Breakdown Mechanism of AlGaN/GaN-based HFET With Carbon-doped GaN Buffer Layer grown on Si substrate

机译：在Si衬底上生长掺碳GaN缓冲层的AlGaN / GaN基HFET的击穿机理

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In this paper, we evaluated the effect of carbon doping on the breakdown mechanism of GaN buffer as well as the material and electrical properties of AlGaN/GaN HFETs. The introduction of carbon will slightly increase the surface roughness and degrade the 2DEG carrier density, while leakage current (breakdown voltage) can be suppressed (enhanced) significantly (346 V@1 μA/mm and 748 V@1 mA/mm). Leakage current of GaN can be explained using trap charge limited space-charge limited current (SCLC) model and shows an obvious dependency on carbon concentration. The transient drain current measurements demonstrate that the traps in the unintentional doped GaN buffer are mainly acceptor traps (C

机译：在本文中，我们评估了碳掺杂对GaN缓冲层击穿机理以及AlGaN / GaN HFET的材料和电性能的影响。碳的引入将略微增加表面粗糙度并降低2DEG载流子密度，同时可以显着抑制（增强）泄漏电流（击穿电压）（346 V @ 1μA/ mm和748 V @ 1 mA / mm）。 GaN的泄漏电流可以使用陷阱电荷限制空间电荷限制电流（SCLC）模型来解释，并显示出对碳浓度的明显依赖性。瞬态漏极电流测量结果表明，无意掺杂的GaN缓冲器中的陷阱主要是受体陷阱（C

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《IEEE International Symposium on Physical and Failure Analysis of Integrated Circuits》|2019年|1-5|共5页
会议地点 Hangzhou(CN)
作者
Yiqiang Ni; Liuan Li; Liang He; Yang LIU;
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No.5 Electronics Research Institute of the Ministry of Industry and Information Technology Reliability Research and Analysis Center Guangzhou People’s Republic of China 510610;

Sun Yat-Sen University School of Electronics and Information Technology Guangzh;

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aluminium compounds; buffer layers; carrier density; electric current measurement; electric properties; gallium compounds; high electron mobility transistors; III-V semiconductors; leakage currents; materials properties; semiconductor device breakdown; semiconductor;

机译：铝化合物缓冲层；载流子密度电流测量电性能镓化合物高电子迁移率晶体管； III-V半导体；漏电流材料性能；半导体器件击穿；半导体;

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专利

1. C-doped GaN buffer layers with high breakdown voltages for high-power operation AlGaN/GaN HFETs on 4-in Si substrates by MOVPE [J] . Sadahiro Kato, Yoshihiro Satoh, Hitoshi Sasaki, Journal of Crystal Growth . 2007,第Jan期

机译：具有高击穿电压的C掺杂GaN缓冲层，用于通过MOVPE在4英寸Si衬底上进行大功率操作的AlGaN / GaN HFET
2. Buffer breakdown voltage of AlGaN/GaN HFET on a 4 inch Si(111) substrate grown by MOCVD [J] . Masayuki Iwami, Sadahiro Kato, Yoshihiro Satoh, Physica Status Solidi. C, Conferences and critical reviews . 2007,第7期

机译：通过MOCVD生长的4英寸Si（111）衬底上的AlGaN / GaN HFET的缓冲击穿电压
3. Impact of Multi-Layer Carbon-Doped/Undoped GaN Buffer on Suppression of Current Collapse in AlGaN/GaN HFETs [J] . Hee-Sung Kang, Dong-Seok Kim, Chul-Ho Won, International Journal of High Speed Electronics and Systems: Devices, Integrated Circuits and Systems, Optical and Quantum Electronics . 2014,第3a4期

机译：多层碳掺杂/非掺杂GaN缓冲对抑制AlGaN / GaN HFET中电流崩塌的影响
4. Breakdown Mechanism of AlGaN/GaN-based HFET With Carbon-doped GaN Buffer Layer grown on Si substrate [C] . Yiqiang Ni, Liuan Li, Liang He, IEEE International Symposium on Physical and Failure Analysis of Integrated Circuits . 2019

机译：基于碳掺杂GaN缓冲层的AlGaN / GaN基HFET的分解机制
5. Study of CMOS compatible ruthenium oxide Schottky contacts for AlGaN/GaN and InAlN/GaN diodes and high mobility transistors grown on silicon (111) substrates. [D] . Kyaw, Lwin Min. 2015

机译：用于AlGaN / GaN和InAlN / GaN二极管以及在硅（111）衬底上生长的高迁移率晶体管的CMOS兼容氧化钌肖特基接触的研究。
6. Investigation of AlGaN/GaN high electron mobility transistor structures on 200-mm silicon (111) substrates employing different buffer layer configurations [O] . H.-P. Lee, J. Perozek, L. D. Rosario, -1

机译：使用不同缓冲层配置的200mm硅（111）衬底上的AlGaN / GaN高电子迁移率晶体管结构研究
7. Monolithically integrated UV/IR-photodetectors based on an AlN/GaN-based superlattice grown on an AlGaN buffer layer [O] . Hofstetter, Daniel, Baumann, Esther, Giorgetta, Fabrizio R., 2010

机译：基于在AlGaN缓冲层上生长的基于AlN / GaN的超晶格的单片集成UV / IR光电探测器

Breakdown Mechanism of AlGaN/GaN-based HFET With Carbon-doped GaN Buffer Layer grown on Si substrate

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