Harmony 3 peripheral library application examples for SAM RH71 family
MPLAB® Harmony 3 is an extension of the MPLAB® ecosystem for creating embedded firmware solutions for Microchip 32-bit SAM and PIC® microcontroller and microprocessor devices. Refer to the following links for more information.
- Microchip 32-bit MCUs
- Microchip 32-bit MPUs
- Microchip MPLAB X IDE
- Microchip MPLAB® Harmony
- Microchip MPLAB® Harmony Pages
This repository contains the MPLAB® Harmony 3 peripheral library application examples for SAM RH71 family
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Contents Summary
Folder | Description |
---|---|
apps | Contains peripheral library example applications |
docs | Contains documentation in html format for offline viewing (to be used only after cloning this repository onto a local machine). Use github pages of this repository for viewing it online. |
Code Examples
The following applications are provided to demonstrate the typical or interesting usage models of one or more peripheral libraries.
Name | Description |
---|---|
Cache maintenance | This example shows cache maintenance operation by cleaning and invalidating the cache for the DMA buffers located in the cacheable SRAM region |
Clock configuration | This example application shows how to configure the clock system to run the device at maximum frequency. It also outputs a prescaled clock signal on a GPIO pin for measurement and verification |
FLEXCOM SPI EEPROM read write | This example application shows how to use the flexcom module in SPI mode |
FLEXCOM TWI (I2C) EEPROM | This example application shows how to use the flexcom module in TWI mode |
FLEXCOM USART blocking | This example application shows how to use the flexcom module in USART mode |
FLEXCOM USART interrupt | This example application shows how to use the flexcom module in USART mode |
FLEXCOM USART ring buffer | This example application demonstrates how to use the FLEXCOM peripheral in USART ring buffer mode |
HEFC flash read write | This example application demonstrates how to use the HEFC to erase and program the internal Flash memory |
HSDRAMC read write | This example application demonstrates how to configure the HSDRAM interface to write and read from the SDRAM memory |
MCAN FD blocking | This example shows how to use the MCAN module to transmit and receive CAN FD messages in polling mode |
MCAN FD interrupt | This example shows how to use the MCAN module to transmit and receive CAN FD messages in interrupt mode |
MCAN blocking | This example shows how to use the MCAN module to transmit and receive CAN messages in polling mode |
MPU cache coherency | This example shows how to maintain cache coherency by allocating DMA buffers in non-cacheable SRAM region defined by MPU |
PIO interrupt | This example shows how to generate GPIO interrupt on switch press and release, and indicate the switch status using the LED |
PIO polling | This example shows how to poll the switch input, and indicate the switch status using the LED |
PWM Generation | This example shows how to use the PWM peripheral to generate 3-phase PWM signals with dead time |
RTC alarm interrupt | This example shows how to use the RTC to configure the time and generate the alarm |
RTT periodic interrupt | This example shows how to use the RTT to generate periodic interrupts |
Systick periodic interrupt | This example shows how to use the SysTick to generate periodic interrupts |
TC capture mode | This example shows how to use the TC module in capture mode to measure duty cycle and frequency of an external input |
TC compare mode | This example shows how to use the TC module in compare mode to generate an active low, active high, and toggle output on compare match |
TC timer mode | This example shows how to use the TC module in timer mode to generate periodic interrupt |
TCM cache coherency | This example shows how to maintain cache coherency by allocating the DMA buffers in the Tightly Coupled Memory (TCM), which are not cacheable |
TRNG random number | This example shows how to use the TRNG Peripheral library to generate and read a random number |
XDMAC memory transfer | This example shows how to use the XDMAC peripheral to do a memory to memory transfer and illustrates the usage of burst size to reduce the transfer time |