ProfessorsProfessors of New York UniversityMuhammad Abrar Akram

Muhammad Abrar Akram

New York University

H-index: 6

North America-United States

About Muhammad Abrar Akram

Muhammad Abrar Akram, With an exceptional h-index of 6 and a recent h-index of 6 (since 2020), a distinguished researcher at New York University, specializes in the field of CMOS Analog/Mixed Signal ICs, Sensor Interfacing ICs.

His recent articles reflect a diverse array of research interests and contributions to the field:

3.6 An Amplifier-Less CMOS Potentiostat IC Consuming 3.7 nW Power all over 129.5 dB Dynamic Range for Electrochemical Biosensing

A Differential Rectifier With Compensation for High-Frequency RF Inputs

A Fast-Transient Fully-Integrated Digital LDO with Current-Estimation Algorithm based Coarse Loop

A 433.92-MHz CMOS Rectifier with Dynamic VTH-reduction for Wireless Biomedical Implants

A 434-MHz Bootstrap Rectifier With Dynamic Compensation for Wireless Biomedical Implants

Power delivery networks for embedded mobile SoCs: Architectural advancements and design challenges

Capacitor-less dual-mode all-digital LDO with ΔΣ-modulation-based ripple reduction

Architectural advancement of digital low-dropout regulators

Muhammad Abrar Akram Information

University	New York University
Position	Post-Doctoral Associate, New York University Abu Dhabi
Citations(all)	156
Citations(since 2020)	154
Cited By	56
hIndex(all)	6
hIndex(since 2020)	6
i10Index(all)	5
i10Index(since 2020)	5
Email	Access Email
University Profile Page	New York University
Google Scholar	View Google Scholar Profile

Muhammad Abrar Akram Skills & Research Interests

CMOS Analog/Mixed Signal ICs

Sensor Interfacing ICs

Top articles of Muhammad Abrar Akram

Title	Journal	Author(s)	Publication Date
3.6 An Amplifier-Less CMOS Potentiostat IC Consuming 3.7 nW Power all over 129.5 dB Dynamic Range for Electrochemical Biosensing		Muhammad Abrar Akram Aida Aberra Soon-Jae Kweon Sohmyung Ha	2024/2/18
A Differential Rectifier With Compensation for High-Frequency RF Inputs	IEEE Transactions on Biomedical Circuits and Systems	Muhammad Abrar Akram Sohmyung Ha	2023/4/6
A Fast-Transient Fully-Integrated Digital LDO with Current-Estimation Algorithm based Coarse Loop	IEEE Transactions on Power Electronics	Jin-Woong Jang Ibrar Ali Wahla Junsik Choi Muhammad Abrar Akram In-Chul Hwang	2023/10/27
A 433.92-MHz CMOS Rectifier with Dynamic VTH-reduction for Wireless Biomedical Implants		Muhammad Abrar Akram Sohmyung Ha	2022/10/13
A 434-MHz Bootstrap Rectifier With Dynamic Compensation for Wireless Biomedical Implants	IEEE Transactions on Power Electronics	Muhammad Abrar Akram Sohmyung Ha	2022/10/5
Power delivery networks for embedded mobile SoCs: Architectural advancements and design challenges		Muhammad Abrar Akram In-Chul Hwang Sohmyung Ha	2021/3/22
Capacitor-less dual-mode all-digital LDO with ΔΣ-modulation-based ripple reduction	IEEE Transactions on Circuits and Systems II: Express Briefs	Muhammad Abrar Akram Wook Hong Sohmyung Ha In-Chul Hwang	2021/3/11
Architectural advancement of digital low-dropout regulators	IEEE Access	Muhammad Abrar Akram In-Chul Hwang Sohmyung Ha	2020/7/28
Output-capacitorless tri-loop digital low dropout regulator achieving 99.91% current efficiency and 2.87 fs FOM	IEEE Transactions on Power Electronics	Muhammad Abrar Akram Kyung-Sung Kim Sohmyung Ha In-Chul Hwang	2020/7/15
A 0.012mm2, 0.96-mW All-Digital Multiplying Delay-Locked Loop Based Frequency Synthesizer for GPS-L4 band		Muhammad Abrar Akram Myeong-Ho Lee Dong-Hyeok Cho In-Chul Hwang	2020/1/4
Duty-cycled wireless power transmission for millimeter-sized biomedical implants	Electronics	Muhammad Abrar Akram Kai-Wen Yang Sohmyung Ha	2020/12