Investigation of heavy ion irradiation effects on 650-V p-GaN normally-off HEMTs

被引:0
作者
Yinhe Wu
Jincheng Zhang
Shenglei Zhao
Zhaoxi Wu
Zhongxu Wang
Bo Mei
Chao Duan
Dujun Zhao
Weihang Zhang
Zhihong Liu
Yue Hao
机构
[1] Xidian University,Key Laboratory of Wide Band
[2] China Aerospace Components Engineering Center,Gap Semiconductors and Devices, School of Microelectronics
来源
Science China Information Sciences | 2022年 / 65卷
关键词
heavy ions irradiation; p-GaN normally-off HEMTs; line-shaped crystal defects; leakage path; defect percolation process;
D O I
暂无
中图分类号
学科分类号
摘要
In this study, we investigate heavy ion irradiation effects on commercial 650 V p-GaN normally-off HEMTs. Ge and Cl ions are used to irradiate the GaN devices in the experiments. Ge and Cl ion beam irradiation have little impact on the output characteristics of GaN devices. After heavy ion irradiation, the leakage currents between source and drain electrodes increase significantly under off-state, decreasing the breakdown voltage (BVDS) sharply. Additionally, Ge and Cl ion irradiation have little effect on the trap states under the gate electrode; thus, the gate leakage currents increase slightly. Many line-shaped crystal defects extending from the surface to the GaN buffer layer can be captured using a transmission electron microscope after Ge/Cl ion irradiation. The buffer layers of the irradiated devices were damaged, and the leakage path was generated in the buffer layer. Defect percolation process in buffer layer is the dominant factor of irradiated high-voltage GaN device failure.
引用
收藏
相关论文
共 49 条
[1]  
Wu Y F(1996)Very high breakdown voltage and large transconductance realized on GaN heterojunction field effect transistors Appl Phys Lett 69 1438-1440
[2]  
Keller B P(1997)GaN based heterostructure for high power devices Solid-State Electron 41 1555-1559
[3]  
Keller S(2017)GaN-on-Si power technology: devices and applications IEEE Trans Electron Dev 64 779-795
[4]  
Asif K M(2015)Influence of heavy ion irradiation on DC and gate-lag performance of AlGaN/GaN HEMTs Chin Phys B 24 056103-52
[5]  
Chen Q(2018)Total-ionizing-dose responses of GaN-based HEMTs with different channel thicknesses and MOSHEMTs with epitaxial MgCaO as gate dielectric IEEE Trans Nucl Sci 65 46-225
[6]  
Shur M S(2017)Worst-case bias for proton and 10-keV X-ray irradiation of AlGaN/GaN HEMTs IEEE Trans Nucl Sci 64 218-1500
[7]  
Chen K J(2019)Heavy ion irradiation effects on GaN/AlGaN high electron mobility transistor failure at off-state MicroElectron Reliab 102 113493-4450
[8]  
Haberlen O(2015)Experimental study of single event effects induced by heavy ion irradiation in enhancement mode GaN power HEMT MicroElectron Reliab 55 1496-2888
[9]  
Lidow A(2013)Enhanced charge collection by single ion strike in AlGaN/GaN HEMTs IEEE Trans Nucl Sci 60 4446-2249
[10]  
Lei Z F(2014)Determination of single-event effect application requirements for enhancement mode gallium nitride HEMTs for use in power distribution circuits IEEE Trans Nucl Sci 61 2881-1122
12345