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Muhammad Abrar Akram
Muhammad Abrar Akram
Post-Doctoral Associate, New York University Abu Dhabi
Verified email at nyu.edu
Title
Cited by
Cited by
Year
Fast transient fully standard-cell-based all digital low-dropout regulator with 99.97% current efficiency
MA Akram, W Hong, IC Hwang
IEEE Transactions on Power Electronics 33 (9), 8011-8019, 2017
362017
Capacitorless self-clocked all-digital low-dropout regulator
MA Akram, W Hong, IC Hwang
IEEE Journal of Solid-State Circuits 54 (1), 266-276, 2018
232018
Architectural advancement of digital low-dropout regulators
MA Akram, IC Hwang, S Ha
IEEE access 8, 137838-137855, 2020
112020
Duty-cycled wireless power transmission for millimeter-sized biomedical implants
MA Akram, KW Yang, S Ha
Electronics 9 (12), 2130, 2020
82020
Fully digital fast transient phase-locked digital LDO-embedded-MDLL for DVFS applications
MA Akram, IC Hwang
Analog Integrated Circuits and Signal Processing 93, 123-136, 2017
62017
Output-capacitorless tri-loop digital low dropout regulator achieving 99.91% current efficiency and 2.87 fs FOM
MA Akram, KS Kim, S Ha, IC Hwang
IEEE Transactions on Power Electronics 36 (2), 2044-2058, 2020
52020
Capacitor-Less Dual-Mode All-Digital LDO With ΔΣ-Modulation-Based Ripple Reduction
MA Akram, W Hong, S Ha, IC Hwang
IEEE Transactions on Circuits and Systems II: Express Briefs 68 (5), 1620-1624, 2021
22021
A 0.012mm2, 0.96-mW All-Digital Multiplying Delay-Locked Loop Based Frequency Synthesizer for GPS-L4 band
MA Akram, MH Lee, DH Cho, IC Hwang
2020 IEEE International Conference on Consumer Electronics (ICCE), 1-2, 2020
22020
All digital duty-cycle corrector for integrated phase noise improvement in phase-locked loop
MA Akram, KW Kim, JH Bae, IC Hwang
Analog Integrated Circuits and Signal Processing, 1-9, 2019
22019
A stability-secured loop bandwidth controllable frequency synthesizer for multi-band mobile DTV tuners
KW Kim, MA Akram, IC Hwang
IEIE Transactions on Smart Processing and Computing 4 (3), 141-144, 2015
22015
Fine-grained power delivery and management with all-digital capacitor-less low-dropout regulators
MA Akram
Kangwon National University, 2019
12019
A 433.92-MHz CMOS Rectifier with Dynamic VTH-reduction for Wireless Biomedical Implants
MA Akram, S Ha
2022 IEEE Biomedical Circuits and Systems Conference (BioCAS), 16-20, 2022
2022
A 434-MHz Bootstrap Rectifier With Dynamic Compensation for Wireless Biomedical Implants
MA Akram, S Ha
IEEE Transactions on Power Electronics 38 (2), 1423-1428, 2022
2022
Capacitor-less Dual-mode All-digital LDO with∆ Σ-modulation-based Ripple Reduction
MA Akram, W Hong, S Ha, IC Hwang
International Symposium on Circuits and Systems (ISCAS), 2021
2021
Power Delivery Networks for Embedded Mobile SoCs: Architectural Advancements and Design Challenges
MA Akram, IC Hwang, S Ha
IEEE Access 9, 46573-46588, 2021
2021
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