Automotive safety systems designed to avoid accidents are becoming increasingly common in today’s vehicles. New cars are often equipped with robust collision avoidance technologies due to regulations mandating their inclusion. These Active Safety technologies are enabled by innovative Advanced Driver Assistance Systems (ADAS) and use several sensor technologies, including radar, to detect conditions that may lead to a collision. With this, ADAS helps drivers arrive safely at their destination. Rogers is the world’s technology and market leader in innovative material solutions, providing high performance printed circuit board (PCB) laminates for automotive 24 GHz and 77 GHz radar sensor applications enabling active safety.

Advanced Driver Assistance Systems (ADAS)

Radar-based ADAS systems are active safety systems that assist drivers by giving vehicles the virtual ability to sense the static and dynamic objects on the road. High frequency circuit materials from Rogers Corporation are critical to the reliability of radar sensors essential for ADAS. At RF and millimeter wave frequencies such as 24 and 77 GHz, radar sensor designers require thin core PCB laminates with low insertion loss and low dielectric constant. Rogers’ materials have an established reputation for excellent quality and reliability in the electrical and mechanical properties required for radar sensors to achieve the highest performance.

  • 24 GHz Radar Sensors - RO4000® high frequency circuit materials are commonly used in 24 GHz radar sensors for blind spot detection or rear cross traffic alert. In blind spot detection radar sensors continuously monitor the presence, direction and speed of vehicles in adjacent lanes and alert the driver of any danger. RO4000 materials have proven their high-frequency capabilities and offer the circuit fabricator a process that is more aligned to standard PCB materials.
  • 76-81 GHz Radar Sensors - The latest active safety and comfort functions, like forward collision warning, emergency brake assist, adaptive cruise control and traffic jam pilot, require radar sensors operating in a range from 76-81 GHz. RO3000® High Frequency Laminates have an excellent dielectric constant tolerance of ± 0.04. These laminates also offer an extremely low dissipation factor, ensuring the dielectric loss component of insertion loss will be very low for these radars.

Vehicle-to-Vehicle (V2V) Communications

V2V is a crash avoidance technology which relies on communication of information between nearby vehicles to potentially warn drivers about dangerous situations that could lead to a crash. Seen as critical to the future of autonomous driving or self-driving cars, V2V can enable warnings that are not currently available to drivers through applications like Intersection Movement Assist, Left Turn Assist and Emergency Electronic Brake Light (EEBL). Reliable connectivity is essential for V2V systems and Rogers' high frequency materials used in antennas and modules are designed to achieve high performance and reliable connections between cars and infrastructure, even at high speed and under harsh vehicle environments.

Vehicle-to-Everything (V2X) Communications

With longer detection distance and the ability to “see” around corners or through other vehicles, V2X-equipped vehicles can perceive threats sooner than sensors, cameras, or radar can, and warn their drivers accordingly. With Vehicle-to-vehicle or vehicle-to-infrastructure communications, the car is communicating with other cars and nearby infrastructure by sending and receiving safety-related information through dedicated short range communication at 5.9 GHz (DSRC) or intelligent transportation system G5 (ITS-G5) and 3G/4G cellular network. Reliable connectivity is an essential requirement for DSRC and ITS-G5. Rogers’ high frequency materials are used in antennas and modules which are designed to achieve high performance and reliable connections between cars and infrastructure even at high speed and under harsh vehicle environments.

Related Products

CLTE Series® Laminates

Rogers Corporation’s CLTE Series® products are PTFE, woven-glass, microdispersed ceramic composite laminates with low CTE values ideal for high reliability.

DiClad® Series Laminates

Rogers Corporation’s DiClad® laminates are fiberglass reinforced PTFE based composites for use as printed circuit board substrates in high frequency applications.

RO3000® Series

RO3000® high frequency circuit materials are ceramic-filled PTFE composites intended for use in commercial microwave and RF applications.

RO4000® Series

RO4000® hydrocarbon ceramic laminates and prepregs are the industry leader.

RT/duroid® Laminates

RT/duroid® high frequency circuit materials are filled PTFE (random glass or ceramic) composite laminates for use in high reliability, aerospace and defense applications.

Document Library

Search our entire library for documents , including data sheets, technical information and more.

Search