boards/arm/gd32f450v_start/doc/index.rst - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 .. _gd32f450v_start:

 GigaDevice GD32F450V-START
 ##########################

 Overview
 ********

 The GD32F450V-START board is a hardware platform that enables prototyping
 on GD32F450VK Cortex-M4F Stretch Performance MCU.

 The GD32F450VK features a single-core ARM Cortex-M4F MCU which can run up
 to 200 MHz with flash accesses zero wait states, 3072kiB of Flash, 256kiB of
 SRAM and 82 GPIOs.

 .. image:: img/gd32f450v_start.jpg
      :align: center
      :alt: gd32f450v_start

 Hardware
 ********

 - GD32F450VKT6 MCU
 - 1 x User LEDs
 - 1 x User Push buttons
 - USB FS/HS connectors
 - GD-Link on board programmer
 - J-Link/SWD connector

 For more information about the GD32F450 SoC and GD32F450V-START board:

 - `GigaDevice Cortex-M4F Stretch Performance SoC Website`_
 - `GD32F450X Datasheet`_
 - `GD32F4XX User Manual`_
 - `GD32F450V-START User Manual`_

 Supported Features
 ==================

 The board configuration supports the following hardware features:

 .. list-table::
    :header-rows: 1

    * - Peripheral
      - Kconfig option
      - Devicetree compatible
    * - EXTI
      - :kconfig:option:`CONFIG_GD32_EXTI`
      - :dtcompatible:`gd,gd32-exti`
    * - GPIO
      - :kconfig:option:`CONFIG_GPIO`
      - :dtcompatible:`gd,gd32-gpio`
    * - NVIC
      - N/A
      - :dtcompatible:`arm,v8m-nvic`
    * - PWM
      - :kconfig:option:`CONFIG_PWM`
      - :dtcompatible:`gd,gd32-pwm`
    * - SYSTICK
      - N/A
      - N/A
    * - USART
      - :kconfig:option:`CONFIG_SERIAL`
      - :dtcompatible:`gd,gd32-usart`

 Other peripherals may be used if shields are connected to the board.

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

 The GD32F450V-START board has no exposed serial communication port. The board
 provides default configuration for USART0 with TX connected at PB6 and RX at
 PB7. PB6/PB7 are exposed in JP6, so you can solder a connector and use a
 UART-USB adapter.

 Programming and Debugging
 *************************

 Before programming your board make sure to configure boot jumpers as
 follows:

 - JP2/3: Select 2-3 for both (boot from user memory)

 Using GD-Link
 =============

 The GD32F450V-START includes an onboard programmer/debugger (GD-Link) which
 allows flash programming and debugging over USB. There is also a SWD header
 (JP100) which can be used with tools like Segger J-Link.

 #. Build the Zephyr kernel and the :ref:`hello_world` sample application:

    .. zephyr-app-commands::
       :zephyr-app: samples/hello_world
       :board: gd32f450v_start
       :goals: build
       :compact:

 #. Run your favorite terminal program to listen for output. On Linux the
    terminal should be something like ``/dev/ttyUSB0``. For example:

    .. code-block:: console

       minicom -D /dev/ttyUSB0 -o

    The -o option tells minicom not to send the modem initialization
    string. Connection should be configured as follows:

       - Speed: 115200
       - Data: 8 bits
       - Parity: None
       - Stop bits: 1

 #. To flash an image:

    .. zephyr-app-commands::
       :zephyr-app: samples/hello_world
       :board: gd32f450v_start
       :goals: flash
       :compact:

    You should see "Hello World! gd32f450v_start" in your terminal.

 #. To debug an image:

    .. zephyr-app-commands::
       :zephyr-app: samples/hello_world
       :board: gd32f450v_start
       :goals: debug
       :compact:

 .. _GigaDevice Cortex-M4F Stretch Performance SoC Website:
    https://www.gigadevice.com/products/microcontrollers/gd32/arm-cortex-m4/stretch-performance-line/

 .. _GD32F450X Datasheet:
    https://gd32mcu.com/data/documents/datasheet/GD32F450xx_Datasheet_Rev2.3.pdf

 .. _GD32F4xx User Manual:
    https://www.gigadevice.com/manual/gd32f450xxxx-user-manual/

 .. _GD32F450V-START User Manual:
    https://gd32mcu.com/data/documents/evaluationBoard/GD32F4xx_Demo_Suites_V2.6.1.rar
	.. _gd32f450v_start:

	GigaDevice GD32F450V-START
	##########################

	Overview
	********

	The GD32F450V-START board is a hardware platform that enables prototyping
	on GD32F450VK Cortex-M4F Stretch Performance MCU.

	The GD32F450VK features a single-core ARM Cortex-M4F MCU which can run up
	to 200 MHz with flash accesses zero wait states, 3072kiB of Flash, 256kiB of
	SRAM and 82 GPIOs.

	.. image:: img/gd32f450v_start.jpg
	:align: center
	:alt: gd32f450v_start

	Hardware
	********

	- GD32F450VKT6 MCU
	- 1 x User LEDs
	- 1 x User Push buttons
	- USB FS/HS connectors
	- GD-Link on board programmer
	- J-Link/SWD connector

	For more information about the GD32F450 SoC and GD32F450V-START board:

	- `GigaDevice Cortex-M4F Stretch Performance SoC Website`_
	- `GD32F450X Datasheet`_
	- `GD32F4XX User Manual`_
	- `GD32F450V-START User Manual`_

	Supported Features
	==================

	The board configuration supports the following hardware features:

	.. list-table::
	:header-rows: 1

	* - Peripheral
	- Kconfig option
	- Devicetree compatible
	* - EXTI
	- :kconfig:option:`CONFIG_GD32_EXTI`
	- :dtcompatible:`gd,gd32-exti`
	* - GPIO
	- :kconfig:option:`CONFIG_GPIO`
	- :dtcompatible:`gd,gd32-gpio`
	* - NVIC
	- N/A
	- :dtcompatible:`arm,v8m-nvic`
	* - PWM
	- :kconfig:option:`CONFIG_PWM`
	- :dtcompatible:`gd,gd32-pwm`
	* - SYSTICK
	- N/A
	- N/A
	* - USART
	- :kconfig:option:`CONFIG_SERIAL`
	- :dtcompatible:`gd,gd32-usart`

	Other peripherals may be used if shields are connected to the board.

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

	The GD32F450V-START board has no exposed serial communication port. The board
	provides default configuration for USART0 with TX connected at PB6 and RX at
	PB7. PB6/PB7 are exposed in JP6, so you can solder a connector and use a
	UART-USB adapter.

	Programming and Debugging
	*************************

	Before programming your board make sure to configure boot jumpers as
	follows:

	- JP2/3: Select 2-3 for both (boot from user memory)

	Using GD-Link
	=============

	The GD32F450V-START includes an onboard programmer/debugger (GD-Link) which
	allows flash programming and debugging over USB. There is also a SWD header
	(JP100) which can be used with tools like Segger J-Link.

	#. Build the Zephyr kernel and the :ref:`hello_world` sample application:

	.. zephyr-app-commands::
	:zephyr-app: samples/hello_world
	:board: gd32f450v_start
	:goals: build
	:compact:

	#. Run your favorite terminal program to listen for output. On Linux the
	terminal should be something like ``/dev/ttyUSB0``. For example:

	.. code-block:: console

	minicom -D /dev/ttyUSB0 -o

	The -o option tells minicom not to send the modem initialization
	string. Connection should be configured as follows:

	- Speed: 115200
	- Data: 8 bits
	- Parity: None
	- Stop bits: 1

	#. To flash an image:

	.. zephyr-app-commands::
	:zephyr-app: samples/hello_world
	:board: gd32f450v_start
	:goals: flash
	:compact:

	You should see "Hello World! gd32f450v_start" in your terminal.

	#. To debug an image:

	.. zephyr-app-commands::
	:zephyr-app: samples/hello_world
	:board: gd32f450v_start
	:goals: debug
	:compact:

	.. _GigaDevice Cortex-M4F Stretch Performance SoC Website:
	https://www.gigadevice.com/products/microcontrollers/gd32/arm-cortex-m4/stretch-performance-line/

	.. _GD32F450X Datasheet:
	https://gd32mcu.com/data/documents/datasheet/GD32F450xx_Datasheet_Rev2.3.pdf

	.. _GD32F4xx User Manual:
	https://www.gigadevice.com/manual/gd32f450xxxx-user-manual/

	.. _GD32F450V-START User Manual:
	https://gd32mcu.com/data/documents/evaluationBoard/GD32F4xx_Demo_Suites_V2.6.1.rar