Multi-Antenna Configuration with Reduced Passive Self-Interference for Full-Duplex Intelligent Transportation System

Abstract

In this paper, we propose a closely spaced multi-antenna system with passive self-interference cancellation (p-SIC) of ≈ 90 dB between the transmitter and receiver antenna for full-duplex application. The p-SIC is achieved by field confinement near individual antennae using shorted metallic vias and the application of U-shaped perturbation in the ground plane. The p-SIC technique is initially implemented in a 1-Tx and 1-Rx antenna system and explained using transmission line-based theory. Further, it is extended to 1-Tx and 2-Rx configurations. Here the proposed full-duplex antenna system is designed at 5.9 GHz (5.855-5.925 GHz, IEEE 802.11p / WAVE technology) intelligent transportation system (ITS) application band using a microstrip patch configuration. The individual antenna exhibits an impedance bandwidth of 93 MHz (5.850-5.944 GHz), 5.63 dBi gain at 5.9 GHz operating frequency and X-pol level less than 20 dB in the broad side direction. The proposed FD configuration exhibits |Sij| of less than -50 dB over the complete operating band and ≈ -90 dB is achieved at the operating frequency between the Tx and Rx. Similarly, |Sij| of less the -30 dB is achieved between 2-Rx antennas for a three-element FD configuration. The design procedure of the proposed FD configuration is explained and verified using fabrication and measurement. An experimental demonstration of the self-interference channel and its suppression using the proposed p-SIC technique is also provided. Further, to study the diversity performance of the proposed multi-antenna configuration, the MIMO performance metrics such as ECC and CCL are evaluated using simulation and measurement.