Open CAN-based protocols such as CANopen, SAE J1939, ISOBUS, NMEA2000, SAE J1708, and DeviceNet, have been successfully utilized for years in a wide variety of application areas. These include commercial vehicle, agricultural, rail transport, medical, aerospace, and control engineering as well as other applications with embedded networks. A well grounded knowledge of current developments and the capabilities of these standardized CAN protocols is essential to their successful application.
Vector offers solutions for timesaving and cost-effective implementation of development processes for open networks. The user is supported by optimized software tools and embedded software components for open protocols, and by actual project work and individual services. Vector's active participation in many standardization bodies assures that our wide range of products will always conform to the latest requirements.
Supported Protocols:
| Protocol | Description / Application Area | Products |
| CANopen | The CANopen profile family specifies standardized communication mechanisms and device functionalities. CANopen is maintained by "CAN in Automation" (CiA), and can be implemented free of license. Application areas: automation engineering, CAN embedded |
CANalyzer.CANopen CANoe.CANopen Master Source Code Slave Source Code CANeds ProCANopen |
| J1939 ISO11783 |
J1939 is a communications protocol based on CAN for real-time data exchange between electronic control units (ECUs) in the area of commercial vehicles. It describes the information exchanged between the ECUs in such a system. ISO11783 is a further development for agricultural engineering. Application areas: commercial vehicles engineering, railway engineering, agricultural engineering |
CANalyzer.J1939 CANoe.J1939 CANoe.ISO11783 CANbedded J1939 J1939 Source Code |
| ISO11992 | ISO11992 is a specification based on J1939 for the communication between a truck and trailers. Application area: commercial vehicles |
CANalyzer.J1939 CANoe.J1939 |
| NMEA 2000 | NMEA 2000 is a communication protocol based on J1939 from the National Marine Electronics Association (NMEA) for the real time data exchange between electronic control units in maritime electronics. Application areas: marine engineering |
CANalyzer.NMEA2000 CANoe.NMEA2000 CANbedded J1939 J1939 Source Code |
| J1587/J1708 | SAE J1708 defines a serial, bidirectional network for use in the commercial vehicle industry. The SAE J1587 Standard regulates communication and standardized data exchange between different ECUs based on SAE J1708 networks. Application areas: commercial vehicles engineering |
CANoe.J1587 CANalyzer.J1587 |
| CANaerospace | CANaerospace was developed a private company working in the field of aerospace technology. CANaerospace is also called "AGATE databus" from the NASA-AGATE consortium. Application area: avionics and space technology |
CANalyzer.CANaerospace CANoe.CANaerospace |
| DeviceNet | DeviceNet is a CAN based Layer 7 protocol, which was originally developed by Allen Bradley. Operation of the DeviceNet is based on an object-oriented communications model. DeviceNet is maintained by the "Open DeviceNet Vendor Association (ODVA)" and can be implemented free of license. Application area: automation engineering, factory automation |
CANalyzer.DeviceNet |