蓝宝石衬底上大栅极外围InAlN/GaN HEMT的直流特性

2011 IEEE International Conference of Electron Devices and Solid-State Circuits Pub Date : 2011-12-29 DOI:10.1109/EDSSC.2011.6117680

Xie Sheng, Feng Zhi-hong, Zhan Shi-lin, Liu Bo, Mao Lu-hong

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引用次数: 2

摘要

采用低压金属有机气相沉积(MOCVD)技术在蓝宝石衬底上生长出晶格匹配的InAlN/GaN异质结构，霍尔效应测量结果表明，该异质结构的片电荷密度和电子迁移率分别为2.6×1013 cm−3和1210cm2/V•s。制备了栅极长度为250nm、源漏间距为4µm的大栅极外围(2.5mm)高电子迁移率晶体管(hemt)。测量结果表明，在栅极源电压为•1V时，漏极电流密度为248mA/mm，最大外部跨导为271.1mS/mm，外推阈值电压为•1.95V。栅极漏电流的测量表明，隧道电流可能是漏电流的主要机制。

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DC characteristics of large gate periphery InAlN/GaN HEMT on sapphire substrate

A lattice-matched InAlN/GaN heterostructure was grown on sapphire substrate by using low-pressure metal organic chemical vapor deposition (MOCVD), and Hall effect measurements shown that the sheet charge density and electron mobility were 2.6×1013 cm−3 and 1210cm2/V•s, respectively. Large gate periphery (2.5mm) high electron mobility transistors (HEMTs) with a gate length of 250nm and a source-drain spacing of 4 µ m were fabricated. The measurement results revealed that the drain current density was 248mA/mm at a gate-source voltage of •1V with a maximum extrinsic transconductance of 271.1mS/mm, and the extrapolated threshold voltage was •1.95V. The measurement of the gate leakage current indicated that the tunneling current is likely the primary mechanism.

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2011 IEEE International Conference of Electron Devices and Solid-State Circuits

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