Broadside FD Antenna Topologies for Nanosat Intersatellite Link

Broadside FD Antenna Topologies for Nanosat Intersatellite Link

This paper presents and compares four different antenna topologies dedicated to Full-Duplex (FD) applications. The proposed architectures are able to operate simultaneously for transmitting TX and receiving RX radiating elements along broadside direction, contrarily to most of state of the art FD RF...

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Bibliographic Details
Published in:2020 18th IEEE International New Circuits and Systems Conference (NEWCAS) pp. 242 - 245
Main Authors: Pen, Allan, Roy, Marc Le, Lababidi, Raafat, Jeune, Denis Le, Perennec, Andre, Issler, Jean-Luc, Elis, Kevin, Gay, Adrien, Corre, Jean-Herve
Format: Conference Proceeding
Language:English
Published: IEEE 01-06-2020
Subjects:
Antenna arrays
Antenna feeds
Antenna radiation patterns
Frequency measurement
Full-Duplex
Inter Satellite Link
Microstrip antennas
Self-Interference Cancellation
Simultaneous Transmit And Receive (STAR)
Topology
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Summary:This paper presents and compares four different antenna topologies dedicated to Full-Duplex (FD) applications. The proposed architectures are able to operate simultaneously for transmitting TX and receiving RX radiating elements along broadside direction, contrarily to most of state of the art FD RF front-ends that also rely on destructive wave's concept to get Self-Interference Cancellation (SIC). The four prototypes make use of three SIC stages and the common first level is obtained using orthogonal linear polarization between TX and RX. Step-by-step improvements are introduced from one to another topology in order to increase the SIC level and to reduce both side lobe levels and antenna size. Simulated and experimental results are provided, compared and discussed at the center frequency of 2.4 GHz as a proof of concept. The isolation obtained between TX and RX paths is higher than 80 dB in simulation and 60 dB in measurement. These results pave the way to an implementation of a high gain Full-Duplex Ka-band antenna for Nanosat Intersatellite Link
DOI:10.1109/NEWCAS49341.2020.9159778