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I have ported the latest AM32 version and fixed some bugs, refer to this repository

RISC-V ESC Base on CH32V203(AM32 firmware)

Introduction

The AM32 firmware has been ported to the RISC-V platform, and the main controller has chosen CH32V203F8U6, which is highly cost-effective. It can be compiled directly on MRS. At the same time, the bootloader program has been ported, and tool of Esc_Config_Tool_1_82_WIN can be used to configure and upgrade firmware for ESC.

Hardware

MCU

The resources of MCU are shown in the following figure,You can see that it has many peripheral resources.For more information, you can refer to the wch.

mcu

But for ESC design, it cannot use all the peripherals. Therefore, I choose a QFN20(3mm*3mm) packaged chip CH32V203F8U6. The size is very small and the price is cheap.

mcu_packge

System Block Diagram

System_block

Using TIM1 to output 3 sets of complementary PWM for driving MOSFEET, Using TIM2 for capturing external throttle signals, Using ADC to sample voltage, current, and temperature for low voltage protection, over current protection, and over temperature protection. Using internal OPA and BEMF to estimate rotor position. TIM3 and TIM4 is used to calculate commutation time and motor timing. Systick is used to complete some periodic tasks.

PINS

PINS

AH AL BH BL CH CL: TIM1 PWM outputs;
INPUT: TIM2 Channel1 used to capture external throttle signals;
A_BEMF: A-Phase BEMF, connect to the negative end-1 of OPA2(PA5);
B_BEMF: B-Phase BEMF, connect to the negative end-0 of OPA2(PB10);
C_BEMF: C-Phase BEMF, connect to the negative end-0 of OPA1(PB11);
CC_BEMF: Neutral point BEMF, connect to the positive end-0 of OPA2(PB14) and positive end-0 of OPA1(PB15);
ADC_V: Voltage sampling channel;
ADC_I: Current sampling channel;

In order to unify the interrupt entry of OPA, the outputs of OPA1(PA3) and OPA2(PA4) are merged into PA2, Using external interrupts of PA2 for zero crossing comparison processing. Individual external interrupts can also be used to save one GPIO(PA2)

PA13 and PA14 are used to download bootloader via WCH-LINKE. If necessary, the program can also reuse these two ports.

For detailed information, please refer to the schematic diagram, NOTE: The current schematic does not enable current sampling. If desired, simply amplify the current and connect the signal to PA6.

Config

Flashing BootLoader

  1. For empty chips, BootLoader needs to be flashed via WCH-LINKE, Connect according to the diagram below.

    bootloader ESC_PCB
  2. Open the Bootloader project using MRS and download it directly after compilation.

    mrs
  3. Use a one line serial port to connect to ESC and use tools to configure and update firmware. I used CH32V003 to perform a software conversion, and the wiring is shown in the following figure.

    config

    If the Bootloader is burned correctly, Open the configuration tool Esc_Config_Tool_1_82_WIN.exe and power on the ESC. Follow the steps in the following figure to click. When connecting for the first time, 'No EEprom' will be displayed!

    first_power_on

    Directly click on Send Default Settings below to burn the default values. After successful burning, power on again. Connect again and click M1. The default parameters we just burned will be displayed.

    default_para
  4. Flashing firmware and configurations

    Returning to the FLASH interface of the tool, we click on Load Firmware, select the firmware we compiled in MRS, and the FLash Firmware button will pop up. Click to start updating the program.

    updata

    After the update is completed, power on again and connect ESC again to configure ESC. The specific meaning of configuration values can be found in the following links.

    v203_para

Test

The version I ported is V1.95, which supports signals such as dshot300, dshot600, and PWM. To test ESC, I used CH32V003 to create a servo testing tool. You can connect it directly to the ESC to test.

test

ESC Test

This video demonstrates the running of ESC under different signal input conditions.
vedio1

Output signal of servo testing tool

This video demonstrates three different output signals of a servo testing tool.
vedio2

Buy Me a Coffee ☕

If you think it will be of great help to you, you can buy me a coffee (via Alipay or WeChat or Paypal) thank you.