Microchip PIC & AVR Examples
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- In this application, when water is detected, a PIC18F56Q24 will drive a Buzzer Click board and light up an 4x4 NeoPixel array. The onboard button is used to cycle through output modes: Buzzer only, NeoPixel only, or both Buzzer and NeoPixel.
- This code example demonstrates how to use QT7 Xplained Pro with PIC16F17146 microcontroller.
- This code example demonstrates how to use QT7 Xplained Pro with PIC18F56Q24 microcontroller.
- This code example demonstrates how to use QT7 Xplained Pro with PIC18F57Q43 microcontroller.
- This code example demonstrates how to use QT7 Xplained Pro with PIC18F47Q10 microcontroller.
- This code example demonstrates how to use QT7 Xplained Pro with ATTiny3217 microcontroller.
- This code example demonstrates how to use QT7 Xplained Pro with PIC16F17576 microcontroller.
- This example [part2] shows how to set up Direct Memory Access (DMA) using the Microchip Code Configurator (MCC) on a PIC18F57Q43 microcontroller to transfer data from the UART recieve buffer to the PWM duty cycle register to alter the brightness of an LED. The data transfer is triggered by the UART module when the Rx buffer register is full.
- This example will demonstrate how to interface the AT24CM02-EEPROM chip on-board the Curiosity Nano Explorer development board using SPI protocol.
- This example will demonstrate how to interface the 25CSM04-EEPROM chip on-board the Curiosity Nano Explorer development board using I2C protocol.
- This example will demonstrate how to interface the joystick on board the Curiosity Nano Explorer development board.
- This example will demonstrate how to interface the MCP9808-Temperature Sensor on-board the Curiosity Nano Explorer development board with pic18f56q24 MCU using I2C protocol, and using UART peripheral to display temperature values on the terminal.
- The 11kW Three-Phase PFC Demonstration Application is a high-performance development platform designed to support rapid prototyping and code development using Microchip dsPIC33C and dsPIC33A Digital Signal Controllers and Silicon Carbide (SiC FET) devices.
- Demo application for a simplified trapezoidal high speed motor control that keeps stability at high count of electrical rotations per minute (> 150 000 Electrical RPM ). For this demo avr16eb32, avr128da48 and atmega4809 platforms are tested.
dspic33a-crc-advanced
Public- This repository contains a solution for an automatic retractable roof system based on rain presence. The solution uses MTCH9010 for water detection and the AVR16EB32 as a host device.
- This repository contains an MPLAB® X project that uses the MTCH9010 and AVR64DD32 microcontroller to detect the absence of liquid in a container and alternately control two pumps to transfer water between containers.
dspic33a-code-examples
Publicdspic33c-code-examples
Public- These MPLAB® X IDE demo projects showcase applications built with the Crypto Library which leverages the Pre-compiled Crypto Accelerator Module(CAM) Hardware Driver to demonstrate various cryptographic algorithms supported by the CAM