The Sital CAN IP is an industry-standard, Bosch CAN protocol-compliant IP core for FPGA and ASIC design implementations. These cores are made to meet the stringent demands of modern digital infrastructures for reliability, security, and performance.
Introducing SnS CAN
The Sital safe and secure CAN IP (“SnS CAN”) has built-in cyber resilience and network health monitoring technologies. This pioneering approach to CAN IP core design introduces the world to high-resilience CAN IP technology. It is made to ensure the highest Databus reliability and protection for autonomous vehicle ECUs, UAVs, Aerospace Avionics, and Industrial applications.
The Sital SnS CAN is the world’s first high-resilience CAN IP offered in a licensed business model supporting hardware vendor independence, cost management, and CAN node optimization.
Core Features and Capabilities
Flexible VHDL Netlist Delivery
Our IP cores are delivered as VHDL netlists for compatibility across all FPGAs and ASIC implementations. This flexibility is the base of our commitment to providing solutions that are adaptable and versatile.
Rigorous Compliance and Certification
Our cores are designed to adhere strictly to the BOSCH CAN protocol and DO-254 DAL A certifiable. The implementation of CAN version 2.0B, with customizable bit rates up to 1 Mbit/sec and compliance with ISO 11898-5 specifications.
Enhanced CAN Controller Features
Our licensed VHDL IP core for implementing a safe and secure CAN controller in FPGA or ASIC highlights our innovative approach. Features included are standard, extended, and remote frames support, 8 maskable identifier filters, and loopback mode for self-testing.
Cyber Resilience and Circuit Failure Diagnostics
Our IP cores are fortified with features designed to ensure the utmost security and reliability. Cyber resilience features include white-listing message IDs, real-time source authentication, and anomaly detection. Additionally, our innovative approach to circuit failure diagnostics includes passive TDR information for all ECUs and the ability to detect and locate intermittent short circuits and disconnects, providing distance-to-fault information.