Analysis of quadratic dickson based envelope detectors for IoE sensor node applications

Pouyan Bassirian, J. Moody, S. Bowers
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引用次数: 12

Abstract

This paper presents a study of passive Dickson based envelope detectors operating in the quadratic small signal regime, specifically intended to be used in RF front end of sensing units of IoE sensor nodes. Critical parameters such as open-circuit voltage sensitivity (OCVS), charge time, input impedance, and output noise are studied and simplified circuit models are proposed to predict the behavior of the detector, resulting in practical design intuitions. There is strong agreement between model predictions, simulation results and measurements of 15 representative test structures that were fabricated in a 130 nm RF CMOS process.
基于二次dickson包络检测器的物联网传感器节点应用分析
本文提出了一种基于被动Dickson的包络探测器的研究,该探测器在二次小信号状态下工作,专门用于物联网传感器节点的传感单元的射频前端。研究了开路电压灵敏度(OCVS)、充电时间、输入阻抗和输出噪声等关键参数,并提出了简化的电路模型来预测探测器的行为,从而使设计更加实用。模型预测、仿真结果和在130 nm RF CMOS工艺中制造的15个代表性测试结构的测量结果之间存在很强的一致性。
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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