WOODWARD 9907-164 這里列出的設(shè)備是9907-164模型�����,505和505E微處理器基于調(diào)速器控制單元的一部分�。這些控制模塊是專門設(shè)計(jì)來操作汽輪機(jī),以及渦輪發(fā)電機(jī)和渦輪膨脹機(jī)模塊���。該505/505E系列最初由伍德沃德公司開發(fā)�、生產(chǎn)和制造��。伍德沃德是美國最古老的工業(yè)制造商�,成立于1870年,至今仍是市場上領(lǐng)先的工業(yè)公司之一��。這些505和505E型號可以從廈門雄霸電子商務(wù)公司的現(xiàn)貨庫存這邊供應(yīng)�。 聯(lián)系雄霸漳州辦珊妮180,5988,4797
伍德沃德介紹了下一代汽輪機(jī)控制的505D, 505XT和Flex500產(chǎn)品。這些新的汽輪機(jī)數(shù)字總督打開了一個(gè)新的窗口的控制��,性能和可靠性�����,您已經(jīng)開始了解和信任市場領(lǐng)導(dǎo)者505平臺���。 現(xiàn)在升級到下一代替代505D。(普通位置見項(xiàng)目編號8200-1300���,或8200-1)
伍德沃德 505E 系列數(shù)字操控設(shè)備的一部分�。這些設(shè)備是伍德沃德公司制作的 505E 系列的一部分。伍德沃德公司是美國前史悠長的渦輪機(jī)操控體系獨(dú)立制作商之一����。505E 系列是為工業(yè)規(guī)劃的蒸汽輪機(jī)、小型渦輪發(fā)電機(jī)或共用渦輪脹大機(jī)類型等設(shè)備而規(guī)劃的�����。505E 系列專為單次抽汽和/或汽輪機(jī)進(jìn)氣而規(guī)劃�。它通過運(yùn)用一對執(zhí)行器來驅(qū)動進(jìn)口蒸汽閥使汽輪機(jī)運(yùn)轉(zhuǎn)。
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主營產(chǎn)品�����,備件供應(yīng)��,充足庫存
Foxboro(?��?怂共_):I/A Series系統(tǒng)��,F(xiàn)BM全系列(現(xiàn)場輸入/輸出模塊)
順序控制�、梯形邏輯控制����、事故追憶處理���、數(shù)模轉(zhuǎn)換、輸入/輸出信號處理��、
數(shù)據(jù)通信及處理等����。
Westinghouse(西屋):1C31系列DCS系統(tǒng)、CPU�、OVATION系統(tǒng)、WDPF系統(tǒng)���、
WEStation系統(tǒng)備件���。
Triconex(英維思):冗余容錯(cuò)控制系統(tǒng)、基于三重模件冗余(TMR)結(jié)構(gòu)的現(xiàn)代化的容錯(cuò)控制器��。
EMERSON(艾默生):模塊�、卡件、驅(qū)動器等各類備件�。
XYCOM:XVME系列
Bently(本特利):3500/3300系統(tǒng)。
Rockwell(羅克韋爾):ICS系統(tǒng)。
ABB:PM全系列DCS系統(tǒng)�、IGCT高壓變頻器系列����、工業(yè)機(jī)器人備件DSQC系列、INFI 90等����。
Bailey(貝利):BRC系列DCS系統(tǒng)等。
Allen-Bradley:1756����、1785、1771�、1746全系列系統(tǒng)等。
Yokogawa(橫河):CP系列等�����。
Honeywell(霍尼韋爾):TK/TC/CC系統(tǒng)等�。
Reliance(瑞恩):57C系列等。
Schneider(施耐德):140系列處理器����、控制卡、電源模塊等�。
Modicon(莫迪康):AS系列PLC系統(tǒng)備件�����。
Siemens(西門子):6ES5/6ES7414/6ES7415/6ES7416系列PLC系統(tǒng)備件��、
Siemens MOORE���,Siemens Simatic C1,Siemens數(shù)控系統(tǒng)等�����。
Motorola(摩托羅拉):MVME 162����、MVME 167、MVME1772���、MVME177等系列���。
XYCOM:I/O、VME板和處理器等�����。
GE(通用電氣):IC698/IC697全系列PLC系統(tǒng)、模塊�����、卡件����、驅(qū)動器等各類備件��。
Yaskawa(安川):伺服控制器��、伺服馬達(dá)����、伺服驅(qū)動器。
Bosch Rexroth(博世力士樂):Indramat�����,I/O模塊,PLC控制器,驅(qū)動模塊等�。
Woodward(伍德沃德):SPC閥位控制器、PEAK150數(shù)字控制器����。
How to choose between PLC and DCS depends on the specific project and plant type. Because of different applications, the requirements of the control system are also different.
In addition to some basic criteria, we must also consider the installation, scalability, maintenance and other factors. Sometimes, one choice is very suitable for a factory, and in another case it may not be. Therefore, the more factors considered in the selection of control system, the more conducive to the realization of short-term and long-term goals.
At present, although PLC system may be the most cost-effective for small equipment, DCS system provides more economical scalability and is more likely to obtain higher initial return on investment.
PLC is suitable for discrete production, generally composed of separate production devices, mainly used to complete the assembly of components, such as labeling, filling or grinding. DCS is suitable for process manufacturing. Automated systems are often used to produce by recipe rather than by piece in a continuous and batch manner. Large scale continuous processing equipment, such as refineries and chemical plants, all use DCS system. Mixed application usually uses PLC and DCS at the same time.
■ process scale:
Small system (<300 i / o points) may have less budget, so plc is more suitable. dcs has a b database, which is easier to manage and upgrade, and can play a more important role in large factory applications.
■ upgrade plan:
PLC system can be selected for small-scale industrial process, but if the process needs to be expanded or upgraded, more PLC hardware and database need to be added, and independent maintenance is needed. This process is time-consuming and laborious, and prone to errors. At this time, DCS is more suitable. As DCS is easier to upgrade, it can also manage users&#39; trust from the central hub, so it is easier for later maintenance.
Integration requirements:
For stand-alone device, PLC is the ideal choice. When the factory configures multiple PLCs, it will produce the requirement of interconnection. This is generally difficult to implement because it is usually necessary to map data using communication protocols. Especially when the user needs to change, once a PLC system is changed, the two PLCs may not communicate normally. DCS does not need mapping, configuration change is just a simple process, the controller is the system&#39;s own.
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