Characterization of traps and trap-related effects in recessed-gate normally-off AlGaN/GaN-based MOSHEMT

2012 International Electron Devices Meeting Pub Date : 2012-12-01 DOI:10.1109/IEDM.2012.6479034

J. Bae, I. Hwang, Jongmin Shin, H. Kwon, C. Park, J. Ha, Jaewon Lee, Hyoji Choi, Jongseob Kim, Jong-bong Park, Jae-joon Oh, Jaikwang Shin, U. Chung, Jong-Ho Lee

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引用次数: 21

Abstract

Traps and trap-related effects in recessed-gate normally-off AlGaN/GaN-based MOSHEMT with SiO2 gate dielectric were characterized. Hysteresis in ID-VG was observed at elevated temperature (~120°C) due to the traps. To understand the traps, current transient in drain was investigated at given gate and drain pulses with different temperatures. Two groups of time constants were extracted: one is nearly constant and the other is decreased with temperature. Extracted activation energies from the drain current transients with temperature are 0.66 eV and 0.73 eV, respectively, for given gate and drain pulses. Using extracted exponential trap density profile from frequency dependent conductance method [4], we could understand C-V behavior with frequency. It was shown that traps inside AlGaN layer are a main cause for the decrease of capacitance at high frequency in inversion region. The pulsed I-V characteristics also show frequency dependence.

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嵌入式栅极常关AlGaN/ gan基MOSHEMT中陷阱及其相关效应的表征

研究了具有SiO2栅极介质的凹栅常关AlGaN/ gan基MOSHEMT中的陷阱及其相关效应。在温度升高(~120°C)时，由于陷阱的存在，在ID-VG中观察到迟滞现象。为了了解陷阱，在给定的栅极和漏极脉冲温度下，研究了漏极中的瞬态电流。提取了两组时间常数:一类是接近常数，另一类是随温度下降。对于给定的栅极脉冲和漏极脉冲，从漏极电流瞬态中提取的活化能分别为0.66 eV和0.73 eV。利用频率依赖电导法[4]提取的指数陷阱密度曲线，我们可以理解C-V随频率的行为。结果表明，氮化镓层内的陷阱是导致反转区高频电容下降的主要原因。脉冲的I-V特性也表现出频率依赖性。

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2012 International Electron Devices Meeting

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