DocumentCode
745094
Title
High performance BCB-bridged AlGaAs/InGaAs power HFETs
Author
Chiu, Hsien-Chin ; Yeh, Tsung-Jung ; Yang, Shih-Cheng ; Hwu, Ming-Jyh ; Chan, Yi-Jen
Author_Institution
Dept. of Electr. Eng., Nat. Central Univ., Chungli, Taiwan
Volume
50
Issue
6
fYear
2003
fDate
6/1/2003 12:00:00 AM
Firstpage
1532
Lastpage
1536
Abstract
A novel low-k benzocyclobutene (BCB) bridged and passivated layer for AlGaAs/InGaAs doped-channel power field effect transistors (FETs) with high reliability and linearity has been developed and characterized. In this study, we applied a low-k BCB-bridged interlayer to replace the conventional air-bridged process and the SiNx passivation technology of the 1 mm-wide power device fabrication. This novel and easy technique demonstrates a low power gain degradation under a high input power swing, and exhibits an improved adjacent channel power ratio (ACPR) than those of the air-bridged one, due to its lower gate leakage current. The power gain degradation ratio of BCB-bridged devices under a high input power operation (Pin = 5 ∼ 10 dBm) is 0.51 dB/dBm, and this value is 0.65 dB/dBm of the conventional air-bridged device. Furthermore, this novel technology has been qualified by using the 85-85 industrial specification (temperature = 85 C, humidity = 85%) for 500 h. These results demonstrate a robust doped-channel HFET power device with a BCB passivation and bridged technology of future power device applications.
Keywords
III-V semiconductors; aluminium compounds; gallium arsenide; indium compounds; junction gate field effect transistors; leakage currents; organic compounds; passivation; power field effect transistors; semiconductor device reliability; AlGaAs-InGaAs; AlGaAs/InGaAs doped-channel power field effect transistor; BCB-bridged interlayer; adjacent channel power ratio; leakage current; linearity; low-k dielectric; passivated layer; power gain degradation ratio; reliability; Degradation; FETs; Fabrication; HEMTs; Indium gallium arsenide; Leakage current; Linearity; MODFETs; Passivation; Silicon compounds;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/TED.2003.813504
Filename
1213827
Link To Document