SAM R34 Xplained Pro Evaluation Kit

Overview

The SAM R34 Xplained Pro evaluation kit is ideal for evaluation and prototyping with the SAM R34 Cortex®-M0+ processor-based microcontrollers. The kit includes Atmel’s Embedded Debugger (EDBG), which provides a full debug interface without the need for additional hardware.

The SAMR34 and SAMR35 parts are produced as a System-in-Package (SiP), including both a SAML21 die, and a Semtech SX1276 LoRa radio die.

This board is also referred to as DM320111.

Hardware

SAMR34J18 ARM Cortex-M0+ processor at 48 MHz
32.768 kHz crystal oscillator
256 KiB flash memory, 32 KiB of SRAM, 8KB Low Power SRAM
One yellow user LED
One mechanical user push button
One reset button
On-board USB based EDBG unit with serial console

Supported Features

The samr34_xpro board configuration supports the following hardware features:

Interface	Controller	Driver / Component
NVIC	on-chip	nested vector interrupt controller
Flash	on-chip	Can be used with LittleFS to store files
SYSTICK	on-chip	systick
WDT	on-chip	Watchdog
GPIO	on-chip	I/O ports
PWM	on-chip	Pulse Width Modulation
USART	on-chip	Serial ports
I2C	on-chip	I2C ports
SPI	on-chip	Serial Peripheral Interface ports
TRNG	on-chip	True Random Number Generator

The following hardware features are supported by Zephyr, but not yet fully supported by the SOC:

Interface	Controller	Driver / Component
LoRa Radio	on-chip	Internal SX1276 LoRa Radio

Other hardware features are not currently supported by Zephyr.

The default configuration can be found in the Kconfig boards/atmel/sam0/samr34_xpro/samr34_xpro_defconfig.

Pin Mapping

The SAM R34 Xplained Pro evaluation kit has 3 GPIO controllers. These controllers are responsible for pin muxing, input/output, pull-up, etc.

For more details please refer to SAM R34 Family Datasheet [1] and the SAM R34 Xplained Pro Schematic [2].

Default Zephyr Peripheral Mapping:

SERCOM0 UART TX : PA04
SERCOM0 UART RX : PA05
SERCOM1 I2C SDA : PA16
SERCOM1 I2C SCL : PA17
SERCOM4 SPI MISO : PC19
SERCOM4 SPI MOSI : PB30
SERCOM4 SPI SCK : PC18
SERCOM4 GPIO CS : PB31
SERCOM5 SPI MISO : PB02
SERCOM5 SPI MOSI : PB22
SERCOM5 SPI SCK : PB23
SERCOM5 GPIO CS0 : PA23
SERCOM5 GPIO CS1 : PA14
USB DP : PA25
USB DM : PA24
GPIO/PWM LED0 : PA19

System Clock

The SAMR34 MCU is configured to use the 32.768 kHz external oscillator with the on-chip PLL generating the 48 MHz system clock.

Serial Port

The SAMR34 MCU has six SERCOM based USARTs with one configured as USART in this BSP. SERCOM0 is the default Zephyr console.

SERCOM0 115200 8n1 - connected to the onboard Atmel Embedded Debugger (EDBG)

PWM

The SAMR34 MCU has 3 TCC based PWM units with up to 4 outputs each and a period of 24 bits or 16 bits. If CONFIG_PWM_SAM0_TCC is enabled then LED0 is driven by TCC0 instead of by GPIO.

SPI Port

The SAMR34 MCU has 6 SERCOM based SPIs, with two configured as SPI in this BSP.

SERCOM4 - connected to the internal LoRa radio
SERCOM5 - connected to EXT1 and EXT3

Programming and Debugging

The SAM R34 Xplained Pro comes with a Atmel Embedded Debugger (EDBG). This provides a debug interface to the SAMR34 chip and is supported by OpenOCD.

Flashing

Build the Zephyr kernel and the hello_world sample application:
```
west build -b samr34_xpro samples/hello_world
```
Connect the SAM R34 Xplained Pro to your host computer using the USB debug port.
Run your favorite terminal program to listen for output. Under Linux the terminal should be /dev/ttyACM0. For example:
```
$ picocom -b 115200 /dev/ttyACM0
```
- Speed: 115200
- Data: 8 bits
- Parity: None
- Stop bits: 1
To flash an image:
```
west build -b samr34_xpro samples/hello_world
west flash
```
You should see “Hello World! samr34_xpro” in your terminal.