TY - JOUR
T1 - Analysis of Breakdown Voltages in AlGaN/GaN HEMTs with Low-Double Passivation Layers
AU - Nakamura, Kai
AU - Hanawa, Hideyuki
AU - Horio, Kazushige
N1 - Funding Information:
Manuscript received September 7, 2018; revised November 7, 2018; accepted March 3, 2019. Date of publication March 5, 2019; date of current version June 5, 2019. This work was supported in part by Japan Society for the Promotion of Science KAKENHI under Grant JP16K06314. (Corresponding author: Kazushige Horio.) The authors are with the Faculty of Systems Engineering, Shibaura Institute of Technology, Saitama 337-8570, Japan (e-mail: horio@sic.shibaura-it.ac.jp). Digital Object Identifier 10.1109/TDMR.2019.2903213
Publisher Copyright:
© 2001-2011 IEEE.
Copyright:
Copyright 2019 Elsevier B.V., All rights reserved.
PY - 2019/6
Y1 - 2019/6
N2 - 2-D analysis of off-state drain current-drain voltage characteristics in AlGaN/GaN HEMTs is performed; where three cases with single passivation layers (SiN or high-{k} dielectric) and double passivation layers (first layer: SiN, second layer: high-{k} dielectric) are compared. The passivation layer's thicknesses and relative permittivity of high-{k} dielectric are varied as parameters. It is shown that in the case of double passivation layers, the breakdown voltage is enhanced significantly compared to the case of the SiN single passivation layer when the second high-{k} layer becomes thick. This occurs because the electric field at the drain edge of the gate is reduced. However, in the case of a relatively thin second high-{k} layer, the breakdown voltage can be lowered remarkably compared to the case with a high-{k} single passivation layer even if the first SiN layer is rather thin. Also, when the first SiN layer is thick ( {\sim } 0.1~{\mu }\text{m} ), the improvement of the breakdown voltage by increasing the thickness of the second layer is rather limited. However, it is also shown that in the case of double passivation layers, the breakdown voltage becomes close to the case of the high-{k} single passivation layer when the relative permittivity of the second passivation layer becomes high and the SiN layer is relatively thin.
AB - 2-D analysis of off-state drain current-drain voltage characteristics in AlGaN/GaN HEMTs is performed; where three cases with single passivation layers (SiN or high-{k} dielectric) and double passivation layers (first layer: SiN, second layer: high-{k} dielectric) are compared. The passivation layer's thicknesses and relative permittivity of high-{k} dielectric are varied as parameters. It is shown that in the case of double passivation layers, the breakdown voltage is enhanced significantly compared to the case of the SiN single passivation layer when the second high-{k} layer becomes thick. This occurs because the electric field at the drain edge of the gate is reduced. However, in the case of a relatively thin second high-{k} layer, the breakdown voltage can be lowered remarkably compared to the case with a high-{k} single passivation layer even if the first SiN layer is rather thin. Also, when the first SiN layer is thick ( {\sim } 0.1~{\mu }\text{m} ), the improvement of the breakdown voltage by increasing the thickness of the second layer is rather limited. However, it is also shown that in the case of double passivation layers, the breakdown voltage becomes close to the case of the high-{k} single passivation layer when the relative permittivity of the second passivation layer becomes high and the SiN layer is relatively thin.
KW - 2-D analysis
KW - GaN HEMT
KW - breakdown voltage
KW - high-k passivation layer
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U2 - 10.1109/TDMR.2019.2903213
DO - 10.1109/TDMR.2019.2903213
M3 - Article
AN - SCOPUS:85067128132
SN - 1530-4388
VL - 19
SP - 298
EP - 303
JO - IEEE Transactions on Device and Materials Reliability
JF - IEEE Transactions on Device and Materials Reliability
IS - 2
M1 - 8660523
ER -