有关现场总线中英文翻译资料.doc

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1、中文翻译:现场总线控制系统是在自动检测控制技术和计算机网络技术飞速发展的推动下形成的,它是现代计算机技术和通信技术和检测控制技术的集成,人们称之为3C(computer communication control)技术。本文首先分析了当前流行的FCS网络的结构特点、技术特点和优势,介绍了几种较为流行的现场总线,构建了企业生产的。 FCS网络模型,并提出了在控制网络和信息网络之间加入转换接口、采用DDE技术和使用统一的协议标准三种集成方式。随着信息技术的飞速发展,工业过程控制领域正孕育着深刻的变革。控制要求的不断提高,控制程度的愈加复杂使长久以来在生产中运用的单一的经典控制理论和技术已经不能满足

2、系统的需求,现代化工业过程控制系统迫切地需要高级理论的支撑。与理论发展相对滞后形成对比的是,自动化技术工具的蓬勃发展,在经历气动仪表控制、集中式数字控制系统到集散式控制系统后形成了新一代的网络集成式全分布的现场总线控制系统。作为自动化领域的热点之一,现场总线己成为自动化系统与分散的现场设备间信息交换的主要技术。PROFIBUS是国际上应用十分广泛的工业过程现场总线,主要应用于加工自动化、过程自动化、楼宇自动化等领域。现场总线技术的不断发展,其在计算机集散控制领域的优势已越来越明显。现场总线具有以下特点:快速性、实时性;开放性、互可操作性与互用性;现场设备的智能化具有功能独立性;系统结构的高度分

3、散性;较强的抗干扰性。现场总线的最大特点是标准化和公开性,目前国际上流行的几种现场总线均是以OSI模型为依据建立的,包括物理层、数据链路层和应用层等。现场总线中最具影响力的有5种,分别是FF, Profitbus, HART, CAN和LonWorks 。 西门子推出的Profibus总线以IS07498标准为基础,以开放式系统互联网络(OSI,Open system interconnection)作为参考模型,定义了物理传输特性,总线存取协议和应用功能。该总线通过相应的通讯模块,与系统内的远程控制设备以及其他厂商的单机控制设备相连,采用控制字的方式进行通讯和控制,可节约大量控制电缆,并且通

4、过良好的接地处理和保护,具有极高的抗干扰能力。随着社会生产规模的扩大、生产水平的提高,电气控制技术和液压技术都在非常迅速的发展。电气控制从继电器控制系统发展到直接数字控制 ( DDC)系统、集散控制系统(DCS)到目前的现场总线控制系统(FCS )。现代的液压传动及控制技术已发展成一门集传动、控制、检测、计算机一体化的完整的自动化技术,并逐步趋向数字控制和全自动化。文章从结合所研究的水电站的实际需要出发,将先进的现场总线技术、以太网技术与传统的液压技术相结合,并应用到水电站闸门监控系统的实际设计过程中。论文根据所研究水电站闸门控制的具体技术要求,设计了适合该水电站的液压启闭机系统。文章对闸门启

5、闭机及其控制系统的发展状况和传统液压启闭机控制系统的局限性进行了详细分析,并结合当前控制技术,特别是Profibus现场总线控制技术的特点,针对所研究的水电站的实际情况提出了“基于Profibus现场总线控制和以太网技术的闸门监控系统”的技术方案。并根据该方案完成了下位机(PLC控制程序)的编制和上位机(监控软件和人机界面的组态)的组态。最后通过组建上位机与PLC的通信以太网络和远程I/0模块与PLC之间的总线网络,实现了整个闸门监控系统的网络化。通过该监控网络,可实现对该水电站分居于八个不同坝段的闸门的运行及运行状态的控制与监视,从而使得该监控系统在满足水电站实际生产的各项要求,同时还保证了

6、该系统具有相当的先进性。底层控制网络不再是孤立的控制系统,通过工业以太网和现场总线技术实现网络集成,将基础自动化控制、过程控制和管理与企业资源计划层ERP(Enterprise Resource Planning)连接在一起; 提高现场数据采集能力,增强使用灵活性,有效解决了以往控制系统提供的信息不全,自动化控制系统与企业管理系统之间的无缝集成问题,还为实现ERP管理和管控一体化提供了良好的必要条件。 在电气控制系统的设计过程中,采用了上位机加下位机的设计模式,组建了远程集中控制与现地控制相结合的控制网络。上位机选用功能强大的工控组态软件一一组态王和操作方便灵活的触摸屏。下位机则采用可靠性高的

7、可编程控制器和先进的Profibus现场总线完成对现场设备的控制。可编程控制器(PLC)是以继电器逻辑控制系统为基础,逐步发展为以处理器为中心,同时具有各类运算、控制、网络等功能的控制系统,凭借良好的稳定性和强大的功能,使得在制造工业、电力、运输等领域有着广泛的应用。PLC程序在主程序循环中采用循环扫描,从而对输入变量进行周期性的检查。程序循环通过扫描系统的输入开始,并将它们的状态储存在固定的存储器位置(输入图像存储器)。然后一格格地执行梯形图程序。对程序的扫描和求解不同阶梯格的逻辑决定了输出状态。然后,保持在存储器中的输出值被用于在程序扫描终止时同时设定和复位PLC的物理输出。如我们知道的那

8、样,逻辑控制是PLC一个值得注意的性能,它可被用于有效地处理模拟数据。1)模拟数据的采集和转换模拟输入和输出,例如需要在线测量的压力和温度。举例来说,温度首先由铂电阻采集。然后信号转换模块将实测电阻值转换成15V的电压范围。这一转换模块的输出,最后被收集和传输回上述的PLC。2)PLC的控制算法模拟变量可以是任何受控的变量,例如在我们的卷绕系统中为温度或压力。事实上,存在两种控制模式,自动的和手动的。在手动模式中,操作人员根据希望的水平修改输出值;而在自动模式中,输出值由预先设计的算法加以调节。值得指出,PLC的输出总是为增量值。虽然这里可采用自动调谐PID(比例积分微分)控制器,但在生产的开

9、始阶段总是用手动调谐来进行日常的初始化,在那以后,系统即切换到自动模式。我们强调指出,用户适应模糊逻辑控制器的经验在这里也被利用来进一步改善生产的绩效。我们推荐一种在PLC上采模糊逻辑控制器的薄膜张力控制系统,来应付卷绕系统的不确定性。模糊逻辑算法由基本的PLC指令来实现。要用固定的模型和参数来处理系统,常规的PID就够了,但是固定是相对的,事实上,卷绕系统的参数在一定的范围内是可变的,因此,控制器必须有一个监控系统,用于基于现场总线鲁棒性的PLC控制的制造系统,以获得高的性能。为此目的,我们用模糊推理来调节PID的因子,通过这样的方法,PID的因子可以根据系统状态和设备参数的变化加以调节。

10、英文:The Fieldbus Control System (FCS) comes into being with the fast of auto-control, auto-detection and computer network technology. And it is the integration of the modern computer technology, the communication technology and the detection control technology, which is called the 3C(computer communi

11、cation control)development. Firstly, this paper makes a detailed study on the prevalent Field Control Systems (FCS), including the characteristics of structure & technology and advantage, introduces several popular Field Buses, designs the model of field control system, and puts forward three effect

12、ive methods to integrate between the MCN & information network under different situations. With the rapid development of information technology, a deep change has taken placed in the industry process control field. The simple control theory used in this field for years cant meet the new requirement

13、of the system any more due to the higher control target, and a more advanced theory need to be found to support the system with higher complexity In contrast with the slow progress of the control theory, the automatic control tool experienced the evolution of pneumatic meter control, centralize data

14、 control system and distributed control system has made a great achievement, that is the new net integrated and distributed control system-field bus control system. Nowadays, the technology of Fieldbus has become the hotspot in the research field of automation and become the main method of communica

15、tion and exchange of information in the DCS systems. And the Profibus is a kind of Fieldbus broadly used in many situations of process control of industry such as automation of processing, automation of machining and automation of building. 待添加的隐藏文字内容2 With the development of the fieldbus technology

16、, its advantage has became more and more notable in the field of computers centralized and separated control. The fieldbus features: 1. Fast and real-time 2. Open, manipulate and alternate usable 3. The functional independency of the locale equipments intelligence. 4. The highly decentralization of

17、system structure 5. The strong anti-jamming At present, the most popular fieldbus in the world is based on OST model, Including physical layer, data link layer, application layer and etc. The FF, Profitbus, HART, CAN and LonWork are the most effective ones on this field.Profitbus, proposed by SIEMEN

18、S, is based on IS07498, which refers to OSI (open system interconnection) model and defines the specialty of physical transmission, protocol of bus wires storage and extraction, as well as application function. This bus wire connect the long-distance equipments in system and control equipment of oth

19、er manufacturer. Especially, the adoption of control word used in communication and control reduced the quantity of control cable, also. The good treatments of grand and protection has an every strong capability of anti- jamming. With the scale of social production extends and the production horizon

20、tal exalts, the electricity control technique and the Hydraulic technique all develop very quickly. Electricity control technique developed from the relay system to the direct digit control ( DDC) system、the disperse control system( DCS) to the fieldbus control system (FCS).The modern Hydraulic cont

21、rol technique have developed to a complete automation which include of transmit, control、testing computer technique, and gradually turn to the digit control and full-automatic control.According to the actuality of the studied water power station, the thesis combine the advanced fieldbus technique, E

22、thernet and the traditional hydraulic technique together ,and use them to design the supervise controlling system of the water power station. Base on the gate-controlling request of the water power station,designed the gates hydraulic hoist system. The thesis analyzed the development of the gates ho

23、ist and its control system ,and the localization of the gates operating machines traditional hydraulic system,according to todays control technique, especially the characteristics of the Profibus fieldbus,the thesis put forward the project that the gate supervise controlling system base on the Profi

24、bus control and Ethernet technique,according to that project,completed PLC control procedure and the procedure of the supervise and control( supervise and control software and man-machine interface)。At last the thesis set up a Ethernet network for the monitor and the PLC correspondence of a place of

25、 honor machine and PLC and a fieldbus network for the far I/ O mold and the PLC, made the gate supervise and control by network o the network can control the opening、shutting and surveillance the circulate of the eight gates ,which stand in different positions,and make the system satisfied the vario

26、us requests of that water power stations production, and still guaranteed the system had very advanced at the same time.Bottom layer of control net is not any longer an unaided anode. It joins automation control system, processing controlling-management system with enterprise resource planning syste

27、m to apply technology of Industrial Ethernet and fieldbus, as a result, the data acquisition capacity and flexibility improved, the problem on control system information shortage and integration of auto-control system and enterprise management system solved, the qualification to realize integration

28、of ERP and management-control system presented. During the designing of the electricity control system, the thesis used the mode that made up of monitor system and control system, formatted a network that is combined by far concentrates control system and nearly control system .The monitor system ch

29、ooses the functional monitoring software一the king monitor and the man-machine interface ,which operated conveniently .And the control system chooses dependably programmable logic controller and advance Profibus fieldbus to completely control the spot equipments . Programmable Logic Controller (PLC)

30、is based of relay logic control system; today it has developed into a powerful control system with the central of processor and has many functions such as all kinds of calculations control and network. With its excellent stability and powerful functions, PLC is now widely used in manufacture industr

31、y, electric power field, traffic field and etc.The PLC program uses a cyclic scan in the main program loop such that periodic checks are made to the input variables. The program loop starts by scanning the inputs to the system and storing their states in fixed memory locations (input image memory).

32、The ladder program is then executed rung-by-rung. Scanning the program and solving the logic of the various ladder rungs determine the output states. The updated output states are stored in fixed memory locations (output image memory). The output values held in memory are then used to set and reset

33、the physical outputs of the PLC simultaneously at the end of the program scan. As we know, logic control is a remarkable property of PLC, and it can be applied to efficiently handle analog data.1) Analog data acquisition and transformationAnalog inputs and outputs such as pressure and temperature ne

34、ed to be measured on-line. For instance, temperature is first acquired by the Platinum resistances. A signal transformation module then converts the measured resistance value into the voltage range of 1-5V. The output of this transformation module is finally collected and transmitted back to the abo

35、ve PLC.2) PLC control algorithmsThe analog variables could be any controlled variable, e.g., temperature or pressure in our winding system. As a matter of fact, there exist two control modes, auto and manual. In the manual mode, operators modify the output values according to the desired levels; whi

36、le in the auto mode, output values are regulated by the pre-designed control algorithms. It is worth mentioning that the outputs of PLC are always incremental values. Although auto-tuning PID controllers can be employed here, manual tuning is always used at the beginning of the production for routin

37、e initialization, and after that the system is switched to the auto mode. We emphasize that users experiences oriented fuzzy logic controllers are utilized here to further improve the production performance as well. A film tension control system using fuzzy logic controller (PLC) on PLC to cope with

38、 the winding system uncertainty is proposed. Fuzzy logic algorithm is realized by basic PLC instructions.To deal with the system with fixed model and parameter conventional PID is enough, but fixture is relative, in fact, the parameters of the winding system are variable in a definite range, therefo

39、re the controller must has a Monitoring System for PLC Controlled Manufacturing System Based on Fieldbus robustness to obtain high performance. For this purpose, fuzzy reasoning is used to adjust the factors of PID, by this way the PID factors can be adjusted according to the changes of system state and plant parameters.

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