1) WINCC configuration control
WINCC组态控制
2) industrial control configuration software WinCC
工控组态软件WinCC
1.
The paper gives a introduction to the procedure of using S7-400 programmable logic controller to build PROFIBUS,and discusses the methods for realizing communication between S7-400 and industrial control configuration software WinCC through PROFIBUS.
本文叙述了利用S7-400可编程控制器组建PROFIBUS现场总线的基本过程,并讨论通过PROFIBUS实现S7-400与工控组态软件WinCC之间通讯的方法。
2.
The paper gives an introduction to the procedure of using S7-300 programmable controller to build multiple point interface network and PROFIBUS, and discusses the methods for realizing communication between S7-300 and industrial control configuration software WinCC through multiple point interface network and PROFIBUS.
本文叙述了利用S7- 30 0可编程控制器组建多点接口网络 (MPI)及PROFIBUS的基本过程 ,并讨论通过MPI网络及PROFIBUS实现S7- 30 0与工控组态软件WinCC之间通讯的方
3) WINCC configuration
WINCC组态
4) WINCC configuration software
WINCC组态软件
1.
This paper introduces an example of application research of monitor and diagnosis system based on WINCC configuration software.
以宝钢高线盘卷输送线控制系统为例,介绍了应用WINCC组态软件进行在线监控及故障诊断系统开发的情况。
2.
The design utilizes non-linear ability of approaching with Siemens WINCC configuration software and BP neural network function algorithm with t.
运用西门子WINCC组态软件编制界面和神经网络预测器。
3.
According to the material logistic automatic system, this paper present the design of communication experiment based on the PROFIBUS-DP protocol by using WinCC configuration software.
在已有的物流控制实验装置上,基于PROFIBUS-DP协议,利用WinCC组态软件,设计了相关的通信实验,介绍了通信实现的原理、实验设备和步骤。
5) configuration software WinCC
组态软件WinCC
1.
This paper discusses the methods of designing industrial automation monitor system with configuration software WinCC and ways to resolving problems encountered during the process of development,and we come true this blue pr.
着重研究了利用组态软件WinCC设计工业自动监控系统的方法,并对开发过程中遇到的问题和解决途径进行了讨论,在工程中得到了实现。
6) Scalance WinCC
Scalance WinCC控制柜
补充资料:电子组态
电子组态 electron configuration 原子内电子壳层排布的标示。又称电子构型。原子中的电子排布组成一定的壳层,例如 ,硅原子的电子组态是 1s22s22p63s23p2,表示其14个电子中2个排布在1s态,2个排布在2s态,6个排布在2p态,2个排布在3s态和最后 2 个电子排布在3p态,有时可简示为 3s23p2如果一个电子激发到4s态,则相应的电子组态为1s22s22p63s23p4s。或简示为3s23p4s。电子组态清楚地显示出核外电子的排布状况。 |
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条