Defines physical Input/Output (I/O) mapping (Analogue inputs, Digital outputs, NTC/PT1000 probes).
[Define I/O & Variables] ➔ [Develop FAD Logic] ➔ [Design User Interfaces] ➔ [Compile & Simulate] ➔ [Commission Hardware] Step 1: Definition of Variables and Hardware I/O
It provides a uniform platform for all pCO-based controllers, making it easier to reuse code across different hardware models. carel 1tool software
is a comprehensive development environment specifically designed for the CAREL pCO sistema
: A WYSIWYG (What You See Is What You Get) interface for designing the user interface (UI) screens that will appear on the controller's display (like the PGD1). The introduction of STone in 2024 signals a
The introduction of STone in 2024 signals a new era for CAREL's software development, yet . For a vast installed base of CAREL controllers and for projects that benefit from its all-in-one, graphical approach, 1tool continues to be a robust and efficient choice.
: Complete function blocks that combine a control algorithm with its associated UI mask. Getting Started & Resources carel 1tool software
Once simulated successfully, connect your PC to the CAREL controller via USB or Ethernet. Download the compiled binary file. Using the live commissioning tool, you can monitor variables in real-time as the physical unit operates. 4. Key Libraries and Reusable Logic
This is where the "magic" happens. Using a Graphical User Interface (GUI), developers drag and drop functional blocks (like PIDs, timers, and logic gates) to create the control strategy.
programmable controller platform. Introduced in 2007 as a successor to EasyTools, it integrates multiple development phases—ranging from initial design and simulation to field commissioning—into a single, unified software suite. Software Architecture and Integrated Environments