boards/st/nucleo_wba52cg/doc/nucleo_wba52cg.rst - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 .. _nucleo_wba52cg_board:

 ST Nucleo WBA52CG
 #################

 Overview
 ********

 NUCLEO-WBA52CG is a Bluetooth® Low Energy wireless and ultra-low-power board
 embedding a powerful and ultra-low-power radio compliant with the Bluetooth®
 Low Energy SIG specification v5.3.

 The ARDUINO® Uno V3 connectivity support and the ST morpho headers allow the
 easy expansion of the functionality of the STM32 Nucleo open development
 platform with a wide choice of specialized shields.

 - Ultra-low-power wireless STM32WBA52CG microcontroller based on the Arm®
   Cortex®‑M33 core, featuring 1 Mbyte of flash memory and 128 Kbytes of SRAM in
   a UFQFPN48 package

 - MCU RF board (MB1863):

   - 2.4 GHz RF transceiver supporting Bluetooth® specification v5.3
   - Arm® Cortex® M33 CPU with TrustZone®, MPU, DSP, and FPU
   - Integrated PCB antenna

 - Three user LEDs
 - Three user and one reset push-buttons

 - Board connectors:

   - USB Micro-B
   - ARDUINO® Uno V3 expansion connector
   - ST morpho headers for full access to all STM32 I/Os

 - Flexible power-supply options: ST-LINK USB VBUS or external sources
 - On-board STLINK-V3MODS debugger/programmer with USB re-enumeration capability:
   mass storage, Virtual COM port, and debug port

 .. image:: img/nucleowba52cg.jpg
    :align: center
    :alt: Nucleo WBA52CG

 More information about the board can be found at the `Nucleo WBA52CG website`_.

 Hardware
 ********

 The STM32WBA52xx multiprotocol wireless and ultralow power devices embed a
 powerful and ultralow power radio compliant with the Bluetooth® SIG Low Energy
 specification 5.3. They contain a high-performance Arm Cortex-M33 32-bit RISC
 core. They operate at a frequency of up to 100 MHz.

 - Includes ST state-of-the-art patented technology

 - Ultra low power radio:

   - 2.4 GHz radio
   - RF transceiver supporting Bluetooth® Low Energy 5.3 specification
   - Proprietary protocols
   - RX sensitivity: -96 dBm (Bluetooth® Low Energy at 1 Mbps)
   - Programmable output power, up to +10 dBm with 1 dB steps
   - Integrated balun to reduce BOM
   - Suitable for systems requiring compliance with radio frequency regulations
     ETSI EN 300 328, EN 300 440, FCC CFR47 Part 15 and ARIB STD-T66

 - Ultra low power platform with FlexPowerControl:

   - 1.71 to 3.6 V power supply
   - - 40 °C to 85 °C temperature range
   - Autonomous peripherals with DMA, functional down to Stop 1 mode
   - 140 nA Standby mode (16 wake-up pins)
   - 200 nA Standby mode with RTC
   - 2.4 µA Standby mode with 64 KB SRAM
   - 16.3 µA Stop mode with 64 KB SRAM
   - 45 µA/MHz Run mode at 3.3 V
   - Radio: Rx 7.4 mA / Tx at 0 dBm 10.6 mA

 - Core: Arm® 32-bit Cortex®-M33 CPU with TrustZone®, MPU, DSP, and FPU
 - ART Accelerator™: 8-Kbyte instruction cache allowing 0-wait-state execution
   from flash memory (frequency up to 100 MHz, 150 DMIPS)
 - Power management: embedded regulator LDO supporting voltage scaling

 - Benchmarks:

   - 1.5 DMIPS/MHz (Drystone 2.1)
   - 407 CoreMark® (4.07 CoreMark/MHz)

 - Clock sources:

   - 32 MHz crystal oscillator
   - 32 kHz crystal oscillator (LSE)
   - Internal low-power 32 kHz (±5%) RC
   - Internal 16 MHz factory trimmed RC (±1%)
   - PLL for system clock and ADC

 - Memories:

   - 1 MB flash memory with ECC, including 256 Kbytes with 100 cycles
   - 128 KB SRAM, including 64 KB with parity check
   - 512-byte (32 rows) OTP

 - Rich analog peripherals (independent supply):

   - 12-bit ADC 2.5 Msps with hardware oversampling

 - Communication peripherals:

   - Three UARTs (ISO 7816, IrDA, modem)
   - Two SPIs
   - Two I2C Fm+ (1 Mbit/s), SMBus/PMBus®

 - System peripherals:

   - Touch sensing controller, up to 20 sensors, supporting touch key, linear,
      rotary touch sensors
   - One 16-bit, advanced motor control timer
   - Three 16-bit timers
   - One 32-bit timer
   - Two low-power 16-bit timers (available in Stop mode)
   - Two Systick timers
   - Two watchdogs
   - 8-channel DMA controller, functional in Stop mode

 - Security and cryptography:

   - Arm® TrustZone® and securable I/Os, memories, and peripherals
   - Flexible life cycle scheme with RDP and password protected debug
   - Root of trust thanks to unique boot entry and secure hide protection area (HDP)
   - SFI (secure firmware installation) thanks to embedded RSS (root secure services)
   - Secure data storage with root hardware unique key (RHUK)
   - Secure firmware upgrade support with TF-M
   - Two AES co-processors, including one with DPA resistance
   - Public key accelerator, DPA resistant
   - HASH hardware accelerator
   - True random number generator, NIST SP800-90B compliant
   - 96-bit unique ID
   - Active tampers
   - CRC calculation unit

 - Up to 35 I/Os (most of them 5 V-tolerant) with interrupt capability

 - Development support:

   - Serial wire debug (SWD), JTAG

 - ECOPACK2 compliant package

 More information about STM32WB55RG can be found here:

 - `STM32WBA52CG on www.st.com`_
 - `STM32WBA52CG datasheet`_
 - `STM32WBA52CG reference manual`_

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

 The Zephyr nucleo_wba52cg board configuration supports the following hardware features:

 +-----------+------------+-------------------------------------+
 | Interface | Controller | Driver/Component                    |
 +===========+============+=====================================+
 | NVIC      | on-chip    | nested vector interrupt controller  |
 +-----------+------------+-------------------------------------+
 | UART      | on-chip    | serial port-polling;                |
 |           |            | serial port-interrupt               |
 +-----------+------------+-------------------------------------+
 | PINMUX    | on-chip    | pinmux                              |
 +-----------+------------+-------------------------------------+
 | GPIO      | on-chip    | gpio                                |
 +-----------+------------+-------------------------------------+
 | I2C       | on-chip    | i2c                                 |
 +-----------+------------+-------------------------------------+
 | SPI       | on-chip    | spi                                 |
 +-----------+------------+-------------------------------------+
 | ADC       | on-chip    | adc                                 |
 +-----------+------------+-------------------------------------+
 | WATCHDOG  | on-chip    | independent watchdog                |
 +-----------+------------+-------------------------------------+
 | RNG       | on-chip    | True Random number generator        |
 +-----------+------------+-------------------------------------+

 Other hardware features are not yet supported on this Zephyr port.

 The default configuration can be found in the defconfig file:
 :zephyr_file:`boards/st/nucleo_wba52cg/nucleo_wba52cg_defconfig`

 Connections and IOs
 ===================

 Nucleo WBA52CG Board has 4 GPIO controllers. These controllers are responsible for pin muxing,
 input/output, pull-up, etc.

 Default Zephyr Peripheral Mapping:
 ----------------------------------

 .. rst-class:: rst-columns

 - USART_1 TX/RX : PB12/PA8
 - I2C_1_SCL : PB2
 - I2C_1_SDA : PB1
 - USER_PB : PC13
 - LD1 : PB4
 - SPI_1_NSS : PA12 (arduino_spi)
 - SPI_1_SCK : PB4 (arduino_spi)
 - SPI_1_MISO : PB3 (arduino_spi)
 - SPI_1_MOSI : PA15 (arduino_spi)

 System Clock
 ------------

 Nucleo WBA52CG System Clock could be driven by internal or external oscillator,
 as well as main PLL clock. By default System clock is driven by HSE+PLL clock at 100MHz.

 Serial Port
 -----------

 Nucleo WBA52CG board has 1 U(S)ARTs. The Zephyr console output is assigned to USART1.
 Default settings are 115200 8N1.


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

 Nucleo WBA52CG board includes an ST-LINK/V3 embedded debug tool interface.
 It could be used for flash and debug using either OpenOCD or STM32Cube ecosystem tools.

 Flashing
 ========

 STM32CubeProgrammer is configured as flashing tool by default.
 If available, OpenOCD could be used. Same process applies with both tools.

 Flashing an application to Nucleo WBA52CG
 -----------------------------------------

 Here is an example for the :zephyr:code-sample:`blinky` application.

 .. zephyr-app-commands::
    :zephyr-app: samples/basic/blinky
    :board: nucleo_wba52cg
    :goals: build flash

 You will see the LED blinking every second.

 Debugging
 =========

 Debugging using OpenOCD
 -----------------------

 You can debug an application in the usual way using OpenOCD. Here is an example for the
 :zephyr:code-sample:`blinky` application.

 .. zephyr-app-commands::
    :zephyr-app: samples/basic/blinky
    :board: nucleo_wba52cg
    :maybe-skip-config:
    :goals: debug

 Debugging using STM32CubeIDE
 ----------------------------

 You can debug an application using a STM32WBA compatible version of STM32CubeIDE.
 For that:
 - Create an empty STM32WBA project by going to File > New > STM32 project
 - Select your MCU, click Next, and select an Empty project.
 - Right click on your project name, select Debug as > Debug configurations
 - In the new window, create a new target in STM32 Cortex-M C/C++ Application
 - Select the new target and enter the path to zephyr.elf file in the C/C++ Application field
 - Check Disable auto build
 - Run debug

 .. _Nucleo WBA52CG website:
    https://www.st.com/en/evaluation-tools/nucleo-wba52cg.html

 .. _STM32WBA52CG on www.st.com:
    https://www.st.com/en/microcontrollers-microprocessors/stm32wba52cg.html

 .. _STM32WBA52CG datasheet:
    https://www.st.com/resource/en/datasheet/stm32wba52cg.pdf

 .. _STM32WBA52CG reference manual:
    https://www.st.com/resource/en/reference_manual/rm0493-multiprotocol-wireless-bluetooth-lowenergy-armbased-32bit-mcu-stmicroelectronics.pdf

 .. _OpenOCD official Github mirror:
    https://github.com/openocd-org/openocd/commit/870769b0ba9f4dae6ada9d8b1a40d75bd83aaa06
	.. _nucleo_wba52cg_board:

	ST Nucleo WBA52CG
	#################

	Overview
	********

	NUCLEO-WBA52CG is a Bluetooth® Low Energy wireless and ultra-low-power board
	embedding a powerful and ultra-low-power radio compliant with the Bluetooth®
	Low Energy SIG specification v5.3.

	The ARDUINO® Uno V3 connectivity support and the ST morpho headers allow the
	easy expansion of the functionality of the STM32 Nucleo open development
	platform with a wide choice of specialized shields.

	- Ultra-low-power wireless STM32WBA52CG microcontroller based on the Arm®
	Cortex®‑M33 core, featuring 1 Mbyte of flash memory and 128 Kbytes of SRAM in
	a UFQFPN48 package

	- MCU RF board (MB1863):

	- 2.4 GHz RF transceiver supporting Bluetooth® specification v5.3
	- Arm® Cortex® M33 CPU with TrustZone®, MPU, DSP, and FPU
	- Integrated PCB antenna

	- Three user LEDs
	- Three user and one reset push-buttons

	- Board connectors:

	- USB Micro-B
	- ARDUINO® Uno V3 expansion connector
	- ST morpho headers for full access to all STM32 I/Os

	- Flexible power-supply options: ST-LINK USB VBUS or external sources
	- On-board STLINK-V3MODS debugger/programmer with USB re-enumeration capability:
	mass storage, Virtual COM port, and debug port

	.. image:: img/nucleowba52cg.jpg
	:align: center
	:alt: Nucleo WBA52CG

	More information about the board can be found at the `Nucleo WBA52CG website`_.

	Hardware
	********

	The STM32WBA52xx multiprotocol wireless and ultralow power devices embed a
	powerful and ultralow power radio compliant with the Bluetooth® SIG Low Energy
	specification 5.3. They contain a high-performance Arm Cortex-M33 32-bit RISC
	core. They operate at a frequency of up to 100 MHz.

	- Includes ST state-of-the-art patented technology

	- Ultra low power radio:

	- 2.4 GHz radio
	- RF transceiver supporting Bluetooth® Low Energy 5.3 specification
	- Proprietary protocols
	- RX sensitivity: -96 dBm (Bluetooth® Low Energy at 1 Mbps)
	- Programmable output power, up to +10 dBm with 1 dB steps
	- Integrated balun to reduce BOM
	- Suitable for systems requiring compliance with radio frequency regulations
	ETSI EN 300 328, EN 300 440, FCC CFR47 Part 15 and ARIB STD-T66

	- Ultra low power platform with FlexPowerControl:

	- 1.71 to 3.6 V power supply
	- - 40 °C to 85 °C temperature range
	- Autonomous peripherals with DMA, functional down to Stop 1 mode
	- 140 nA Standby mode (16 wake-up pins)
	- 200 nA Standby mode with RTC
	- 2.4 µA Standby mode with 64 KB SRAM
	- 16.3 µA Stop mode with 64 KB SRAM
	- 45 µA/MHz Run mode at 3.3 V
	- Radio: Rx 7.4 mA / Tx at 0 dBm 10.6 mA

	- Core: Arm® 32-bit Cortex®-M33 CPU with TrustZone®, MPU, DSP, and FPU
	- ART Accelerator™: 8-Kbyte instruction cache allowing 0-wait-state execution
	from flash memory (frequency up to 100 MHz, 150 DMIPS)
	- Power management: embedded regulator LDO supporting voltage scaling

	- Benchmarks:

	- 1.5 DMIPS/MHz (Drystone 2.1)
	- 407 CoreMark® (4.07 CoreMark/MHz)

	- Clock sources:

	- 32 MHz crystal oscillator
	- 32 kHz crystal oscillator (LSE)
	- Internal low-power 32 kHz (±5%) RC
	- Internal 16 MHz factory trimmed RC (±1%)
	- PLL for system clock and ADC

	- Memories:

	- 1 MB flash memory with ECC, including 256 Kbytes with 100 cycles
	- 128 KB SRAM, including 64 KB with parity check
	- 512-byte (32 rows) OTP

	- Rich analog peripherals (independent supply):

	- 12-bit ADC 2.5 Msps with hardware oversampling

	- Communication peripherals:

	- Three UARTs (ISO 7816, IrDA, modem)
	- Two SPIs
	- Two I2C Fm+ (1 Mbit/s), SMBus/PMBus®

	- System peripherals:

	- Touch sensing controller, up to 20 sensors, supporting touch key, linear,
	rotary touch sensors
	- One 16-bit, advanced motor control timer
	- Three 16-bit timers
	- One 32-bit timer
	- Two low-power 16-bit timers (available in Stop mode)
	- Two Systick timers
	- Two watchdogs
	- 8-channel DMA controller, functional in Stop mode

	- Security and cryptography:

	- Arm® TrustZone® and securable I/Os, memories, and peripherals
	- Flexible life cycle scheme with RDP and password protected debug
	- Root of trust thanks to unique boot entry and secure hide protection area (HDP)
	- SFI (secure firmware installation) thanks to embedded RSS (root secure services)
	- Secure data storage with root hardware unique key (RHUK)
	- Secure firmware upgrade support with TF-M
	- Two AES co-processors, including one with DPA resistance
	- Public key accelerator, DPA resistant
	- HASH hardware accelerator
	- True random number generator, NIST SP800-90B compliant
	- 96-bit unique ID
	- Active tampers
	- CRC calculation unit

	- Up to 35 I/Os (most of them 5 V-tolerant) with interrupt capability

	- Development support:

	- Serial wire debug (SWD), JTAG

	- ECOPACK2 compliant package

	More information about STM32WB55RG can be found here:

	- `STM32WBA52CG on www.st.com`_
	- `STM32WBA52CG datasheet`_
	- `STM32WBA52CG reference manual`_

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

	The Zephyr nucleo_wba52cg board configuration supports the following hardware features:

	+-----------+------------+-------------------------------------+
	\| Interface \| Controller \| Driver/Component \|
	+===========+============+=====================================+
	\| NVIC \| on-chip \| nested vector interrupt controller \|
	+-----------+------------+-------------------------------------+
	\| UART \| on-chip \| serial port-polling; \|
	\| \| \| serial port-interrupt \|
	+-----------+------------+-------------------------------------+
	\| PINMUX \| on-chip \| pinmux \|
	+-----------+------------+-------------------------------------+
	\| GPIO \| on-chip \| gpio \|
	+-----------+------------+-------------------------------------+
	\| I2C \| on-chip \| i2c \|
	+-----------+------------+-------------------------------------+
	\| SPI \| on-chip \| spi \|
	+-----------+------------+-------------------------------------+
	\| ADC \| on-chip \| adc \|
	+-----------+------------+-------------------------------------+
	\| WATCHDOG \| on-chip \| independent watchdog \|
	+-----------+------------+-------------------------------------+
	\| RNG \| on-chip \| True Random number generator \|
	+-----------+------------+-------------------------------------+

	Other hardware features are not yet supported on this Zephyr port.

	The default configuration can be found in the defconfig file:
	:zephyr_file:`boards/st/nucleo_wba52cg/nucleo_wba52cg_defconfig`

	Connections and IOs
	===================

	Nucleo WBA52CG Board has 4 GPIO controllers. These controllers are responsible for pin muxing,
	input/output, pull-up, etc.

	Default Zephyr Peripheral Mapping:
	----------------------------------

	.. rst-class:: rst-columns

	- USART_1 TX/RX : PB12/PA8
	- I2C_1_SCL : PB2
	- I2C_1_SDA : PB1
	- USER_PB : PC13
	- LD1 : PB4
	- SPI_1_NSS : PA12 (arduino_spi)
	- SPI_1_SCK : PB4 (arduino_spi)
	- SPI_1_MISO : PB3 (arduino_spi)
	- SPI_1_MOSI : PA15 (arduino_spi)

	System Clock
	------------

	Nucleo WBA52CG System Clock could be driven by internal or external oscillator,
	as well as main PLL clock. By default System clock is driven by HSE+PLL clock at 100MHz.

	Serial Port
	-----------

	Nucleo WBA52CG board has 1 U(S)ARTs. The Zephyr console output is assigned to USART1.
	Default settings are 115200 8N1.


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

	Nucleo WBA52CG board includes an ST-LINK/V3 embedded debug tool interface.
	It could be used for flash and debug using either OpenOCD or STM32Cube ecosystem tools.

	Flashing
	========

	STM32CubeProgrammer is configured as flashing tool by default.
	If available, OpenOCD could be used. Same process applies with both tools.

	Flashing an application to Nucleo WBA52CG
	-----------------------------------------

	Here is an example for the :zephyr:code-sample:`blinky` application.

	.. zephyr-app-commands::
	:zephyr-app: samples/basic/blinky
	:board: nucleo_wba52cg
	:goals: build flash

	You will see the LED blinking every second.

	Debugging
	=========

	Debugging using OpenOCD
	-----------------------

	You can debug an application in the usual way using OpenOCD. Here is an example for the
	:zephyr:code-sample:`blinky` application.

	.. zephyr-app-commands::
	:zephyr-app: samples/basic/blinky
	:board: nucleo_wba52cg
	:maybe-skip-config:
	:goals: debug

	Debugging using STM32CubeIDE
	----------------------------

	You can debug an application using a STM32WBA compatible version of STM32CubeIDE.
	For that:
	- Create an empty STM32WBA project by going to File > New > STM32 project
	- Select your MCU, click Next, and select an Empty project.
	- Right click on your project name, select Debug as > Debug configurations
	- In the new window, create a new target in STM32 Cortex-M C/C++ Application
	- Select the new target and enter the path to zephyr.elf file in the C/C++ Application field
	- Check Disable auto build
	- Run debug

	.. _Nucleo WBA52CG website:
	https://www.st.com/en/evaluation-tools/nucleo-wba52cg.html

	.. _STM32WBA52CG on www.st.com:
	https://www.st.com/en/microcontrollers-microprocessors/stm32wba52cg.html

	.. _STM32WBA52CG datasheet:
	https://www.st.com/resource/en/datasheet/stm32wba52cg.pdf

	.. _STM32WBA52CG reference manual:
	https://www.st.com/resource/en/reference_manual/rm0493-multiprotocol-wireless-bluetooth-lowenergy-armbased-32bit-mcu-stmicroelectronics.pdf

	.. _OpenOCD official Github mirror:
	https://github.com/openocd-org/openocd/commit/870769b0ba9f4dae6ada9d8b1a40d75bd83aaa06