‪Seyed Ruhallah Qasemi‬ - ‪Google Scholar‬

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Citations	32	32
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2019202020212022202320245 6 8 7 5 1

Co-authors

Parviz AmiriAssociate Professo of Shahid Rajaee UniversityVerified email at srttu.edu
Ali NejatiResearch Assistant of Electronic Engineering, Shahid Rajaee Tehran UniversityVerified email at sru.ac.ir
Atila AlvandpourLinköping UniversityVerified email at liu.se
Iman DadrasUniversity of TartuVerified email at ut.ee

Seyed Ruhallah Qasemi

Seyed Ruhallah Qasemi

Ph.D. student in Integrated Circuits Design at Linköping university

Verified email at liu.se

Analog IC Mixed-signal IC RF IC Biomedical IC Integrated Circuits


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A 0.65 V, linearized cascade UWB LNA by application of modified derivative superposition technique in 130 nm CMOS technology M Rafati, SR Qasemi, P Amiri Analog Integrated Circuits and Signal Processing 99, 693-706, 2019	13	2019
A g_m-Boosting 3–5 GHz Noise-Cancelling LNA M Rafati, SR Qasemi, A Nejati, P Amiri 2019 27th Iranian Conference on Electrical Engineering (ICEE), 376-379, 2019	6	2019
A 3.1-10.6 GHz Forward Body Biased Ultra-low-voltage UWB LNA M Rafati, SR Qasemi, A Nejati, P Amiri 2019 27th Iranian Conference on Electrical Engineering (ICEE), 326-330, 2019	4	2019
A 10 Gb/s noise-canceled transimpedance amplifier for optical communication receivers SR Qasemi, M Rafati, P Amiri Analog Integrated Circuits and Signal Processing 101 (3), 669-680, 2019	3	2019
A gm-boosted highly linear fully differential 3–5 GHz UWB LNA employing noise and distortion canceling technique M Rafati, SR Qasemi, P Amiri Analog Integrated Circuits and Signal Processing, 1-18, 0	3*
A configurable fluorescence sensing front-end for ultra-low power and high sensitivity applications M Rafati, SR Qasemi, A Alvandpour Analog Integrated Circuits and Signal Processing 110 (1), 3-17, 2022	1	2022
A Low Power Front-end for Biomedical Fluorescence Sensing Applications SR Qasemi, M Rafati, A Alvandpour 2020 IEEE Nordic Circuits and Systems Conference (NorCAS), 1-6, 2020	1	2020
10 Gb/s inductorless single-stage high-gain transimpedance amplifier for optical communication receiver I Dadras, SR Qasemi, P Amiri Analog Integrated Circuits and Signal Processing 99, 547-557, 2019	1	2019
A Dynamic Range Extension Technique for Pseudo-Resistive Transimpedance Amplifiers Based on Two-Step Conversion M Rafati, SR Qasemi, A Alvandpour 2022 IEEE Nordic Circuits and Systems Conference (NorCAS), 1-5, 2022		2022

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