Guided wave radar technology is highly suited to very difficult level measurement applications. A typical guided wave radar setup will involve a transmitter that is installed on top of a vessel or ...

Japan’s Polyplastics Group has launched a new electrically conductive grade of Duranex polybutylene terephthalate (PBT) for millimeter wave radar applications in the automotive industry. Duranex PBT ...

Radar systems generally consist of a transmitter which can produce electromagnetic signal and which is radiated into space using an antenna. When this signals strikes an object it reflects into many ...

ProSense GWR series liquid level sensors utilize guided wave radar sensing technology to provide accurate, cost-effective liquid level measurement for industrial applications. These units provide ...

This White Paper provides a detailed review of radar waveforms for Aerospace and Defense and commercial radar systems, as well as commercial radar sensors such as those used in automotive safety ...

This article is part of the TechXchange: Automotive Radar. The primary goal of using radar in the automotive industry is to facilitate object detection for cars. Simple continuous-wave radar devices ...

Tesla uses a front-facing radar sensor hidden inside the front fascia of its vehicles as part of its Autopilot/Full Self-Driving (FSD) sensor suite. Electrek has found a new FCC filing from Tesla in ...

On-chip antenna design for millimetre-wave applications represents a pivotal frontier in wireless communications, merging the realms of integrated circuit technology with high-frequency ...

Radar (acronym for Radio Detection and Ranging) uses radio waves to detect objects in the environment. It allows determining the distance (known as range), angular position (bearing), and velocity.