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The USB-CAN converter, in combination with the corresponding Windows software, represents a very economical solution to run an effective CAN Bus Analyzer. It allows you to develop, test, manage, and maintain your own CAN Bus network, as well as receiving, sending, logging, and analyzing CAN Bus data.
- Implements CAN V2.0B speed up to 1 Mb/s
- Fully ISO 11898 compliant CAN Bus Interface
- Standard (11 bit) and extended (29 bit) data and remote frames
- Two receive buffers with prioritized message storage
- CAN Bus connection per terminal block
- Jumper for 120 Ohm termination resistor
- LED indicators for Receive/Send CAN Bus data frames
- Integrated surge protection
- Windows 10 is recommended. There is no guarantee that the software will work with older versions.
- Basic Functions
- Supports CAN 2.0A (11-bit) and CAN 2.0B (29-bit)
- Supports CiA standard CAN baud rates
- Allows customized CAN baud rate
- CAN data frame display with time stamps
- Indicator for Send or Receive CAN Bus data frame
- Multiple options for sending CAN data frames
- Enhanced Functions
- Customized automatic response to received CAN data frames
- Display of CAN Bus status
- Multiple CAN frame filtering options
- Selectable operation modes: Standard, Loop, Quiet, Loop Quiet
- Data recording; data can be saved using TXT or Excel format
- Advanced Functions
- All customized settings are saved automatically
- Download/View the CAN Bus To USB Mini Converter User Manual (PDF)...
Note: This is the original version by the Chinese manufacturer; we are working on an enhanced version.
- USB-CAN Analyzer - USB to CAN Bus Serial Protocol Definition...
- Download the CAN Bus To USB Mini Converter CAN Analyzer Software (.zip file)...
Note: This is not an installation program but a single, executable file.
Controller Area Network Projects with ARM and Arduino
This book describes the application of the ARM Cortex-M family of processors and the Arduino Uno in working CAN bus based projects.
It delivers a comprehensive introduction to the architecture of the Cortex-M family while providing samples of contemporary hardware and software development kits.
Using these kits helps to simplify the embedded design cycle considerably and makes it more effortless to develop, debug, and test CAN-Bus-based projects.
The architecture of the popular ARM Cortex-M processor STM32F407VGT6 is described in great detail by analyzing its multiple modules.
Also, the use of the mikroC Pro for ARM and Arduino UNO CAN Bus library of functions are described in detail.
This book is for students, for practicing engineers, for hobbyists, and for everyone else who may want to learn more about the CAN Bus and its applications.