单站同步收发系统的高隔离自干扰消除

2021 IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC) Pub Date : 2021-08-09 DOI:10.1109/APWC52648.2021.9539666

M. N. Tarek, M. Roman, E. Alwan

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引用次数: 1

摘要

无线技术正在快速发展，以适应不断扩大的用户需求。目前，射频(RF)频谱过于拥挤，因此更容易受到信号自相残杀和干扰。为了增强频谱接入能力，采用带内全双工系统实现同时发送和接收(STAR)，并将频谱效率提高一倍和两倍。然而，STAR系统需要抑制可能泄漏到接收器链的高功率发射信号。可以观察到，发射机对接收机施加的干扰信号比期望接收的信号强约60 - 90db。这种类型的自干扰(SI)可以显著降低接收机的动态范围，并经常导致其脱敏。因此，成功的STAR实现需要发射器和接收器之间相当大的隔离，以减少SI信号。

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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High Isolation Self-Interference Cancelation for Monostatic Simultaneous Transmit and Receive System

Wireless technology is growing at a fast rate to accommodate the expanding user demands. Currently, the radio frequency (RF) spectrum is overcrowded, hence more susceptible to signal fratricide and interference. To enhance spectrum access, in-band full duplex systems are implemented to achieve simultaneous transmission and reception (STAR) and doubleand double the spectral efficiency. However, STAR systems require suppression of the high power transmit signals that can leak to the receiver chain. It is observed that the interference signal imposed on the receiver by the transmitter is approximately 60–90 dB stronger than the desired received signal. This type of self-interference (SI) can significantly reduce the receiver’s dynamic range and often leads to its desensitization. Therefore, successful STAR implementation requires considerable isolation between the transmitter and receiver to reduce the SI signal.

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2021 IEEE-APS Topical Conference on Antennas and Propagation in Wireless Communications (APWC)

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