High-Capacitance-Density p-GaN Gate Capacitors for High-Frequency Power Integration

被引：29

作者：

Tang, Gaofei ^{[1
]}

Kwan, M-H ^{[2
]}

Su, R-Y ^{[2
]}

Yao, F-W ^{[2
]}

Lin, Y-M ^{[2
]}

Yu, J-L ^{[2
]}

Yang, Thomas ^{[2
]}

Chern, Chan-Hong ^{[2
]}

Tsai, Tom ^{[2
]}

Tuan, H. C. ^{[2
]}

Kalnitsky, Alexander ^{[2
]}

Chen, Kevin J. ^{[1
]}

机构：

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

[2] Taiwan Semicond Mfg Co Ltd, Analog Power & Specialty Technol Div, Hsinchu 30077, Taiwan

来源：

IEEE ELECTRON DEVICE LETTERS | 2018年 / 39卷 / 09期

关键词：

Capacitance density; distribution effect; ESR; interdigitated layout; p-GaN gate capacitor; power integration; VOLTAGE; TECHNOLOGY; CIRCUITS; HEMTS;

D O I：

10.1109/LED.2018.2854407

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：

The p-GaN gate capacitors with a metal/p-GaN/AlGaN/GaN structure are demonstrated on an enhancement-mode (E-mode) GaN-on-Si power device platform. High capacitance density of >170 nF/cm(2) is obtained with an operating voltage range of 0 similar to 7 V. Frequency response of the p-GaN gate capacitors with circular and interdigitated layout design are characterized. It is found that the interdigitated layout can suppress the distribution effect and reduce the equivalent series resistance, and thus can significantly enhance the capacitor's high-frequency performance. The fabrication process of the p-GaN gate capacitors is fully compatible with the E-mode GaN power transistors, and thus can be seamlessly implemented as one of the on-chip peripheral components for GaN-based power integrated circuits.

引用

页码：1362 / 1365

页数：4

共 50 条

[31] A novel high breakdown voltage and high switching speed GaN HEMT with p-GaN gate and hybrid AlGaN buffer layer for power electronics applications*
Liu, Yong
Yu, Qi
Du, Jiang-Feng
[J]. CHINESE PHYSICS B, 2020, 29 (12)
[32] Gate Capacitance and Off-State Characteristics of E-Mode p-GaN Gate AlGaN/GaN High-Electron-Mobility Transistors After Gate Stress Bias
Yu-Chen Lai
Yi-Nan Zhong
Ming-Yan Tsai
Yue-Ming Hsin
[J]. Journal of Electronic Materials, 2021, 50 : 1162 - 1166
[33] Gate Capacitance and Off-State Characteristics of E-Mode p-GaN Gate AlGaN/GaN High-Electron-Mobility Transistors After Gate Stress Bias
Lai, Yu-Chen
Zhong, Yi-Nan
Tsai, Ming-Yan
Hsin, Yue-Ming
[J]. JOURNAL OF ELECTRONIC MATERIALS, 2021, 50 (03) : 1162 - 1166
[34] Figures of merit in high-frequency and high-power GaN HEMTs
Marino, F. A.
Faralli, N.
Ferry, D. K.
Goodnick, S. M.
Saraniti, M.
[J]. 16TH INTERNATIONAL CONFERENCE ON ELECTRON DYNAMICS IN SEMICONDUCTORS, OPTOELECTRONICS AND NANOSTRUCTURES (EDISON 16), 2009, 193
[35] A novel high breakdown voltage and high switching speed GaN HEMT with p-GaN gate and hybrid AlGaN buffer layer for power electronics applications
刘勇
于奇
杜江锋
[J]. Chinese Physics B, 2020, 29 (12) : 554 - 561
[36] Quasi-monolithic integration of high-power GaN-based HEMTs for high-frequency applications
Kricke, Alexander
Joodaki, Mojtaba
Dharmarasu, Nethaji
Kompa, Guenter
Hillmer, Hartmut
[J]. SEMICONDUCTOR SCIENCE AND TECHNOLOGY, 2007, 22 (11) : 1245 - 1248
[37] Parasitic capacitance simulation in high-frequency power electronics magnetics
Chen, W
Hu, YQ
He, JN
[J]. PROCEEDINGS OF THE FOURTH INTERNATIONAL CONFERENCE ON ELECTROMAGNETIC FIELD PROBLEMS AND APPLICATIONS, 2000, : 389 - 392
[38] Thermal management in high-frequency, high-power density, solar PV integrated GaN converter system
Venkatesan, Chandrasekar
Nagamani, Chilakapati
Ganesan, Saravana Ilango
[J]. MICROELECTRONICS RELIABILITY, 2023, 147
[39] Degradation of power p-GaN HEMT under high voltage switching
Marek, Juraj
Kozarik, Jozef
Jagelka, Martin
Drobny, Jakub
Chvala, Ales
Donoval, Daniel
Stuchlikova, L'ubica
[J]. 2018 12TH INTERNATIONAL CONFERENCE ON ADVANCED SEMICONDUCTOR DEVICES AND MICROSYSTEMS (ASDAM), 2018, : 171 - 174
[40] Remained p-GaN effect to turn-off energy loss (Eoff) in p-GaN gate power devices
Choi, Hyun-Sik
[J]. ELECTRONICS LETTERS, 2015, 51 (06) : 523 - 524

← 1 2 3 4 5 →