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<i>p</i>-GaN Gate HEMT With Surface Reinforcement for Enhanced Gate Reliability

Li Zhang, Zheyang Zheng, Song Yang, Wenjie Song, Jiabei He, Kevin J. Chen

2020IEEE Electron Device Letters113 citationsDOI

Abstract

By deploying a surface reinforcement layer (SRL) at the interface between Schottky metal and p-GaN in the gate stack, a p-GaN gate high-electron-mobility transistor (HEMT) with enhanced gate reliability is demonstrated. Prior to the gate metal deposition, the SRL is formed by an oxygen-plasma treatment and a subsequent high-temperature annealing process (at 800 °C) that enables surface reconstruction. Such a process converts several nanometers of p-GaN near the surface into a crystalline GaON layer, which exhibits stronger immunity to hot electron bombardment. With nearly identical threshold voltage and ON-resistance, the p-GaN gate HEMT with SRL yields two orders of magnitude reduction in gate leakage current at ON-state and an increase from 10.5 V to 12.7 V in forward gate breakdown voltage. Time-dependent gate breakdown measurement reveals an increase from 5.9 V to 7.8 V in the maximum ON -state gate drive voltage for a 10-year lifetime with a 1 % gate failure rate, which effectively expands the operating voltage margin of the p-GaN gate power HEMT.

Topics & Concepts

High-electron-mobility transistorMaterials scienceOptoelectronicsGate oxideBreakdown voltageMetal gateThreshold voltageGallium nitrideTransistorTime-dependent gate oxide breakdownElectrical engineeringVoltageNanotechnologyLayer (electronics)EngineeringGaN-based semiconductor devices and materialsGa2O3 and related materialsSemiconductor materials and devices
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