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ST STM32F429I Discovery

Overview

The STM32F429I-DISC1 Discovery kit features an ARM Cortex-M4 based STM32F429ZI MCU with a wide range of connectivity support and configurations. Here are some highlights of the STM32F429I-DISC1 board:

  • STM32 microcontroller in LQFP144 package

  • Extension header for all LQFP144 I/Os for quick connection to prototyping board and easy probing

  • On-board ST-LINK/V2-B debugger/programmer with SWD connector

  • Flexible board power supply:

    • ST-LINK/V2-1 USB connector

    • User USB FS connector

    • VIN from Arduino* compatible connectors

  • Two push-buttons: USER and RESET

  • USB OTG FS with micro-AB connector

  • 2.4-inch QVGA LCD with MIPI DSI interface and capacitive touch screen

  • 64Mbit SDRAM

  • L3GD20, ST-MEMS motion sensor 3-axis digital output gyroscope

  • Six LEDs

    • LD1 (red/green) for USB communication

    • LD2 (red) for 3.3 V power-on

    • Two user LEDs: LD3 (green), LD4 (red)

    • Two USB OTG LEDs: LD5 (green) VBUS and LD6 (red) OC (over-current)

STM32F429I-DISC1

More information about the board can be found at the STM32F429I-DISC1 website.

Hardware

The STM32F429I-DISC1 Discovery kit provides the following hardware components:

  • STM32F429ZIT6 in LQFP144 package

  • ARM® 32-bit Cortex® -M4 CPU with FPU

  • 180 MHz max CPU frequency

  • VDD from 1.8 V to 3.6 V

  • 2 MB Flash

  • 256+4 KB SRAM including 64-Kbyte of core coupled memory

  • GPIO with external interrupt capability

  • 3x12-bit ADC with 24 channels

  • 2x12-bit D/A converters

  • RTC

  • Advanced-control Timer

  • General Purpose Timers (17)

  • Watchdog Timers (2)

  • USART/UART (4/4)

  • I2C (3)

  • SPI (6)

  • SDIO

  • 2xCAN

  • USB 2.0 OTG FS with on-chip PHY

  • USB 2.0 OTG HS/FS with dedicated DMA, on-chip full-speed PHY and ULPI

  • 10/100 Ethernet MAC with dedicated DMA

  • 8- to 14-bit parallel camera

  • CRC calculation unit

  • True random number generator

  • DMA Controller

More information about STM32F429ZI can be found here:

Supported Features

The Zephyr stm32f429i_disc1 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

PWM

on-chip

pwm

I2C

on-chip

i2c

SPI

on-chip

spi

FMC

on-chip

memc (SDRAM)

Other hardware features are not yet supported on Zephyr porting.

The default configuration can be found in the defconfig file:

boards/arm/stm32f429i_disc1/stm32f429i_disc1_defconfig

Pin Mapping

The STM32F429I-DISC1 Discovery kit has 8 GPIO controllers. These controllers are responsible for pin muxing, input/output, pull-up, etc.

For mode details please refer to STM32F429I-DISC1 board User Manual.

Default Zephyr Peripheral Mapping:

  • UART_1_TX : PA9

  • UART_1_RX : PA10

  • USER_PB : PA0

  • LD3 : PG13

  • LD4 : PG12

  • I2C_1_SCL : PB8

  • I2C_1_SDA : PB9

  • I2C_2_SCL : PB10

  • I2C_2_SDA : PB11

  • I2C_3_SCL : PA8

  • I2C_3_SDA : PC9

  • SPI_5_CS : PF6

  • SPI_5_SCK : PF7

  • SPI_5_MISO : PF8

  • SPI_5_MOSI : PF9

System Clock

The STM32F429I-DISC1 System Clock could be driven by an internal or external oscillator, as well as by the main PLL clock. By default the system clock is driven by the PLL clock at 168MHz, driven by an 8MHz high speed external clock.

Serial Port

The STM32F429I-DISC1 Discovery kit has up to 8 UARTs. The Zephyr console output is assigned to UART1. The default communication settings are 115200 8N1.

Programming and Debugging

Applications for the stm32f429i_disc1 board configuration can be built and flashed in the usual way (see Building an Application and Run an Application for more details).

Flashing

The STM32F429I-DISC1 Discovery kit includes a ST-LINK/V2-B embedded debug tool interface. This interface is supported by the openocd version included in Zephyr SDK.

Flashing an application to STM32F429I-DISC1

First, connect the STM32F429I-DISC1 Discovery kit to your host computer using the USB port to prepare it for flashing. Then build and flash your application.

Here is an example for the Hello World application.

# From the root of the zephyr repository
west build -b stm32f429i_disc1 samples/hello_world
west flash

Run a serial host program to connect with your board:

$ minicom -D /dev/ttyACM0

Then, press the RESET button (The black one), you should see the following message:

Hello World! arm

Debugging

You can debug an application in the usual way. Here is an example for the Hello World application.

# From the root of the zephyr repository
west build -b stm32f429i_disc1 samples/hello_world
west debug