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Operational frequency degradation induced trapping in scaled GaN HEMTs

Brendan Ubochi, Soroush Faramehr, Khaled Ahmeda, Petar Igić, Karol Kalna Orcid Logo

Microelectronics Reliability, Volume: 71, Pages: 35 - 40

Swansea University Author: Karol Kalna Orcid Logo

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DOI (Published version): 10.1016/j.microrel.2017.02.008

Abstract

Cut-off frequency increase from 12.1 GHz to 26.4 GHz, 52.1 GHz and 91.4 GHz is observed when the 1 μm gate length GaN HEMT is laterally scaled down to LG = 0.5 μm, LG = 0.25 μm and LG = 0.125 μm, respectively. The study is based on accurately calibrated transfer characteristics (ID-VGS) of the 1 μm...

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Published in: Microelectronics Reliability
ISSN: 0026-2714
Published: 2017
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa32025
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Abstract: Cut-off frequency increase from 12.1 GHz to 26.4 GHz, 52.1 GHz and 91.4 GHz is observed when the 1 μm gate length GaN HEMT is laterally scaled down to LG = 0.5 μm, LG = 0.25 μm and LG = 0.125 μm, respectively. The study is based on accurately calibrated transfer characteristics (ID-VGS) of the 1 μm gate length device using Silvaco TCAD. If the scaling is also performed horizontally, proportionally to the lateral (full scaling), the maximum drain current is reduced by 38.2% when the gate-to-channel separation scales from 33 nm to 8.25 nm. Degradation of the RF performance of a GaN HEMT due to the electric field induced acceptor traps experienced under a high electrical stress is found to be about 8% for 1 μm gate length device. The degradation of scaled HEMTs reduces to 3.5% and 7.3% for the 0.25 μm and 0.125 gate length devices, respectively. The traps at energy level of ET = EV + 0.9 eV (carbon) with concentrations of NIT = 5 × 1016cm− 3, NIT = 5 × 1017cm− 3 and NIT = 5 × 1018cm− 3 are located in the drain access region where highest electrical field is expected. The effect of traps on the cut-off frequency is reduced for devices with shorter gate lengths down to 0.125 μm.
Keywords: GaN HEMTs; Traps; Degradation; Radio frequency; Device modelling
College: Faculty of Science and Engineering
Start Page: 35
End Page: 40

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