Bio-sketch
Dr. Urvashi Bansal has received B.E. in Electronics and Communication Engineering from Rajasthan University, Jaipur in 2005 and did M.E. in Electronics and Communication Engineering from Delhi Engineering College, Delhi. She received her Ph.D. degree in area of Analog Signal Processing from Delhi University. She joined Division of ECE, NSIT as an assistant professor in September, 2013. She has taught various subjects like analog electronics, digital electronics and VLSI design. Her research areas include VLSI design, CMOS circuits, Low-power design and image processing. Dr. Bansal has more than sixteen years of teaching experience in area of Analog electronics and has several publications in international journals and conferences. She is an active member of IETE since 2016 and has also served as a reviewer of various journals and conferences.
She is a life time member of Vigyan Bharti and Institute of Electronics and Telecommunication Engineers (India). Her Google scholar profile can be checked at :
https://scholar.google.com/citations?user=XT-JJKsAAAAJ&hl=en
Selected Publications:
a.Urvashi Bansal, and Maneesha Gupta, “High bandwidth transimpedance amplifier using FGMOS for low voltage operation”, Integration, the VLSI Journal (Volume 60 Issue C, January 2018, Pages 153-159).
b.Urvashi Bansal, and Maneesha Gupta. "Two stage class AB-AB amplifier using FGMOS for low voltage operation and SSF for frequency compensation." AEU-International Journal of Electronics and Communications (Volume 73, March 2017, Pages 59-67).
c.Urvashi Bansal, Maneesha Gupta, and Urvashi Singh. "Frequency compensation of two stage CMOS circuit using negative capacitance and flipped voltage follower." Analog Integrated Circuits and Signal Processing (January 2017, Volume 90, Issue 1, pp 175–188).
Areas of Interest
- Low power Low voltage VLSI
- Analog Signal Processing
- Digital CMOS design
- Image Processing
- Publications in International Journal
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Recent Publications:
Bansal U, Masiwal P, Yadav M, Mohlia M, Raj N. Four-quadrant CMOS analog current multiplier using frequency compensation and 1.5 V supply. Arabian Journal for Science and Engineering. 2021 Oct;46(10):9849-65.
Bansal U, Bakre A, Kumar P, Yadav D, Kumar M, Raj N. A QFGMOS-Based gm-Boosted and Adaptively Biased Two-Stage Amplifier Offering Very High Gain and High Bandwidth. Journal of Circuits, Systems and Computers. 2022 Feb 25;31(03):2250056.
Bansal U, Gupta M, Raj N. Frequency-Compensated Bulk-Driven TIA Suitable for Low-Voltage Low-Power Applications. Journal of Circuits, Systems and Computers. 2021 Jun 15;30(07):2150121.
- Publications in National Journal
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- Publications in National Conferences
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- Publications in International Conferences
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Recent Conferences:
1. Dewan A, Bansal U. Design and comparative analysis of a partially adiabatic and a CMOS based ALU. International Conference on Emerging Technologies: AI, IoT, and CPS for Science & Technology Applications, September 06–07, 2021, NITTTR Chandigarh, India.
2. Chandra P, Bansal U. A three-stage CMOS operational amplifier with high gain and phase margin. In2021 International Conference on Industrial Electronics Research and Applications (ICIERA) 2021 Dec 22 (pp. 1-4). IEEE.
3. Yadav H, Bansal U. A Novel Low-Voltage Low-Power FGMOS and CMOS Resister-Based Current Mirror. In2021 International Conference on Industrial Electronics Research and Applications (ICIERA) 2021 Dec 22 (pp. 1-4). IEEE.
- Books/Book Chapters
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- Publications (Click to expand)
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Bansal, Urvashi, Pranjal Gupta, and Rachit Tayal. "A high gain and high bandwidth three stage amplifier using FGMOS and 0.5 V dual supply." Analog Integrated Circuits and Signal Processing (2020): 1-12.
Urvashi Bansal, and Maneesha Gupta, “High bandwidth transimpedance amplifier using FGMOS for low voltage operation”, Integration, the VLSI Journal (Volume 60 Issue C, January 2018, Pages 153-159).
Singh, Preeti, Maneesha Gupta, and Urvashi Bansal. "Wideband transimpedance amplifier using negative capacitance and capacitive feedback." Analog Integrated Circuits and Signal Processing 97.2 (2018): 269-279.
Urvashi Bansal, and Maneesha Gupta. "Two stage class AB-AB amplifier using FGMOS for low voltage operation and SSF for frequency compensation." AEU-International Journal of Electronics and Communications (Volume 73, March 2017, Pages 59-67).
Urvashi Bansal, Maneesha Gupta, and Urvashi Singh. "Frequency compensation of two stage CMOS circuit using negative capacitance and flipped voltage follower." Analog Integrated Circuits and Signal Processing (January 2017, Volume 90, Issue 1, pp 175–188).
Bansal, Urvashi, Maneesha Gupta, and Shireesh Kumar Rai. "GBW Enhancement of a Two Stage Amplifier using Dual Approach of Feed-Forward and Passive Compensation." Majlesi Journal of Electrical Engineering ( Vol. 11, Iss. 1, (Mar 2017): 9-18).
Bansal, Urvashi, Maneesha Gupta, and Shireesh Kumar Rai. "Resistively compensated and SSF based VDBA offering high GBW and its application as a biquad filter" in Computer, Communications and Electronics (Comptelix), 2017 International Conference on, pp. 221-226. IEEE, 2017.
Urvashi Bansal, R. Gupta, R. Arora, S. Pahuja “A 1-V Supply OTA for Low-power VLSI and its Applications” Proceedings of the 13th INDIACom; INDIACom-2019; IEEE Conference ID: 46181, 2019 6th International Conference on “Computing for Sustainable Global Development”, 13th - 15th March, 2019.
Bhaskar Prakash, Bansal, Urvashi, Maneesha Gupta “Low-power high output impedance Improved bandwidth current mirror using FGMOS & QFGMOS” at MARC 2018(19-20 uly 2018, HMRITM, New Delhi).
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