Harmony 3 peripheral library application examples for SAM D21/DA1 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 D21/DA1 family
To clone or download these applications from Github, go to the main page of this repository and then click Clone button to clone this repository or download as zip file. This content can also be downloaded using content manager by following these instructions.
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 |
---|---|
AC Sleepwalking | This example application shows how to use the AC Peripheral library to perform a single shot comparison in standby sleep mode periodically and wake up the device at the end of a successful comparison |
AC PWM generation | This example application shows how to use the Analog Comparator Peripheral library to generate a 1KHz PWM waveform |
ADC DMA sleepwalking | This application shows how to configure the ADC in a sleepwalking operation, where the input voltage is measured at a fixed interval, and then the device is woken from sleep after conversion of 16 samples |
ADC Sample | This example application shows how to sample an analog input using the ADC and displays the converted samples on a serial terminal |
ADC window sleepwalking | This application shows how to configure ADC in a sleepwalking operation, where input voltage is measured at a fixed interval, but device is not woken from sleep until the measured value is below a given threshold |
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 |
DAC waveform generation | This example application shows how to use the DAC to generate a 1 KHz Sine or Sawtooth wave with a lookup table |
DAC waveform generation with DMA | This example application shows how to use the DAC with the DMA to generate a 5 KHz sinusoidal waveform without CPU intervention |
DMAC CRC-32 Generation | This example application demonstrates how to use the DMAC peripheral to compute 32-bit Cyclic Redundancy Checksum (CRC) |
DMAC memory transfer | This example application demonstrates how to use the DMAC peripheral to do a memory to memory transfer |
DMAC USART echo | This example application demonstrates USART transfer with DMA to receive 10 bytes and echo back the received bytes |
DSU compute CRC32 | This example application demonstrates how to use the DSU Peripheral library to compute 32-bit Cyclic Redundancy Checksum (CRC) |
EIC Interrupt | This example application demonstrates how to generate interrupt using the EIC on switch press and indicate it through an LED |
NVMCTRL read write | This example application demonstrates how to use the NVMCTRL to erase and program the internal Flash memory |
PM reset cause | This example shows how to use the PM peripheral to indicate the cause of the device reset |
PM wakeup using EIC | This application demonstrates entering the low power modes and exiting it using the EIC |
PM wakeup using RTC | This example demonstrates entering the low power modes and exiting it using the RTC |
PORT polling | This example application demonstrate how to poll the switch input, and indicate the switch status using the LED |
RTC alarm interrupt | This example shows how to use the RTC to configure the time and generate the alarm |
RTC periodic interrupt | This example application shows how to use the RTC to generate periodic interrupts |
SERCOM I2C EEPROM read write | This example application demonstrates how to use the SERCOM peripheral to write and read from the I2C serial EEPROM memory |
SERCOM I2C EEPROM emulation (I2C slave) | This example application demonstrates how to use the SERCOM peripheral in slave mode |
SERCOM SPI EEPROM read write | This example application demonstrates how to use the SERCOM SPI peripheral to write and read from the SPI serial EEPROM memory |
SERCOM SPI ping pong with DMA | This example demonstrates how to continuously transmit and receive data over a SPI interface using ping pong buffers with DMA |
SERCOM SPI blocking | This example application demonstrates how to use the SERCOM SPI peripheral to transmit and receive a block of data in a blocking manner |
SERCOM SPI interrupt | This example application shows how to use SERCOM SPI PLIB with external loop back to write and then read back an array of data in interrupt mode |
SERCOM SPI Master read write test application | This is a SPI Master test application which is provided to demonstrate communication between SPI master and the corresponding SPI slave application available under - apps/sercom/spi/slave/spi_write_read/firmware |
SERCOM SPI Slave read write | This example application demonstrates how to use the SERCOM SPI peripheral in slave mode |
SERCOM USART blocking | This example application demonstrates how to use the SERCOM peripheral in USART mode to transfer block of data in a blocking manner |
SERCOM USART interrupt | This example application demonstrates how to use the SERCOM peripheral in USART mode to transfer data in a non-blocking manner |
SERCOM USART ring buffer | This example application demonstrates how to use the SERCOM peripheral in USART ring buffer mode to transfer data in a non-blocking manner |
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 |
TCC PWM generation | This example application shows how to use the TCC to generate a 2 or 3 phase PWM signals for motor control with dead time |
WDT timeout | This example shows how to generate a Watchdog timer reset by emulating a deadlock |