(Invited) intrinsic reliability assessment of 650V rated AlGaN/GaN based power devices: an industry perspective

Pub Date : 2016-05-19 DOI:10.1149/07204.0065ECST

P. Moens, A. Banerjee, A. Constant, P. Coppens, M. Caesar, Zilan Li, S. Vandeweghe, F. Declercq, B. Padmanabhan, W. Jeon, Jia Guo, A. Salih, M. Tack, M. Meneghini, S. Dalcanale, A. Tajilli, G. Meneghesso, E. Zanoni, M. Uren, I. Chatterjee, S. Karboyan, Martin Kuball

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引用次数: 23

Abstract

Although astounding performance is already proven by many research papers, the widespread adoption of GaN power devices in the market is still hampered by (1) yield and reproducibility ; (2) cost ; (3) reliability. All three factors are to be considered, but to convince customers to adopt GaN power devices, proven device and product reliability is a must. Cost is kept acceptably low by growing the GaN epi stack on 6 inch and 8inch Si substrates, and by processing the GaN power device technology in standard CMOS production lines. This paper will focus on the most important intrinsic reliability mechanisms for GaN power devices. It will cover gate dielectric reliability, Ohmic contact reliability, accelerated drain stress testing (high temperature reverse bias--HTRB) and high voltage device wear-out testing (high voltage off-state stress--HVOS). Acceleration models are discussed A measurement strategy to extract valuable information about the physical properties of the buffer layers (e.g. activation energies of the traps, conduction mechanisms, ...) based on simple transmission line structures, is outlined.

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(特邀)650V额定AlGaN/GaN功率器件的内在可靠性评估:行业视角

尽管许多研究论文已经证明了惊人的性能，但市场上广泛采用GaN功率器件仍然受到以下因素的阻碍:(1)产量和可重复性;(2)费用;(3)可靠性。这三个因素都需要考虑，但要说服客户采用GaN电源器件，必须经过验证的器件和产品可靠性。通过在6英寸和8英寸Si衬底上生长GaN外延层，以及在标准CMOS生产线上处理GaN功率器件技术，成本保持在可接受的低水平。本文将重点讨论氮化镓功率器件最重要的内在可靠性机制。它将涵盖栅极介电可靠性，欧姆接触可靠性，加速漏极应力测试(高温反向偏置-HTRB)和高压器件磨损测试(高压非状态应力-HVOS)。本文提出了一种基于简单传输线结构提取缓冲层物理特性(如陷阱活化能、传导机制等)有价值信息的测量策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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