M. Spirito

M. Spirito

Profile

Biography

Marco Spirito (S’01-M’08) received the M.Sc. degree (cum laude) in electrical engineering from the University of Naples “Federico II,” Naples , Italy , in 2000, and the Ph.D. degree from the Delft University of Technology, Delft , The Netherlands, in 2006. From 2000 to 2001, he was a guest at Infineon Technologies, Munich, Germany. In 2006, he joined the department of Electronics and Telecommunications Engineering, University of Naples “Federico II.” In April 2008 he joined the Electronics Research Laboratory at the Delft University of Technology as an Assistant Professor, where he is an Associate Professor since April 2013. His research interests include the characterization of highly efficient and linear power amplifiers, the development of advanced characterization setups for millimeter and sub-millimeter waves, and the integration of mm-wave sensing systems.

Dr. Spirito was the recipient of the Best Student Paper Award for his contribution to the 2002 IEEE Bipolar/BiCMOS Circuits and Technology Meeting (BCTM) he received the IEEE MTT Society Microwave Prize in 2008, was a co-recipient of the best student paper award at IEEE RFIC 2011, and the GAAS Association Student Fellowship in 2012.

Projects

Currently, my research focuses on the development of measurement techniques and test-benches, on the definition and implementation of novel system concepts and the improved calibration methods to reach the required performance in (sub)mm-wave frequency range. The investigation on measurement techniques starts with the implementation of novel high performance test-benches and develops into the realization of accurate measurements allowing to extract the key parameters of innovative device or sub-systems under test. The realization of unique tools (software and hardware) provides strategic know-how and infrastructures which enable the evaluation and further improvement of the system/device under test. Calibration techniques are the needed “recipes” to improve the characterization accuracy and/or provide new insight in the object under test. 
Working on system level definition, calibration algorithms, and component level design allows me to effectively interact with complementary fields and colleagues, i.e., antenna and EM experts, device modelling specialists and circuit designers. Through an active co-operation, leveraging their skills, I am involved in the design, implementation and characterization of higher complexity systems operating at the frontier of high-frequency technologies.

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Publications

Prizes