boards/xtensa/odroid_go/doc/index.rst - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 .. _odroid_go:

 ODROID-GO
 #########

 Overview
 ********

 ODROID-GO Game Kit is a "Do it yourself" ("DIY") portable game console by
 HardKernel. It features a custom ESP32-WROVER with 16 MB flash and it operates
 from 80 MHz - 240 MHz [1]_.

 The features include the following:

 - Dual core Xtensa microprocessor (LX6), running at 80 -  240MHz
 - 4 MB of PSRAM
 - 802.11b/g/n/e/i
 - Bluetooth v4.2 BR/EDR and BLE
 - 2.4 inch 320x240 TFT LCD
 - Speaker
 - Micro SD card slot
 - Micro USB port (battery charging and USB_UART data communication
 - Input Buttons (Menu, Volume, Select, Start, A, B, Direction Pad)
 - Expansion port (I2C, GPIO, SPI)
 - Cryptographic hardware acceleration (RNG, ECC, RSA, SHA-2, AES)

 .. figure:: img/odroid_go.png
         :align: center
         :alt: ODROID-GO

         ODROID-Go Game Kit

 External Connector
 ------------------

 +-------+------------------+-------------------------+
 | PIN # | Signal Name      | ESP32-WROVER Functions  |
 +=======+==================+=========================+
 | 1     | GND              | GND                     |
 +-------+------------------+-------------------------+
 | 2     | VSPI.SCK (IO18)  | GPIO18, VSPICLK         |
 +-------+------------------+-------------------------+
 | 3     | IO12             | GPIO12                  |
 +-------+------------------+-------------------------+
 | 4     | IO15             | GPIO15, ADC2_CH3        |
 +-------+------------------+-------------------------+
 | 5     | IO4              | GPIO4, ADC2_CH0         |
 +-------+------------------+-------------------------+
 | 6     | P3V3             | 3.3 V                   |
 +-------+------------------+-------------------------+
 | 7     | VSPI.MISO (IO19) | GPIO19, VSPIQ           |
 +-------+------------------+-------------------------+
 | 8     | VSPI.MOSI (IO23) | GPIO23, VSPID           |
 +-------+------------------+-------------------------+
 | 9     | N.C              | N/A                     |
 +-------+------------------+-------------------------+
 | 10    | VBUS             | USB VBUS (5V)           |
 +-------+------------------+-------------------------+

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

 The Zephyr odroid_go board configuration supports the following hardware
 features:

 +------------+------------+-------------------------------------+
 | Interface  | Controller | Driver/Component                    |
 +============+============+=====================================+
 | UART       | on-chip    | serial port                         |
 +------------+------------+-------------------------------------+
 | GPIO       | on-chip    | gpio                                |
 +------------+------------+-------------------------------------+
 | PINMUX     | on-chip    | pinmux                              |
 +------------+------------+-------------------------------------+
 | I2C        | on-chip    | i2c                                 |
 +------------+------------+-------------------------------------+

 Programming
 ***********

 Two components are required in order to build applications for this board: the
 `toolchain`_ and the `SDK`_.  Both are provided by the SoC manufacturer.

 The SDK contains headers and a hardware abstraction layer library (provided only
 as object files) that are required for the port to function.

 The toolchain is available for Linux, Windows, and macOS hosts and instructions
 to obtain and set them up are available in the `ESP-IDF repository
 <https://github.com/espressif/esp-idf>`_, as explained in the
 `ESP-IDF Programming Guide <SDK>`_.

 Set up build environment
 ------------------------

 With both the toolchain and SDK installed, the Zephyr build system must be
 instructed to use this particular variant by setting the following shell
 variables:

 .. code-block:: console

    export ZEPHYR_TOOLCHAIN_VARIANT="espressif"
    export ESPRESSIF_TOOLCHAIN_PATH="/path/to/xtensa-esp32-elf/"

 Flashing
 --------

 The usual ``flash`` target will work with the ``odroid_go`` board configuration.
 Here is an example for the :ref:`hello_world` application.

 .. zephyr-app-commands::
    :zephyr-app: samples/hello_world
    :host-os: unix
    :board: odroid_go
    :goals: build
    :gen-args: -DESP_IDF_PATH=/path/to/esp-idf/

 Refer to :ref:`build_an_application` and :ref:`application_run` for more
 details.

 All flashing options are handled by the :ref:`west` tool, including flashing
 with custom options such as a different serial port.  The ``west`` tool supports
 specific options for the ESP32 board, as listed here:

   --esp-idf-path ESP_IDF_PATH
                         path to ESP-IDF
   --esp-device ESP_DEVICE
                         serial port to flash, default /dev/ttyUSB0
   --esp-baud-rate ESP_BAUD_RATE
                         serial baud rate, default 921600
   --esp-flash-size ESP_FLASH_SIZE
                         flash size, default "detect"
   --esp-flash-freq ESP_FLASH_FREQ
                         flash frequency, default "40m"
   --esp-flash-mode ESP_FLASH_MODE
                         flash mode, default "dio"
   --esp-tool ESP_TOOL   complete path to espidf, default is to search for it in
                         [ESP_IDF_PATH]/components/esptool_py/esptool/esptool.py
   --esp-flash-bootloader ESP_FLASH_BOOTLOADER
                         Bootloader image to flash
   --esp-flash-partition_table ESP_FLASH_PARTITION_TABLE
                         Partition table to flash

 For example, to flash to ``/dev/ttyUSB0``, use the following command after
 having build the application in the ``build`` directory:

 .. code-block:: console

    west flash -d build/ --skip-rebuild --esp-tool=/path/to/esp-idf/components/esptool_py/esptool/esptool.py --esp-device /dev/ttyUSB0

 Connect ODROID-GO to your PC via the mini USB port and run your favorite
 terminal program to listen for output.

 .. code-block:: console

    minicom -D /dev/ttyUSB0 -b 115200

 Power off and then power on ODROID-GO. You should see the following message in
 your terminal:

 .. code-block:: console

    Hello World! odroid_go

 References
 **********

 .. [1] https://wiki.odroid.com/odroid_go/odroid_go
 .. _`toolchain`: https://docs.espressif.com/projects/esp-idf/en/latest/get-started/index.html#get-started-setup-toolchain
 .. _`SDK`: https://docs.espressif.com/projects/esp-idf/en/latest/get-started/index.html#get-started-get-esp-idf


 .. target-notes::
	.. _odroid_go:

	ODROID-GO
	#########

	Overview
	********

	ODROID-GO Game Kit is a "Do it yourself" ("DIY") portable game console by
	HardKernel. It features a custom ESP32-WROVER with 16 MB flash and it operates
	from 80 MHz - 240 MHz [1]_.

	The features include the following:

	- Dual core Xtensa microprocessor (LX6), running at 80 - 240MHz
	- 4 MB of PSRAM
	- 802.11b/g/n/e/i
	- Bluetooth v4.2 BR/EDR and BLE
	- 2.4 inch 320x240 TFT LCD
	- Speaker
	- Micro SD card slot
	- Micro USB port (battery charging and USB_UART data communication
	- Input Buttons (Menu, Volume, Select, Start, A, B, Direction Pad)
	- Expansion port (I2C, GPIO, SPI)
	- Cryptographic hardware acceleration (RNG, ECC, RSA, SHA-2, AES)

	.. figure:: img/odroid_go.png
	:align: center
	:alt: ODROID-GO

	ODROID-Go Game Kit

	External Connector
	------------------

	+-------+------------------+-------------------------+
	\| PIN # \| Signal Name \| ESP32-WROVER Functions \|
	+=======+==================+=========================+
	\| 1 \| GND \| GND \|
	+-------+------------------+-------------------------+
	\| 2 \| VSPI.SCK (IO18) \| GPIO18, VSPICLK \|
	+-------+------------------+-------------------------+
	\| 3 \| IO12 \| GPIO12 \|
	+-------+------------------+-------------------------+
	\| 4 \| IO15 \| GPIO15, ADC2_CH3 \|
	+-------+------------------+-------------------------+
	\| 5 \| IO4 \| GPIO4, ADC2_CH0 \|
	+-------+------------------+-------------------------+
	\| 6 \| P3V3 \| 3.3 V \|
	+-------+------------------+-------------------------+
	\| 7 \| VSPI.MISO (IO19) \| GPIO19, VSPIQ \|
	+-------+------------------+-------------------------+
	\| 8 \| VSPI.MOSI (IO23) \| GPIO23, VSPID \|
	+-------+------------------+-------------------------+
	\| 9 \| N.C \| N/A \|
	+-------+------------------+-------------------------+
	\| 10 \| VBUS \| USB VBUS (5V) \|
	+-------+------------------+-------------------------+

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

	The Zephyr odroid_go board configuration supports the following hardware
	features:

	+------------+------------+-------------------------------------+
	\| Interface \| Controller \| Driver/Component \|
	+============+============+=====================================+
	\| UART \| on-chip \| serial port \|
	+------------+------------+-------------------------------------+
	\| GPIO \| on-chip \| gpio \|
	+------------+------------+-------------------------------------+
	\| PINMUX \| on-chip \| pinmux \|
	+------------+------------+-------------------------------------+
	\| I2C \| on-chip \| i2c \|
	+------------+------------+-------------------------------------+

	Programming
	***********

	Two components are required in order to build applications for this board: the
	`toolchain`_ and the `SDK`_. Both are provided by the SoC manufacturer.

	The SDK contains headers and a hardware abstraction layer library (provided only
	as object files) that are required for the port to function.

	The toolchain is available for Linux, Windows, and macOS hosts and instructions
	to obtain and set them up are available in the `ESP-IDF repository
	<https://github.com/espressif/esp-idf>`_, as explained in the
	`ESP-IDF Programming Guide <SDK>`_.

	Set up build environment
	------------------------

	With both the toolchain and SDK installed, the Zephyr build system must be
	instructed to use this particular variant by setting the following shell
	variables:

	.. code-block:: console

	export ZEPHYR_TOOLCHAIN_VARIANT="espressif"
	export ESPRESSIF_TOOLCHAIN_PATH="/path/to/xtensa-esp32-elf/"

	Flashing
	--------

	The usual ``flash`` target will work with the ``odroid_go`` board configuration.
	Here is an example for the :ref:`hello_world` application.

	.. zephyr-app-commands::
	:zephyr-app: samples/hello_world
	:host-os: unix
	:board: odroid_go
	:goals: build
	:gen-args: -DESP_IDF_PATH=/path/to/esp-idf/

	Refer to :ref:`build_an_application` and :ref:`application_run` for more
	details.

	All flashing options are handled by the :ref:`west` tool, including flashing
	with custom options such as a different serial port. The ``west`` tool supports
	specific options for the ESP32 board, as listed here:

	--esp-idf-path ESP_IDF_PATH
	path to ESP-IDF
	--esp-device ESP_DEVICE
	serial port to flash, default /dev/ttyUSB0
	--esp-baud-rate ESP_BAUD_RATE
	serial baud rate, default 921600
	--esp-flash-size ESP_FLASH_SIZE
	flash size, default "detect"
	--esp-flash-freq ESP_FLASH_FREQ
	flash frequency, default "40m"
	--esp-flash-mode ESP_FLASH_MODE
	flash mode, default "dio"
	--esp-tool ESP_TOOL complete path to espidf, default is to search for it in
	[ESP_IDF_PATH]/components/esptool_py/esptool/esptool.py
	--esp-flash-bootloader ESP_FLASH_BOOTLOADER
	Bootloader image to flash
	--esp-flash-partition_table ESP_FLASH_PARTITION_TABLE
	Partition table to flash

	For example, to flash to ``/dev/ttyUSB0``, use the following command after
	having build the application in the ``build`` directory:

	.. code-block:: console

	west flash -d build/ --skip-rebuild --esp-tool=/path/to/esp-idf/components/esptool_py/esptool/esptool.py --esp-device /dev/ttyUSB0

	Connect ODROID-GO to your PC via the mini USB port and run your favorite
	terminal program to listen for output.

	.. code-block:: console

	minicom -D /dev/ttyUSB0 -b 115200

	Power off and then power on ODROID-GO. You should see the following message in
	your terminal:

	.. code-block:: console

	Hello World! odroid_go

	References
	**********

	.. [1] https://wiki.odroid.com/odroid_go/odroid_go
	.. _`toolchain`: https://docs.espressif.com/projects/esp-idf/en/latest/get-started/index.html#get-started-setup-toolchain
	.. _`SDK`: https://docs.espressif.com/projects/esp-idf/en/latest/get-started/index.html#get-started-get-esp-idf


	.. target-notes::