Title :
220GHz fT and 400GHz fmax in 40-nm GaN DH-HEMTs with re-grown ohmic
Author :
Shinohara, K. ; Corrion, A. ; Regan, D. ; Milosavljevic, I. ; Brown, D. ; Burnham, S. ; Willadsen, P.J. ; Butler, C. ; Schmitz, A. ; Wheeler, D. ; Fung, A. ; Micovic, M.
Author_Institution :
HRL Labs., LLC, Malibu, CA, USA
Abstract :
We report record RF performance in 40nm-gate GaN-HEMT technology. Through vertical scaling in an AlN/GaN/AlGaN double heterojunction (DH) HEMT structure and reduction of access resistance using MBE re-growth of n+-GaN ohmic contacts, fully-passivated 40-nm devices exhibited excellent DC characteristics, such as an Ron of 0.81Ω·mm, an Idmax of 1.61A/mm, a BVoff of 42V, and a peak extrinsic gm of 723mS/mm, resulting in a peak fT of 220GHz and a peak fmax of 400GHz. The measured fT and fmax are the highest ever reported in a GaN-HEMT technology. Small signal model and delay time analysis showed that the parasitic charging time was only 10% of total delay time and the gate transit time scaled with the gate length (Lg) down to 40nm, demonstrating high scalability of the new technology.
Keywords :
III-V semiconductors; aluminium compounds; gallium compounds; high electron mobility transistors; ohmic contacts; passivation; AlGaN double heterojunction HEMT structure; AlN double heterojunction HEMT structure; AlN-GaN-AlGaN; DC characteristics; GaN DH-HEMT; GaN-HEMT technology; RF performance; delay time analysis; frequency 220 GHz; frequency 400 GHz; gate transit time; parasitic charging time; passivation; small signal model; total delay time; vertical scaling;
Conference_Titel :
Electron Devices Meeting (IEDM), 2010 IEEE International
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4424-7418-5
Electronic_ISBN :
0163-1918
DOI :
10.1109/IEDM.2010.5703448
