An Integrated Full-Duplex/FDD Duplexer and Receiver Achieving 100MHz Bandwidth 58dB/48dB Self-Interference Suppression Using Hybrid-Analog-Digital Autonomous Adaptation Loops

Yuhe Cao, X. Cao, Hyungjoo Seo, Jin Zhou
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引用次数: 5

Abstract

This paper presents a 1.5-to-2 GHz CMOS electrical-balance duplexer and receiver supporting both frequency-division duplexing (FDD) and in-band full-duplex (IBFD) operations. The proposed multi-tap and multi-stage RF and analog self-interference cancellation adapts itself autonomously to a time-varying channel in real time using a new on-chip hybrid-analog-digital adaptation loop. A $G_{m}-C$-based reconfigurable frequency shift is utilized to support FDD operation. In measurement, 58dB and 48dB RF/analog self-interference suppression are achieved across a 100MHz bandwidth in the IBFD and the FDD mode, respectively. Using the proposed embedded adaptation loops, <50µs adaptation is achieved without any high-speed ADC or DSP.
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采用混合模数自适应环实现100MHz带宽58dB/48dB自干扰抑制的集成全双工/FDD双工和接收机
本文提出了一种支持频分双工(FDD)和带内全双工(IBFD)操作的1.5 ~ 2ghz CMOS电平衡双工器和接收机。所提出的多分接多级射频和模拟自干扰消除系统采用一种新的片上混合模数自适应环路,可实时自主适应时变信道。利用基于$G_{m}-C$的可重构频移来支持FDD操作。在测量中,在IBFD和FDD模式下,在100MHz带宽上分别实现了58dB和48dB的RF/模拟自干扰抑制。使用所提出的嵌入式自适应回路,无需任何高速ADC或DSP即可实现<50µs的自适应。
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