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High V<sub>TH</sub> and Improved Gate Reliability in P-GaN Gate HEMTs With Oxidation Interlayer

Mao Jia, Bin Hou, Ling Yang, Fuchun Jia, Xuerui Niu, Jiale Du, Qingyuan Chang, Meng Zhang, Mei Wu, Xinchuang Zhang, Hao Lu, Xiaohua Ma, Yue Hao

2023IEEE Electron Device Letters40 citationsDOI

Abstract

In this letter, we apply an oxidation technique for p-GaN to a normally-off p-GaN /AlGaN/GaN HEMT to improve the threshold voltage and gate reliability. Oxygen-plasma and low-temperature Oxygen post-annealing treatment (OPAT) of p-GaN before the deposition of gate metal has introduced a 5 nm oxidation interlayer, resulting in a significant improvement in gate breakdown voltage, from 10.4 V to 20.6 V. Thanks to this interlayer, the threshold voltage of p-GaN gate HEMTs is increased from 1.9 V to 4.6 V, while an almost same on- state resistance and a higher drain breakdown voltage are obtained. Time-dependent gate breakdown measurement shows OPAT-HEMTs have a maximum on- state gate drive voltage of 9.2 V for a 10-year lifetime with a 63 % gate failure rate. In addition, a more stable threshold voltage under gate stress indicates the promising application of this technology in GaN power devices.

Topics & Concepts

Materials scienceHigh-electron-mobility transistorThreshold voltageOptoelectronicsBreakdown voltageTime-dependent gate oxide breakdownAnnealing (glass)Reliability (semiconductor)Electrical engineeringGallium nitrideAND gateVoltageWide-bandgap semiconductorGate oxideLogic gateTransistorPower (physics)NanotechnologyEngineeringMetallurgyLayer (electronics)PhysicsQuantum mechanicsGaN-based semiconductor devices and materialsGa2O3 and related materialsSemiconductor materials and devices
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