Design of a 2.4 GHz CMOS LNA using two-stage forward body bias technique for WSN application

被引:0
|
作者
Azizan, A. [1 ]
Murad, S. A. Z. [1 ]
Ramli, Muhammad M. [1 ]
Ismail, R. C. [1 ]
机构
[1] Univ Malaysia Perlis, Sch Microelect Engn, Kampus Pauh Putra, Arau 02600, Perlis, Malaysia
来源
2015 IEEE STUDENT CONFERENCE ON RESEARCH AND DEVELOPMENT (SCORED) | 2015年
关键词
low nosie amplifier; forward body bias; two stages; gain; low power consumption; wireless sensor network;
D O I
暂无
中图分类号
TP3 [计算技术、计算机技术];
学科分类号
0812 ;
摘要
In this paper, a 2.4 GHz CMOS low noise amplifier (LNA) for wireless sensor network (WSN) application using CMOS 0.13-mu m Silterra technology is presented. The proposed design employed two-stage forward body bias technique with cascode configuration in order to obtain ultra-low power LNA design with high gain. The simulation results show that the total power consumed is only 0.49 mW at low supply voltage of 0.55 V. A gain of 19.71 dB, noise figure (NF) of 5.56 dB and input third order intercept point (IIP3) of -2 dBm are achieved. The input return loss (S11) and the output return loss (S22) is -20.56 dB and -14.3 dB, respectively. Meanwhile, the calculated figure of merit (FOM) is 7.6 (1/mW).
引用
收藏
页码:415 / 417
页数:3
相关论文
共 50 条
  • [21] A Fully Integrated 5 GHz Low-Voltage LNA Using Forward Body Bias Technology
    Chang, Chieh-Pin
    Chen, Ja-Hao
    Wang, Yeong-Her
    IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS, 2009, 19 (03) : 176 - 178
  • [22] Design of 2.4Ghz CMOS Floating Active Inductor LNA using 130nm Technology
    Muhamad, M.
    Soin, N.
    Ramiah, H.
    INTERNATIONAL CONFERENCE ON APPLIED ELECTRONIC AND ENGINEERING 2017 (ICAEE2017), 2018, 341
  • [23] A Low-Power Self-Forward-Body-Bias CMOS LNA for 3-6.5-GHz UWB Receivers
    Li, Chen-Ming
    Li, Ming-Tsung
    He, Kuang-Chi
    Tarng, Jenn-Hwan
    IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS, 2010, 20 (02) : 100 - 102
  • [24] Design of 3.1-10.6 GHz CMOS UWB LNA using current reuse technique
    Kusuma, M.S.
    Shanthala, S.
    Cyril Prasanna Raj, P.
    International Journal of Circuits, Systems and Signal Processing, 2019, 13 : 472 - 476
  • [25] A 1-V 2.4 GHz Low-Power CMOS LNA Using Gain-Boosting and Derivative Superposition Techniques for WSN
    Raja, R.
    Venkataramani, B.
    Kishore, K. Hari
    WIRELESS PERSONAL COMMUNICATIONS, 2017, 96 (01) : 383 - 402
  • [26] 22-33 GHz CMOS LNA Using Coupled-TL Feedback and Body Self-Forward-Bias for 28 GHz 5G System
    Lin, Yo-Sheng
    Lan, Kai-Siang
    2022 IEEE RADIO FREQUENCY INTEGRATED CIRCUITS SYMPOSIUM (RFIC), 2022, : 227 - 230
  • [27] 3-9-GHz CMOS LNA Using Body Floating and Self-Bias Technique for Sub-6-GHz 5G Communications
    Chang, Jin-Fa
    Lin, Yo-Sheng
    IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS, 2021, 31 (06) : 608 - 611
  • [28] An Ultra Low Voltage Ultra High Gain CMOS LNA Using Forward Body Biasing Technique
    Kargaran, Ehsan
    Nabovati, Ghazal
    Baghbanmanesh, Mohammad Reza
    Mafinezhad, Khalil
    Nabovati, Hooman
    2011 IEEE 54TH INTERNATIONAL MIDWEST SYMPOSIUM ON CIRCUITS AND SYSTEMS (MWSCAS), 2011,
  • [29] Erratum to: A 1-V 2.4 GHz Low-Power CMOS LNA Using Gain-Boosting and Derivative Superposition Techniques for WSN
    R. Raja
    B. Venkataramani
    K. Hari Kishore
    Wireless Personal Communications, 2017, 96 : 403 - 403
  • [30] Design of Low power UWB CMOS LNA using RC Feedback and Body-bias Technology
    Hsu, Meng-Ting
    Hsieh, Yu-Chang
    Ou, An-Cheng
    2013 IEEE 10TH INTERNATIONAL CONFERENCE ON ASIC (ASICON), 2013,
12345