某机电装置随动控制系统改造
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摘要
为提高我军某机电装备现代化水平、解决装备维修困难的问题、实现对战斗单元的远程指挥与控制,需要对其随动系统进行改造。
改造分两个阶段进行。第一阶段对随动系统核心部件电子管放大器进行模拟集成化改造。改造的目标是在保持原有放大器功能和接口不变的情况下提高其性能:改造的方法是采用工程频率法对系统内双闭环(速度环、加速度环)进行改造。前向通道在实现其原有功能的情况下,对每个模块采用不同策略进行重新设计:速度环、加速度环分别采用并联比例微分(PD)反馈和并联比例(P)反馈的控制方法进行设计,P可调。在现场调试中解决了新老放大器的通用性问题,并通过调整速度闭环内外的放大倍数、微分时间常数、反馈大小使系统达到各项要求。经过可靠性与可维修性分析、各项试验的验证和部队使用,新放大器达到和超过了各项性能指标的要求,即将通过鉴定并装备部队使用。
第二阶段对随动系统提出全数字化改造方案。目标是保持系统主体结构不变,采用模块化数字集成电路进行设计。外接网络接口,利于远程指挥和控制。应用新的控制算法,系统稳定性、快速性、准确性、可靠性都将有较大提高,为今后其它随动系统的改造提供参考。
For settling the problem of the army equipments' maintaining, improving the equipments'capability, controlling and directing the equipments from long distance through the network, we must alternate their servo systems.
In the first stage, we changed the Vacuum Tube Amplifier with Analog 1C, that is the core of servo system .For retaining the function and outside junction, useing Engineer Frequency Method alternate the system's inner two closed loop (velocity loop and acceleration loop). In the Amplifier's forward channel, using different strategy redesign each blocks. Velocity loop use Parallel Proportion And Differential Feedback, and acceleration loop use Proportion Feedback. Each proportion can be adjusted. In locale debugging, we settle the problems of the compatibility between new and old. And by adjusting proportion, differential time constant and each block's magnify multiple, system achieve the request. All experiments, security and servicing analysis, troops' testify prove that the new Amplifier attains and exceed all the guidelines. And experts will check the item soon.
In the second stage, we will alternate the servo with modularization numeric 1C, but retain the main configuration. The system has network. After alteration, the system will be more stable, more veracious, swifter and more reliable.
改造分两个阶段进行。第一阶段对随动系统核心部件电子管放大器进行模拟集成化改造。改造的目标是在保持原有放大器功能和接口不变的情况下提高其性能:改造的方法是采用工程频率法对系统内双闭环(速度环、加速度环)进行改造。前向通道在实现其原有功能的情况下,对每个模块采用不同策略进行重新设计:速度环、加速度环分别采用并联比例微分(PD)反馈和并联比例(P)反馈的控制方法进行设计,P可调。在现场调试中解决了新老放大器的通用性问题,并通过调整速度闭环内外的放大倍数、微分时间常数、反馈大小使系统达到各项要求。经过可靠性与可维修性分析、各项试验的验证和部队使用,新放大器达到和超过了各项性能指标的要求,即将通过鉴定并装备部队使用。
第二阶段对随动系统提出全数字化改造方案。目标是保持系统主体结构不变,采用模块化数字集成电路进行设计。外接网络接口,利于远程指挥和控制。应用新的控制算法,系统稳定性、快速性、准确性、可靠性都将有较大提高,为今后其它随动系统的改造提供参考。
For settling the problem of the army equipments' maintaining, improving the equipments'capability, controlling and directing the equipments from long distance through the network, we must alternate their servo systems.
In the first stage, we changed the Vacuum Tube Amplifier with Analog 1C, that is the core of servo system .For retaining the function and outside junction, useing Engineer Frequency Method alternate the system's inner two closed loop (velocity loop and acceleration loop). In the Amplifier's forward channel, using different strategy redesign each blocks. Velocity loop use Parallel Proportion And Differential Feedback, and acceleration loop use Proportion Feedback. Each proportion can be adjusted. In locale debugging, we settle the problems of the compatibility between new and old. And by adjusting proportion, differential time constant and each block's magnify multiple, system achieve the request. All experiments, security and servicing analysis, troops' testify prove that the new Amplifier attains and exceed all the guidelines. And experts will check the item soon.
In the second stage, we will alternate the servo with modularization numeric 1C, but retain the main configuration. The system has network. After alteration, the system will be more stable, more veracious, swifter and more reliable.
引文
[1] 陈志良.未来战争[M].北京:北京电影出版社,1999.50-61.
[2] 王文华.沙漠狂飙[M].北京:军事科学出版社,2000.61-82.
[3] 付伟.北约空袭南联盟中的信息战[J].航天电子对抗,1999,23(4):20-25.
[4] 耿卫东.滕人顺,张松.信息化战场的指挥对抗[J].战略家网站,2003.
[5] 阿尔贝特 加洛塔.电子战与信息战[J].电子防御杂志,1985,3.
[6] 某装备通用规范.国家军用标准.
[7] 某装备教材.1973.
[8] 刘旻,许镇琳,窦汝振.DSP在全数字交流伺服系统中的应用[J].制造业自动化,2001.8:15-20.
[9] 赵学军,王瑛,王洪岭,等.模糊分形方法在探地雷达信号处理中的应用[J].地质与勘探,200 1,37(4):71-72.
[10] K. A. Browning K A, Wexler T. The determination of kinematic properties of a wind field using Doppler radar. [J]. Atmos. Meteor., 1968,7: 105-113.
[11] 白洁、周晓波、王立琨等。多普勒雷达VAD技术扩展的误差分析[J].应用气象学报,1999,12(1):13-16.
[12] 陶祖钰.关于Doppler雷达VAD技术的讨论.应用气象学报.1995,1:109-113.
[13] SkolnikMI. Introductiontoradarsystem [M]. NewYork: Mcgraw-HillBookCo, 1980.
[14] WehnerDR. Highresolutionradar[M]. Boston: ArtechHouse, 1995.
[15] Vijayan R, Poor H V, Moore J B. Goodwin G C. A Levinson-Type Alorithm for Modeling Fast Sampled Data [J]. IEEE Trans. Automatic Control, 1991, 36(3): 314~321.
[16] Fan H.Singaular Root Distribution Problem For Delta-Operator Based Real Polynomials. Automatica, 1999, 35(5): 791~807.
[17] 刘铮,张守宏.频率编码脉冲信号的模糊函数与编码优化[J].系统工程与电子技术,1999,21(11):38-40.
[18] 张润宁.超宽带、低旁瓣脉冲压缩-信号设计与处理技术[D].北京:北京理工大学,1994.
[19] 王东生,等.混沌、分形及其应用[M].北京:中国科学技术大学出版社,1995.
[20] ClarkME, etal. High range resolution technique sforbal-listic missiletargets[A]. IEE Colloquiumon High Resolu-tion Radar and Sonar[C]. London, UK, 1999.
[21] 吴敏金.分形信息导论[M].上海:上海科学技术出版社,1994.
[22] 张萍,欧阳光耀.基于分形几何的信号特征提取技术及其应用研究[J].海军工程大学学报,2001,1(1):20-21.
[23] 刘向东,焉德军,朱伟勇,等.广义M-J集的界与J-集Hausdorff维数的估计[J].应用数学和力学,2001,2(11):23-25.
[24] Barnsley M F. Fractal Everywhere[M]. Boston: Academic PressProfessional, 1993.
[25] 李庆谋,刘少华.分形噪声、(多维)分形滤波及地球物理测井曲线处理应用[J].物探化探计算技术,2001,2(1):16-18.
[26] 李红达,叶正麟,彭国华.一种分形插值函数的若干性质[J].西北大学学报(自然科学版),2001,1(3):35-38.
[27] Peitgen, Heinz_Otto, richter P H. The Beauty of Fractals[M]. Berlin: Springer_ Verlag, 1986.
[28] 邹群彩,凌祥,涂善东.基于分形理论的岩相图像识别与分析[J].南京化工大学学报,,2001.2(1):12-14
[29] 任福尧.复解析动力学系统[M].上海:复旦大学出版社,1997,56-157
[30] 傅明,彭玉旭.一种基于分形与神经网络的汽车车型图像识别法[J].湖南交通科技,2001,1(1):35-36.
[31] 马雪洁,魏学业.分形滤波及其在铁路信号中的应用[J].交通运输工程学报,2001,4(1):22-24.
[32] 吴敏金,雷新宇.语音信号的分形滤波[J].华东师范大学学报,1999,4(12):24-26
[33] Gott G F. Chan S K, Panjiaros C A, et al. High Frequency spectal occupancy at the Solstice[J]. IEEE Proc-Commun. 1997,144(1):24~25
[34] Khan RHBrianGamberg, Desmond Power, etal.Target Detection and Tracking with High Frequency Ground Wave Radar[J]. IEEE Journal of oceanic Engineering, 1994,19(4):540~542
[35] 任培宏,夏凌.一种低时间旁瓣电平、高多普勒容限的脉压信号波形综合及其处理方法[J].电讯技术,1999,4(4):34-35.
[36] 李侠.吴铁平.一种自适应旁瓣对消的新方法——辅助通道Householder变换[J].空军雷达学院学报,1999,2(2):15-18.
[37] Skolnik M I. An Introduction to Radar Systems[M]. NewYork: Mc Grow Hill, 1980. 4
[38] Khan R H, Mitchell D.Wave form Analysis for High Frenqucy F MIC W radar[J]. IEE Proc.F, 1991,138(5): 411~419.
[39] Shen Yiying ,LiuYongtan. Application of Frequency-Coded Publse Signal in a Ground Wave Over the Horizon Radar[J].Joumal of System Engineering and Electronics, 1997(10):33~36
[40] 刘和平、严利平、张学锋等.TMS320LF240×DSP结构、原理及应用[M].北京:北京航空航天大学出版社,2002.4:1-5、74-77、96-102、166-174、285-292.
[41] 孙礼朋 王田苗 刘敬猛等.基于 DSP 的网络化无刷直流电动机控制系统[J].电子技术应用,2003,7.
[42] 3-Phase Synchronous PWM Controllor IC Provides an Integrated Solution for Intel VRM 9.0 Design Guidelines. IR Rectifier Datum.
[43] Mikael Andersson,Pekka Kuivalainen, Martti Valtonen. IGBT Model in APLAC. Circuit Theory Laboratory Report CT-14, April 1995.
[44] Melkote H, Khorrami F.Torque ripple attenuation for brushless DC motors via adaptive variable structure control[A]. Proc. of Conference Decision and Control [C], 1998:285-291.
[45] 袁世明、周铁英.高性能超声电机驱动及控制电路的研制[J].电子技术应用,2003,6.
[46] 姚红萍,张诚光.火控光电伺服系统的研制[J].武器装备自动化,2002,Vol.21,No.2.
[47] S.Murthy, M.C.Wu, D.Sivco. Parallel feed traveling wave distributed pin photodetectors with integrated[J]. Electronics Letters. 2002,1, 17: Vol.38 No.2.
[48] 刘政华、何将三.机械电子学[M].长沙:国防科技大学出版社,1999,6:70-76.
[49] Astrom K J, Hang C C.Towards Intelligent PID Control[J].Automatica,1992,28(1):1-9.
[50] 王亚刚,邵惠鹤.自整定PID控制器的研究综述[J].电气自动化,2000,(1):7-9.
[51] 陶永华,等.新型PID控制及其应用[M].北京:机械工业出版社,1998:25-50.
[52] 刘放,张士髦.陈明.FUZZY-PID在激光陀螺稳频控制中的应用研究[J].航空计测技术,2001,12(3):3-7.
[53] 刘鸿雁,谢元旦,往仁先。一种模糊PID控制器的鲁棒优化设计[J].电气传动,2001,2:20-22。
[54] Zhao Z Y. Fuzzy gain scheduling of PID controllers, IEEE Trans. Syst, man, Cybem, 1993, 23(5); 1392~1398.
[55] Itkis U. Control systems of variable structure [M]. 1976, Wiley & Songs Ltd, 1976:168-178.
[56] Slotine J J E. Applied nonlinear control [M]. prentice-Hall Inc,1991.182-189.
[57] 杨智.自整定PID调节器设计方法[J].甘肃工业大学学报,1998,24(1):77-82.
[58] Hong c M, WU Y C. Design of equal excursion sliding regimes [J]. Int J of Control, 1989, 49(5): 1615-1631.
[59] 某装备定型试验规程.国家军用标准.
[60] 中华人民共和国国家军用标准GJB299-87(1988年5月第一版).
[61] 中华人民共和国国家军用标准GJB2423《电工电子产品基本环境试验规程》.
[2] 王文华.沙漠狂飙[M].北京:军事科学出版社,2000.61-82.
[3] 付伟.北约空袭南联盟中的信息战[J].航天电子对抗,1999,23(4):20-25.
[4] 耿卫东.滕人顺,张松.信息化战场的指挥对抗[J].战略家网站,2003.
[5] 阿尔贝特 加洛塔.电子战与信息战[J].电子防御杂志,1985,3.
[6] 某装备通用规范.国家军用标准.
[7] 某装备教材.1973.
[8] 刘旻,许镇琳,窦汝振.DSP在全数字交流伺服系统中的应用[J].制造业自动化,2001.8:15-20.
[9] 赵学军,王瑛,王洪岭,等.模糊分形方法在探地雷达信号处理中的应用[J].地质与勘探,200 1,37(4):71-72.
[10] K. A. Browning K A, Wexler T. The determination of kinematic properties of a wind field using Doppler radar. [J]. Atmos. Meteor., 1968,7: 105-113.
[11] 白洁、周晓波、王立琨等。多普勒雷达VAD技术扩展的误差分析[J].应用气象学报,1999,12(1):13-16.
[12] 陶祖钰.关于Doppler雷达VAD技术的讨论.应用气象学报.1995,1:109-113.
[13] SkolnikMI. Introductiontoradarsystem [M]. NewYork: Mcgraw-HillBookCo, 1980.
[14] WehnerDR. Highresolutionradar[M]. Boston: ArtechHouse, 1995.
[15] Vijayan R, Poor H V, Moore J B. Goodwin G C. A Levinson-Type Alorithm for Modeling Fast Sampled Data [J]. IEEE Trans. Automatic Control, 1991, 36(3): 314~321.
[16] Fan H.Singaular Root Distribution Problem For Delta-Operator Based Real Polynomials. Automatica, 1999, 35(5): 791~807.
[17] 刘铮,张守宏.频率编码脉冲信号的模糊函数与编码优化[J].系统工程与电子技术,1999,21(11):38-40.
[18] 张润宁.超宽带、低旁瓣脉冲压缩-信号设计与处理技术[D].北京:北京理工大学,1994.
[19] 王东生,等.混沌、分形及其应用[M].北京:中国科学技术大学出版社,1995.
[20] ClarkME, etal. High range resolution technique sforbal-listic missiletargets[A]. IEE Colloquiumon High Resolu-tion Radar and Sonar[C]. London, UK, 1999.
[21] 吴敏金.分形信息导论[M].上海:上海科学技术出版社,1994.
[22] 张萍,欧阳光耀.基于分形几何的信号特征提取技术及其应用研究[J].海军工程大学学报,2001,1(1):20-21.
[23] 刘向东,焉德军,朱伟勇,等.广义M-J集的界与J-集Hausdorff维数的估计[J].应用数学和力学,2001,2(11):23-25.
[24] Barnsley M F. Fractal Everywhere[M]. Boston: Academic PressProfessional, 1993.
[25] 李庆谋,刘少华.分形噪声、(多维)分形滤波及地球物理测井曲线处理应用[J].物探化探计算技术,2001,2(1):16-18.
[26] 李红达,叶正麟,彭国华.一种分形插值函数的若干性质[J].西北大学学报(自然科学版),2001,1(3):35-38.
[27] Peitgen, Heinz_Otto, richter P H. The Beauty of Fractals[M]. Berlin: Springer_ Verlag, 1986.
[28] 邹群彩,凌祥,涂善东.基于分形理论的岩相图像识别与分析[J].南京化工大学学报,,2001.2(1):12-14
[29] 任福尧.复解析动力学系统[M].上海:复旦大学出版社,1997,56-157
[30] 傅明,彭玉旭.一种基于分形与神经网络的汽车车型图像识别法[J].湖南交通科技,2001,1(1):35-36.
[31] 马雪洁,魏学业.分形滤波及其在铁路信号中的应用[J].交通运输工程学报,2001,4(1):22-24.
[32] 吴敏金,雷新宇.语音信号的分形滤波[J].华东师范大学学报,1999,4(12):24-26
[33] Gott G F. Chan S K, Panjiaros C A, et al. High Frequency spectal occupancy at the Solstice[J]. IEEE Proc-Commun. 1997,144(1):24~25
[34] Khan RHBrianGamberg, Desmond Power, etal.Target Detection and Tracking with High Frequency Ground Wave Radar[J]. IEEE Journal of oceanic Engineering, 1994,19(4):540~542
[35] 任培宏,夏凌.一种低时间旁瓣电平、高多普勒容限的脉压信号波形综合及其处理方法[J].电讯技术,1999,4(4):34-35.
[36] 李侠.吴铁平.一种自适应旁瓣对消的新方法——辅助通道Householder变换[J].空军雷达学院学报,1999,2(2):15-18.
[37] Skolnik M I. An Introduction to Radar Systems[M]. NewYork: Mc Grow Hill, 1980. 4
[38] Khan R H, Mitchell D.Wave form Analysis for High Frenqucy F MIC W radar[J]. IEE Proc.F, 1991,138(5): 411~419.
[39] Shen Yiying ,LiuYongtan. Application of Frequency-Coded Publse Signal in a Ground Wave Over the Horizon Radar[J].Joumal of System Engineering and Electronics, 1997(10):33~36
[40] 刘和平、严利平、张学锋等.TMS320LF240×DSP结构、原理及应用[M].北京:北京航空航天大学出版社,2002.4:1-5、74-77、96-102、166-174、285-292.
[41] 孙礼朋 王田苗 刘敬猛等.基于 DSP 的网络化无刷直流电动机控制系统[J].电子技术应用,2003,7.
[42] 3-Phase Synchronous PWM Controllor IC Provides an Integrated Solution for Intel VRM 9.0 Design Guidelines. IR Rectifier Datum.
[43] Mikael Andersson,Pekka Kuivalainen, Martti Valtonen. IGBT Model in APLAC. Circuit Theory Laboratory Report CT-14, April 1995.
[44] Melkote H, Khorrami F.Torque ripple attenuation for brushless DC motors via adaptive variable structure control[A]. Proc. of Conference Decision and Control [C], 1998:285-291.
[45] 袁世明、周铁英.高性能超声电机驱动及控制电路的研制[J].电子技术应用,2003,6.
[46] 姚红萍,张诚光.火控光电伺服系统的研制[J].武器装备自动化,2002,Vol.21,No.2.
[47] S.Murthy, M.C.Wu, D.Sivco. Parallel feed traveling wave distributed pin photodetectors with integrated[J]. Electronics Letters. 2002,1, 17: Vol.38 No.2.
[48] 刘政华、何将三.机械电子学[M].长沙:国防科技大学出版社,1999,6:70-76.
[49] Astrom K J, Hang C C.Towards Intelligent PID Control[J].Automatica,1992,28(1):1-9.
[50] 王亚刚,邵惠鹤.自整定PID控制器的研究综述[J].电气自动化,2000,(1):7-9.
[51] 陶永华,等.新型PID控制及其应用[M].北京:机械工业出版社,1998:25-50.
[52] 刘放,张士髦.陈明.FUZZY-PID在激光陀螺稳频控制中的应用研究[J].航空计测技术,2001,12(3):3-7.
[53] 刘鸿雁,谢元旦,往仁先。一种模糊PID控制器的鲁棒优化设计[J].电气传动,2001,2:20-22。
[54] Zhao Z Y. Fuzzy gain scheduling of PID controllers, IEEE Trans. Syst, man, Cybem, 1993, 23(5); 1392~1398.
[55] Itkis U. Control systems of variable structure [M]. 1976, Wiley & Songs Ltd, 1976:168-178.
[56] Slotine J J E. Applied nonlinear control [M]. prentice-Hall Inc,1991.182-189.
[57] 杨智.自整定PID调节器设计方法[J].甘肃工业大学学报,1998,24(1):77-82.
[58] Hong c M, WU Y C. Design of equal excursion sliding regimes [J]. Int J of Control, 1989, 49(5): 1615-1631.
[59] 某装备定型试验规程.国家军用标准.
[60] 中华人民共和国国家军用标准GJB299-87(1988年5月第一版).
[61] 中华人民共和国国家军用标准GJB2423《电工电子产品基本环境试验规程》.