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PIC microcontrollers

PIC is a family of microcontrollers manufactured by 'Microchip Technology'. The name PIC is an abbreviation for 'Peripheral Interface Controller'. These microcontrollers are often used in embedded systems.
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The 3 most popular PIC microcontrollers

What is an microcontroller?

Microcontrollers are small, computer-on-a-chip devices that can be programmed to control a variety of electronic devices. They typically include a microprocessor, memory, and input/output (I/O) peripherals on a single integrated circuit. They are commonly used in embedded systems, such as appliances, automobiles, and industrial control systems, where a small, low-power device is needed to perform simple control tasks.

What is the difference between AVR and PIC microcontrollers?

AVR and PIC are both types of microcontrollers, but they are developed by different companies and have some key differences.

AVR is a family of microcontrollers developed by Atmel (now owned by Microchip). AVR microcontrollers are known for their small size, low power consumption, and high performance. They use a RISC instruction set and have a variety of peripherals such as timers, ADCs and serial communication interfaces. They are widely used in hobby projects and small scale industries because of the low cost and ease of use with C language.

PIC, on the other hand, stands for Peripheral Interface Controller and is a family of microcontrollers developed by Microchip Technology. PIC microcontrollers are widely used in industrial control systems, automotive applications and household appliances because of its flexibility and power efficiency. They are typically programmed in assembly language and have a Harvard architecture.

In short, AVR is generally considered to be easier to use and better suited for hobby projects and small-scale applications, while PICs are generally more powerful and better suited for industrial and commercial applications.

How to program a microcontroller?

Programming a microcontroller typically involves the following steps:

  1. Connect the microcontroller to a computer: This is usually done using a programmer or a debugger, which connects to the microcontroller's debug or programming interface.
  2. Choose a development environment: There are many software development environments available for microcontrollers, such as Atmel Studio for AVR microcontrollers or MPLAB X for PIC microcontrollers. These environments provide a code editor, compiler, and programmer all in one.
  3. Write the code: Code is typically written in a low-level language, such as assembly or C. This code controls the microcontroller's I/O pins, performs calculations, and implements logic.
  4. Compile the code: The code is then translated into machine language that the microcontroller can understand.
  5. Program the microcontroller: The machine language code is then loaded onto the microcontroller using the programmer or debugger.
  6. Test and debug the code: Once the code is programmed, it's important to test it to make sure it's functioning correctly. This can be done by sending inputs to the microcontroller and measuring the outputs to see if they match what was expected.
  7. If needed, the code can be modified and reprogrammed until it functions correctly.

Note: the steps may vary depending on the microcontroller and the programming software you are using. Also there are some microcontroller that could be programmed over the air with WiFi or Bluetooth connections.




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