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Dr. Mohamed M. Aboudina
(S’97-M’08) received the BSc. and MSc. degrees in Electrical
Engineering from Cairo University,
Egypt in 2000 (valedictorian) and 2002 respectively and the PhD degree in
Electrical Engineering at University of
California, Los Angeles (UCLA) in 2009.
In Fall 2000, Dr. Aboudina joined the Electronics and
Electrical Communications Engineering Department at Cairo University as a
teaching and research assistant where he received the MSc degree in
Electrical Engineering in the area of “Very Low Voltage
Switched-Capacitor Circuit Design for Deep Submicron Technologies”
under supervision of Prof. Ahmed M. Soliman from Cairo University and Dr.
Sameh M. Tawfik from Mentor Graphics. In Fall
2002, Dr. Aboudina joined the Communications and Circuits Laboratory (CCL), Department of Electrical
Engineering, University of California, Los Angeles (UCLA). He received
the PhD. degree at the same department in Integrated Circuits and Systems
working on Sigma-Delta ADCs and introduced a Novel DAC mismatch shaping
technique under the supervision of Prof. Behzad Razavi
in 2009. During his graduate studies he joined a few internship positions
specifically in Mentor Graphics,
Cairo, Egypt and Newport Media Inc.
Lake Forest, CA. Dr. Aboudina received the 2005 Analog Devices Inc.
Distinguished Researcher Award.
Dr. Aboudina has been with Marvell
Semiconductor Inc., Santa Clara, CA as a Senior Design Engineer from
January 2009 till July 2011 in the Analog IP group working on read
channel design for hard disk drives. Since 2011, he has been with Vidatronic Inc. as senior member of
technical staff working on power management for integrated circuits.
Since May 2011, Dr. Aboudina has been working as an
assistant professor at the EECE
department, Cairo University and affiliated with Cairo Circuits and
Systems Laboratory (CCSL) at
Cairo University, Egypt.
His research interest include:
·
Data Converters (high/low speed, high/low resolution,
Nyquist rate and Oversampled)
·
Power Management (DC-DC converters, low-dropout regulators
(LDO), Battery Chargers and Energy Harvesting systems)
·
RF receivers design (RF and baseband)
·
Low-Power Analog Design
·
Integrated Circuit Design for Biomedical applications
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