Sometimes, you may want a part to be transparent for aesthetic reasons, and other times, transparency is a functional necessity. In either case, 3D printing’s flexibility in terms of design, materials ...

Transparent antenna technology is an innovative field that combines the functionality of antennas with the aesthetic and practical benefits of transparency. This technology is particularly ...

the new platform—dubbed "charge programmed multi-material 3D printing" (CPD)—is a universal system for rapid production of nearly all 3D antenna systems. It can pattern highly conductive metals with a ...

A team from the University of California-Berkley recently published a study proposing a charge-programmed 3D-printing method capable of producing previously inaccessible architectures. Antennas ...

NASA has developed and tested a 3D printed antenna to demonstrate a low-cost capability to communicate science data to Earth. The antenna, tested in flight using an atmospheric weather balloon, could ...

Abstract: This paper presents a wideband dual circularly polarized (CP) Luneburg Lens (LL) multi-beam antenna for 6G or satellite communication applications. The antenna system consists of six ±45° ...

“A 3D folded implantable electrically small antenna featuring interpenetrating Archimedean spirals and Hilbert curves. (Image courtesy of the researchers)” Meanwhile, the building substrate is ...

A new 3D printing/additive manufacturing platform that offers “unparalleled flexibility in antenna design and the capability for rapid printing of intricate antenna structures.” As reported in the ...

A 3D printing method creates antennas by combining metals and polymers, enabling designs and applications, including use in extreme environments. A 3D fractal tree antenna fabricated using charge ...