High breakdown voltage AlGaN/GaN HEMT by employing selective fluoride plasma treatment

2011 IEEE 23rd International Symposium on Power Semiconductor Devices and ICs Pub Date : 2011-02-01 DOI:10.1002/PSSC.201000548

Young-shil Kim, Jiyong Lim, O. Seok, M. Han

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引用次数: 14

Abstract

We proposed and fabricated AlGaN/GaN HEMT with high stable reverse blocking characteristics employing fluoride plasma treatment using CF4 gas. The plasma treatment with various rf power was performed selectively on drain-side gate edge region where electric field was concentrated. Unlike normally-off process, fluoride plasma treatment with attenuated RF power expanded gate depletion region in the direction of drain electrode. Expansion of depletion was confirmed by the change of measured off-state gate-drain capacitance. Expanded gate depletion spread E-field more uniformly with reducing peak of field intensity and prevented from drastic surface potential drop at the gate edge under large reverse bias condition. By the mitigation of field concentration and gradual potential change due to plasma treatment, was leakage current reduced and high breakdown voltage achieved. The breakdown voltage of plasma treated device with optimized rf power was 1400 V while that of untreated sample was 900 V. The leakage current of plasma treated device was 9.5 nA.

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选择性氟离子等离子体处理高击穿电压AlGaN/GaN HEMT

采用氟化等离子体处理CF4气体，提出并制备了具有高稳定反向阻塞特性的AlGaN/GaN HEMT。在电场集中的漏侧栅极边缘区域选择性地进行了不同射频功率的等离子体处理。与正常关闭处理不同，射频功率衰减的氟等离子体处理在漏极方向上扩展了栅极耗尽区。耗尽扩展通过测量的离态栅极-漏极电容的变化得到证实。随着电场强度峰值的减小，扩展栅极损耗使电场分布更加均匀，防止了大反向偏压条件下栅极边缘表面电位急剧下降。通过等离子体处理降低了电场浓度和逐渐变化的电位，降低了泄漏电流，实现了高击穿电压。经优化射频功率等离子体处理的器件击穿电压为1400 V，未处理样品击穿电压为900 V。等离子体处理后的器件漏电流为9.5 nA。

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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2011 IEEE 23rd International Symposium on Power Semiconductor Devices and ICs

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