利用底板开关电容器技术设计和分析容错增益增强型 N 路径接收器

IF 2.4 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE open journal of circuits and systems Pub Date : 2024-04-16 DOI:10.1109/OJCAS.2023.3335116
Yi Mao;Gengzhen Qi;Pui-In Mak
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引用次数: 0

摘要

本文报告了一种宽带容错接收器(RX),其射频(RF)范围为 0.5 至 2 GHz。通过将增益增强(GB)混频器第一低噪声放大器(LNA)网络与底板开关电容(SC)N 路径滤波器相结合,所提出的 RX 提供了高射频增益和高带外阻塞抑制,从而改善了噪声系数(NF)和带外线性度。特别是,我们的 RX 在输入端增强了滤波功能,可有效防止带外阻塞物进入 RX。通过推导其线性时变(LTI)模型,分析了输入阻抗匹配、增益响应和噪声性能。此外,还提出了一种时钟延迟技术,以改善 LO 的非重叠特性。模拟结果表明,在 80-MHz 偏移频率下,RX 的 OOB-IIP3 为 29 dBm,B-1dB 为 -2.3 dBm。在 2 GHz 频率下,功耗为 25 mW,其中 LO 动态功耗仅为 4.7 mW。
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Design and Analysis of a Blocker-Tolerant Gain-Boosted N-Path Receiver Using a Bottom-Plate Switched-Capacitor Technique
This paper reports a wideband blocker-tolerant receiver (RX) that covers a 0.5-to-2 GHz radio frequency (RF) range. By combining the gain-boosted (GB) mixer-first low-noise amplifier (LNA) network with a bottom-plate switched-capacitor (SC) N-path filter, the proposed RX provides a high RF gain and high out-of-band (OOB) blocker suppression to improve both the noise figure (NF) and OOB linearity. Particularly, our RX features enhanced filtering at the input side that can effectively prevent the OOB blockers from entering into the RX. By deriving its linear time-invariant (LTI) model, the input impedance matching, gain response and noise performance are analyzed. Besides that, a clock-delay technique is proposed to improve the LO non-overlap characteristics. Designed in 65-nm CMOS, the simulated results present that under an 80-MHz offset frequency, the RX scores a 29 dBm OOB-IIP3 and a -2.3 dBm B-1dB. The NF ranges between 3.2 to 6 dB, and the active area is 0.66 mm 2. At 2 GHz, the power consumption is 25 mW, of which only 4.7 mW is due to the LO dynamic power.
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