![]() initialize digital pin LED_BUILTIN as an output. We use an integer variable (called an int). The first thing we do is define a variable that will hold the number of the pin that the LED is connected. To blink the LED takes only a few lines of code. This is because it is such an intuitively simple time-domain. Now upload the sketch in Arduino, the Blink Example from Arduino, which help better understanding to the all procedure of Proteus platform We are not accustomed to think of linear interpolation as a frequency-domain filtering process. So, design a simulation as shown in the below figure: Step4: Upload The Program In the above, we use ARM7 processor for the vehicle section of the system, which is a high end 32 bit microprocessor, executes the instructions very fast and we use PIC microcontroller for the transmitting section of the system.And connect the all negative side of led’s commonly through the ground which is given in left side of the screen click on that terminal mode icon and select ground terminal. The controller receives it and responds back with values of latitude and longitude given by GPS. We use GSM to know that where the vehicle is located exactly by sending a message. 13 output and then I have made it HIGH and LOW with a delay of 1000 msec. We also have GPS in this Paper to locate the vehicle. Today, I am going to share a very Simple Arduino LED Example in Proteus ISIS. If the balance is not available in the card then gate will not be opened. If sufficient amount exits in the card then the gate will be opened and whenever the vehicle crosses then with in 2min automatically gate will be closed. When the Vehicle is entered then RFID will be active and the reader reads the tag and microcontroller checks with the database for the balance for the balance enquiry. The role of RFID is to identify the vehicle. This paper plays a vital role now a day because we use RFID technology with GSM to develop the Application. The main theme of this paper is to avoid human existence at the toll gates and it plays an automatic role in permitting the vehicle to go/stop by taking the payment. Interfacing of the microcontroller with Liquid Crystal Display (LCD) and Keypad through I/O ports is presented and finally Universal Asynchronous Receiver Transmitter (UART) based asynchronous serial communication at 115200 baud rate through PIC microcontroller is done in Proteus. ![]() Pulse Width Modulation (PWM) is generated using Output Compare Module (OCM) of microcontroller. Basic methodology of calling interrupts is defined using simulations. Then timers are briefly explained and simulated for specific applications. Firstly Ports A and B are initialized to use for Input-Output (I/O) interfacing. The research work demonstrates the functioning different sections of the microcontroller. 16-bit PIC microcontrollers are not explored to the best potential for their hands on experience in educational and industrial sectors. PICs are cost-effective microcontrollers and provide a large number of applications in educational and industrial areas. This paper aims at explore the working of a 16-bit Peripheral Interface Controller (PIC) 24F series microcontroller using MPLAB IDE and Proteus Professional software.
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