High ION and ION/IOFF Ratio Enhancement-Mode Buried p-Channel GaN MOSFETs on p-GaN Gate Power HEMT Platform

被引：86

作者：

Zheng, Zheyang ^{[1
]}

Song, Wenjie ^{[1
]}

Zhang, Li ^{[1
]}

Yang, Song ^{[1
]}

Wei, Jin ^{[1
]}

Chen, Kevin J. ^{[1
]}

机构：

[1] Hong Kong Univ Sci & Technol, Dept Elect & Comp Engn, Hong Kong, Peoples R China

来源：

IEEE ELECTRON DEVICE LETTERS | 2020年 / 41卷 / 01期

关键词：

GaN; p-channel; MOSFETs; E-mode; I-ON/I-OFF ratio; oxygen plasma treatment;

D O I：

10.1109/LED.2019.2954035

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

Enhancement-mode (E-mode) buried p-channel GaN metal-oxide-semiconductor field-effecttransistors (p-GaN-MOSFET's) with threshold voltage (V-TH) of -1.7 V, maximum ON-state current (I-ON) of 6.1 mA/mm and I-ON/I-OFF ratio of 107 are demonstrated on a standard p-GaN/AlGaN/GaN-on-Si power HEMT substrate. An oxygen plasma treatment (OPT) was deployed to the gated p-GaN region where a relatively thick (i.e. 31 nm) GaN is retained without aggressive gate recess. The OPT converts the top portion of the GaN layer to be free of holes so that only the bottom portion remains p-type while being spatially separated from the etched GaN surface and gate-oxide/GaN interface. As a result, E-mode operation is enabled while a high-quality p-channel is retained. Multi-energy fluorine ion implantation was implemented for planar isolation of GaN p-channel FETs with mesa edges and sidewalls eliminated. Consequently, high I-ON/I-OFF ratio is obtained.

引用

页码：26 / 29

页数：4

共 50 条

[1] Enhancement-Mode GaN p-Channel MOSFETs for Power Integration
Zheng, Zheyang
Song, Wenjie
Zhang, Li
Yang, Song
Xu, Han
Wong, Roy K-Y
Wei, Jin
Chen, Kevin J.
[J]. PROCEEDINGS OF THE 2020 32ND INTERNATIONAL SYMPOSIUM ON POWER SEMICONDUCTOR DEVICES AND ICS (ISPSD 2020), 2020, : 525 - 528
[2] Threshold Voltage Instability of Enhancement-Mode GaN Buried p-Channel MOSFETs
Zheng, Zheyang
Zhang, Li
Song, Wenjie
Chen, Tao
Feng, Sirui
Ng, Yat Hon
Sun, Jiahui
Xu, Han
Yang, Song
Wei, Jin
Chen, Kevin J.
[J]. IEEE ELECTRON DEVICE LETTERS, 2021, 42 (11) : 1584 - 1587
[3] Unveiling the parasitic electron channel under the gate of enhancement-mode p-channel GaN field-effect transistors on the p-GaN/AlGaN/GaN platform
Zheng, Zheyang
Chen, Tao
Zhang, Li
Song, Wenjie
Chen, Kevin J.
[J]. APPLIED PHYSICS LETTERS, 2022, 120 (15)
[4] Gate Characteristics of Enhancement-Mode Fully Depleted p-GaN Gate HEMT
Sun, Jiahui
Mouhoubi, Samir
Silvestri, Marco
Zheng, Zheyang
Ng, Yat Hon
Shu, Ji
Chen, Kevin J.
Curatola, Gilberto
[J]. IEEE ELECTRON DEVICE LETTERS, 2023, 44 (12) : 2015 - 2018
[5] Reliability of enhancement-mode p-GaN gate GaN HEMT with multiple field plates
Wei, Yingqiang
Wei, Jinghe
Zhao, Wei
Wu, Suzhen
Wei, Yidan
Liu, Meijie
Sui, Zhiyuan
Zhou, Ying
Li, Yuqi
Chang, Hong
Ji, Fei
Wang, Weibin
Yang, Lijun
Liu, Guozhu
[J]. SEMICONDUCTOR SCIENCE AND TECHNOLOGY, 2024, 39 (01)
[6] GaN power IC technology on p-GaN gate HEMT platform
Wei, Jin
Tang, Gaofei
Xie, Ruiliang
Chen, Kevin J.
[J]. JAPANESE JOURNAL OF APPLIED PHYSICS, 2020, 59 (SG)
[7] High performance AlInN/AlN/GaN p-GaN back barrier Gate-Recessed Enhancement-Mode HEMT
Adak, Sarosij
Sarkar, Arghyadeep
Swain, Sanjit
Pardeshi, Hemant
Pati, Sudhansu Kumar
Sarkar, Chandan Kumar
[J]. SUPERLATTICES AND MICROSTRUCTURES, 2014, 75 : 347 - 357
[8] Enhancement-mode n-channel GaN MOSFETs fabricated on p-GaN using HfO2 as gate oxide
Sugiura, S.
Kishimoto, S.
Mizutani, T.
Kuroda, M.
Ueda, T.
Tanaka, T.
[J]. ELECTRONICS LETTERS, 2007, 43 (17) : 952 - 953
[9] Enhancement-mode p-GaN Comparators for power applications
Pozo, Nataly
Procel, Luis-Miguel
Trojman, Lionel
[J]. 2023 18TH CONFERENCE ON PH.D RESEARCH IN MICROELECTRONICS AND ELECTRONICS, PRIME, 2023, : 197 - 200
[10] An energy-band modulated p-GaN/InGaN/AlN p-channel MESFET with high ION/IOFF ratio and steep subthreshold swing
Su, Huake
Zhang, Tao
Xu, Shengrui
Tao, Hongchang
Gao, Yuan
Liu, Xu
Xie, Lei
Xiang, Peng
Cheng, Kai
Hao, Yue
Zhang, Jincheng
[J]. APPLIED PHYSICS LETTERS, 2024, 124 (16)

← 1 2 3 4 5 →