Breakthroughs in antennas, metasurfaces, and AI are transforming mmWave networks, enabling more dependable and high-capacity ...

Using this equation, the radius (r) of CDRA was calculated for the height (h) = 6 mm. This height was selected based on the availability of the material. The calculated radius was 25 mm. However, this ...

2 Design and analysis of beam reconfigurable graphene-liquid antenna 2.1 Antenna design We design and numerically analyze the proposed graphene-based liquid antenna over mmWave frequency bands. The ...

This project demonstrates a design methodology for optimizing high-quality communication between base stations and clients through enhanced signal-to-noise ratio (SNR). It leverages linear phased ...

Sivers Semiconductors unveiled a new line of antenna array products and evaluation kits for millimeter-wave SATCOM and 5G applications at Mobile World Congress 2025. These products mark a strategic ...

The company’s Head of Engineering, Greg LaCaille, developed massive MIMO phased array systems at Berkeley, and has broad expertise in mmWave and RFIC design.

Starlink's Phased Array Antenna Technology: The Key to Seamless Satellite Connectivity In the realm of modern satellite communication, SpaceX's Starlink system stands out for its innovative use of ...

Extensive efforts have been made in designing large multiple-input multiple-output (MIMO) arrays. However, there is still a gap between array antenna design and MIMO performance evaluation in ...

A 12-port antenna array operating in the long term evolution (LTE) band 42 (3400-3600 MHz), LTE band 43 (3600-3800 MHz), and LTE band 46 (5150-5925 MHz) for 5G massive multiple-input multiple-output ...