# CH32V307V-R1 BSP Introduction **English** | [中文](README_zh.md) ## 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](./figures/ch32v307.jpg) **Features** - MCU: CH32V307VCT6, main frequency 144MHz,FLASH 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](https://www.wch.cn/products/CH32V307.html) and [CH32V307 official document](https://github.com/openwch/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](https://www.rt-thread.io/download.html?download=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](https://github.com/NanjingQinheng/sdk-toolchain-RISC-V-GCC-WCH/releases) 2. [Download the Env tool latest version](https://github.com/RT-Thread/env-windows/releases) 3. [Download the RT-Thread latest code](https://github.com/RT-Thread/rt-thread/archive/refs/heads/master.zip) 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-1.0.0\bin` command, compile it directly while specifying the toolchain location. 5. After compilation, the **rtthread.bin** file will be generated ![sconscompile](./figures/sconscompile.jpg) #### 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](./figures/tool.png) > 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](./figures/end.png) #### 3.1.5 If no running result Replace download tool with WCH-LinkUtility. [Details](https://club.rt-thread.org/ask/article/44e5b4bc129ff373.html) ### 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-1.0.0\bin` to compile the project in VSCode. ![vscode-terminal](./figures/vscode-terminal.png)