On the research breakthrough, Dr Hu Sanming, a key researcher from IME leading the antenna project, said, “The novel use of polymer filling enables over 70% antenna size shrinkage and a record high gain of 5.68 dBi at 135 GHz. By filling the antenna cavity with polymer instead of air, we can achieve a flat surface for subsequent processing by standard technology that is amenable to mass production.”
“The team has also designed a three-dimensional (3D) architecture to integrate the antenna with active circuits to form a fully integrated wireless millimetre-wave system-in-package solution with high performance, reduced footprint and low electromagnetic interference,” commented Dr Je Minkyu, Principal Investigator of the Integrated Circuits and Systems Laboratory at IME.
Professor Dim-Lee Kwong, Executive Director of IME, said, “IME’s silicon-based 135 GHz integrative antenna technology and the proposed 3D architecture have immense commercial potential as it combines form with function that can be realised with standard mass production infrastructure. These salient features make our technology extremely attractive to product developers who are looking to capture emerging markets in millimetre-wave applications.”
Other Antenna Work
Nanoparticle antennas could boost the range of other antennas
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