NXP SJA1000T/N1,112 Stand-alone CAN Controller

The NXP SJA1000T/N1,112 is a high-performance stand-alone Controller Area Network (CAN) controller that serves as an interface between a CAN protocol controller and the physical bus. It is designed to provide a flexible solution for managing CAN networks in automotive and industrial applications, ensuring reliable communication in environments that require robust data exchange with minimal error rates.

Key Features:

• Compatibility: The SJA1000T/N1,112 is compatible with the ISO 11898 standard, ensuring it can operate in any CAN network that adheres to this widely accepted specification.
• Operating Modes: It offers various operating modes including a basicCAN mode as well as the more sophisticated PeliCAN mode, which extends the capabilities of the basicCAN mode with features such as error counters and an error warning limit.
• Message Handling: This device can handle standard and extended message frames and provides a sophisticated message filtering system.
• Bit Rate: The bit rate can be programmed up to 1 Mbit/s, making it suitable for high-speed CAN applications.
• Serial Interface: An SPI interface is available for easy integration with most microcontrollers.

Applications:

The SJA1000T/N1,112 is ideal for a wide range of applications in the automotive sector, including engine control units, body control modules, and gateways, as well as in industrial automation systems, robotics, and medical equipment where reliable data communication is critical.

Package and Quality:

It is offered in a 28-pin, plastic SO package that is suitable for surface-mounted technology (SMT). The device is also AEC-Q100 qualified, ensuring automotive-grade reliability and performance.

Additional Information:

For further details, datasheets, and support, customers can visit the NXP website or contact their local NXP sales office. The SJA1000T/N1,112 is part of NXP's broad portfolio of CAN controllers and transceivers, providing designers with a comprehensive solution for their CAN system requirements.