Arduino PLC IDE Setup & Device License Activation

A brief user guide to show how to install the Arduino PLC IDE and activate the license for your compatible device.

Guide and Tutorial | Arduino PLC IDE Setup & Device License Activation

Overview

The Arduino PLC IDE offers the possibility to use IEC IEC61131-3 programming languages (LD, SFC, FBD, ST, IL) with the Opta™. The PLC IDE offers a wide set of standard features commonly used in industrial automation.

Arduino PLC IDE

This tutorial will show you how to connect the Opta™ to the Arduino PLC IDE, learning how to activate the software license and the basic setup to have your board up and running with the Arduino PLC IDE.

Goals

  • Install the Arduino PLC IDE and the Arduino PLC IDE Tools
  • Download the PLC IDE bootloader to the board
  • Connect the computer to your device through the IDE
  • Activate the device license
  • Test the connection

Required Hardware and Software

  • Board compatible with the Arduino PLC IDE (Portenta Machine Control or Opta™).
  • Arduino PLC IDE (Official Website).
  • If you have a Portenta Machine Control, you will need a unique PLC IDE License key for your device. Get your license key here.
  • If you have an Opta™, you do not need any license key to activate your product. Go to section License Activation With Pre-Licensed Products (Opta™) to know more.
  • Arduino IDE 1.8.10+, Arduino IDE 2, Arduino Web Editor or any program with a serial monitor in case you need to retrieve the Hardware-ID of your device.

To get the Arduino PLC IDE and the PLC IDE License for your device, please visit the Software page .

Instructions

To get the Arduino PLC IDE software, go to the official software website of the Arduino PLC IDE and choose to download the PLC IDE software files. You will need two following executables:

  • Arduino PLC IDE Tools
  • Arduino PLC IDE

Arduino IDE Download page

The software requires Windows 10 or a newer operating system version for the x64 architecture.

The first executable file packages all the required drivers, libraries, and cores that you will need. The second executable will install the IDE software. The continuing sections will help you install the Arduino PLC IDE software properly.

1. Arduino PLC IDE Tools Setup

For a proper Arduino PLC IDE setup, you will need to install all the required tools before IDE software setup.

When you download the Arduino PLC IDE Tools executable, the file naming scheme is as follows:

Arduino-PLC-IDE-Tools_X.X.X_Windows_64bit

If you have got the correct tool package, it should follow the previous naming scheme with the X.X.X that represents the version of the tool package. Once you have verified and downloaded the Arduino PLC IDE Tools executable, run the installer and follow the installation instructions.

Once the installation has finished, all the required drivers, libraries, and Arduino cores will be installed and ready to be used. Your computer is now ready to install the Arduino PLC IDE.

It is possible that during the installation, some terminal windows will pop by the installation program. Do not worry about it, these windows are required by the program to install all the tools that your computer needs.

2. Arduino PLC IDE Setup

When you download the Arduino PLC IDE executable, the file naming scheme is as follows:

Setup_Arduino PLC IDE_X.X.X.X_{ReleaseDate}

If you have the correct IDE software, its name should include the version format X.X.X.X, with the associated release date in the {ReleaseDate} field. For instance, a release date might look like 20230329.

Run the Arduino PLC IDE installer after you have installed the Arduino PLC IDE Tools. If you have not installed the PLC IDE tools, please check Arduino PLC IDE Tools Setup section before proceeding as it needs to have the tools set before IDE software installation.

Follow the installation instructions and finish the IDE setup process.

If you have any problem, try rebooting your computer to ensure that all the drivers, libraries, and dependencies are applied and up to date.

Once the setup is complete, open the Arduino PLC IDE program, and the welcome screen will greet you.

Welcome screen

The following sections will guide you to create a project, download the runtime, and properly interface the Opta™ with its dedicated license activation procedure.

3. Project Setup

Create a new project by clicking the middle New project ... button or File > New Project

Create new project

After creating the project, there are some new windows on the screen, click on the left panel and switch it to the Resources tab, inside the window on the tree structure. Now click on your board and it will open the Boards configuration page.

Board configuration page

4. Download the Runtime

The board needs to run a specific program (runtime) in order to interact with the PLC IDE. Go to the "Other" section below the "Device Info" block.

Plug your device to the computer, select the Serial Port of your board and click the Download button.

The device will show up two Serial Ports, the default one (generally with the lowest number) is the usual Serial Port, the secondary one (usually with the highest number) is a virtual port for Modbus communication from the device to your computer. Take note of the port number assigned to the secondary port (virtual port for Modbus) as it will be needed in a second step.

If during the download procedure the following message appears, double-tap the reset button using the tip of a pen or a similar pointed object. The LED above the reset button will start blinking indicating that the Opta™ is ready to be flashed with a new firmware. Click the Download button to start the process again.

Download error message

5. Connect to the Device

After the runtime is up and running, set up the communication by going to On-line > Set up communication.

Set up communication

On the new pop-up window open the properties of the Modbus protocol.

Properties of the communication

Make sure the Modbus protocol is using the secondary Serial port number, the Modbus Virtual port you took note of before. Press OK.

Setting up the Modbus protocol

Click OK to save the settings and press the connect button on On-line > Connect.

Connect to the board

6. License Activation with Product Key

If the communication is successful the main panel will show the license section to be filled in and a status indicator.

Online Activation



To use your product license, paste the key in the blank next to Product Key and press the Activate button.

Connection success

After you click the Activate button, the IDE will bind the license to the hardware ID. A popup telling you to reboot the target (which is the device connected to the PLC IDE) will show up; press the reset button of your device to reboot.

Activation succeed

Once the product has been activated, it is recommended to get the Hardware-ID of your device.

Offline Activation



To activate the product Offline, deselect the "Online" slider and the scenario below will show up:

Offline Activation

Follow the instructions provided using our Contact form and generate the Activation Request File.

Once you receive the Activation file, drag and drop the file in the dashed rectangle or select it from the folder where it is stored to complete your Offline Activation.

7. License Activation with Pre-Licensed Products (Opta™)

When a product is Pre-licensed, the following scenario will be displayed:

Opta™ Activation No License

By clicking the Activate PLC Runtime button, the product activation will be completed and the PLC Status will be set as OK:

Opta™ Activation Status OK

Now the product is ready to be used with the PLC IDE.

8. Activation Recovery

In case the hardware is being reflashed and the key got lost, the license can be recovered just by clicking the "Forgot your Product Key?" button:

Online Activation with Forgotten Key

The IDE will then connect to a server, validate the hardware and recover the activation, showing a confirmation pop-up when done:

Online Activation Forgotten Key Activated

9. Getting the Hardware-ID of Your Device

To do it follow the next steps:

  • Be sure that your device is disconnected from the Arduino PLC IDE
  • Open the Arduino IDE software
  • Go to Tools > Board > Arduino Mbed OS Portenta Boards > Arduino Portenta H7 (M7 Core)
  • Go to Tools > Port to select the proper port (the default one shown before in the PLC IDE inside the Arduino PMC Configuration > Other section)
  • Go to Tools > Serial Monitor and reset the board. Look at the end of the boot report to find the "Hardware-ID" and store it in a safe place.

10. Download a Program

Let's download and run the first program on your device. We are going to use the default program that is included in a project: a counter.

Double-click on the file main inside the Project to see the counter program. To download that program to your PLC, it is needed to compile the program and send it to the target device.

Send the program to the device (download)

11. Communication Test

Open the Watch window by clicking on "View > Tool Windows > Watch", it will attach a new window on the right side called Watch. This window shows the real-time variables value.

To add a new variable to be watched you can click the Insert new item button inside the window, it will open a popup window, on the name label insert "cnt", and on the location "main", click OK and it will add the variable cnt from the main program on the table or drag and drop the cnt variable from the Project tree or from the Main program.

Select the Watch window and click on the Start/Stop watch button unless the value of the variable is already getting updated.

Conclusions

In this tutorial, we went through how to set up the Opta™ with the Arduino IDE lab, learned how to connect the board to the program through Modbus, activate the hardware license of your product, and create a simple sketch with one variable that went compiled and downloaded inside the board. Finally, we learned how to see the values of the variables in real-time using the Watch window.

Now that your board is up and running with the Arduino PLC IDE, you can start to create your own professional solutions.