doc/board/arduino_due.rst - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 .. _arduino_due:

 Arduino Due
 ###########

 Overview
 ********

 The arduino_due board configuration is used by Zephyr applications
 that run on the Arduino Due board. It provides support for the Atmel
 SAM3X8E ARM Cortex-M3 CPU and the following devices:

 * Nested Vectored Interrupt Controller (NVIC)

 * System Tick System Clock (SYSTICK)

 * Serial Port over USB (ATMEL_SAM3)

 More information about the board can be found at the `Arduino Due website`_.
 The `Atmel SAM3X8E Datasheet`_ has the information and the datasheet about
 the processor.

 Supported Features
 ******************

 The arduino_due board configuration supports the following
 hardware features:

 +-----------+------------+----------------------+
 | Interface | Controller | Driver/Component     |
 +===========+============+======================+
 | NVIC      | on-chip    | nested vectored      |
 |           |            | interrupt controller |
 +-----------+------------+----------------------+
 | SYSTICK   | on-chip    | system clock         |
 +-----------+------------+----------------------+
 | UART      | on-chip    | serial port          |
 +-----------+------------+----------------------+
 | GPIO      | on-chip    | gpio                 |
 +-----------+------------+----------------------+
 | I2C       | on-chip    | i2c                  |
 +-----------+------------+----------------------+

 Other hardware features are not currently supported by the Zephyr kernel.
 See `Arduino Due website`_ and `Atmel SAM3X8E Datasheet`_ for a complete
 list of Arduino Due board hardware features.

 .. note::
    For I2C, pull-up resistors are required for using SCL1 and SDA1
    (near IO13).

 Interrupt Controller
 ====================

 There are 15 fixed exceptions including exceptions 12 (debug
 monitor) and 15 (SYSTICK) that behave more as interrupts
 than exceptions. In addition, there can be a variable number
 of IRQs. Exceptions 7-10 and 13 are reserved. They don't need
 handlers.

 A Cortex-M3/4-based board uses vectored exceptions. This
 means each exception calls a handler directly from the
 vector table.

 Handlers are provided for exceptions 1-6, 11-12, and 14-15.
 The table here identifies the handlers used for each exception.

 +------+------------+----------------+-----------------------+
 | Exc# | Name       | Remarks        | Used by Zephyr Kernel |
 +======+============+================+=======================+
 | 1    | Reset      |                | system initialization |
 +------+------------+----------------+-----------------------+
 | 2    | NMI        |                | system fatal error    |
 +------+------------+----------------+-----------------------+
 | 3    | Hard fault |                | system fatal error    |
 +------+------------+----------------+-----------------------+
 | 4    | MemManage  | MPU fault      | system fatal error    |
 +------+------------+----------------+-----------------------+
 | 5    | Bus        |                | system fatal error    |
 +------+------------+----------------+-----------------------+
 | 6    | Usage      | undefined      | system fatal error    |
 |      | fault      | instruction,   |                       |
 |      |            | or switch      |                       |
 |      |            | attempt to ARM |                       |
 |      |            | mode           |                       |
 +------+------------+----------------+-----------------------+
 | 11   | SVC        |                | context switch and    |
 |      |            |                | software interrupts   |
 +------+------------+----------------+-----------------------+
 | 12   | Debug      |                | system fatal error    |
 |      | monitor    |                |                       |
 +------+------------+----------------+-----------------------+
 | 14   | PendSV     |                | context switch        |
 +------+------------+----------------+-----------------------+
 | 15   | SYSTICK    |                | system clock          |
 +------+------------+----------------+-----------------------+

 .. note::
    After a reset, all exceptions have a priority of 0. Interrupts cannot run
    at priority 0 for the interrupt locking mechanism and exception handling
    to function properly.

 System Clock
 ============

 Arduino Due has two external oscillators/resonators. The slow clock is
 32.768 kHz, and the main clock is 12 MHz. The processor can set up PLL to drive
 the master clock, which can be set as high as 84 MHz.

 Serial Port
 ===========

 The Atmel SAM3X8E processor has a single UART that is used by the SAM-BA
 bootloader. This UART has only two wires for RX/TX and does not have flow
 control (CTS/RTS) or FIFO. The RX/TX pins are connected to the ATmega16U2,
 which provides USB-to-TTL serial function. The Zephyr console output, by
 default, is utilizing this controller.

 Flashing Arduino Due for Zephyr
 ===============================

 Flashing the Zephyr kernel onto Arduino Due requires the `bossa tool`_.

 .. note::
    The Arduino specific bossa tool is required. Please checkout
    the `bossa arduino branch`_ on GitHub repository.

 The sample application hello_world is being used in this tutorial, which can
 be found in :file:`$ZEPHYR_BASE/samples/hello_world/nanokernel`.

 #. To build the Zephyr kernel, enter:

    .. code-block:: console

       $ cd $ZEPHYR_BASE
       $ make -C samples/hello_world/nanokernel BOARD=arduino_due

 #. Connect the Arduino Due to your host computer using the programming port.

 #. Press the Erase button for more than 220 ms.

 #. Press the Reset button so the board will boot into the SAM-BA bootloader.

 #. To flash the kernel onto Arduino Due, assuming the bossa tool already
    exists. Using the command line version of bossa, enter:

    .. code-block:: console

       $ bossac -p <tty_device> -e -w -v -b outdir/zephyr.bin

    Where :code:`<tty_device>` is where the Arduino Due can be found. For
    example, under Linux, :code:`<tty_device>` should be :code:`/dev/ttyACM0`.

 #. Run your favorite terminal program to listen for output. For example, under
    Linux, the terminal should be :code:`/dev/ttyACM0`.

 #. Press the Reset button and you should see "Hello World!" in your terminal.

 .. note::
    Make sure your terminal program is closed before flashing the binary image,
    or it will interfere with the flashing process.

 References
 ==========

 .. _Arduino Due website: https://www.arduino.cc/en/Main/ArduinoBoardDue

 .. _Atmel SAM3X8E Datasheet: http://www.atmel.com/devices/sam3x8e.aspx

 .. _bossa tool: https://github.com/shumatech/BOSSA

 .. _bossa arduino branch: https://github.com/shumatech/BOSSA/tree/arduino
	.. _arduino_due:

	Arduino Due
	###########

	Overview
	********

	The arduino_due board configuration is used by Zephyr applications
	that run on the Arduino Due board. It provides support for the Atmel
	SAM3X8E ARM Cortex-M3 CPU and the following devices:

	* Nested Vectored Interrupt Controller (NVIC)

	* System Tick System Clock (SYSTICK)

	* Serial Port over USB (ATMEL_SAM3)

	More information about the board can be found at the `Arduino Due website`_.
	The `Atmel SAM3X8E Datasheet`_ has the information and the datasheet about
	the processor.

	Supported Features
	******************

	The arduino_due board configuration supports the following
	hardware features:

	+-----------+------------+----------------------+
	\| Interface \| Controller \| Driver/Component \|
	+===========+============+======================+
	\| NVIC \| on-chip \| nested vectored \|
	\| \| \| interrupt controller \|
	+-----------+------------+----------------------+
	\| SYSTICK \| on-chip \| system clock \|
	+-----------+------------+----------------------+
	\| UART \| on-chip \| serial port \|
	+-----------+------------+----------------------+
	\| GPIO \| on-chip \| gpio \|
	+-----------+------------+----------------------+
	\| I2C \| on-chip \| i2c \|
	+-----------+------------+----------------------+

	Other hardware features are not currently supported by the Zephyr kernel.
	See `Arduino Due website`_ and `Atmel SAM3X8E Datasheet`_ for a complete
	list of Arduino Due board hardware features.

	.. note::
	For I2C, pull-up resistors are required for using SCL1 and SDA1
	(near IO13).

	Interrupt Controller
	====================

	There are 15 fixed exceptions including exceptions 12 (debug
	monitor) and 15 (SYSTICK) that behave more as interrupts
	than exceptions. In addition, there can be a variable number
	of IRQs. Exceptions 7-10 and 13 are reserved. They don't need
	handlers.

	A Cortex-M3/4-based board uses vectored exceptions. This
	means each exception calls a handler directly from the
	vector table.

	Handlers are provided for exceptions 1-6, 11-12, and 14-15.
	The table here identifies the handlers used for each exception.

	+------+------------+----------------+-----------------------+
	\| Exc# \| Name \| Remarks \| Used by Zephyr Kernel \|
	+======+============+================+=======================+
	\| 1 \| Reset \| \| system initialization \|
	+------+------------+----------------+-----------------------+
	\| 2 \| NMI \| \| system fatal error \|
	+------+------------+----------------+-----------------------+
	\| 3 \| Hard fault \| \| system fatal error \|
	+------+------------+----------------+-----------------------+
	\| 4 \| MemManage \| MPU fault \| system fatal error \|
	+------+------------+----------------+-----------------------+
	\| 5 \| Bus \| \| system fatal error \|
	+------+------------+----------------+-----------------------+
	\| 6 \| Usage \| undefined \| system fatal error \|
	\| \| fault \| instruction, \| \|
	\| \| \| or switch \| \|
	\| \| \| attempt to ARM \| \|
	\| \| \| mode \| \|
	+------+------------+----------------+-----------------------+
	\| 11 \| SVC \| \| context switch and \|
	\| \| \| \| software interrupts \|
	+------+------------+----------------+-----------------------+
	\| 12 \| Debug \| \| system fatal error \|
	\| \| monitor \| \| \|
	+------+------------+----------------+-----------------------+
	\| 14 \| PendSV \| \| context switch \|
	+------+------------+----------------+-----------------------+
	\| 15 \| SYSTICK \| \| system clock \|
	+------+------------+----------------+-----------------------+

	.. note::
	After a reset, all exceptions have a priority of 0. Interrupts cannot run
	at priority 0 for the interrupt locking mechanism and exception handling
	to function properly.

	System Clock
	============

	Arduino Due has two external oscillators/resonators. The slow clock is
	32.768 kHz, and the main clock is 12 MHz. The processor can set up PLL to drive
	the master clock, which can be set as high as 84 MHz.

	Serial Port
	===========

	The Atmel SAM3X8E processor has a single UART that is used by the SAM-BA
	bootloader. This UART has only two wires for RX/TX and does not have flow
	control (CTS/RTS) or FIFO. The RX/TX pins are connected to the ATmega16U2,
	which provides USB-to-TTL serial function. The Zephyr console output, by
	default, is utilizing this controller.

	Flashing Arduino Due for Zephyr
	===============================

	Flashing the Zephyr kernel onto Arduino Due requires the `bossa tool`_.

	.. note::
	The Arduino specific bossa tool is required. Please checkout
	the `bossa arduino branch`_ on GitHub repository.

	The sample application hello_world is being used in this tutorial, which can
	be found in :file:`$ZEPHYR_BASE/samples/hello_world/nanokernel`.

	#. To build the Zephyr kernel, enter:

	.. code-block:: console

	$ cd $ZEPHYR_BASE
	$ make -C samples/hello_world/nanokernel BOARD=arduino_due

	#. Connect the Arduino Due to your host computer using the programming port.

	#. Press the Erase button for more than 220 ms.

	#. Press the Reset button so the board will boot into the SAM-BA bootloader.

	#. To flash the kernel onto Arduino Due, assuming the bossa tool already
	exists. Using the command line version of bossa, enter:

	.. code-block:: console

	$ bossac -p <tty_device> -e -w -v -b outdir/zephyr.bin

	Where :code:`<tty_device>` is where the Arduino Due can be found. For
	example, under Linux, :code:`<tty_device>` should be :code:`/dev/ttyACM0`.

	#. Run your favorite terminal program to listen for output. For example, under
	Linux, the terminal should be :code:`/dev/ttyACM0`.

	#. Press the Reset button and you should see "Hello World!" in your terminal.

	.. note::
	Make sure your terminal program is closed before flashing the binary image,
	or it will interfere with the flashing process.

	References
	==========

	.. _Arduino Due website: https://www.arduino.cc/en/Main/ArduinoBoardDue

	.. _Atmel SAM3X8E Datasheet: http://www.atmel.com/devices/sam3x8e.aspx

	.. _bossa tool: https://github.com/shumatech/BOSSA

	.. _bossa arduino branch: https://github.com/shumatech/BOSSA/tree/arduino