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一)分析被控对象并提出控制要求
详细分析被控对象的工艺过程及工作特点,了解被控对象机、电、液之间的配合,提出被控对象对PLC控制系统的控制要求,确定控制方案,拟定设计任务书。
(二)确定输入/输出设备
根据系统的控制要求,确定系统所需的全部输入设备(如:按纽、位置开关、转换开关及各种传感器等)和输出设备(如:接触器、电磁阀、信号指示灯及其它执行器等),从而确定与PLC有关的输入/输出设备,以确定PLC的I/O点数。
(三)选择PLC
PLC选择包括对PLC的机型、容量、I/O模块、电源等的选择,详见本章第二节。
(四)分配I/O点并设计PLC外围硬件线路
1.分配I/O点
画出PLC的I/O点与输入/输出设备的连接图或对应关系表,该部分也可在第2步中进行。
2.设计PLC外围硬件线路
画出系统其它部分的电气线路图,包括主电路和未进入可编程控制器的控制电路等。
由PLC的I/O连接图和PLC外围电气线路图组成系统的电气原理图。到此为止系统的硬件电气线路已经确定。
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——施耐德电气AirSeT技术在纽约气候周荣获“国际碳手印奖”
日前,全球能源管理和自动化领域的数字化转型专家施耐德电气凭借绿色的干燥空气中压AirSeT技术,在2022年纽约气候周荣获“高潜力碳手印创新”类别的“国际碳手印奖”奖项,彰显了其在绿色可持续创新技术上的领先地位。
一直以来,该系列奖项旨在表彰对气候产生积极影响的产品。例如,施耐德电气的RM AirSeT环网柜采用了创新的可持续设计,使用干燥空气替代了几十年来一直在电网中压设备中占据主导地位的强温室效应气体——六氟化硫(SF6)。
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