.. _96b_carbon_nrf51_board: 96Boards Carbon nRF51 ##################### Overview ******** This is the secondary nRF51822 chip on the 96Boards Carbon and provides Bluetooth functionality to the main STM32F401RET chip via SPI. .. note:: If you're looking to reprogram the main STMicro part, see :ref:`96b_carbon_board`. Users should not use this configuration unless they want to reprogram the secondary chip which provides Bluetooth connectivity. Hardware ******** The 96Boards Carbon nRF51 has two external oscillators. The frequency of the slow clock is 32.768 kHz. The frequency of the main clock is 16 MHz. See :ref:`96b_carbon_board` for other general information about the board; that configuration is for the same physical board, just a different chip. Supported Features ================== +-----------+------------+-------------------------------------+ | Interface | Controller | Driver/Component | +===========+============+=====================================+ | NVIC | on-chip | nested vector interrupt controller | +-----------+------------+-------------------------------------+ | RTC | on-chip | system clock | +-----------+------------+-------------------------------------+ | UART | on-chip | serial port | +-----------+------------+-------------------------------------+ | GPIO | on-chip | gpio | +-----------+------------+-------------------------------------+ | FLASH | on-chip | flash | +-----------+------------+-------------------------------------+ | SPIS | on-chip | SPI slave | +-----------+------------+-------------------------------------+ | RADIO | on-chip | Bluetooth | +-----------+------------+-------------------------------------+ The default configuration can be found in the defconfig file: ``boards/arm/96b_carbon_nrf51/96b_carbon_nrf51_defconfig`` Connections and IOs =================== SPI --- 96Boards Carbon nRF51 has one SPI, which for providing Bluetooth communication. The default SPI mapping for Zephyr is: - SPI1_NSS : P0.25 - SPI1_SCK : P0.07 - SPI1_MISO : P0.30 - SPI1_MOSI : P0.00 The SWD debug pins are broken out to an external header; all other connected pins are to the main STM32F401RET chip. .. _96b_carbon_nrf51_programming: Programming and Debugging ************************* Flashing ======== The 96Boards Carbon nRF51 can be flashed using an external SWD debugger, via the debug header labeled "BLE" on the board's silkscreen. The header is not populated; 0.1" male header must be soldered on first. .. figure:: img/96b_carbon_nrf51.jpg :align: center :alt: 96Boards Carbon nRF51 Debug 96Boards Carbon nRF51 Debug The following example assumes a Zephyr binary ``zephyr.elf`` will be flashed to the board. It uses the `Black Magic Debug Probe`_ as an SWD programmer, which can be connected to the BLE debug header using flying leads and its 20 Pin JTAG Adapter Board Kit. When plugged into your host PC, the Black Magic Debug Probe enumerates as a USB serial device as documented on its `Getting started page`_. It also uses the GDB binary provided with the Zephyr SDK, ``arm-zephyr-eabi-gdb``. Other GDB binaries, such as the GDB from GCC ARM Embedded, can be used as well. .. code-block:: console $ arm-zephyr-eabi-gdb -q zephyr.elf (gdb) target extended-remote /dev/ttyACM0 Remote debugging using /dev/ttyACM0 (gdb) monitor swdp_scan Target voltage: 3.3V Available Targets: No. Att Driver 1 nRF51 (gdb) attach 1 Attaching to Remote target 0xabcdef12 in ?? () (gdb) load Debugging ========= After you've flashed the chip, you can keep debugging using the same GDB instance. To reattach, just follow the same steps above, but don't run "load". You can then debug as usual with GDB. In particular, type "run" at the GDB prompt to restart the program you've flashed. As an aid to debugging, this board configuration directs a console output to a currently unused pin connected to the STM32F401RET. Users who are experienced in electronics rework can remove a resistor (R22) on the board and attach a wire to the nRF51822's UART output. .. _96b_carbon_nrf51_bluetooth: Providing Bluetooth to 96b_carbon ********************************* This 96b_carbon_nrf51 Zephyr configuration can be used to provide Bluetooth functionality from the secondary nRF51822 chip to the primary STM32F401RE chip on the :ref:`96b_carbon_board`. To do this, build the ``samples/bluetooth/hci_spi/`` application provided with Zephyr with ``BOARD=96b_carbon_nrf51``, then flash it to the nRF51822 chip using the instructions :ref:`above <96b_carbon_nrf51_programming>`. (For instructions on how to build a Zephyr application, see :ref:`build_an_application`.) .. warning:: Be sure to flash the hci_spi application to the nRF51822 chip and not to the main STM32F401RET chip. While both chips are supported by Zephyr, the hci_spi application providing Bluetooth support will only run on the nRF51822 chip. References ********** - `Board documentation from 96Boards`_ - `nRF51822 information from Nordic Semiconductor`_ .. _Black Magic Debug Probe: https://github.com/blacksphere/blackmagic/wiki .. _Getting started page: https://github.com/blacksphere/blackmagic/wiki/Getting-Started .. _Board documentation from 96Boards: http://www.96boards.org/product/carbon/ .. _nRF51822 information from Nordic Semiconductor: https://www.nordicsemi.com/eng/Products/Bluetooth-low-energy/nRF51822