The 130-175 GHz frequency spectrum, identified as D-band, will be the key-enabler for next-generation backhauling point-to-point wireless links. Since capacity requirements for mobile networks will increase according to 5G/ B5G deployment needs, a new paradigm for radio equipment needs to be developed. Integrated technologies based on silicon-germanium, exhibiting sub-THz cut-off frequency, are going to be adopted to design and implement the key building blocks for fully integrated transceivers. D-band radio frequency integrated circuits and antenna concepts are presented, tailoring phased array allowing electronic beamsteering and beamforming features.
D-band phased array antenna module for 5G backhaul
Fonte A.;Moscato S.;Moro R.;Mazzanti A.;Piotto L.;Lodi Rizzini D.;Tesolin F.;Dartizio S. M.;Levantino S.
2024-01-01
Abstract
The 130-175 GHz frequency spectrum, identified as D-band, will be the key-enabler for next-generation backhauling point-to-point wireless links. Since capacity requirements for mobile networks will increase according to 5G/ B5G deployment needs, a new paradigm for radio equipment needs to be developed. Integrated technologies based on silicon-germanium, exhibiting sub-THz cut-off frequency, are going to be adopted to design and implement the key building blocks for fully integrated transceivers. D-band radio frequency integrated circuits and antenna concepts are presented, tailoring phased array allowing electronic beamsteering and beamforming features.| File | Dimensione | Formato | |
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RP_E9788770046640.pdf
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