Title :
High-Power Ka-Band Performance of AlInN/GaN HEMT With 9.8-nm-Thin Barrier
Author :
Crespo, A. ; Bellot, M.M. ; Chabak, K.D. ; Gillespie, J.K. ; Jessen, G.H. ; Miller, V. ; Trejo, M. ; Via, G.D., Jr. ; Walker, D.E. ; Winningham, B.W. ; Smith, H.E. ; Cooper, T.A. ; Gao, X. ; Guo, S.
Author_Institution :
AFRL Sensors Directorate, Air Force Res. Lab., Wright-Patterson AFB, OH, USA
Abstract :
We report the first CW Ka-band radio-frequency (RF) power measurements at 35 GHz from a passivated Al0.82In0.18N/GaN high-electron mobility transistor on SiC with 9.8-nm-thin barrier. This device delivered a maximum of 5.8 W/mm with a power-added efficiency of 43.6% biased at VDS = 20 V and 10% IDSS when matched for power at CW. The device was grown by metal-organic chemical vapor deposition with 2.8-??m source-drain spacing and a gate length of 160 nm. An excellent ohmic contact was obtained with an Rc of 0.62 ????mm. The maximum extrinsic transconductance was 354 mS/mm with an IDSS of 1197 mA/mm at a VGS of 0 V, an ft of 79 GHz, and an fmax of 113.8 GHz.
Keywords :
III-V semiconductors; aluminium compounds; chemical vapour deposition; gallium compounds; high electron mobility transistors; ohmic contacts; AlInN; AlInN/GaN HEMT; CW Ka-band radiofrequency power measurement; GaN; SiC; frequency 113.8 GHz; frequency 35 GHz; frequency 79 GHz; high-electron mobility transistor; high-power Ka-band performance; metal-organic chemical vapor deposition; ohmic contact; size 9.8 nm; voltage 20 V; Aluminum indium nitride; gallium nitride; high-electron mobility transistor (HEMT); millimeter-wave transistors; power measurement;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2009.2034875
