具有改进的直流和射频性能的纳米T形AlGaN/GaN HEMT

Q4 Engineering

International Journal of Nanoparticles Pub Date : 2019-03-29 DOI:10.1504/IJNP.2019.10020326

M. Mohapatra, Tanmoy De, A. K. Panda

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引用次数: 1

摘要

设计了不同栅极结构的AlGaN/ gan基HEMT，即150 nm矩形HEMT和90 nm t形HEMT。结果表明，与普通栅极HEMT相比，t型HEMT的漏极电流、跨导等直流参数得到了改善。在漏极电压为20 V、栅极电压为2 V时，普通栅极HEMT的最大截止频率为24 GHz，而t形HEMT的最大截止频率为47 GHz。正常栅极HEMT的最大振荡频率为95 GHz, t形HEMT的最大振荡频率为115 GHz。在5 GHz频率下，普通栅极HEMT的最小噪声系数为0.13 dB, t形HEMT的最小噪声系数为0.05 dB。普通门HEMT的固有时延为22 ps，而t门HEMT的固有时延为12 ps，这些结果证明t形HEMT更适合雷达通信、卫星通信、无线通信等高频业务。

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Nanoscale T-shaped AlGaN/GaN HEMT with improved DC and RF performance

AlGaN/GaN-based HEMT with different gate structure are designed i.e., 150 nm rectangular shaped HEMT and 90 nm T-shaped HEMT. It is shown that the DC parameters like drain current, transconductance are improved for T-shaped HEMT as compared to normal gate HEMT. The maximum cut-off frequency for normal gate HEMT is 24 GHz at drain voltage of 20 V and gate voltage of 2 V whereas it is 47 GHz for the T-shaped HEMT. Maximum frequency of oscillation for normal gate HEMT is 95 GHz and for T-shaped HEMT, it is 115 GHz. At the frequency of 5 GHz, the minimum noise figure of the normal gate HEMT is 0.13 dB and for T-shaped HEMT, it is 0.05 dB. Intrinsic time delay of normal gate HEMT is 22 ps whereas the intrinsic time delay for T-gate HEMT is 12 ps. These results prove that the T-shaped HEMT is more preferable for high frequency operations like radar communication, satellite communication, wireless communication, etc.

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来源期刊

International Journal of Nanoparticles Engineering-Mechanical Engineering

CiteScore

1.60

自引率

0.00%

发文量