电平衡双工器的隔离带宽增强

2021 8th International Conference on Electrical and Electronics Engineering (ICEEE) Pub Date : 2021-04-09 DOI:10.1109/ICEEE52452.2021.9415937

S. Soodmand, K. Morris, M. Beach

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引用次数: 1

摘要

在带内全双工(IBFD)收发器中，新建议的电平衡双工(EBD)技术通过使用混合结耦合发送器、接收器、天线和平衡阻抗来工作，其中平衡阻抗需要等于天线阻抗，以实现高发送-接收(TX-RX)隔离。这种隔离实现了一种形式的自干扰(SI)消除，以促进从单个天线同时传输和接收。天线阻抗随频率的变化显著降低了隔离带宽，是限制隔离的主要因素。设计了一种以等角阿基米德螺旋为核心结构的频率无关天线，在1.5GHz ~ 3.5GHz超宽带(UWB)频域具有较高的阻抗稳定性，并采用了一些电磁技术对天线阻抗进行了平滑处理。与文献相比，在EBD级使用该天线以及更简单的平衡阻抗导致EBD级的隔离带宽宽6倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Isolation Bandwidth Enhancement of Electrical Balance Duplexers

In In-Band Full Duplex (IBFD) transceivers, newly suggested Electrical Balance Duplexer (EBD) technique works by coupling transmitter, receiver, antenna, and balancing impedance using a hybrid junction where the balancing impedance needs to be equal to the antenna impedance to achieve a high Transmit-Receive (TX-RX) isolation. This isolation implements a form of self-interference (SI) cancellation to facilitates simultaneous transmission and reception from single antenna. Variations in antenna impedance with respect to frequency significantly reduces the isolation bandwidth and is dominant factor in limiting the isolation. A frequency independent antenna with a core structure of equiangular Archimedean spiral is designed by authors with high impedance stability in ultra-wideband (UWB) frequency domain of 1.5GHz to 3.5GHz while the antenna impedance is smoothened using some electromagnetic techniques. In comparison with the literature, using this antenna in the EBD stage along with a simpler balancing impedance is resulted to six times wider isolation bandwidth in the EBD stage.

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2021 8th International Conference on Electrical and Electronics Engineering (ICEEE)

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