142 lines
3.6 KiB
ReStructuredText
142 lines
3.6 KiB
ReStructuredText
.. _gd32f350r_eval:
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GigaDevice GD32F350R-EVAL
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#########################
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Overview
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********
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The GD32F350R-EVAL board is a hardware platform that enables design and debug
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of the GigaDevice F350 Cortex-M4F High Performance MCU.
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The GD32F350RBT6 features a single-core ARM Cortex-M4F MCU which can run up
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to 108-MHz with flash accesses zero wait states, 128kB of Flash, 16kB of
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SRAM and 55 GPIOs.
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.. image:: img/gd32f350r_eval.jpg
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:align: center
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:alt: gd32f350r_eval
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Hardware
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********
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- GD32F350RBT6 MCU
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- AT24C02C 2Kb EEPROM
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- 4 x User LEDs
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- 4 x User Push buttons
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- 1 x USART (RS-232 at J2 connector)
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- 1 x POT connected to an ADC input
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- Headphone interface
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- Micro SD Card Interface
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- 2.4'' TFT-LCD (36x48)
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- GD-Link on board programmer
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- J-Link/SWD connector
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For more information about the GD32F350 SoC and GD32F350R-EVAL board:
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- `GigaDevice Cortex-M4F Stretch Performance SoC Website`_
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- `GD32F350xx Datasheet`_
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- `GD32F3x0 User Manual`_
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- `GD32F350R-EVAL User Manual`_
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Supported Features
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==================
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The board configuration supports the following hardware features:
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.. list-table::
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:header-rows: 1
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* - Peripheral
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- Kconfig option
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- Devicetree compatible
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* - NVIC
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- N/A
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- :dtcompatible:`arm,v7m-nvic`
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* - SYSTICK
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- N/A
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- N/A
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* - USART
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- :kconfig:option:`CONFIG_SERIAL`
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- :dtcompatible:`gd,gd32-usart`
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* - PINMUX
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- :kconfig:option:`CONFIG_PINCTRL`
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- :dtcompatible:`gd,gd32-pinctrl-af`
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* - ADC
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- :kconfig:option:`CONFIG_ADC`
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- :dtcompatible:`gd,gd32-adc`
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Serial Port
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===========
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The GD32F350R-EVAL board has one serial communication port. The default port
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is USART0 with TX connected at PA9 and RX at PA10.
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Programming and Debugging
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*************************
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Before programming your board make sure to configure boot and serial jumpers as follows:
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- J4: Select 2-3 for both (labeled as ``L``)
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- J13: Select 1-2 position (labeled as ``USART``)
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Using GD-Link
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=============
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The GD32F350R-EVAL includes an onboard programmer/debugger (GD-Link) which
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allows flash programming and debugging over USB. There is also a SWD header
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(J3) which can be used with tools like Segger J-Link.
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#. Build the Zephyr kernel and the :ref:`hello_world` sample application:
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.. zephyr-app-commands::
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:zephyr-app: samples/hello_world
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:board: gd32f350r_eval
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:goals: build
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:compact:
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#. Run your favorite terminal program to listen for output. On Linux the
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terminal should be something like ``/dev/ttyUSB0``. For example:
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.. code-block:: console
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minicom -D /dev/ttyUSB0 -o
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The -o option tells minicom not to send the modem initialization
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string. Connection should be configured as follows:
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- Speed: 115200
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- Data: 8 bits
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- Parity: None
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- Stop bits: 1
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#. To flash an image:
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.. zephyr-app-commands::
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:zephyr-app: samples/hello_world
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:board: gd32f350r_eval
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:goals: flash
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:compact:
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You should see "Hello World! gd32f350r_eval" in your terminal.
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#. To debug an image:
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.. zephyr-app-commands::
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:zephyr-app: samples/hello_world
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:board: gd32f350r_eval
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:goals: debug
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:compact:
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.. _GigaDevice Cortex-M4F Stretch Performance SoC Website:
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https://www.gigadevice.com/products/microcontrollers/gd32/arm-cortex-m4/stretch-performance-line/
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.. _GD32F350xx Datasheet:
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http://gd32mcu.com/download/down/document_id/133/path_type/1
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.. _GD32F3x0 User Manual:
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http://gd32mcu.com/download/down/document_id/136/path_type/1
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.. _GD32F350R-EVAL User Manual:
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https://www.tme.com/Document/ff0a3609934053c07d78ef8662781da9/GD32350R-EVAL%20User%20Manual-V1.0.pdf
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