Impact of Passivation Thickness in Highly Scaled GaN HEMTs
Electron Device Letters, IEEE(2012)
摘要
This letter studies the influence of the passivation thickness on the device characteristics of InAlGaN/GaN high-electron-mobility transistors with a gate length between sub-30 and 70 nm. As the Al2O3 passivation thickness increases, the current collapse in 80-μs pulsed-I -V measurements decreases from 30% to 13%, while dc characteristics are almost unchanged with the exception of increasing drain-induced barrier lowering. The thicker passivation increases the fringing gate capacitance, which can be about 30% of the total gate capacitance in the devices with a gate length below 35 nm. This capacitance results in a significant drop of current-gain cutoff frequency (fT), and its effect is more important in the shorter gate length devices.
更多查看译文
关键词
iii-v semiconductors,alumina,gallium compounds,high electron mobility transistors,passivation,wide band gap semiconductors,al2o3,inalgan-gan,current-gain cutoff frequency,dc characteristics,device characteristics,drain-induced barrier lowering,fringing gate capacitance,gate length devices,high-electron-mobility transistors,highly scaled hemt,passivation thickness,pulsed-i-v measurements,time 80 mus,$hbox{al}_{2}hbox{o}_{3}$,gan,current collapse,current-gain cutoff frequency $(f_{t})$,high-electron-mobility transistor (hemt),capacitance,drain induced barrier lowering,logic gates
AI 理解论文
溯源树
样例
生成溯源树,研究论文发展脉络
Chat Paper
正在生成论文摘要