Design and Analysis of a Practical RMS Power Detector Using Power MOSFET

2021 IEEE 12th Annual Information Technology, Electronics and Mobile Communication Conference (IEMCON) Pub Date : 2021-10-27 DOI:10.1109/iemcon53756.2021.9623258

Jules Guiliary Ravanne, Y. L. Then, H. T. Su, I. Hijazin

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Abstract

Power detector chip design and fabrication have experienced significant advancement with the emergence of various technological processes such as BiCMOS and CMOS. With the continuous downscaling of semiconductor devices, chip fabrication has become more complex and less accessible. This paper investigates the design and analysis of RMS power detectors using power MOSFET. A BSIM3 model developed from extracted parameters of the power MOSFET datasheet was employed to design and simulate the RMS power detector. A cascode structure with a current-source load was used to realize high conversion gain and sensitivity. RMS detection is realized by exploiting the square-law principles of MOS transistors in the strong inversion region. The proposed RMS detector targets practical applications in the agricultural sector and educational institutions. The RMS power detector was fabricated using FR4 PCB substrate. The measurement results at 2 GHz suggest that the RMS power detector employed using power MOSFET on FR4 PCB substrate can detect RF power.

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基于功率MOSFET的实用均方根功率检测器的设计与分析

随着BiCMOS和CMOS等各种工艺的出现，功率探测器芯片的设计和制造取得了重大进展。随着半导体器件的不断缩小，芯片制造变得越来越复杂，越来越难实现。本文研究了基于功率MOSFET的RMS功率检测器的设计与分析。利用功率MOSFET数据表中提取的参数建立BSIM3模型，对RMS功率检测器进行了设计和仿真。采用电流源负载级联结构，实现了较高的转换增益和灵敏度。在强反转区利用MOS晶体管的平方定律原理实现均方根值检测。所提出的RMS检测器的目标是在农业部门和教育机构的实际应用。采用FR4基板制作RMS功率检测器。在2ghz频段的测量结果表明，基于功率MOSFET的RMS功率检测器可以检测射频功率。

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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2021 IEEE 12th Annual Information Technology, Electronics and Mobile Communication Conference (IEMCON)

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