Analog/RF and Power Performance Analysis of an Underlap DG AlGaN/GaN Based High-K Dielectric MOS-HEMT

被引:0
作者
Akash Roy
Rajrup Mitra
Arnab Mondal
Atanu Kundu
机构
[1] University of Southern California,Viterbi School of Engineering
[2] TATA Consultancy Services Limited,Electronics and Communication Engineering
[3] Polytechnic University of Milan,undefined
[4] Heritage Institute of Technology,undefined
来源
Silicon | 2022年 / 14卷
关键词
GaN/AlGaN; Underlapped dual gate(U-DG) MOS HEMT; Symmetric Underlap; Channel length modulation; High-k dielectric;
D O I
暂无
中图分类号
学科分类号
摘要
This paper exemplifies an exhaustive, figurative and subjective study on the RF performance and DC characteristics analysis of an Underlapped Double-Gate (U-DG) AlGaN/GaN heterojunction-based MOS-HEMT device with Hafnium-based high-k dielectric gate material. This paper depicts the effect of gate length variations on the drain current (ID), the transconductance (gm), the transconductance generation factor (gm/ID) and the RF FOMs intrinsic capacitances (CGD, CGS and CGG), intrinsic resistances (RGD and RGS), cut-off frequency (fT) and maximum oscillation frequency (fMAX). This study reveals shortening of channel length leading to better gate controllability hence an overall superior analog and RF performance is achieved. The U-DG AlGaN/GaN based MOS-HEMT device of 100 nm channel length shows a better Power Output Efficiency (POE) of 33% in contrast to 31% and 23% for the 200 nm and 300 nm devices respectively.
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页码:2211 / 2218
页数:7
相关论文
共 108 条
[1]  
Xie Q(2012)Review and critique of analytic models of MOSFET short-channel effects in subthreshold IEEE Trans Electron Devices 59 1569-1579
[2]  
Xu J(2006)Underlap DGMOS for digital-subthreshold operation IEEE Trans Electron Devices 53 910-913
[3]  
Taur Y(2008)GaN-based RF power devices and amplifiers Proc IEEE 96 287-305
[4]  
Paul BC(2017)Effects of elevated source/drain and side spacer dielectric on the drivability optimization of non-abrupt ultra shallow junction gate underlap DG MOSFETs J Electron Mater 46 520-526
[5]  
Bansal A(2019)Temperature analysis of underlap GAA-SNWTs for analog/RF applications Microelectron J 90 58-62
[6]  
Roy K(2016)Influence of Underlap on gate stack DG-MOSFET for analytical study of analog/RF performance Superlattice Microst 94 60-73
[7]  
Mishra UK(2018)Effect of barrier layer thickness on AlGaN/GaN double gate MOS-HEMT device performance for high-frequency application J Nanoelectron Optoelectron 13 20-26
[8]  
Shen L(2018)enhancement-mode GaN MOS-HEMTs with recess-free barrier engineering and high-${k} $ ZrO2 gate dielectric IEEE Electron Device Lett 39 405-408
[9]  
Kazior TE(2015)Analog/RF performance of AlInN/GaN Underlap DG MOSHEMT Superlattice Microst 88 508-517
[10]  
Wu Y-F(2019)Bonding pad over active area layout for lateral AlGaN/GaN power HEMTs: a critical view IEEE Trans Electron Devices 66 2301-2306
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