A 36.7 mW, 28 GHz receiver frontend using 40 nm RFCMOS technology with improved Figure of Merit-Reference-Cited by-同舟云学术

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A 36.7 mW, 28 GHz receiver frontend using 40 nm RFCMOS technology with improved Figure of Merit

Published:2021-01-20 Issue:1 Volume:107 Page:135-144
ISSN:0925-1030
Container-title:Analog Integrated Circuits and Signal Processing
language:en
Short-container-title:Analog Integr Circ Sig Process

Author:

Verma Ankita^ORCID,Yadav Pritesh Kumar,Ambulker Sunanda,Goswami Manish,Misra Prasanna Kumar

Publisher

Springer Science and Business Media LLC

Subject

Surfaces, Coatings and Films,Hardware and Architecture,Signal Processing

Link

http://link.springer.com/content/pdf/10.1007/s10470-020-01792-w.pdf

Reference27 articles.

1. Li, Q. C., et al. (2014). 5G network capacity: Key elements and technologies. IEEE Vehicular Technology Magazine, 9(1), 71–78.

2. Al-Falahy, N., & Alani, O. Y. (2017). Technologies for 5G networks: Challenges and opportunities. IT Professional, 19(1), 12–20.

3. Tao, S., et al. (2011). A 60 GHz receiver front-end in 65 nm CMOS. Analog integrated circuits and Signal processing, 67(1), 61–71.

4. Rappaport, T. S., et al. (2017). Overview of millimeter wave communications for fifth-generation (5G) wireless networks—With a focus on propagation models. IEEE Transactions on Antennas and Propagation, 65(12), 6213–6230.

5. Narayan, C. P. (2007). Antennas and propagation. Pune: Technical Publications.

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1. Battery‐free ultra‐low‐power radio‐frequency receiver for mm‐wave applications using 130‐nm CMOS technology with harvested DC supplies;International Journal of Circuit Theory and Applications;2024-05-24

2. A 86 mW of Power, 1.57 dB of Noise Figure, Low-IF CMOS Receiver Front End for Sub-6 GHz Applications;2024 3rd International Conference for Innovation in Technology (INOCON);2024-03-01

3. A Double-Resistive Feedback Active Inductor based Receiver Frontend in 40 nm CMOS Process for 28-GHz Applications;2022 IEEE 19th India Council International Conference (INDICON);2022-11-24

4. A Differential LNA Architecture with Improved Figure of Merit Using 40 nm UMC CMOS Technology for mmWave Band Receiver Applications;Wireless Personal Communications;2021-11-16

5. A Proposed Technique to Improve the Performance of Receiver by Using Linear Gm-C Low-Pass Filter for mmwave Band Applications;Journal of Circuits, Systems and Computers;2021-06-30

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