608 lines
22 KiB
Plaintext
608 lines
22 KiB
Plaintext
README
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======
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This README discusses issues unique to NuttX configurations for the STMicro
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Nucleo-144 board. See ST document STM32 Nucleo-144 boards (UM1974):
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https://www.st.com/resource/en/user_manual/dm00244518.pdf
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Contents
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========
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- Nucleo-144 Boards
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- Nucleo F722ZE
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- Nucleo F746ZG
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- Nucleo F767ZI
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- Development Environment
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- IDEs
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- Basic configuration & build steps
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- Hardware
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- Button
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- LED
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- U[S]ARTs and Serial Consoles
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- SPI
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- SDIO - MMC
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- SPI Test
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- Configurations
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f7xx-nsh
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f7xx-evalos
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Nucleo-144 Boards:
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=================
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The Nucleo-144 is a standard board for use with several STM32 parts in the
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LQFP144 package. Variants include
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STM32 Part Board Variant Name
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------------- ------------------
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STM32F207ZGT6 NUCLEO-F207ZG
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STM32F303ZET6 NUCLEO-F303ZE
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STM32F429ZIT6 NUCLEO-F429ZI
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STM32F446ZET6 NUCLEO-F446ZE
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STM32F722ZET6 NUCLEO-F722ZE
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STM32F746ZGT6 NUCLEO-F746ZG
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STM32F756ZGT6 NUCLEO-F756ZG
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STM32F767ZIT6 NUCLEO-F767ZI
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STM32L496ZGT6 NUCLEO-L496ZG
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STM32L496ZGT6P NUCLEO-L496ZG-P
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STM32L4A6ZGT6 NUCLEO-L4A6ZG
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STM32L4R5ZIT6 NUCLEO-L4R5ZI
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STM32L4R5ZIT6P NUCLEO-L4R5ZI-P
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------------- ------------------
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This directory is intended to support all STM32F7 Nucleo-144 variants since
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the boards are identical, differing only in the installed part. This common
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board design provides uniformity in the documentation from ST and should
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allow us to quickly change configurations by just cloning a configuration
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and changing the CPU choice and board initialization. Unfortunately for
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the developer, the CPU specific information must be extracted from the
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common information in the documentation.
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The NUCLEO-L496ZG and NUCLEO-L496ZG-P boards are not supported by this
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directory, but by boards/arm/stm32l4/nucleo-l496zg. Any other STM32L4
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Nucleo-144 boards are also not supported by this directory.
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Please read the User Manual UM1727: Getting started with STM32 Nucleo board
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software development tools and take note of the Powering options for the
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board (6.3 Power supply and power selection) and the Solder bridges based
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hardware configuration changes that are configurable (6.11 Solder bridges).
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Common Board Features:
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---------------------
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Peripherals: 8 leds, 2 push button (3 LEDs, 1 button) under software
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control
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Debug: STLINK/V2-1 debugger/programmer Uses a STM32F103CB to
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provide a ST-Link for programming, debug similar to the
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OpenOcd FTDI function - USB to JTAG front-end.
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Expansion I/F: ST Zio and Extended Arduino and Morpho Headers
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Nucleo F746ZG
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=============
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ST Nucleo F746ZG board from ST Micro is supported. See
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http://www.st.com/content/st_com/en/products/evaluation-tools/product-evaluation-tools/mcu-eval-tools/stm32-mcu-eval-tools/stm32-mcu-nucleo/nucleo-f746zg.html
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The Nucleo F746ZG order part number is NUCLEO-F746ZG. It is one member of
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the STM32 Nucleo-144 board family.
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NUCLEO-F746ZG Features:
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----------------------
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Microprocessor: STM32F746ZGT6 Core: ARM 32-bit Cortex®-M7 CPU with FPU,
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L1-cache: 4KB data cache and 4KB instruction cache, up to
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216 MHz, MPU, and DSP instructions.
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Memory: 1024 KB Flash 320KB of SRAM (including 64KB of data TCM RAM)
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+ 16KB of instruction TCM RAM + 4KB of backup SRAM
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ADC: 3×12-bit, 2.4 MSPS ADC: up to 24 channels and 7.2 MSPS in
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triple interleaved mode
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DMA: 2 X 16-stream DMA controllers with FIFOs and burst support
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Timers: Up to 18 timers: up to thirteen 16-bit (1x 16-bit low power),
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two 32-bit timers, 2x watchdogs, SysTick
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GPIO: 114 I/O ports with interrupt capability
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LCD: LCD-TFT Controller with (DMA2D), Parallel interface
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I2C: 4 × I2C interfaces (SMBus/PMBus)
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U[S]ARTs: 4 USARTs, 4 UARTs (27 Mbit/s, ISO7816 interface, LIN, IrDA,
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modem control)
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SPI/12Ss: 6/3 (simplex) (up to 50 Mbit/s), 3 with muxed simplex I2S
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for audio class accuracy via internal audio PLL or external
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clock
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QSPI: Dual mode Quad-SPI
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SAIs: 2 Serial Audio Interfaces
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CAN: 2 X CAN interface
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SDMMC interface
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SPDIFRX interface
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USB: USB 2.0 full-speed device/host/OTG controller with on-chip
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PHY
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10/100 Ethernet: MAC with dedicated DMA: supports IEEE 1588v2 hardware,
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MII/RMII
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Camera Interface: 8/14 Bit
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CRC calculation unit
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TRG: True random number generator
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RTC
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See https://developer.mbed.org/platforms/ST-Nucleo-F746ZG for additional
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information about this board.
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Nucleo F767ZI
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=============
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ST Nucleo F7467ZI board from ST Micro is supported. See
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http://www.st.com/content/st_com/en/products/evaluation-tools/product-evaluation-tools/mcu-eval-tools/stm32-mcu-eval-tools/stm32-mcu-nucleo/nucleo-f767zi.html
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The Nucleo F767ZI order part number is NUCLEO-F767ZI. It is one member of
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the STM32 Nucleo-144 board family.
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NUCLEO-F767ZI Features:
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----------------------
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Microprocessor: STM32F767ZIT6 Core: ARM 32-bit Cortex®-M7 CPU with DPFPU,
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L1-cache: 16KB data cache and 16KB instruction cache, up to
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216 MHz, MPU, and DSP instructions.
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Memory: 2048 KB Flash 512KB of SRAM (including 128KB of data TCM RAM)
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+ 16KB of instruction TCM RAM + 4KB of backup SRAM
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ADC: 3×12-bit, 2.4 MSPS ADC: up to 24 channels and 7.2 MSPS in
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triple interleaved mode
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DMA: 2 X 16-stream DMA controllers with FIFOs and burst support
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Timers: Up to 18 timers: up to thirteen 16-bit (1x 16-bit low power),
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two 32-bit timers, 2x watchdogs, SysTick
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GPIO: 114 I/O ports with interrupt capability
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LCD: LCD-TFT Controller with (DMA2D), Parallel interface
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I2C: 4 × I2C interfaces (SMBus/PMBus)
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U[S]ARTs: 4 USARTs, 4 UARTs (27 Mbit/s, ISO7816 interface, LIN, IrDA,
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modem control)
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SPI/12Ss: 6/3 (simplex) (up to 50 Mbit/s), 3 with muxed simplex I2S
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for audio class accuracy via internal audio PLL or external
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clock
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QSPI: Dual mode Quad-SPI
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SAIs: 2 Serial Audio Interfaces
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CAN: 3 X CAN interface
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SDMMC interface
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SPDIFRX interface
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USB: USB 2.0 full/High-speed device/host/OTG controller with on-chip
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PHY
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10/100 Ethernet: MAC with dedicated DMA: supports IEEE 1588v2 hardware,
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MII/RMII
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Camera Interface: 8/14 Bit
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CRC calculation unit
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TRG: True random number generator
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RTC subsecond accuracy, hardware calendar
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For pinout and details Check NUCLEO-F767ZI page on developer.mbed.org:
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https://os.mbed.com/platforms/ST-Nucleo-F767ZI/
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Also https://developer.mbed.org/platforms/ST-Nucleo-F746ZG
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may contain some related useful information.
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Development Environment
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=======================
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Either Linux or Cygwin on Windows can be used for the development environment.
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The source has been built only using the GNU toolchain (see below). Other
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toolchains will likely cause problems.
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All testing has been conducted using the GNU toolchain from ARM for Linux.
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found here https://developer.arm.com/open-source/gnu-toolchain/gnu-rm/4.9/4.9-2015-q3-update/+download/gcc-arm-none-eabi-4_9-2015q3-20150921-linux.tar.bz2
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If you change the default toolchain, then you may also have to modify the
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PATH environment variable to include the path to the toolchain binaries.
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IDEs
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====
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NuttX is built using command-line make. It can be used with an IDE, but some
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effort will be required to create the project.
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Makefile Build
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--------------
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Under Eclipse, it is pretty easy to set up an "empty makefile project" and
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simply use the NuttX makefile to build the system. That is almost for free
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under Linux. Under Windows, you will need to set up the "Cygwin GCC" empty
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makefile project in order to work with Windows (Google for "Eclipse Cygwin" -
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there is a lot of help on the internet).
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Basic configuration & build steps
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==================================
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A GNU GCC-based toolchain is assumed. The PATH environment variable should
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be modified to point to the correct path to the Cortex-M7 GCC toolchain (if
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different from the default in your PATH variable).
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- Configures nuttx creating .config file in the nuttx directory.
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$ tools/configure.sh nucleo-f746zg:nsh
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- Refreshes the .config file with the latest available configurations.
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$ make oldconfig
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- Select the features you want in the build.
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$ make menuconfig
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- Builds NuttX with the features you selected.
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$ make
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Hardware
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========
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GPIO - there are 144 I/O lines on the STM32F7xxZxT6 with various pins pined out
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on the Nucleo 144.
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See https://developer.mbed.org/platforms/ST-Nucleo-F746ZG/ for slick graphic
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pinouts.
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Keep in mind that:
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1) The I/O is 3.3 Volt not 5 Volt like on the Arduino products.
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2) The Nucleo-144 board family has 3 pages of Solder Bridges AKA Solder
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Blobs (SB) that can alter the factory configuration. We will note SB
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in effect but will assume the factory default settings.
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Our main concern is establishing a console and LED utilization for
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debugging. Because so many pins can be multiplexed with so many functions,
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the above mentioned graphic may be helpful in identifying a serial port.
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There are 5 choices that can be made from the menuconfig:
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CONFIG_NUCLEO_CONSOLE_ARDUINO or CONFIG_NUCLEO_CONSOLE_MORPHO or
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CONFIG_NUCLEO_CONSOLE_MORPHO_UART4 or CONFIG_NUCLEO_CONSOLE_VIRTUAL or
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CONFIG_NUCLEO_CONSOLE_NONE
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The CONFIG_NUCLEO_CONSOLE_NONE makes no preset for the console. You should still
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visit the U[S]ART selection and Device Drivers to disable any U[S]ART remaining.
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The CONFIG_NUCLEO_CONSOLE_ARDUINO configurations assume that you are using a
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standard Arduino RS-232 shield with the serial interface with RX on pin D0 and
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TX on pin D1 from USART6:
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-------- ---------------
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STM32F7
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ARDUIONO FUNCTION GPIO
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-- ----- --------- -----
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DO RX USART6_RX PG9
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D1 TX USART6_TX PG14
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-- ----- --------- -----
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The CONFIG_NUCLEO_CONSOLE_MORPHO configurations uses Serial Port 8 (USART8)
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with TX on PE1 and RX on PE0.
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Serial
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------
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SERIAL_RX PE_0
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SERIAL_TX PE_1
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The CONFIG_NUCLEO_CONSOLE_MORPHO_UART4 configurations uses Serial Port 4 (UART4)
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with TX on PA1 and RX on PA0. Zero Ohm resistor / solder short at
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SB13 must be removed/open. (Disables Ethernet MII clocking.)
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Serial
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------
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SERIAL_RX PA_1 CN11 30
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SERIAL_TX PA_0 CN11 28
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The CONFIG_NUCLEO_CONSOLE_VIRTUAL configurations uses Serial Port 3 (USART3)
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with TX on PD8 and RX on PD9.
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Serial
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------
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SERIAL_RX PD9
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SERIAL_TX PD8
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These signals are internally connected to the on board ST-Link.
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Of course if your design has used those pins you can choose a completely
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different U[S]ART to use as the console. In that Case, you will need to edit
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the include/board.h to select different U[S]ART and / or pin selections.
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Buttons
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-------
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B1 USER: the user button is connected to the I/O PC13 (Tamper support, SB173
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ON and SB180 OFF)
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LEDs
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----
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The Board provides a 3 user LEDs, LD1-LD3
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LED1 (Green) PB_0 (SB120 ON and SB119 OFF)
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LED2 (Blue) PB_7 (SB139 ON)
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LED3 (Red) PB_14 (SP118 ON)
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- When the I/O is HIGH value, the LEDs are on.
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- When the I/O is LOW, the LEDs are off.
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These LEDs are not used by the board port unless CONFIG_ARCH_LEDS is
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defined. In that case, the usage by the board port is defined in
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include/board.h and src/stm32_autoleds.c. The LEDs are used to encode OS
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related events as follows when the LEDs are available:
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SYMBOL Meaning RED GREEN BLUE
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------------------- ----------------------- --- ----- ----
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LED_STARTED NuttX has been started OFF OFF OFF
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LED_HEAPALLOCATE Heap has been allocated OFF OFF ON
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LED_IRQSENABLED Interrupts enabled OFF ON OFF
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LED_STACKCREATED Idle stack created OFF ON ON
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LED_INIRQ In an interrupt NC NC ON (momentary)
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LED_SIGNAL In a signal handler NC ON OFF (momentary)
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LED_ASSERTION An assertion failed ON NC ON (momentary)
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LED_PANIC The system has crashed ON OFF OFF (flashing 2Hz)
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LED_IDLE MCU is is sleep mode ON OFF OFF
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OFF - means that the OS is still initializing. Initialization is very fast
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so if you see this at all, it probably means that the system is
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hanging up somewhere in the initialization phases.
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GREEN - This means that the OS completed initialization.
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BLUE - Whenever and interrupt or signal handler is entered, the BLUE LED is
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illuminated and extinguished when the interrupt or signal handler
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exits.
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VIOLET - If a recovered assertion occurs, the RED and blue LED will be
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illuminated briefly while the assertion is handled. You will
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probably never see this.
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Flashing RED - In the event of a fatal crash, all other LEDs will be
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extinguished and RED LED will FLASH at a 2Hz rate.
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Thus if the GREEN LED is lit, NuttX has successfully booted and is,
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apparently, running normally. If the RED LED is flashing at
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approximately 2Hz, then a fatal error has been detected and the system has
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halted.
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Serial Consoles
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===============
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USART6 (CONFIG_NUCLEO_CONSOLE_ARDUINO)
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------
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STM32F7
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ARDUINO FUNCTION GPIO
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-- ----- --------- -----
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DO RX USART6_RX PG9
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D1 TX USART6_TX PG14
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-- ----- --------- -----
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You must use a 3.3 TTL to RS-232 converter or a USB to 3.3V TTL
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Nucleo 144 FTDI TTL-232R-3V3
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------------- -------------------
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TXD - D1-TXD - RXD - Pin 5 (Yellow)
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RXD - D0-RXD - TXD - Pin 4 (Orange)
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GND GND - GND Pin 1 (Black)
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------------- -------------------
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*Note you will be reverse RX/TX
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Use make menuconfig to configure USART6 as the console:
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CONFIG_STM32F7_USART6=y
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CONFIG_USARTs_SERIALDRIVER=y
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CONFIG_USARTS_SERIAL_CONSOLE=y
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CONFIG_USART6_RXBUFSIZE=256
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CONFIG_USART6_TXBUFSIZE=256
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CONFIG_USART6_BAUD=115200
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CONFIG_USART6_BITS=8
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CONFIG_USART6_PARITY=0
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CONFIG_USART6_2STOP=0
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USART8 (CONFIG_NUCLEO_CONSOLE_MORPHO)
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------
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Pins and Connectors:
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FUNC GPIO Connector
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Pin NAME
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---- --- ------- ----
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TXD: PE1 CN11-61, PE1
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RXD: PE0 CN12-64, PE0
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CN10-33, D34
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---- --- ------- ----
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You must use a 3.3 TTL to RS-232 converter or a USB to 3.3V TTL
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Nucleo 144 FTDI TTL-232R-3V3
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------------- -------------------
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TXD - CN11-61 - RXD - Pin 5 (Yellow)
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RXD - CN12-64 - TXD - Pin 4 (Orange)
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GND CN12-63 - GND Pin 1 (Black)
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------------- -------------------
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*Note you will be reverse RX/TX
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Use make menuconfig to configure USART8 as the console:
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CONFIG_STM32F7_UART8=y
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CONFIG_UART8_SERIALDRIVER=y
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CONFIG_UART8_SERIAL_CONSOLE=y
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CONFIG_UART8_RXBUFSIZE=256
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CONFIG_UART8_TXBUFSIZE=256
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CONFIG_UART8_BAUD=115200
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CONFIG_UART8_BITS=8
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CONFIG_UART8_PARITY=0
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CONFIG_UART8_2STOP=0
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Virtual COM Port (CONFIG_NUCLEO_CONSOLE_VIRTUAL)
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----------------
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Yet another option is to use USART3 and the USB virtual COM port. This
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option may be more convenient for long term development, but is painful
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to use during board bring-up.
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Solder Bridges. This configuration requires:
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PD8 USART3 TX SB5 ON and SB7 OFF (Default)
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PD9 USART3 RX SB6 ON and SB4 OFF (Default)
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Configuring USART3 is the same as given above but add the S and #3.
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Question: What BAUD should be configure to interface with the Virtual
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COM port? 115200 8N1?
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Default
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-------
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As shipped, SB4 and SB7 are open and SB5 and SB6 closed, so the
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virtual COM port is enabled.
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SPI
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---
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Since this board is so generic, having a quick way to set the SPI
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configuration seams in order. So the board provides a quick test
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that can be selected vi CONFIG_NUCLEO_SPI_TEST that will initialize
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the selected buses (SPI1-SPI3) and send some text on the bus at
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application initialization time board_app_initialize.
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SDIO
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----
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To test the SD performance one can use a SparkFun microSD Sniffer
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from https://www.sparkfun.com/products/9419 or similar board
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and connect it as follows:
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VCC V3.3 CN11 16
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GND GND CN11-8
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CMD PD2 CN11-4
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CLK PC12 CN11-3
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DAT0 - PC8 CN12-2
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DAT1 - PC9 CN12-1
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DAT2 PC10 CN11-1
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CD PC11 CN11-2
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SPI Test
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========
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The builtin SPI test facility can be enabled with the following settings:
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+CONFIG_STM32F7_SPI=y
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+CONFIG_STM32F7_SPI1=y
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+CONFIG_STM32F7_SPI2=y
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+CONFIG_STM32F7_SPI3=y
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+# CONFIG_STM32F7_SPI_INTERRUPTS is not set
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+# CONFIG_STM32F7_SPI_DMA is not set
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# CONFIG_STM32F7_CUSTOM_CLOCKCONFIG is not set
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+CONFIG_NUCLEO_SPI_TEST=y
|
||
+CONFIG_NUCLEO_SPI_TEST_MESSAGE="Hello World"
|
||
+CONFIG_NUCLEO_SPI1_TEST=y
|
||
+CONFIG_NUCLEO_SPI1_TEST_FREQ=1000000
|
||
+CONFIG_NUCLEO_SPI1_TEST_BITS=8
|
||
+CONFIG_NUCLEO_SPI1_TEST_MODE3=y
|
||
|
||
+CONFIG_NUCLEO_SPI2_TEST=y
|
||
+CONFIG_NUCLEO_SPI2_TEST_FREQ=12000000
|
||
+CONFIG_NUCLEO_SPI2_TEST_BITS=8
|
||
+CONFIG_NUCLEO_SPI2_TEST_MODE3=y
|
||
|
||
+CONFIG_NUCLEO_SPI3_TEST=y
|
||
+CONFIG_NUCLEO_SPI3_TEST_FREQ=40000000
|
||
+CONFIG_NUCLEO_SPI3_TEST_BITS=8
|
||
+CONFIG_NUCLEO_SPI3_TEST_MODE3=y
|
||
|
||
+CONFIG_LIB_BOARDCTL=y
|
||
+CONFIG_NSH_ARCHINIT=y
|
||
|
||
Configurations
|
||
==============
|
||
|
||
f7xx-nsh:
|
||
---------
|
||
|
||
Configures the NuttShell (nsh) located at apps/examples/nsh for the
|
||
Nucleo-144 boards. The Configuration enables the serial interfaces
|
||
on USART6. Support for builtin applications is enabled, but in the base
|
||
configuration no builtin applications are selected (see NOTES below).
|
||
|
||
NOTES:
|
||
|
||
1. This configuration uses the mconf-based configuration tool. To
|
||
change this configuration using that tool, you should:
|
||
|
||
a. Build and install the kconfig-mconf tool. See nuttx/README.txt
|
||
see additional README.txt files in the NuttX tools repository.
|
||
|
||
b. If this is the initial configuration then execute
|
||
|
||
./tools/configure.sh nucleo-144:nsh
|
||
|
||
in nuttx/ in order to start configuration process.
|
||
Caution: Doing this step more than once will overwrite .config with
|
||
the contents of the nucleo-144/nsh/defconfig file.
|
||
|
||
c. Execute 'make oldconfig' in nuttx/ in order to refresh the
|
||
configuration.
|
||
|
||
d. Execute 'make menuconfig' in nuttx/ in order to start the
|
||
reconfiguration process.
|
||
|
||
e. Save the .config file to reuse it in the future starting at step d.
|
||
|
||
2. By default, this configuration uses the ARM GNU toolchain
|
||
for Linux. That can easily be reconfigured, of course.
|
||
|
||
CONFIG_HOST_LINUX=y : Builds under Linux
|
||
CONFIG_ARMV7M_TOOLCHAIN_GNU_EABIL=y : ARM GNU for Linux
|
||
|
||
3. The serial console may be configured to use either USART3 (which would
|
||
correspond to the Virtual COM port) or with the console device
|
||
configured for USART6 to support an Arduino serial shield (see
|
||
instructions above under "Serial Consoles). You will need to check the
|
||
defconfig file to see how the console is set up and, perhaps, modify
|
||
the configuration accordingly.
|
||
|
||
To select the Virtual COM port:
|
||
|
||
-CONFIG_NUCLEO_CONSOLE_ARDUINO
|
||
+CONFIG_NUCLEO_CONSOLE_VIRTUAL=y
|
||
-CONFIG_USART6_SERIAL_CONSOLE=y
|
||
+CONFIG_USART3_SERIAL_CONSOLE=y
|
||
|
||
To select the Arduino serial shield:
|
||
|
||
-CONFIG_NUCLEO_CONSOLE_VIRTUAL=y
|
||
+CONFIG_NUCLEO_CONSOLE_ARDUINO
|
||
-CONFIG_USART3_SERIAL_CONSOLE=y
|
||
+CONFIG_USART6_SERIAL_CONSOLE=y
|
||
|
||
Default values for other settings associated with the select USART should
|
||
be correct.
|
||
|
||
f7xx-evalos:
|
||
------------
|
||
|
||
This configuration is designed to test the features of the board.
|
||
- Configures the NuttShell (nsh) located at apps/examples/nsh for the
|
||
Nucleo-144 boards. The console is available on serial interface USART3,
|
||
which is accessible over the USB ST-Link interface.
|
||
- Configures nsh with advanced features such as autocompletion.
|
||
- Configures the on-board LEDs to work with the 'leds' example app.
|
||
- Configures the 'helloxx' example app.
|
||
- Adds character device for i2c1
|
||
- Tries to register mpu60x0 IMU to i2c1
|
||
|
||
NOTES:
|
||
|
||
1. This configuration uses the mconf-based configuration tool. To
|
||
change this configuration using that tool, you should:
|
||
|
||
a. Build and install the kconfig-mconf tool. See nuttx/README.txt
|
||
see additional README.txt files in the NuttX tools repository.
|
||
|
||
b. If this is the initial configuration then execute
|
||
|
||
./tools/configure.sh nucleo-144:evalos
|
||
|
||
in nuttx/ in order to start configuration process.
|
||
Caution: Doing this step more than once will overwrite .config with
|
||
the contents of the nucleo-144/evalos/defconfig file.
|
||
|
||
c. Execute 'make oldconfig' in nuttx/ in order to refresh the
|
||
configuration.
|
||
|
||
d. Execute 'make menuconfig' in nuttx/ in order to start the
|
||
reconfiguration process.
|
||
|
||
e. Save the .config file to reuse it in the future starting at step d.
|
||
|
||
2. By default, this configuration uses the ARM GNU toolchain
|
||
for Linux. That can easily be reconfigured, of course.
|
||
|
||
CONFIG_HOST_LINUX=y : Builds under Linux
|
||
CONFIG_ARMV7M_TOOLCHAIN_GNU_EABIL=y : ARM GNU for Linux
|