Arduino Simulator Software

With the support for Arduino, Air Manager can be the heart of your sim. Taking care of the instrument visuals and hardware I/O.

  1. Free Arduino Simulator Software
  2. Arduino Simulator software, free download

The Arduino Mega2560, Uno, Nano and various clones of these types are supported by Air Manager and Air Player. All it takes you to do is upload Sim Innovations firmware to the Arduino, with our free to use Arduino Installer tool. When this is done, the Arduino is automatically recognized by Air Manager and Air Player, even on the Raspberry Pi.

Up to 16 Arduino’s from each supported type can be connected, giving you a crazy (theoretical) amount of 1696 I/O ports per computer. Should be enough right?


Download Wokwi Arduino Simulator for free. Wokwi Arduino Simulator to simulate Arduino projects Online for free. Wokwi Arduino Simulator has the following features: Support multiple file projects📁📂📂🗄🗃 (.h,.cpp and more) It should be able to use Arduino libraries (not just a few😟 but all😀) Latest🆕 Arduino version should be used by default (Reason and more info. The Arduino simulator is considered one of the most successful designers designed to design various electronic devices. Thanks to the unique programming language Processing, even users far from the subject of software development can use the development environment. Simulate Uno, Mega, FastLED, LCD1602, OLED, Potentiometer and learn from Arduino code examples.

The behavior of the Arduino I/O is scripted in the same easy to learn scripting language as our instruments: Lua

The script can be integrated in existing instruments, or run as a dedicated ‘hardware-only’ instrument. The hardware uses our easy to understand hardware API functions, which has a full range of skills from input to output. No need to learn C++, no compiling, it can’t possibly be easier!


Free Arduino Simulator Software


Arduino Simulator software, free download

These examples give a brief overview of what is possible with our API, in fact the possibilities are nearly endless. Click here to see the full hardware API. In these examples random Arduino pins and channels were chosen, click here to see the full hardware ID list.

An example on how to connect a button, this uses the API function hw_button_add. In this case we use the button to swap the NAV1 radio frequency.

An example on how to connect a switch, this uses the API function hw_switch_add. In this case we use a switch to turn the strobe light on and off.

Rotary encoder
An example on how to connect a rotary encoder, this uses the API function hw_dial_add. In this case we use the rotary encoder to set the autopilot heading.

An example on how to connect a potentiometer, this uses the API function hw_adc_input_add. In this case we use the potentiometer to set the volume of the COM radio.

An example on how to connect an LED, this uses the API function hw_led_add. In this case the brightness of the LED will be controlled by the instrument lighting.

An example on how to connect a servo, this uses the API function hw_output_pwm_add. In this case the PWM output will be controlled by the flaps deployment ranging from 0 to 1.

An example on how to use the MessagePort library, this uses the API function hw_message_port_add. The MessagePort library can be used to directly communicate between instruments and your own Arduino sketch.

The Arduino simulator is a virtual portrayal of the circuits of Arduino in the real world. We can create many projects using a simulator without the need for any hardware.

The Simulator helps beginner and professional designers to learn, program, and create their projects without wasting time on collecting hardware equipments.

Advantages of using Simulator

There are various advantages of using simulator, which are listed below:

  • It saves money, because there is no need to buy hardware equipments to make a project.
  • The task to create and learn Arduino is easy for beginners.
  • We need not to worry about the damage of board and related equipments.
  • No messy wire structure required.
  • It helps students to eliminate their mistakes and errors using simulator.
  • It supports line to line debugging, and helps to find out the errors easily.
  • We can learn the code and build projects anywhere with our computer and internet connection.
  • We can also share our design with others.

Types of Simulator

There are various simulators available. Some are available for free, while some require a license to access the simulators.

Some types of simulators are listed below:

  • Autodesk Tinkercad
  • Emulator Arduino Simulator
  • Autodesk Eagle
  • Proteus Simulator
  • Virtronics Arduino Simulator
  • ArduinoSim

Autodesk Eagle is an advanced simulator, which is used to design 2D and 3D models of PCB, modular designs, multi-sheet schematics, real-time synchronization, etc.

How to access simulator?

Here, we are using the Autodesk Tinkercad Simulator.

The steps to access the TINKERCAD are listed below:

1. Open the official website of tinkercad.URL:

A window will appear, as shown below:

2. Click on the three horizontal lines present on the upper right corner.

3. Click on the 'Sign in' option, if you have an account in Autodesk. Otherwise, click on the 'JOIN NOW' option if you don't have an account, as shown below:

The SIGN IN window will appear as:

We can select any sign-in method. Specify the username and password.

We already have an account in Autodesk, so we will sign-in directly with the username and password.

The JOIN window will appear as:

Select the preference according to the requirements and sign-in using Gmail, etc.

4. Now, a window will appear, as shown below:

5. Click on the 'Create new circuit' option to start designing the Arduino circuit, as shown above.

The 'Circuits' option will also show the previous circuits created by user. The design option is used for creating the 3D design, which is of no use in Arduino.

6. We are now ready to start with the Autodesk Tinkercad. We can start creating our projects.

Autodesk Tinkercad Simulator

It is also a simulator that is used to design virtual circuits.

Features of Tinkercad

The features of Tinkercad are listed below:

  • Glow and move circuit assembly. It means we can use the components of a circuit according to the project requirement. Glow here signifies the glowing of LED.
  • Integrated product design. It means the electronic components used in the circuitry are real.
  • Arduino Programming. We can directly write the program or code in the editor of the simulator.
  • We can also consider some ready-made examples provided by the tinkercad for better understanding.
  • Realtime simulation. We can prototype our designs within the browser before implementing them in real-time.

How to use a simulator?

Sign-in on the Autodesk Tinkercad, as explained above. Now, follow the below steps:

  • Click on 'Create new circuit' option, as shown below:
  • A window will appear. We need to drag and drop the desired components in the project screen. It is shown below:
  • Click on the drop list of components and select the 'All' option.

The drop list will appear as:

The selected option 'All' will display all the components and starter examples when we scroll down a little, as shown below:

Code example to blink an LED

Let's understand with an example to blink an LED. We can use both ( blinking an LED in basic projects and the one specified below) methods to blink an LED.

The steps are listed below:

  • Search UNO R3 and drag-drop the board on the project screen. We can select any board according to the requirements.
  • Search a LED, and 1 resistor of 220 ohms and drag-drop them on the project screen.

After selecting the resistor, a box to set the resistance will appear, as shown below:

Here, we have selected the red color for LED. We can also choose other colors.

Never eat alone expanded and updated pdf free download adobe reader for windows 10. After selecting the LED, a box to set the color will appear, as shown below:

  • Now, connect the wires. For wiring, just select the point on the board to the terminal of the component. We are not required to search for wires in the search box.
  • The circuit will now appear as:
  • Select the 'Text' instead of block view, as shown below:
  • Click on the code button to write the code, as shown below:
  • The coding screen will appear as:

It also displays the error in the code, if any.

  • Click on 'Start Simulation' to upload the code on the board.

The LED will light up for 1 second and dim for 1 second.

The lighting LED is shown below:

Click on 'Stop Simulation' to stop the blinking of an LED, as shown below:

Serial Monitor

The serial monitor is present on the bottom of the coding screen.

It will look like the below image:

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