93 lines
4.0 KiB
Markdown
93 lines
4.0 KiB
Markdown
# STM32H747-ST-DISCOVERY BSP (Board Support Package) Execution Instruction
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[中文页](README_zh.md) |
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## Introduction
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This document records the execution instruction of the BSP (board support package) provided by the RT-Thread development team for the STM32H747-ST-DISCOVERY development board.
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The document is covered in three parts:
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- STM32H747-ST-DISCOVERY Board Resources Introduction
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- Quickly Get Started
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- Advanced Features
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By reading the Quickly Get Started section developers can quickly get their hands on this BSP and run RT-Thread on the board. More advanced features will be introduced in the Advanced Features section to help developers take advantage of RT-Thread to drive more on-board resources.
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## Board Resources Introduction
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The STM32H747-ST-DISCOVERY is a development board that contains a ARM Cortex-M7. The maximum main frequency is 480 MHz, and it has a wealth of on-board resources that can take full advantage of the STM32H747's chip performance.
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[](https://github.com/RT-Thread/rt-thread/blob/master/bsp/stm32/stm32h747-st-discovery/figures/board.png)
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The mainly-used resources of this board are shown as follows:
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- MCU: STM32H747
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- Main Frequency 480MHz
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- Memory: 2MB FLASH, 1MB RAM
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- Common-used peripherals: USB、Ethernet、arduino API etc.
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- Debug interface: Standard JTAG/SWD.
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For more details about this board, please refer to the ST official documentation [STM32H747I-DISCO](https://www.st.com/content/st_com/en/products/evaluation-tools/product-evaluation-tools/mcu-mpu-eval-tools/stm32-mcu-mpu-eval-tools/stm32-discovery-kits/stm32h747i-disco.html)。
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## Peripheral Condition
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Each peripheral supporting condition for this BSP is as follows:
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| **On-board Peripheral** | **Support** | **Remark** |
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| ----------------------- | ----------- | ---------- |
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| USB | Support | |
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| **On-chip Peripheral** | **Support** | **Remark** |
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| GPIO | Support | |
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| UART | Support | UART1 |
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## Execution Instruction
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### Quickly Get Started
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This BSP provides MDK 5 and IAR projects for developers and it supports the GCC development environment. Here's an example of the MDK5 development environment, to introduce how to run the system.
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#### **Hardware Connection**
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Use a USB cable to connect the development board to the PC and turn on the power switch.
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#### **Compile and Download**
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Double-click the project.uvprojx file, to open the MDK 5 project (MDK requires to download V 5.29 and above to support ST-LINK V3), compile and download the project to the board.
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> By default, the project uses the ST_LINK simulator to download the program, when the ST_LINK connects the board, clicking the download button can download the program to the board.
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### **Running Results**
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Once the project is successfully downloaded, the system runs automatically, and LED will flash.
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Connect the serial port of the board to PC, communicate with it via a serial terminal tool (115200-8-1-N). Restart the board and the startup information of RT-Thread will be observed:
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```
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\ | /
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- RT - Thread Operating System
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/ | \ 4.0.3 build Feb 24 2020
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2006 - 2020 Copyright by rt-thread team
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msh >
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```
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### **Advanced Features**
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This BSP only enables GPIO and serial port 1 by default. If you need more advanced features, you need to configure the BSP with [RT-Thread ENV tools](https://www.rt-thread.io/download.html?download=Env) , as follows:
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1. Open the env tool under BSP.
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2. Enter menuconfig command to configure the project, then save and exit.
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3. Enter pkgs --update command to update the package.
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4. Enter scons --target=mdk4/mdk5/iar command to regenerate the project.
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Learn how to use RT-Thread Env, click [Here](https://github.com/RT-Thread/rtthread-manual-doc/blob/master/env/env.md).
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## **Notes**
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- Debug serial port has the mapping description for serial port 1.
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PA9 ------> USART1_TX
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PA10 ------> USART1_RX |