In this article, I will cover various aspects of millimeter wave (mmW) beamforming and antenna technology with what I consider interesting and unique technical design examples. Beamforming networks ...

Beamforming, based on multiple-input, multiple-output (MIMO) phased-array antennas, looks to make up a component part of the overall 5G cellular technology. While phased-arrays have been the basis of ...

Several issues have yet to be cracked with beamforming and massive MIMO antennas, which will make millimeter wave (mmWave) spectrum—a key ingredient in 5G networks—work on multiple devices and ...

To maintain stable and reliable connections between transmitters and receivers, these multibeam antennas use beamforming networks (BFNs) like the Butler and Nolen matrices. These BFNs control and ...

The beamforming antenna supports 5G FR2 bands from 24 GHz to 40 GHz and is scalable for rays in up to 64 elements. The combination of the high propagation loss of the millimeter wavelengths ...

Beamforming is a signal dispensation technique which is used in device arrays for steering signal transmission or reception. The radiation pattern of antenna array is created by calculation the ...

In Pivotal’s case, metamaterials technology has opened the way for software-defined, “holographic beamforming” antenna systems that can focus signals on fixed or moving targets. That’s an ...

Directional beamforming focuses a wireless signal toward a specific receiving device, rather than having the signal spread in all directions from a broadcast antenna, as it normally would.

Satellite communications (satcom) terminal supplier Isotropic Systems will license components of its optical multi-beamforming antenna technology to aerospace and defense companies to build ...