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Mohamed Abdelmoneum
Also published under:M. A. Abdelmoneum, Mohamed A. Abdelmoneum, M. Abdelmoneum
Affiliation
Wireless Communication Research, Intel Labs, Hillsboro, Oregon, USA
Topic
Phase Noise,Quality Factor,Current Source,Differential Amplifier,Feedback Resistor,Impedance,Input Stage,Negative Feedback,Oscillator Circuit,Technology Node,Thermal Sensors,Transimpedance Amplifier,Atmospheric Pressure,Automatic Gain Control,Band Gap,Beam Length,Beam Thickness,Bias Point,Buffered Oxide Etchant,CMOS Technology,Carnot Cycle,Circuit Performance,Compensation Technique,Crossbeam,Crystalline Silicon,Current Sink,DC Power,Differential Pair,Dual Process,Dynamic Compensation,Electrode,End-users,Energy Harvesting,Energy Harvesting Devices,Envelope Detector,Fabrication Process,Feedback,Feedback Loop,Feedback Mechanism,Form Factor,Frequency Generation,Frontrunner,Future Platforms,Gate Electrode,General Topology,Harvest Levels,Heat Flux,High Gain,High Quality Factor,Kinds Of Literature,
Biography
Mohamed A. Abdelmoneum (S'99–M'05) received the B.Sc. degree in electrical communications and electrophysics from Alexandria University, Alexandria, Egypt, in 1994, and the M.Sc. and Ph.D. degrees in electrical engineering and computer science from the University of Michigan, Ann Arbor, in 2000 and 2005, respectively.
Between January 1996 and May 1996, he was a Field Engineer with Schlumberger Wire Line and Testing. He was a Junior Faculty Member with the Department of Mathematics and Basic Sciences, Tanta University, Tanta, Egypt, where he worked on wavelets and their application to the solution of differential equations. In 1998, he was with the Radiation Laboratory, University of Michigan, where he worked on computational electromagnetics and its application to antenna design, radomes, frequency-selective surfaces, and electromagnetic computability. In 2001, he was with the Solid State Electronics Laboratory, where he worked on vibrating micromechanical resonators and filters. He focused on developing resonators capable of exhibiting high $Q$'s under different environmental conditions as well as automatic postfabrication trimming of micromechanical resonators and filters. Since 2005, he has been with Intel Corporation, Hillsboro, OR, where he has been working on developing automated analysis systems for semiconductor process development for the 45- and 32-nm technologies and is currently with the Mobility Group working on developing microsensor technologies for wireless computing systems. He has published over 13 conference/journal papers in the areas of RF microelectromechanical systems (MEMS), computational electromagnetics, and semiconductor process development. He is the holder of three patents in the area of RF MEMS, with four pending.
Between January 1996 and May 1996, he was a Field Engineer with Schlumberger Wire Line and Testing. He was a Junior Faculty Member with the Department of Mathematics and Basic Sciences, Tanta University, Tanta, Egypt, where he worked on wavelets and their application to the solution of differential equations. In 1998, he was with the Radiation Laboratory, University of Michigan, where he worked on computational electromagnetics and its application to antenna design, radomes, frequency-selective surfaces, and electromagnetic computability. In 2001, he was with the Solid State Electronics Laboratory, where he worked on vibrating micromechanical resonators and filters. He focused on developing resonators capable of exhibiting high $Q$'s under different environmental conditions as well as automatic postfabrication trimming of micromechanical resonators and filters. Since 2005, he has been with Intel Corporation, Hillsboro, OR, where he has been working on developing automated analysis systems for semiconductor process development for the 45- and 32-nm technologies and is currently with the Mobility Group working on developing microsensor technologies for wireless computing systems. He has published over 13 conference/journal papers in the areas of RF microelectromechanical systems (MEMS), computational electromagnetics, and semiconductor process development. He is the holder of three patents in the area of RF MEMS, with four pending.