带p-GaN/Schottky阳极的横向AlGaN/GaN混合阳极二极管的浪涌电流性能

2020 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD) Pub Date : 2020-09-23 DOI:10.23919/SISPAD49475.2020.9241673

G. Atmaca, M. Jaud, Julien Buckley Jérôme, A. Yvon, E. Collard

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引用次数: 1

摘要

在横向功率二极管中，电导率调制机制可以为浪涌电流能力的展示铺平道路。在具有p-GaN层的混合阳极二极管概念中，p-GaN层上的阳极接触可以成为空穴注入的来源，从而增加AlGaN/GaN界面上的电子密度。通过TCAD模拟研究了p-GaN层对浪涌电流能力的影响及其论证，该模拟解释了阳极金属/p-GaN界面上的空穴势垒隧道的作用。这些模拟表明，在欧姆p-GaN接触的情况下，由于注入的空穴会导致通道中产生额外的电子密度以及支持二极管总电流的空穴电流，因此会产生浪涌电流。

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Surge Current Capability in lateral AlGaN/GaN Hybrid Anode Diodes with p-GaN/Schottky Anode

In lateral power diodes, the conductivity modulation mechanism can pave the way to the demonstration of surge current capability. In a Hybrid Anode Diode concept with a p-GaN layer, an anode contact on p-GaN layer can be a source of hole injection that increases the electron density at AlGaN/GaN interface. The role of p-GaN layer on the surge current capability and its demonstration are investigated through TCAD simulations that explain the role of hole barrier tunneling at anode metal/p-GaN interface. These simulations show that surge current can occur in case of Ohmic p-GaN contact as the injected holes can lead to create additional electron density in the channel as well as a hole current to support the total diode current.

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2020 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD)

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