4.5 Article

Analysis of Instability Behavior and Mechanism of E-Mode GaN Power HEMT with p-GaN Gate under Off-State Gate Bias Stress

Journal

ENERGIES
Volume 14, Issue 8, Pages -

Publisher

MDPI
DOI: 10.3390/en14082170

Keywords

enhancement-mode GaN power device; p-GaN; high electron mobility transistor (HEMT); negative gate bias stress; p-GaN; electron traps

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This study investigates the degradation characteristics of E-mode GaN HEMTs with a p-GaN gate through negative gate bias stress experiments, revealing the significance of electron trapping effects in the gradual degradation of electrical parameters, and identifying the degradation mechanism mainly caused by hole deficiency in the p-GaN region and the trapping process at the p-GaN/AlGaN hetero-interface.
In this study, we investigate the degradation characteristics of E-mode GaN High Electron Mobility Transistors (HEMTs) with a p-GaN gate by designed pulsed and prolonged negative gate (V-GS) bias stress. Device transfer and transconductance, output, and gate-leakage characteristics were studied in detail, before and after each pulsed and prolonged negative V-GS bias stress. We found that the gradual degradation of electrical parameters, such as threshold voltage (V-TH) shift, on-state resistance (RDS-ON) increase, transconductance max (G(m, max)) decrease, and gate leakage current (IGS-Leakage) increase, is caused by negative V-GS bias stress time evolution and magnitude of stress voltage. The significance of electron trapping effects was revealed from the V-TH shift or instability and other parameter degradation under different stress voltages. The degradation mechanism behind the DC characteristics could be assigned to the formation of hole deficiency at p-GaN region and trapping process at the p-GaN/AlGaN hetero-interface, which induces a change in the electric potential distribution at the gate region. The design and application of E-mode GaN with p-GaN gate power devices still need such a reliability investigation for significant credibility.

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