Impact of the Location of Iron Buffer Doping on Trap Signatures in GaN HEMTs

2020 International Workshop on Integrated Nonlinear Microwave and Millimetre-Wave Circuits (INMMiC) Pub Date : 2020-07-01 DOI:10.1109/INMMiC46721.2020.9160114

K. Sharma, E. Dupouy, M. Bouslama, R. Sommet, J. Nallatamby

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引用次数: 3

Abstract

This paper presents the impact of two different iron (Fe) doping depths in the buffer, on trapping effects in AlGaN/GaN high electron mobility transistors (HEMTs). Drain current transient (DCT) measurements are performed on AlGaN/GaN HEMTs of 0.15-μm ultrashort gate length and 6 × 50 μm gate width at various chuck temperatures ranging between 25°C and 125°C. On the basis of these measurements we demonstrate that, for the devices under investigation 1) depending on the location of Fe doping in the buffer, number of trap signatures differ and 2) it influences the capture time and recovery time of the traps. This study demonstrates the effect of Fe doping depth on DCT visible only for temperatures more than 75°C. For a device with deeper level of Fe doping in the buffer, we find signatures of two traps with ac tivation energies of 0.55eV and 0.45eV. Whereas, another device with a shallow level of Fe doping in the buffer, has only one trap signature with activation energy 0.5eV.

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铁缓冲掺杂位置对GaN hemt中陷阱特征的影响

本文研究了两种不同的铁(Fe)掺杂深度对AlGaN/GaN高电子迁移率晶体管(HEMTs)中捕获效应的影响。在25°C至125°C的不同卡盘温度下，对栅极长度为0.15 μm、栅极宽度为6 × 50 μm的AlGaN/GaN hemt进行漏极电流瞬态(DCT)测量。在这些测量的基础上，我们证明，对于所研究的器件，1)取决于铁掺杂在缓冲中的位置，陷阱特征的数量不同，2)它影响陷阱的捕获时间和恢复时间。本研究表明，Fe掺杂深度对DCT的影响仅在温度超过75°C时可见。对于缓冲层中铁掺杂较深的器件，我们发现了两个交流活化能分别为0.55eV和0.45eV的陷阱的特征。而另一种在缓冲层中掺杂较浅水平铁的器件只有一个活化能为0.5eV的陷阱特征。

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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来源期刊

2020 International Workshop on Integrated Nonlinear Microwave and Millimetre-Wave Circuits (INMMiC)

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