مـلـتـقـى الـتـدريـب الـعـربـي
التحكم فى الاجهزة بالكمبيوتر Computers in Control
may be appropriate to end Block 5 with a broad look at the involvement of Computers in Control systems.History
A dictionary definition of the term 'computer' is 'a programmable electronic device that can store, retrieve, and process data'.
This definition includes the basic, single and multi-loop controllers commonly found in process industries where a condition is read by a sensor, compared to a set point in the controller via some mathematical routines performed to determine the corrective action required, followed by an output of an appropriate signal.
The development rate of the computer chip and its impact on all aspects of life is well known. The rate of advancement in controls technology surely means that some of the following comments will be redundant when read.
Stand-alone, single loop controllers date back to pneumatic controllers, which, through the ingenious use of flaps and nozzles, could approximate the basic PID functions. These complex and expensive controllers were often found in large petrochemical plants where accurate Control of the process, as well as intrinsic safety (the absence of sparks which could initiate a fire) was essential.
Fig. 5.6.1 Single loop controller with chart recorder
Often, these processes were individually connected to local circular chart recorders (Figure 5.6.1); alternatively, a number of processes were connected to multi-pen recorders in Control rooms (Figure 5.6.2). While the multi-pen recorders enabled a number of parameters to be reviewed together, the mechanisms in the instrument and the number of lines on one chart effectively limited their use to approximately twelve inputs.
Fig. 5.6.2 Single loop controller with chart recorder
The first Computers used in Control systems replaced the main Control room chart recorders. They gathered information (or data) from a much greater number of points around the plant. They were generally referred to as 'data loggers' (Figure 5.6.3), and had no input to the plant operation.
Fig. 5.6.3 A number of single loop controllers with a central data logging computer
These early Computers were usually programmed to print out reports at specific time intervals on continuous computer listing paper. By manually extracting the data from the computer print-outs, the plant manager was able to review the operation of his plant as a whole, comparing the performance of different parts of the plant, looking for deterioration in performance, which would indicate the need for a shutdown, etc.
In the mid 1970's, a number of well-known instrument companies began marketing digital Control systems. These systems utilised a central computer unit, which took inputs from sensors, performed mathematical routines, and provided an output to various relevant controlling devices. They also maintained a record of events for review (see Figure 5.6.4).
Fig. 5.6.4 A central computer gathering data and controlling the plant
Fig. 5.6.5 A distributed Control system
A giant leap forward occurred in the late 1980's with the introduction of the PC and the Windows screen environment and computer operating system. This provided a standard platform for the earlier digital Control systems, as all the instrument companies needed to work in a common format. The advantage of the 'Windows' based systems was that information was exchangeable in the same way that today's personal computer user can freely exchange data between Word, 'Excel' and 'PowerPoint'. This data exchange 'language' was termed Dynamic Data Exchange (DDE), and subsequently developed into Object Linking and Embedding (OLE). This was further modified for process Control to become OLE for Process Control (OPC), which is still used at the time of writing.
The use of PCs also meant that the options for viewing history were considerably easier. Instead of being confined to print-outs and manual transfer data, the plant manager could use powerful graphing programs, analyse trends, add colours, adjust scales and use symbols; different variables could be plotted against each other, and the performance of different plants compared.
Modern automation systems utilise the computer as a 'Window' on the process. The operator uses the computer to monitor what is happening on the plant as a whole, and revise set-points and Control parameters, such as PID, of individual plant based controllers, thus leaving the individual controllers to run the PID algorithms and Control logic.
Consequently stand-alone controllers still have a place in modern automation systems as they are in final control, but the controller usually takes the form of a PLC (Programmable Logic Controller) or a multi-loop rack mounted device. These are quite different in appearance to single loop PID controllers. Rather than an operator using a keypad to change the set point and other Control parameters at the controller, they are changed by an operator at a computer, which electronically downloads the required parameter to the controller. In the event of a central computer failure, the stand-alone controller would continue with its current parameters or go to a safe condition, thus ensuring that the plant continued to operate safely.
The next major step forward was a system known as 'Fieldbus'.
Fieldbus uses a single digital cable system, which connects every item (see Figure 5.6.6).
Fig. 5.6.6 A central computer with Fieldbus accepts information and transmits correction signals via Fieldbus
Each item (sensor, controller and controlled device) is given a unique address, which is used to either request information (perhaps from a sensor) or to take some action (perhaps close a Control valve).
However, these systems are complex and can be expensive. A Fieldbus network needs a master controller to organise the communications and Control logic on the Fieldbus. It also needs a way of interfacing the Fieldbus to computer networks so information can be shared (see Figure 5.6.8). A device that combines the role of Fieldbus controller and provides the bridge to a PC network is called a 'bridge' or 'master controller', (see Figure 5.6.7).
Fig. 5.6.7 A bridge
Fig. 5.6.8 Process Control computer communicates with other Computers over a network and the internet
On the process side the bridge can:
On the computer network side it can provide:
Although Fieldbus is theoretically a common technology, there are differences between the products and protocols used by different manufacturers.
Names commonly encountered in Fieldbus include:
As Control technology advances, so does the PC. Computers are able to communicate with each other over networks (LAN - Local Area Network): Finance, Stores, Production, Marketing and Sales departments within an organisation could easily share data, and have different levels of authority to perform various tasks. Inevitably, the process Control computer has been connected to the network, allowing authorised personnel to view and amend the operation of the plant from a PC in an office.
As manufacturing has become global, Wide Area Networks (WAN) have developed. Consequently, an engineer located in London could, for example, interrogate a plant computer at his company's plant in New York.
The impact of this Control and communications technology is enormous. The knowledge, expertise and equipment now exists where:
Benefits of Fieldbus technology
Fig. 5.6.9 Comparison of Control and management information available using DCS and Fieldbus systems
|مواقع النشر (المفضلة)|
|انواع عرض الموضوع|
|الموضوع||كاتب الموضوع||المنتدى||مشاركات||آخر مشاركة|
|نظريات التحكم Basic Control Theory||واسم||ملتقـــــــى الاجهـــــزة والتحكــــم||2||14-10-2010 10:42 PM|
|شرح مبادئ الاجهزة الدقيقة (Control & Instrumentation))||ماجد بكرانى||ملتقـــــــى الاجهـــــزة والتحكــــم||2||26-10-2009 08:03 PM|
|دوائر التحكم Control loops||واسم||ملتقـــــــى الاجهـــــزة والتحكــــم||0||17-07-2009 10:28 PM|
|التحكم فى الرطوبة Moisture Control||وائل نديم||الملتقـــــى العـــــام لهندســــة التبريد والتكييف||0||27-06-2009 11:44 PM|
|التحكم في تلوث الهواء Control of Air Pollution||احمد نيمو||تلــوث الهـواء||0||17-05-2009 08:33 PM|
جميع المواضيع والمشاركات المكتوبة تعبّر عن وجهة نظر صاحبها .. ولا تعبّر بأي شكل من الأشكال عن وجهة نظر إدارة المنتدى