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LOGO!230RCE, 8DI/4DO, 400 Blocks. LOGO! 230RCE,logic module, display PS/I/O: 115V/230V/relay 8 DI/4 DO, memory 400 blocks modular expandable, Ethernet integr. web server, data log, standard microSD card for LOGO! SOFT Comfort V8 or higher older projects executable. Product details Technical data CAx data Add to mySupport products. Save filter.
Nov 8, 2023 · Joined: 12/18/2014. Last visit: 11/12/2024. Posts: 34207. Rating: (4260) You can use a Analog-MUX. An Analog-MUX can switch up to 4 different analog values to its output. 2 digital control inputs are used to determine which of the 4 values is switched to its own output. Suggestion.
Oct 5, 2017 · The outputs of the LOGO! are always "normally open". This function can not changed in the LOGO!, there's no settings. When you are in the LOGO! the control of the output via an NOT-block, the contact of the output relay is closed if the output is not switched on by the program function. If, however, the relay contact is also to be closed when ...
Dec 20, 2023 · Mit einer Demoversion können Sie auf einfache Art LOGO! Soft Comfort kennenlernen und testen.
Feb 28, 2022 · Entry. Associated product (s) With the extension of the LOGO! CIM communication module, LOGO! V8 offers you the possibility to control SINAMICS V20 drives using serial communication by means of Modbus RTU protocol. This entry focuses on controlling SINAMICS V20 drives with the integrated web server of the LOGO! Basic Module (BM).
03/2024, Compact Operating Instructions, A5E52459864-AD. Siemens Industry Online Support. Siemens AG
Mar 20, 2019 · The LOGO! with the order number 6ED1052-1MD 08-0BA0 is the new LOGO!8.2 and you must select a LOGO!8.FS4 in the device selection. It helped . thanks very much Suggestion
Feb 8, 2010 · Posts: 2930. Rating: (432) Hi, if you use the search function inside the forum, then you will find the sollution. ...
The addressing in the VM memory of the LOGO! is byte-oriented. You have to enter the 32-bit float value in the LOGO! in 4 bytes e.g. Transfer VB0 to VB3 (VW0 + VW2). To convert, use the F / I converter and enter VM0 as the address. In the opposite direction you take the I / F converter to make the integer number of the LOGO a 32 bit real value.
I need a little help now. How can I store analogue values (AI-1 is on that moment of T1 = 1200) and add again the values of AI-1 a few moments later ( AI-1 = on moment T2 =500), so the result is 1700 and may not change until there is new moment to add the next value of AI-1. In short all values have to count up and stay resident in the logo ...
