Performance enhancement of CMOS terahertz detector by drain current

被引:0
|
作者
张行行 [1 ]
纪小丽 [1 ]
廖轶明 [1 ]
彭静宇 [1 ]
朱晨昕 [1 ]
闫锋 [1 ]
机构
[1] College of Electronic Science and Engineering, Nanjing University
来源
Chinese Physics B | 2017年 / 09期
基金
国家重点研发计划; 美国国家科学基金会;
关键词
drain current; CMOS terahertz detectors; voltage responsivity; noise equivalent power;
D O I
暂无
中图分类号
O441 [电磁学];
学科分类号
0809 ;
摘要
In this paper, we study the effect of the drain current on terahertz detection for Si metal-oxide semiconductor fieldeffect transistors(MOSFETs) both theoretically and experimentally. The analytical model, which is based on the smallsignal equivalent circuit of MOSFETs, predicts the significant improvement of the voltage responsivity Rv with the bias current. The experiment on antennas integrated with MOSFETs agrees with the analytical model, but the Rv improvement is accompanied first by a decrease, then an increase of the low-noise equivalent power(NEP) with the applied current. We determine the tradeoff between the low-NEP and high-Rv for the current-biased detectors. As the best-case scenario, we obtained an improvement of about six times in Rv without the cost of a higher NEP. We conclude that the current supply scheme can provide high-quality signal amplification in practical CMOS terahertz detection.
引用
收藏
页码:495 / 499
页数:5
相关论文
共 50 条
  • [1] Performance enhancement of CMOS terahertz detector by drain current
    Zhang, Xingxing
    Ji, Xiaoli
    Liao, Yiming
    Peng, Jingyu
    Zhu, Chenxin
    Yan, Feng
    CHINESE PHYSICS B, 2017, 26 (09)
  • [2] PERFORMANCE ENHANCEMENT OF CMOS TERAHERTZ DETECTOR
    Zhu, Zeqi
    Lin, Xulin
    Ji, Xiaoli
    PROCEEDINGS OF THE 2018 IEEE 7TH ASIA-PACIFIC CONFERENCE ON ANTENNAS AND PROPAGATION (APCAP), 2018, : 332 - 333
  • [3] Terahertz responsivity enhancement and low-frequency noise study in silicon CMOS detectors using a drain current bias
    Lisauskas, A.
    Boppel, S.
    Roskos, H. G.
    Minkevicius, L.
    Valusis, G.
    Matukas, J.
    Palenskis, V.
    Bolivar, P. Haring
    2011 21ST INTERNATIONAL CONFERENCE ON NOISE AND FLUCTUATIONS (ICNF), 2011, : 297 - 300
  • [4] Imaging system based on CMOS terahertz detector
    Liu Z.
    Liu L.
    Wu N.
    1600, Chinese Society of Astronautics (46):
  • [5] Enhancement of drain current in vertical SiGe/Si PMOS transistors using novel CMOS technology
    Liu, KC
    Ray, SK
    Oswal, SK
    Chakraborti, NB
    Chang, RD
    Kencke, DL
    Banerjee, SK
    55TH ANNUAL DEVICE RESEARCH CONFERENCE, DIGEST - 1997, 1997, : 128 - 129
  • [6] INFLUENCE OF ADDITIONAL DRAIN CURRENTS ON RESPONSE OF CMOS TERAHERTZ DETECTORS
    Zhang, X.
    Ji, X.
    Liao, Y.
    Zhu, Y.
    Wu, F.
    Zhang, T.
    Yan, F.
    2016 CHINA SEMICONDUCTOR TECHNOLOGY INTERNATIONAL CONFERENCE (CSTIC), 2016,
  • [7] Investigating Performance Enhancement of CMOS Terahertz Detectors With Different Topological Structures at 2.58 THz
    Zhang, Xin
    Fu, Haipeng
    Ma, Kaixue
    Yan, Ningning
    Liu, Yaxuan
    Huang, Jiancheng
    IEEE TRANSACTIONS ON TERAHERTZ SCIENCE AND TECHNOLOGY, 2024, 14 (06) : 808 - 822
  • [8] Terahertz responsivity enhancement of silicon CMOS transistor-based detectors using a current bias
    Boppel, S.
    Lisauskas, A.
    Voltolina, F.
    Bolivar, P. Haring
    Roskos, H. G.
    35TH INTERNATIONAL CONFERENCE ON INFRARED, MILLIMETER, AND TERAHERTZ WAVES (IRMMW-THZ 2010), 2010,
  • [9] TRANSIENT DRAIN CURRENT AND PROPAGATION DELAY IN SOI CMOS
    LIM, HK
    FOSSUM, JG
    IEEE TRANSACTIONS ON ELECTRON DEVICES, 1984, 31 (09) : 1251 - 1258
  • [10] A 220- to 299-GHz CMOS Terahertz Detector
    Zhao-yang Liu
    Feng Qi
    Ye-long Wang
    Peng-xiang Liu
    Wei-fan Li
    Journal of Infrared, Millimeter, and Terahertz Waves, 2019, 40 : 606 - 619
12345