rt-thread-official/bsp/wch/risc-v/ch32v307v-r1
Meco Man 0a533aeb79 [ch32v307] support c++ 2022-10-26 00:55:29 -04:00
..
applications [bsp]添加ch32v307vct6 (#6331) 2022-08-23 21:51:35 -04:00
board [ch32v307] support c++ 2022-10-26 00:55:29 -04:00
figures [ch32v307][readme] 增加vscode编译介绍 (#6540) 2022-10-18 18:40:42 -07:00
.config [drv_gpio]为ch32完善gpio驱动 (#6334) 2022-08-25 10:24:53 -04:00
Kconfig [bsp]添加ch32v307vct6 (#6331) 2022-08-23 21:51:35 -04:00
README.md [ch32v307][readme] 增加vscode编译介绍 (#6540) 2022-10-18 18:40:42 -07:00
README_zh.md [ch32v307][readme] 增加vscode编译介绍 (#6540) 2022-10-18 18:40:42 -07:00
SConscript [bsp]添加ch32v307vct6 (#6331) 2022-08-23 21:51:35 -04:00
SConstruct [ch32v307] support c++ 2022-10-26 00:55:29 -04:00
rtconfig.h [drv_gpio]为ch32完善gpio驱动 (#6334) 2022-08-25 10:24:53 -04:00
rtconfig.py [ch32v307] support c++ 2022-10-26 00:55:29 -04:00

README.md

CH32V307V-R1 BSP Introduction

English | 中文

1 Introduction

CH32V307V-R1 is a RISC-V core-based development board with a maximum main frequency of 144Mhz. It delivers the best value for developers to try and get started with RISC-V architecture.

This document records the execution instruction of the BSP (board support package) provided by the RT-Thread community for the CH32V307V-R1 development board.

The document is covered in three parts:

  • Board Resources Introduction
  • Compiling
  • Quickly Get Started

By reading the Quickly Get Started section developers can quickly get their hands on this BSP and run RT-Thread on the board.

board

Features

  • MCU: CH32V307VCT6, main frequency 144MHzFLASH and RAM are available for configuration.
  • LED: 2, user LEDs, LED1(blue), LED2(blue).
  • Button: 2, Reset, User.
  • USB: 2, Tpye-C.
  • Network Port: 1, 10M PHY inside.
  • WCH-Link download debugging tools onboard.

For more details about this board, please refer to: CH32V307

2 Compiling

The BSP supports the RISC-V GCC development environment, here's the specific version information:

IDE/Compiler Version Tested
GCC WCH RISC-V GCC 8.2.0

3 Quickly Get Started

3.1 Using Env to compile BSP

This section is about to introduce how to use Env to compile the BSP.

3.1.1 Compile BSP

  1. Download WCH Compile Toolchain
  2. Download the Env tool latest version
  3. Download the RT-Thread latest code
  4. Open the Env tool in the current BSP root directory and execute the scons -j12 --exec-path=D:\sdk-toolchain-RISC-V-GCC-WCH-1.0.0bin command, compile it directly while specifying the toolchain location.
  5. After compilation, the rtthread.bin file will be generated

sconscompile

3.1.2 Hardware Connection

Use a data cable to connect the onboard wch-link to the PC, and turn on the power switch.

3.1.3 Download

Open the WCH RISC-V MCU ProgrammerTool, select the rtthread.bin file that we just generated, and download it.

tool

Note that Chip Mem here is set to 224K ROM + 96K RAM.

3.1.4 Running Result

In the terminal tool, open the onboard wch-link serial port (WCHDapLink SERIAL, default 115200-8-1-N), and after resetting the device, you can see the output information of RT-Thread on the serial port:

end

3.2 Use VSCode to edit and compile the project

In the Env terminal, type command scons --target=vsc to generate the VSCode project. Then, type command code . in the Env terminal to open the VSCode.

Use VSCode terminal to type command scons -j12 --exec-path=D:\sdk-toolchain-RISC-V-GCC-WCH-1.0.0bin to compile the project in VSCode.

vscode-terminal