2018
DOI: 10.1109/ted.2018.2836460
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Degradation Mechanisms of GaN HEMTs With p-Type Gate Under Forward Gate Bias Overstress

Abstract: This paper investigates the degradation of GaN-based HEMTs with p-type gate submitted to positive gate bias stress. Based on combined electrical and optical testing, we demonstrate the existence of different degradation processes, depending on the applied stress voltage V Gstress : 1) for V Gstress < 7 V, no significant degradation is observed, thus demonstrating a good stability of the analyzed technology; 2) for 7 V < V Gstress < 11.5 V, a negative shift in threshold voltage (V th ) is observed, well correla… Show more

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Cited by 64 publications
(32 citation statements)
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“…The first and most obvious analysis is that in the case of the Ohmic Gate GaN HEMT the resulting VTH shift after stress is negative and the peak shift increases with increasing stress, with a peak shift of -2.5% for the low current stress and -4% for the high current stress. Minor negative shifts for this gate contact technology at this stress levels were also reported in [30].…”
Section: B Ohmic Gate Gan Hemtsupporting
confidence: 73%
“…The first and most obvious analysis is that in the case of the Ohmic Gate GaN HEMT the resulting VTH shift after stress is negative and the peak shift increases with increasing stress, with a peak shift of -2.5% for the low current stress and -4% for the high current stress. Minor negative shifts for this gate contact technology at this stress levels were also reported in [30].…”
Section: B Ohmic Gate Gan Hemtsupporting
confidence: 73%
“…In this regime, I G tends to increase with time as hole accumulation at the p-GaN/AlGaN interface reduces the energy barrier presented by the AlGaN to further electron injection from the 2DEG [138]. 3) Depletion of holes within the p-GaN layer inducing a positive V T shift [134], [135], [140]. High V G stress eventually induces permanent degradation, as discussed below.…”
Section: E Interface State Formation In Gan Mis-hemtsmentioning
confidence: 99%
“…Among various normally off HEMT architectures p-GaN gate AlGaN/GaN-on-Si structures have gained considerable commercial traction and studies are underway to understand and engineer an optimum, reliable gate stack [3][4] [5]. Threshold voltage (V th ) instabilities are consistently reported under on/off state operational stress [6] and are often attributed to the charge imbalance created in the p-GaN region [7] [8] or AlGaN region [9][10] [11] of the gate stack. The charge imbalance is caused by trapping or detrapping of electrons or holes in these layers.…”
Section: Introductionmentioning
confidence: 99%