Car manufacturers with an eye on the Japanese market can benefit from the joint venture between NXP and Hitachi Solutions to secure a lead in the development of their own V2X solutions, NXP advertised. The platform will enable the design of on-board units (OBUs) and complete telematics modules alike. NXP and Hitachi will combine the V2X chipset from NXP and the V2X software stack from Hitachi to a solution that can support Europe, the USA, Korea (5.9GHz) and Japan (760MHz). Thus, other markets such as Europe and the USA can also be served with a single, reusable concept. Car manufacturers and tier-one suppliers can thus save development costs.
With V2X technology, vehicles can "see around the corner" and communicate with other vehicles and the infrastructure. In safety-critical applications such as platooning or emergency braking systems, minimum latency times are indispensable for real-time communication. This technology also allows a range of more than 1.5 kilometers, even if no mobile phone connection is available.
As part of the cooperation with Hitachi, NXP will provide the SAF5400, the first automotive-qualified DSRC modem as a single-chip solution that can also address the Japanese market. Its scalable architecture and feature set such as fastest start-up time, long range, dual antenna support and digital diversity as well as best-in-class Software Defined Radio (SDR) technologies provide vehicle manufacturers with flexible options for worldwide V2X deployment and field upgrades. The SAF5400 is the second generation of a V2X solution that has proven its functionality on the road since 2017.
The V2X single-chip modem equipped with security mechanisms is based on NXP's SDR technology. Customers thus have a platform that can cover different regional standards with just one hardware solution. The integration ensures that development, qualification and maintenance costs are significantly reduced and the challenges of a worldwide introduction of V2X are easier to master. The modem includes a hardware engine for secure processing of incoming