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A 0.3 GHz to 1.4 GHz N-path mixer-based code-domain RX with TX self-interference rejection

2017 IEEE Radio Frequency Integrated Circuits Symposium (RFIC) Pub Date : 2017-06-04 DOI:10.1109/RFIC.2017.7969070
Abhishek Agrawal, A. Natarajan
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引用次数: 14

Abstract

A code-domain N-path RX is proposed based on PN-code modulated LO pulses for concurrent reception of two code-modulated signals. Additionally, a combination of Walsh-Function and PN sequence is proposed to translate in-band TX self-interference (SI) to out-of-band at N-path RX output enabling frequency filtering for high SI rejection. A 0.3 GHz–1.4 GHz 65-nm CMOS implementation has 35 dB gain for desired signals and concurrently receives two RX signals while rejecting mismatched spreading codes at RF input. Proposed TX SI mitigation approach results in 38.5 dB rejection for −11.8dBm 1.46 Mb/s QPSK modulated SI at RX input. The RX achieves 23.7dBm OP1dB for in-band SI, while consuming ∼35mW and occupies 0.31mm2.
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一种基于0.3 GHz至1.4 GHz n路混频器的码域RX,具有TX自干扰抑制功能
提出了一种基于pn码调制LO脉冲的码域n径RX,用于同时接收两个码调制信号。此外,还提出了沃尔什函数和PN序列的组合,将带内TX自干扰(SI)转换为n路RX输出的带外自干扰,从而实现高SI抑制的频率滤波。0.3 GHz - 1.4 GHz 65nm CMOS实现对期望信号具有35db增益,并同时接收两个RX信号,同时在RF输入处抑制不匹配的扩展码。提出的TX SI缓解方法在RX输入处对- 11.8dBm 1.46 Mb/s QPSK调制SI产生38.5 dB抑制。RX实现23.7dBm OP1dB带内SI,功耗约35mW,占地0.31mm2。
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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2017 IEEE Radio Frequency Integrated Circuits Symposium (RFIC)
2017 IEEE Radio Frequency Integrated Circuits Symposium (RFIC)
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