J. Wuerfl scite author profile

Abstract:GaN-based transistors with p-GaN gate are commonly accepted as promising devices for application in power converters, thanks to the positive and stable threshold voltage, the low on-resistance and the high breakdown field. This paper reviews the most recent results on the technology and reliability of these devices by presenting original data. The first part of the paper describes the technological issues related to the development of a p-GaN gate, and the most promising solutions for minimizing the gate leakage current. In the second part of the paper, we describe the most relevant mechanisms that limit the dynamic performance and the reliability of GaN-based normally-off transistors. More specifically, we discuss the following aspects: (i) the trapping effects specific for the p-GaN gate; (ii) the time-dependent breakdown of the p-GaN gate during positive gate stress and the related physics of failure; (iii) the stability of the electrical parameters during operation at high drain voltages. The results presented within this paper provide information on the current status of the performance and reliability of GaN-based E-mode transistors, and on the related technological issues.

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Time-Dependent Failure of GaN-on-Si Power HEMTs With p-GaN Gate

Rossetto

Meneghini

Hilt

et al. 2016

IEEE Trans. Electron Devices

133

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Reliability issues of GaN based high voltage power devices

Wuerfl

Bahat‐Treidel

Brunner

et al. 2011

Microelectronics Reliability

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AlGaN/GaN HEMT based sensor and system for polar liquid detection

Chaturvedi

Singh

Kachhawa

et al. 2020

Sensors and Actuators A: Physical

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Diffusion of gallium in thin gold films on GaAs

et al. 1987

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J. Wuerfl

Technology and Reliability of Normally-Off GaN HEMTs with p-Type Gate

Time-Dependent Failure of GaN-on-Si Power HEMTs With p-GaN Gate

Reliability issues of GaN based high voltage power devices

AlGaN/GaN HEMT based sensor and system for polar liquid detection

Diffusion of gallium in thin gold films on GaAs

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