Abstract

The development of GaN based devices for microwave power electronics at the University of California, Santa Barbara (UCSB), is reviewed. From 1995 to 2000, the power performance of AlGaN/GaN-on-sapphire heterojunction field effect transistors improved from 1.1 W/mm to 6.6 W/mm, respectively. Compensating the disadvantages of the low thermal conductivity of the sapphire substrate through heat management via flip chip bonding onto AlN substrates, large periphery devices with an output power of 7.6 W were demonstrated. UCSB also fabricated the first GaN based amplifier integrated circuits. Critical issues involved in the growth of high quality AlGaN/GaN heterostructures by metal-organic chemical vapor deposition and the device fabrication are discussed.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
“Men anpil, chay pa lou”: Reflecting on Initial and Future Collaborative Projects between the University of California, Santa Barbara, and the Community of Carrefour-Feuilles, Haiti
Mariah Boyd ... Jamella Gow
Journal of Haitian Studies | VOL. 21
Mariah Boyd, et. al.Mariah Boyd ... Jamella Gow
01 Mar 2015
Estimation of broadband emissivity from satellite multi-channel thermal infrared data using spectral libraries
T Schmugge ... F Jacob
-
T Schmugge, et. al.T Schmugge ... F Jacob
07 Nov 2002
The digital systems laboratory at UCSB: an evolutionary progression
J.A Howard ... R.C Wood
-
J.A Howard, et. al.J.A Howard ... R.C Wood
22 Oct 1988
Design and Social Change: An Architectural History of the University of California, Santa Barbara
Julia Diane Larson
The American Archivist | VOL. 84
Julia Diane LarsonJulia Diane Larson
01 Sep 2021
View more papers

More From: IEEE Transactions on Electron Devices

Paper Title
Journal
Date
Author
Asymmetric and Double-Layered Gate-All- Around Structures of 1T-DRAM for Sensing Margin and Retention Improvement
Semyung Kwon ... Ilgu Yun
IEEE Transactions on Electron Devices | VOL. 71
Semyung Kwon, et. al.Semyung Kwon ... Ilgu Yun
01 Jun 2024
Embedded Gate Driver Circuit With Self-Aligned InGaZnO TFTs Using Common Bootstrapped Capacitive Driving for High-Resolution WOLED Displays
Kyung Min Kim ... Hyun Jae Kim
IEEE Transactions on Electron Devices | VOL. 71
Kyung Min Kim, et. al.Kyung Min Kim ... Hyun Jae Kim
01 Jun 2024
Ruggedness of Silicon Power MOSFETs–Part II: Device Design Failures and Modeling: A Review
R Tambone ... R J E Hueting
IEEE Transactions on Electron Devices | VOL. 71
R Tambone, et. al.R Tambone ... R J E Hueting
01 Jun 2024
Improving the Ferroelectric Properties of Nd:HfO₂ Thin Films by Stacking Hf₀.₅Zr₀.₅O₂ Interlayers
Yongguang Xiao ... Yong Jiang
IEEE Transactions on Electron Devices | VOL. 71
Yongguang Xiao, et. al.Yongguang Xiao ... Yong Jiang
01 Jun 2024
View more papers