![]() Select Arduino Mega 2560 V2.0 and click OK.Now search for the Arduino Mega 2560 V2.0 by clicking the “ Pick from Libraries” button as shown in the below figure.After placing the library files, open your Proteus software or restart (if it's already open).Now copy these files and place them in the libraries folder of your Proteus software. If you want to go through its technical specifications, features and pinout then you better have a look at Introduction to Arduino Mega 2560.If you haven’t bought your Arduino Mega 2560 yet, then you can buy it from this reliable source:.If you are facing problems in adding a library in Proteus 7 or 8 Professional, then you should read How to add new Library in Proteus 8 Professional.When you open this folder, you will find two files named: Extract this zip file where you’ll find the folder named "Proteus Library Files".You will get the downloaded file in zip format. Let’s discuss how to download the Arduino Mega 2560 library and use it in your Proteus software.Īrduino Mega 2560 Library for Proteus V2.0įirst of all, download the Arduino Mega 2560 library for Proteus V2.0 by clicking the link below. This was the little intro to Arduino Mega 2560. Moreover, the board contains a USB port to transfer the code from the computer to the module, and a DC power jack is included on the board to power up the module. ![]() There are 16 analog pins available on the board.There are total 54 digital I/O pins incorporated on the board, including 15 pins for PWM.The Arduino Mega 2560 is a robust, powerful, application-type microcontroller board based on the Atmega2560 microcontroller.Before we read further, let’s go through what is Arduino Mega 2560? Initially, we will download this library in zip format and then will use it in our Proteus software to simulate Arduino Mega 2560. In this tutorial, we will simulate Arduino Mega 2560 in Proteus. I have previously discussed the Arduino UNO Library for Proteus V2.0 and Arduino Mini Library for Proteus V2.0 So, today I’m willing to comply with your requests and have designed this library for the new version of Arduino Mega 2560. I keep getting messages requesting to design the library for the new version of Arduino Boards. This new version of Arduino Mega 2560 is more efficient, robust, fast, powerful, and small in size. I have already detailed the Arduino Mega 2560 Library for Proteus that is the previous version of the Arduino Mega 2560 board. In this post today, I’ll detail the new version of Arduino Mega 2560 Library for Proteus V2.0. This blog has been submitted by Cyborg, NIT Rourkela under the Robocraze Club Outreach Program.Hi Guys! Happy to see you around. You can change the value of both the temperature and humidity by using the up and down arrows on the sensor and notice the changes in the serial monitor/virtual terminal. hex file location in the program file option as shown below.Ĭlicking on the run button on the bottom left corner of the page will start the simulation as shown below ![]() hex file and open the previously saved Proteus circuit.ĭouble click on the Arduino and paste the. hex file as shown below(you will find the hex file in the error and information window of Arduino ide)Ĭopy the above. After verification is done successfully, locate the. ![]() put your main code here, to run repeatedly:Įnter the above code into the Arduino IDE and compile/verify it. put your setup code here, to run once: Save the above circuit and let's move to Arduino IDE for coding the above application. Ensure proper connections and make note of the Arduino pin (it will be required for the code later on).Īfter interfacing, the circuit should look like this. Suppose any of the above instruments are not available in the component section they’re corresponding proteus library will have to be downloaded which must include three extensions (.HEX, LIB, IDX)Ĭopy both lib and IDX to the proteus library(In this case the location is ’ C:\Program Files (x86)\Labcenter Electronics\Proteus 8 Professional\DATA\LIBRARY’), and after that, the component would be available.Ĭonnect the DHT11 sensor to the Arduino board. The virtual terminal/serial monitor is available in the instrument selector section as shown below(highlighted with yellow colour). ![]() Navigate to the components section on the left bar and select the components required ( Arduino, DHT11 and serial monitor). Open the Proteus and click on the schematic capture icon on the top left corner. It also demos how we can test out our results in a simulation before implementing it on hardware. Proteus 8 Professional has been used for the rest of this tutorial. In this blog, we will introduce the Proteus Simulation software by simulating interfacing DHT11 with Arduino. ![]()
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