Human-like perception ranks high on a list of sought-after applications in the race for autonomous driving. SiLC has a laser focus FMCW LiDAR to enable this and other applications. The development of ...

Tokyo scientists have unveiled a tiny radar-on-chip prototype that could reshape future wireless hardware for beyond-5G and 6G ecosystems, marrying sensing with communications in a power-lean design.

Learn how to simplify the automotive antenna & power amplifier design process. Get this application note from Keysight Technologies. Today, radar systems, such as adaptive cruise control, stop-and-go, ...

A miniaturized radar chip, developed by researchers at Science Tokyo, advances Integrated Sensing and Communication for Beyond 5G and 6G systems. Measuring just 0.24 mm2 and consuming only 9.8 mW, the ...

How to optimize typical frequency modulated continuous wave (FMCW) radar range-Doppler signal processing algorithm kernels using both fixed- and floating-point computations on Cadence Tensilica DSPs.

Pretty much every modern car has some driver assistance feature, such as lane departure and blind-spot warnings, or adaptive cruise control. They’re all pretty cool, and they all depend on the car ...

imec recently announced what it claims is the world’s first CMOS 140GHz radar-on-chip system with integrated antennas in standard 28nm technology. This kind of advanced semiconductor technology is ...

Automotive electronic devices are making driving safer, with or without a hand on the steering wheel. Application of a technology long associated with the battlefield—radar—within modern advanced ...

Described as an effective and affordable LiDAR solution on a chip with solid-state beam steering, Voyant Photonics’ Carbon sensor is compact—approximately the size of a fingernail—and designed to ...

Aeva, the California-based lidar developer specializing in frequency-modulated continuous-wave (FMCW) versions of the technology, is claiming its first major design win for a series production vehicle ...

A problem faced by designers of phased array radar systems is the tradeoff of granularity or beam width and system cost, size, weight and power (SWAP). By increasing the number of elements in an array ...