Design of Low-Power 5.8-GHz ULV LNTAs using Normalized Biasing Metric

被引：0

作者：

Botinelly, Vanessa M. da F. ^{[1
]}

Caetano, Filipe F. ^{[1
]}

Ferreira, Pietro M. ^{[2
,3
]}

Saotome, Osamu ^{[1
]}

Compassi-Severo, Lucas ^{[1
]}

机构：

[1] Aeronaut Inst Technol ITA, Elect Engn Div, Sao Jose Dos Campos, Brazil

[2] Univ Paris Saclay, Cent Supelec, CNRS, Lab Genie Elect & Elect Paris, Gif Sur Yvette, France

[3] Univ Savoie Mt Blanc, Univ Grenoble Alpes, Grenoble INP, CNRS,CROMA, Grenoble, France

来源：

2024 37TH SBC/SBMICRO/IEEE SYMPOSIUM ON INTEGRATED CIRCUITS AND SYSTEMS DESIGN, SBCCI 2024 | 2024年

关键词：

ultra-low power; low-noise transconductance amplifier; normalized biasing;

D O I：

10.1109/SBCCI62366.2024.10703871

中图分类号：

TP3 [计算技术、计算机技术];

学科分类号：

0812 ;

摘要：

This paper explores computational methodologies for transistor sizing for ultra-low power (ULP) complementary metal-oxide-semiconductor (CMOS) design. The proposed approach uses normalized biasing metric to minimize power consumption while maintaining performance integrity under ultra-low voltage (ULV). The effectiveness of these metrics in streamlining the design process and improving device reliability is demonstrated through low-noise transconductance amplifier (LNTA) inverter-based design and comparative analyses. The optimized LNTA design in a 65 nm CMOS process operates at 5.8 GHz, achieving a noise figure (NF) from 2.5 to 3.8 dB and a gain between 10.02 to 14.98 dB, while consuming power from 43.07 mu W to 207.40 mu W, and an input third-order intercept point (IIP3) from -14.38 to -9.06 dBm. The design LNTA versions presented the best figure of merit (FoM) in comparison to other works from the literature.

引用

页码：65 / 69

页数：5

共 50 条

[1] A 5.8-GHz CMOS Low-Power Active Mixer Featuring High Conversion Gain and Low LO Driving Power
Chang, Shih-Hsin
Huang, Jyun-Kai
Tsneg, Chao-Hsiung
2015 ASIA-PACIFIC MICROWAVE CONFERENCE (APMC), VOLS 1-3, 2015,
[2] 5.8-GHz Antenna Array Design for Satellite Solar Power Station
Kumar, Deepak
Chaudhary, Kalpana
ADVANCES IN SMART GRID AND RENEWABLE ENERGY, 2018, 435 : 659 - 666
[3] A 0.5-V 5.8-GHz Low-Power Asymmetrical QPSK/OOK Transceiver for Wireless Sensor Network
Ikeda, Sho
Lee, Sang-Yeop
Yonezawa, Shin
Fang, Yiming
Takayasu, Motohiro
Hamada, Taisuke
Ishikawa, Yosuke
Ito, Hiroyuki
Ishihara, Noboru
Masu, Kazuya
2015 20TH ASIA AND SOUTH PACIFIC DESIGN AUTOMATION CONFERENCE (ASP-DAC), 2015, : 40 - 41
[4] The 5.8-GHZ fully integrated low-power low-phase-noise CMOS LC VCOS using RC noise-filtering technique
Lee, Jen-How
Chen, Chi-Chen
Lin, Yo-Sheng
MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, 2008, 50 (11) : 2907 - 2911
[5] A low-power 2/5.8-GHz'CMOS LC-VCO for multi-band wireless communication applications
Yeh, Mei-Ling
Liou, Wan-Rone
Chen, T. H.
Lin, Y. C.
Ho, Jyh-Jier
2006 INTERNATIONAL CONFERENCE ON COMMUNICATIONS, CIRCUITS AND SYSTEMS PROCEEDINGS, VOLS 1-4: VOL 1: SIGNAL PROCESSING, 2006, : 825 - +
[6] Design of A Capacitor-Less 5.8-GHz Microwave Rectifier for Microwave Power Transmission
Zhang, Biao
Yu, Chengyang
Liu, Changjun
2013 EUROPEAN MICROWAVE CONFERENCE (EUMC), 2013, : 908 - 911
[7] RF Power Analysis on 5.8 GHz Low-Power Amplifier Using Resonant Tunneling Diodes
Lee, Jongwon
Yang, Kyounghoon
IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS, 2017, 27 (01) : 61 - 63
[8] A low-power 2/5.8-GHz dual-wide-band CMOS LC-VCO with switched-inductor technique
Liou, W.-R.
Chen, T.-H.
Yeh, M.-L.
Ho, J.-J.
Jan, G. E.
INTERNATIONAL JOURNAL OF ELECTRONICS, 2007, 94 (6-8) : 623 - 632
[9] A novel low-voltage low-power 5.8 GHz CMOS down-conversion mixer design
Wang, XZ
Weber, R
BOSTON 2003 RADIO & WIRELESS RAWCON CONFERENCE, PROCEEDINGS, 2003, : 301 - 304
[10] DESIGN OF RESISTIVE DOUBLE-BALANCED MIXER IN 0.18-μm CMOS TECHNOLOGY WITH LOW-POWER BULK-INJECTION TECHNIQUE FOR 5.8-GHz DSRC APPLICATIONS
Huang, Chien-Chang
Guu, George Changlin
Chen, Chia-Kai
Huang, Chih-Wen
MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, 2014, 56 (05) : 1248 - 1251

← 1 2 3 4 5 →