0.5-3GHz接收器，带并行预选滤波器，实现120dB/dec通道选择性和+28dBm带外IIP3

2022 IEEE Custom Integrated Circuits Conference (CICC) Pub Date : 2022-04-01 DOI:10.1109/CICC53496.2022.9772854

Muhammad Ali Montazerolghaem, L. D. Vreede, M. Babaie

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引用次数: 1

摘要

最近的sub-6GHz接收机(RXs)试图在RX输入端实现射频信道选择，以抑制大型近距离阻滞器。虽然混频器优先的RXs可以实现锐利的RF滤波和良好的带外线性，但它们的噪声系数(NF)大，本LO泄漏高[1][2]。另外，[3]-[5]利用LNTA周围的n路陷波滤波器，同时在RX输入处实现低NF和中等通道选择。然而，它们的OOB IIP3和阻滞剂1dB压缩点(B1dS)比混频器优先的RXs至少差10dB。本文提出了一种基于lnta的RX，在不牺牲NF的情况下，显示出与现有技术混频器优先RX相似的OOB线性度。这是通过(1)在RX输入端添加并行预选滤波器来实现的，以提高RF选择性并实现+6dBm B1dB;(2)提出三阶射频和基带滤波器，以120dB/dec的滚降衰减近端阻滞器;(3)引入反馈网络，将带内(IB)增益波动降低到<0.5dB。

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A 0.5-3GHz Receiver with a Parallel Preselect Filter Achieving 120dB/dec Channel Selectivity and +28dBm Out-of-Band IIP3

Recent sub-6GHz receivers (RXs) attempted to realize RF channel selection at the RX input for suppressing large close-in blockers. Although mixer-first RXs can achieve sharp RF filtering and good out-of-band (OOB) linearity, they suffer from large noise figure (NF) and high LO leakage [1] [2]. Alternatively, [3]–[5] exploited an N-path notch filter around an LNTA to simultaneously achieve low NF and a moderate channel selection at the RX input. However, their OOB IIP3 and blocker 1dB compression point (B1dS) are at least 10dB worse than the mixer-first RXs. This paper proposes an LNTA-based RX that shows a similar OOB linearity as prior art mixer-first RXs without sacrificing NF. This is achieved by (1) adding a parallel preselect filter at the RX input to improve the RF selectivity and achieve +6dBm B1dB; (2) proposing third-order RF and baseband filters to attenuate close-in blockers by a 120dB/dec roll-off; (3) introducing a feedback network to reduce the in-band (IB) gain fluctuations to <0.5dB.

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2022 IEEE Custom Integrated Circuits Conference (CICC)

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