基于DSP的船舶减摇水舱试验台控制系统研究
|
摘要
减摇水舱是一种重要的减摇装置,尤其是在船舶航行在低航速情况下能有效的进行减摇,克服了减摇鳍在低航速情况减摇效果较差的缺点。因此,在目前我国还没有进行减摇水舱装船前,为更好地进行减摇水舱的减摇性能研究,需要设计一种模拟实船运动的实验装置---船舶横摇运动试验台架来检验水舱的效果。本论文主要是研究DSP在船舶横摇运动试验台控制系统设计中的应用问题。其主要内容包括:
(1)通过计算机对不同的海况进行仿真,得出不同的海况下不同的波浪的干扰模拟力矩M_w。
(2)船舶横摇运动试验台的物理结构并对元件的选取,同时对系统的稳定性进行了分析。对试验台的数字控制器进行了经典PID设计,同时对系统进行仿真。
(3)对控制系统进行了硬件和软件设计。硬件主要是由DSP(TMS320F240)组成的最小系统。软件包括控制系统算法和系统初始化及A/D、D/A转换程序、RS-232串口通信程序和PDPINT中断保护程序。
(4)设计了信号偏置电路和伺服阀驱动电路。
Anti-rolling tank is an important stabilization equipment on watercraft and it has been popularly used to reduce ship rolling motion especially when the speed of ship is very slow and fin stabilizer could not take in effect because anti-rolling tank is very useful. At the present, all the anti-rolling tank is taken from abroad. In order to design the anti-rolling tank and equipped it on the watercraft, an experiment equipment is needed. The equipment can be used to emulate the ship motion and test the efficiency when the ship equips the tank. In the dissertation, it research on how use the DSP to control experiment equipment system. Some works have been done and they are:
(1) Using computer simulate sea wave in different situation, and the different
disturbed moment Mw has been got.
(2) Selecting the components of the experiment equipment of ship rolling motion. Getting the transfer function of the system and analyssing it's robust. Designing digital PID control and simulating the system after the control been added.
(3) Designing software and hardware for the control system. The hardware is a minister system and the processor is DSP(TMS320F240).The software includes some parts : PID arithmetic progranu System's initialize program> A/D and D/A transfer program^ RS-232 serial communication program and PDPINT(Power Driver Protection Interrupt) program.
(4) Designing the sign transfer board and the driver board of electric and hydraulic servo mechanism.
(1)通过计算机对不同的海况进行仿真,得出不同的海况下不同的波浪的干扰模拟力矩M_w。
(2)船舶横摇运动试验台的物理结构并对元件的选取,同时对系统的稳定性进行了分析。对试验台的数字控制器进行了经典PID设计,同时对系统进行仿真。
(3)对控制系统进行了硬件和软件设计。硬件主要是由DSP(TMS320F240)组成的最小系统。软件包括控制系统算法和系统初始化及A/D、D/A转换程序、RS-232串口通信程序和PDPINT中断保护程序。
(4)设计了信号偏置电路和伺服阀驱动电路。
Anti-rolling tank is an important stabilization equipment on watercraft and it has been popularly used to reduce ship rolling motion especially when the speed of ship is very slow and fin stabilizer could not take in effect because anti-rolling tank is very useful. At the present, all the anti-rolling tank is taken from abroad. In order to design the anti-rolling tank and equipped it on the watercraft, an experiment equipment is needed. The equipment can be used to emulate the ship motion and test the efficiency when the ship equips the tank. In the dissertation, it research on how use the DSP to control experiment equipment system. Some works have been done and they are:
(1) Using computer simulate sea wave in different situation, and the different
disturbed moment Mw has been got.
(2) Selecting the components of the experiment equipment of ship rolling motion. Getting the transfer function of the system and analyssing it's robust. Designing digital PID control and simulating the system after the control been added.
(3) Designing software and hardware for the control system. The hardware is a minister system and the processor is DSP(TMS320F240).The software includes some parts : PID arithmetic progranu System's initialize program> A/D and D/A transfer program^ RS-232 serial communication program and PDPINT(Power Driver Protection Interrupt) program.
(4) Designing the sign transfer board and the driver board of electric and hydraulic servo mechanism.
引文
[1]金鸿章,李国斌著.船舶特种装置控制系统.北京:国防工业出版社,1995:84-91页
[2]陶尧森著.减摇水舱的研究与发展.《中国造船》增刊.船舶耐波性专辑(1991):313-323页
[3]冯铁城,陶尧森.可控被动水舱研究,中国造船.1997,2(1):8-14页
[4]管光东等.世界舰船发展史话.国防工业出版社,1993:6-13页
[5]寺尾裕等.新型被动可控式减摇水舱的系统模拟与海上试验.关西造船学会论文集(1992):75-88页
[6]Intering stabilizer and anti-rolling system, 1989
[7]樊社军.可控被动式减摇水舱的理论与设计.上海交通大学工学硕士研究生论文.1990:4-6页
[8]陶尧森,顾树华,李立人.JD槽型水舱特性和减摇性能预报.中国造船,1983(17):28-38页.
[9]沈华,王少新等.超浅吃水箱形工程船横摇及减摇研究.大连理工大学学报.1998,38(1):76~80页
[10]陶尧森著.船舶耐波性.上海交大出版社,1985
[11]山口悟.船舶横摇控制系统设计[日).西部造船学会会报.1993(85):111~120页
[12]Goodrich G. J. Development and design of passice roll stabilis. Trans RINA. 1969(3): 81~95P
[13]Van den Bosch and Vugts. Some notes on the performance of free surface as passive antirolling devices. Report No. 119, Shipbuilding Laboratory. Technical University Delft. 1964, (10)
[14]Van den Bosch and Vugts. Roll damping by free surface tanks. Report No. 83s, Netherlands Ship Research Centre TNO. 1966, (4)
[15]Lee B S, Vassalos D Y. Investigation into the stabilization effects of anti-roll tanks with flow obstructions. International Shipbuilding Progress. 1996, 43(433): 71~88 P
[16]Hsuch Wenjang, Lee Yajung. A design for ship stabilization by activated anti-roll tanks. Journal of Marine Science and Technology. 1997(2): 77~86 P
[17]Webster W C, Dalzell J F, Barr R A. Predication and measurement of the performance of free-flooding ship anti-rolling tanks. SNAME Transactions. 1988(96). 353~364 P
[18]池田良穗和苏山朋史.连通型防摇水舱的研究[日].日本造船学会论文集.1991(216):111~119页
[19]箕原喜代美.被动控制式减摇装置开发研究[日].渔船.1992(300):120~132页
[20]T. zdybek. 利用台架试验结果计算装有减摇水舱的船舶的横摇响应.International Shipbuilding Progress. 梁用武译.1980, 27(308):96~105
[21](苏)A.H.霍洛季林,A.H.什梅列夫著.船舶的耐波性和在波浪上的稳定措施.国防工业出版社,1966
[22]吴建雄.槽型水舱的实验研究和工程理论探讨.上海交大工学博士学位论文.1980 P1-5页
[23]刘应中,缪国平著.船舶在波浪上的运动理论.上海交通大学出版社,1993
[24]金鸿章译.海军船舶横摇减摇的水动力设计基础.原SNAME Transactions,1977(800).
[25]李积德著.船舶耐波性.北京:国防工业出版社,1996
[26]Hung C. F, Kuo H.C. Optimum vibration absorber with active control, International Ship building Progress, 1994, 41 (427), P243-266.
[27]Shellars F.H, Martin J.P. Selection and evaluation of ship roll stabil ization systems, Marine Technology, 1992, 29 (2), P84-101.
[28]邱宏安著.随机海浪模型的建立及仿真分析.系统仿真学报,2000(5):226~228页
[29]邱大洪著.波浪理论及其在工程中的应用.北京:高等教育出版社,1985
[30]王占林著.近代液压控制.北京:机械工业出版社,1997.
[31]李福义著.液压技术与液压伺服系统.哈尔滨:哈尔滨船舶学院出版社.1992.
[32]彭启宗著.TMS320C54X实用教程.四川:电子科技大学出版社.2000.
[33]戴明桢著.TMS320C54X数字信号处理器结构、原理及应用.TI DSPS UNIVERSITY.
[34]李友善著.自动控制理论.北京:国防工业出版社.1989.
[35]章燕申、金钰.计算机控制系统.北京理工大学出版社,1996.
[36]张雄伟.DSP芯片的原理与开发应用.四川.电子工业出版社.1997:10-12页
[37]何立明.单片机应用技术选编(二)北京北京航空航天大学1994P317-319页
[38]邓凌峰,刘丁,李琦.基于DSP的全数字直流模糊位置伺服控制系统.电气传动,2000 2.33-35页
[39]Texas Instruments. TMS320C2xx User's Guide. 1997
[40]Texas Instruments. TMS320C1x/C2x/2xx/C5x Assembly Language Tools User' s Guide 1995
[41]杨龙祥.采用TMS32010设计数字控制系统的若干问题.电子与自动化.1992(4)
[42]章燕申,袁增任.控制系统的设计与实践.北京:清华大学出版社.1992.239-245页
[43]陶永华,尹怡欣,葛芦生.新型PID控制及应用.北京:机械工业出版社.1998:80-85页,247-255页
[44]陈汝权,林水生.实用微机与单片机控制技术.电子科技大学出版社,1993:118-120页
[2]陶尧森著.减摇水舱的研究与发展.《中国造船》增刊.船舶耐波性专辑(1991):313-323页
[3]冯铁城,陶尧森.可控被动水舱研究,中国造船.1997,2(1):8-14页
[4]管光东等.世界舰船发展史话.国防工业出版社,1993:6-13页
[5]寺尾裕等.新型被动可控式减摇水舱的系统模拟与海上试验.关西造船学会论文集(1992):75-88页
[6]Intering stabilizer and anti-rolling system, 1989
[7]樊社军.可控被动式减摇水舱的理论与设计.上海交通大学工学硕士研究生论文.1990:4-6页
[8]陶尧森,顾树华,李立人.JD槽型水舱特性和减摇性能预报.中国造船,1983(17):28-38页.
[9]沈华,王少新等.超浅吃水箱形工程船横摇及减摇研究.大连理工大学学报.1998,38(1):76~80页
[10]陶尧森著.船舶耐波性.上海交大出版社,1985
[11]山口悟.船舶横摇控制系统设计[日).西部造船学会会报.1993(85):111~120页
[12]Goodrich G. J. Development and design of passice roll stabilis. Trans RINA. 1969(3): 81~95P
[13]Van den Bosch and Vugts. Some notes on the performance of free surface as passive antirolling devices. Report No. 119, Shipbuilding Laboratory. Technical University Delft. 1964, (10)
[14]Van den Bosch and Vugts. Roll damping by free surface tanks. Report No. 83s, Netherlands Ship Research Centre TNO. 1966, (4)
[15]Lee B S, Vassalos D Y. Investigation into the stabilization effects of anti-roll tanks with flow obstructions. International Shipbuilding Progress. 1996, 43(433): 71~88 P
[16]Hsuch Wenjang, Lee Yajung. A design for ship stabilization by activated anti-roll tanks. Journal of Marine Science and Technology. 1997(2): 77~86 P
[17]Webster W C, Dalzell J F, Barr R A. Predication and measurement of the performance of free-flooding ship anti-rolling tanks. SNAME Transactions. 1988(96). 353~364 P
[18]池田良穗和苏山朋史.连通型防摇水舱的研究[日].日本造船学会论文集.1991(216):111~119页
[19]箕原喜代美.被动控制式减摇装置开发研究[日].渔船.1992(300):120~132页
[20]T. zdybek. 利用台架试验结果计算装有减摇水舱的船舶的横摇响应.International Shipbuilding Progress. 梁用武译.1980, 27(308):96~105
[21](苏)A.H.霍洛季林,A.H.什梅列夫著.船舶的耐波性和在波浪上的稳定措施.国防工业出版社,1966
[22]吴建雄.槽型水舱的实验研究和工程理论探讨.上海交大工学博士学位论文.1980 P1-5页
[23]刘应中,缪国平著.船舶在波浪上的运动理论.上海交通大学出版社,1993
[24]金鸿章译.海军船舶横摇减摇的水动力设计基础.原SNAME Transactions,1977(800).
[25]李积德著.船舶耐波性.北京:国防工业出版社,1996
[26]Hung C. F, Kuo H.C. Optimum vibration absorber with active control, International Ship building Progress, 1994, 41 (427), P243-266.
[27]Shellars F.H, Martin J.P. Selection and evaluation of ship roll stabil ization systems, Marine Technology, 1992, 29 (2), P84-101.
[28]邱宏安著.随机海浪模型的建立及仿真分析.系统仿真学报,2000(5):226~228页
[29]邱大洪著.波浪理论及其在工程中的应用.北京:高等教育出版社,1985
[30]王占林著.近代液压控制.北京:机械工业出版社,1997.
[31]李福义著.液压技术与液压伺服系统.哈尔滨:哈尔滨船舶学院出版社.1992.
[32]彭启宗著.TMS320C54X实用教程.四川:电子科技大学出版社.2000.
[33]戴明桢著.TMS320C54X数字信号处理器结构、原理及应用.TI DSPS UNIVERSITY.
[34]李友善著.自动控制理论.北京:国防工业出版社.1989.
[35]章燕申、金钰.计算机控制系统.北京理工大学出版社,1996.
[36]张雄伟.DSP芯片的原理与开发应用.四川.电子工业出版社.1997:10-12页
[37]何立明.单片机应用技术选编(二)北京北京航空航天大学1994P317-319页
[38]邓凌峰,刘丁,李琦.基于DSP的全数字直流模糊位置伺服控制系统.电气传动,2000 2.33-35页
[39]Texas Instruments. TMS320C2xx User's Guide. 1997
[40]Texas Instruments. TMS320C1x/C2x/2xx/C5x Assembly Language Tools User' s Guide 1995
[41]杨龙祥.采用TMS32010设计数字控制系统的若干问题.电子与自动化.1992(4)
[42]章燕申,袁增任.控制系统的设计与实践.北京:清华大学出版社.1992.239-245页
[43]陶永华,尹怡欣,葛芦生.新型PID控制及应用.北京:机械工业出版社.1998:80-85页,247-255页
[44]陈汝权,林水生.实用微机与单片机控制技术.电子科技大学出版社,1993:118-120页