IS200DSPXH1CAA工控備件機(jī)器人模塊
一般警告設(shè)備環(huán)境所有部件
無(wú)論是運(yùn)輸、操作還是儲(chǔ)存,都必須處于非腐蝕性環(huán)境中。維護(hù)期間的觸電危險(xiǎn)斷開(kāi)電源或采取預(yù)防措施,以確保維護(hù)時(shí)避免接觸帶電部件。特定警告在MMU背板上安裝雙列直插式測(cè)試儀之前斷開(kāi)電源。否則將導(dǎo)致與機(jī)柜區(qū)域接觸,可能導(dǎo)致嚴(yán)重或致命電擊。(第3-6、5-1頁(yè))切勿在帶電的情況下清潔電氣部件或組件。這樣做會(huì)使您面臨電擊危險(xiǎn)。(第6-2頁(yè))無(wú)論何時(shí)使用清潔溶劑,都要戴上護(hù)目鏡。當(dāng)使用壓縮空氣從印刷電路板上清除溶劑時(shí),當(dāng)溶劑從印刷電路上清除時(shí),可能會(huì)濺到眼睛。(第6-2頁(yè))機(jī)柜內(nèi)有外露的交流和直流連接。這些暴露的電氣連接存在電擊危險(xiǎn),可能導(dǎo)致人身傷害或死亡。(第6-4頁(yè))如果在電源輸入面板上斷開(kāi)系統(tǒng)電源后,輸入或輸出電路存在電擊危險(xiǎn),則包含這些外部供電電路的機(jī)柜門(mén)必須標(biāo)有警告,說(shuō)明存在多個(gè)電源。(第6-4頁(yè))WBPEEUI240752A0 vii商標(biāo)和注冊(cè)本文件中使用的注冊(cè)和商標(biāo)包括:?INFI 90 Elsag Bailey Process Automation的注冊(cè)商標(biāo)?INFI-NET Elsag Bailey Process Automation的商標(biāo)概述INFI 90?OPEN系統(tǒng)用于處理和監(jiān)控。它將過(guò)程現(xiàn)場(chǎng)輸入與INFI 90 OPEN戰(zhàn)略過(guò)程管理系統(tǒng)連接起來(lái)。觸點(diǎn)閉合或開(kāi)關(guān)是提供數(shù)字信號(hào)的設(shè)備的一個(gè)示例。
控制模塊提供控制功能;
I/O模塊提供輸入和輸出。本說(shuō)明介紹了IMDSI1模塊的四種變體:?IMDSI12-24 VDC、48 VDC、125 VDC或120 VAC輸入。?IMDSI13-24 VDC輸入。?IMDSI14-48 VDC輸入。?IMDSI15-125 VDC或120 VAC輸入。IMDSI12在功能上等同于現(xiàn)有的IMDSI02模塊,其限制是IMDSI01提供1.5毫秒(快)和17毫秒(慢)的可選去抖動(dòng)濾波器時(shí)間,而IMDSI112模塊僅提供17毫秒(慢速)的去抖動(dòng)濾波器。慢去抖動(dòng)濾波器用于大多數(shù)數(shù)字輸入應(yīng)用。在使用適當(dāng)跳線設(shè)置的情況下,任何IMDSI1模塊都可以代替IMDSI02。例如,可以用IMDSI13模塊代替IMDSI02模塊,該模塊的所有跳線都設(shè)置為24 VDC,并帶有慢速去抖動(dòng)濾波器。圖1-1顯示了INFI 90 OPEN通信電平以及這些電平內(nèi)數(shù)字輸入模塊的位置。預(yù)期用戶(hù)本說(shuō)明書(shū)是為工程師、技術(shù)人員和系統(tǒng)設(shè)計(jì)師編寫(xiě)的,作為IMDSI1數(shù)字輸入模塊的技術(shù)信息來(lái)源。計(jì)劃購(gòu)買(mǎi)、安裝、操作、故障排除、維護(hù)或更換這些模塊的人員應(yīng)使用本說(shuō)明。使用數(shù)字輸入模塊的人員應(yīng)具有使用交流/直流電源的經(jīng)驗(yàn),并了解應(yīng)采取的預(yù)防措施。還需要了解INFI 90 OPEN系統(tǒng)和電子原理。
General warning All parts of the equipment environment
No matter in transportation, operation or storage, it must be in a non corrosive environment. Danger of electric shock during maintenance Disconnect the power supply or take precautions to ensure that contact with live parts is avoided during maintenance. Specific warnings Disconnect the power before installing the dipstick tester on the MMU backplane. Otherwise, it will lead to contact with the cabinet area, which may cause severe or fatal electric shock. (Page 3-6, 5-1) Do not clean electrical components or assemblies under live conditions. Doing so exposes you to the risk of electric shock. (Page 6-2) Wear goggles whenever you use cleaning solvents. When using compressed air to remove the solvent from the printed circuit board, the solvent may be splashed to the eyes when it is removed from the printed circuit. (Page 6-2) There are exposed AC and DC connections in the cabinet. These exposed electrical connections present an electrical shock hazard that may result in personal injury or death. (Page 6-4) If there is a risk of electric shock in the input or output circuits after the system power is disconnected on the power input panel, the cabinet door containing these external power supply circuits must be marked with a warning that multiple power supplies exist. (Page 6-4) WBPEEUI240752A0 vii Trademarks and registrations The registrations and trademarks used in this document include: ? Registered trademark of INFI 90 Elsag Bailey Process Automation ? INFI-NET Elsag Bailey Process Automation Trademark Overview INFI 90 ? OPEN system is used for processing and monitoring. It connects process field input with INFI 90 OPEN strategic process management system. A contact closure or switch is an example of a device that provides a digital signal.
The control module provides control functions;
I/O modules provide inputs and outputs. This description describes the four variants of the IMDSI1 module: ? IMDSI12-24 VDC, 48 VDC, 125 VDC, or 120 VAC inputs. ? IMDSI13-24 VDC input. ? IMDSI14-48 VDC input. ? IMDSI15-125 VDC or 120 VAC input. IMDSI12 is functionally equivalent to the existing IMDSI02 module. Its limitation is that IMDSI01 provides 1.5 ms (fast) and 17 ms (slow) of optional dithering filter time, while IMDSI112 module only provides 17 ms (slow) of dithering filter time. Slow de jitter filters are used for most digital input applications. Any IMDSI1 module can replace IMDSI02 with the appropriate jumper settings. For example, IMDSI13 module can be used instead of IMDSI02 module. All jumpers of this module are set to 24 VDC and have a slow jitter filter. Figure 1-1 shows the INFI 90 OPEN communication levels and the locations of digital input modules within these levels. Intended Users This manual is prepared for engineers, technicians and system designers as the source of technical information for IMDSI1 digital input module. This instruction should be used by those planning to purchase, install, operate, troubleshoot, maintain, or replace these modules. Personnel using digital input modules should have experience in using AC/DC power supplies and understand the precautions to be taken. You also need to know INFI 90 OPEN system and electronic principle.