Shaped-Pattern Reflectarray Antennas for mm-Wave Networks Using a Simple Cell Topology

Shaped-Pattern Reflectarray Antennas for mm-Wave Networks Using a Simple Cell Topology

In this paper, it is proposed the use of ultra-thin reflectarrays in some emerging scenarios in the new mm-wave cellular networks such as 5G, Beyond-5G (B5G), and future 6G. To that purpose, two dual-linear polarization reflectarrays are developed to provide coverages in different scenarios at the m...

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Bibliographic Details
Main Authors: Borja Imaz-Lueje, Alvaro F. Vaquero, Daniel R. Prado, Marcos R. Pino, Manuel Arrebola
Format: Article
Language:English
Published: IEEE 2022-01-01
Series:IEEE Access
Subjects:
Reflectarray
dual-polarization
pattern shaping
millimeter wave
5G new radio
beyond-5G
Online Access:https://ieeexplore.ieee.org/document/9686737/
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Summary:In this paper, it is proposed the use of ultra-thin reflectarrays in some emerging scenarios in the new mm-wave cellular networks such as 5G, Beyond-5G (B5G), and future 6G. To that purpose, two dual-linear polarization reflectarrays are developed to provide coverages in different scenarios at the mm-waves band. Working at 28 GHz, reflectarray designs adapt the radiated field to the coverage area specified in each scenario, through an ultra-thin surface composed of simple cells. To evaluate the antenna performance, two reflectarray prototypes identical in size are manufactured and tested achieving a good trade-off between the performance and the low-cost, low losses and, low-profile characteristics of the antenna. This work demonstrates the good performance of simple topology reflectarrays, being an interesting antenna candidate in the upcoming wireless networks.
ISSN:2169-3536

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