Now OEMs and Tier 1 suppliers have greater access to affordable and reliable imaging radar sensor technology. The
production-ready, entry-level 4D imaging radar, developed by NXP and sinPro, is a solid proof of the technology.
Radar plays a critical role in the safety of modern vehicles. Over the past few years, there has been a need in the automotive
radar market for entry-level automotive imaging radar solutions with a better balance between performance and cost. While OEMs worldwide
could take advantage of such solutions, the demand is significant among emerging electric vehicle (EV) manufacturers in various
regions, including China, where electric vehicles are synonymous with smart vehicles.
To address this, NXP offers a dedicated chipset with the 16nm FinFET
S32R41 automotive imaging radar processor
and the
TEF82xx RFCMOS transceiver, in
dual-cascading configuration. Taking a step further, NXP collaborated with Tier 1 supplier sinPro, to develop an entry-level
imaging radar solution that will enter first OEM production in the second half of 2024.
The Leader in Radar. Find out why more companies choose NXP
automotive radar
sensors to meet their requirements.
Better Detection Improves Driving Safety and Comfort
Developed using the NXP radar chipset, the cost-efficient, high-performance 4D imaging radar sensor has 48 channels and
achieves:
- Angular resolution of one degree in azimuth
- Two degrees of elevation
- Detection of vehicles up to 370 meters
- Detection of tires without rims up to 130 meters
The radar sensor generates high-quality, dense 2k point clouds per frame with very low latency. It integrates further processing
for detection, clustering, tracking and classification based on the rich point clouds, all running on the NXP S32R41 automotive
imaging radar processor. This solves the true safety pain points of advanced driver-assistance systems (ADAS) and advanced
driving (AD) use cases, such as:
- Separating two adjacent objects at a distance from each other that are moving at the same or similar speed
- Detecting pedestrians emerging from behind parked cars
- Detecting small lost objects or potholes on roadways, even in dark environments—and rainy or foggy weather
When camera systems face challenges to timely detect in these cases, the imaging radar sensor takes over, improving road safety
and eliminating the corner cases of the underlying higher levels of ADAS / AD systems.
More Accessibility Means Faster Adoption
The well-achieved cost-performance balance of the entry-level imaging radar solution makes it more accessible to a broader
audience. This means faster adoption, allowing more people to benefit from improved road safety. The solution also helps
accelerate the penetration of L2+ capable vehicles and paves the way for earlier adoption of L3 and beyond autonomous driving
for private passenger vehicles.
The NXP radar chipset is available now. The
sinPro imaging radar sensor will be ready for OEM
production in the second half of 2024.