Thesis Title: Power Conversion Techniques in Nanometer CMOS Technologies for Low-Power Applications
Thesis Title: Dual-Frequency Single-Inductor Multiple-Output (DF-SIMO) Power Converter Topology for SoC Applications.
Report Title: A 1A, 20MHz/100MHz Dual-Inductor 4-Output Buck Converter with Fully-Integrated Bond-Wire-Based Output Filters for Ripple Reduc
Report Title: Hysteretic Buck Converters with Spur-Free Control
Report Title: A Sub-Micro Watt Maximum Power Point Tracking Circuit for Photovoltaic Systems
Report Title: Constant-Current Constant-Voltage Switching Battery Charger for Li-Ion Batteries.
The award is for their paper entitled "A Low-Noise PFM-Controlled Buck Converter for Low-Power applications"
Report Title: A Dual-Loop Capacitor-less LDO with Fast Transient Response and High PSR.
Prof. Fayed will be serving as an associate editor for IEEE Transactions on Circuits and Systems Part II starting Jan. 2015.