CANopenSTM32 is a CANopen stack example running on STM32 microcontroller.
Examples are developed in STM32CubeIDE tool, official ST development studio for any STM32 microcontroller. You can directly open projects run prepared examples on the board.
[STM32G431RB](https://www.st.com/en/evaluation-tools/stm32h735g-dk.html](https://www.st.com/en/evaluation-tools/nucleo-g431rb.html).
Ported over to the STM32G4
CanOpen demo works at
FDCAN1
port.
It has many features of STM32H7xx series and includes 3 CAN transceivers on the board. You do not need any additional hardware to connect to existing CAN network. It also includes built-in programmer and virtual COM port for communication, hence evaluation is quick and easy.
CanOpen demo works at
FDCAN1
port. Use connector CN18.
FDCAN IP block is same for any STM32H7xx MCU family, hence migration to your custom board should be straight-forward.
Nucleo includes an arduino compatible headers which can be used to add MAX33040ESHLD to it and this bundle provide the minimum required components to establish a CAN communication and CanOpenNode on top of that.
This project is tied to the CubeMX configuration, so it is up to the user to provide compatible configuration using CubeMX (bitrate, interrupt activiation and etc). (In this example, the MX_CAN_Init function will be called by CO_Driver_STM32Fxxx.c)
The STM32G0C1E-EV Evaluation board is a high-end development platform for the STM32G0C1VET6 microcontroller. It has many features including two CAN FD controller and physical layer on board. You don't need any additional hardware to connect to existing CAN network. It also includes built-in programmer and virtual COM port for communication, hence evaluation is quick and easy.
CanOpen demo works at
FDCAN1
port. Use connector CN12. FDCAN IP block is same for any STM32G0xx MCU family, hence migration to your custom board should be straight-forward.
- Set the right baudrate for CAN (with TimeSeg1 set to 10 and TimeSeg2 set to 1) in the CubeMX GUI
- Activate the RX and TX interrupt on the CAN peripheral
- Configure a timer for a 1ms overflow interrupt (TIM17 used in these examples)
- From
Prject Manager
tab in the STM32Cube andCode Generator
section, choose Generate peripheral initialization as a pair of '.c/.h' files per peripheral to createTim.H
andcan.h
files - if copying
CANOpenNode
folder entirely, you should remove or filterexample
folder in that directory. - if pulling the main
CANOpenNode
, please setCO_CONFIG_STORAGE_ENABLE
to0x00
in301\CO_config.h
, as storage is not yet impelemented in this port.
- Runs out of the box on STM32H735G-DK board
- Bare metal or FreeRTOS operating system examples
FDCAN1
(CN18) hardware is used for communication at 125kHz- CANopen LED control is well integrated
- Debug messages are available through VCP COM port at
115200
bauds - Can be used as a reference code for end product
Clone the project from git repository and get submodules:
git clone https://github.com/CANopenNode/CANopenSTM32
cd CANopenSTM32
git submodule update --init --recursive
Update an existing project including submodules:
cd CANopenSTM32
git pull
git submodule update --init --recursive
This file is part of CANopenNode, an opensource CANopen Stack. Project home page is https://github.com/CANopenNode/CANopenNode. For more information on CANopen see http://www.can-cia.org/.
Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at