器异步电机矢量控制系统.清华大学学报(自然科学版),41(3),2001:21-24
[31] 谷爱昱,王春茹.DSP在电机控制领域的应用展望.微电机,34(2),2001:35-36
[32] 李磊,胡育文.基于DSP的新型无速度传感器直接转矩控制系统的研究.电机与控制学报,5(1),2001:27-31
[33] 梁汉滨,钟彦儒.电力电子装置的微型计算机化设计.北京:机械工业出版社.1990
[34] 陈伯时.电力拖动自动控制系统.北京:机械工业出版社.1992
[35] TI Company. TMS320C24X DSP Controllers Reference Guide—CPU, System and Instruction Set .1999
[36] TI Company. TMS320C24X DSP Controllers Reference Guide—Peripheral Library and Specific Devices. 1999
[37] TI Company. TMS320Clx/C2x/C2xx/C5x Assembly Languages Tools User's Guide, 1995
[38] 阳宪惠.现场总线技术及其应用.北京:清华大学出版社.1999
[39] 刘国林,王福来,吴世红等.带PROFIBUS-DP接口的智能电动机控制器开发.电气传动,31(1),2001:44-47
[40] 曾毅,蒋宏,王宏.一种提高变频器网络通讯效率的接口适配器.山东工业大学学报,3(4),2001:331-335
[41] 吴一高,傅建中.变频器群控的计算机通讯技术.机电工程,18(5),2001:182-185
[42] 朱三元,钱乐秋,宿为民.软件工程技术概论.北京:科学出版社.2002
[43] 吴际,金茂忠.UML面向对象分析.北京:北京航空航天大学出版社.2001
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