2-D Beam-Steerable Integrated Lens Antenna System for 5G [Formula Omitted]-Band Access and Backhaul

The new services available through smart devices require very high cellular network capacity. The capacity requirement is expected to increase exponentially with the forthcoming 5G networks. The only available spectrum for truly wideband communication (>1 GHz) is at millimeter wavelengths. The hi...

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Published in:IEEE transactions on microwave theory and techniques 2016-07, Vol.64 (7), p.2244
Main Authors: Ala-Laurinaho, Juha, Aurinsalo, Jouko, Karttunen, Aki, Kaunisto, Mikko, Lamminen, Antti, Nurmiharju, Juha, Raisanen, Antti V, Saily, Jussi, Wainio, Pekka
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container_title IEEE transactions on microwave theory and techniques
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creator Ala-Laurinaho, Juha
Aurinsalo, Jouko
Karttunen, Aki
Kaunisto, Mikko
Lamminen, Antti
Nurmiharju, Juha
Raisanen, Antti V
Saily, Jussi
Wainio, Pekka
description The new services available through smart devices require very high cellular network capacity. The capacity requirement is expected to increase exponentially with the forthcoming 5G networks. The only available spectrum for truly wideband communication (>1 GHz) is at millimeter wavelengths. The high free space loss can be overcome by using the directive and beam-steerable antennas. This paper describes a design and the measurement results for a lens antenna system for [Formula Omitted]-band having 2-D beam-steering capability. Continuous beam-switching range of about [Formula Omitted] is demonstrated with the lens having the maximum measured directivity of 36.7 dB. Link budget calculation for backhaul application using the presented lens antenna system is presented and compared with the measurement results of the implemented demo system.
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