CMOS Front Ends for Millimeter Wave Wireless Communication Systems, 2015 Analog Circuits and Signal Processing Series

This book focuses on the development of circuit and system design techniques for millimeter wave wireless communication systems above 90GHz and fabricated in nanometer scale CMOS technologies.  The authors demonstrate a hands-on methodology that was applied to design six different chips, in order to overcome a variety of design challenges.  Behavior of both actives and passives, and how to design them to achieve high performance is discussed in detail. This book serves as a valuable reference for millimeter wave designers, working at both the transistor level and system level.

Noël Deferm (S'09) was born in Diest, Belgium, in 1985. In 2008 he received the degree of M.S. in Electrical Engineering (ir.) from the Katholieke Universiteit Leuven (K.U.Leuven), Belgium. The subject of his MS thesis was on the design of ultra low-power architectures for wireless sensor networks.
He is currently working as a postdoc researcher at the MICAS laboratories of the department of Electrical Engineering (ESAT) of the Katholieke Universiteit Leuven (K.U.Leuven) from which he received the Ph.D. in Engineering Science (dr.) in 2014. While working towards his Ph.D. degree, his main research focus was on mm-wave CMOS circuit design for wireless communication systems.
In 2011, he received the TSMC-Europractice innovation award.

Patrick Reynaert was born in Wilrijk, Belgium, in 1976. He received the Master of Industrial Sciences in Electronics (ing.) from the Karel de Grote Hogeschool, Antwerpen, Belgium in 1998 and both the Master of Electrical Engineering (ir.) and the Ph.D. in Engineering Science (dr.) from the KU Leuven), Belgium in 2001 and 2006 respectively.

From 2001 to 2006, he was a Teaching and Research Assistant within the MICAS research group of the Department of Electrical Engineering (ESAT), K.U.Leuven, Belgium. While working towards his Ph.D. degree, his main research focus was on CMOS RF power amplifiers and analog circuit design for mobile and wireless communications. From 2001 to 2006, he was also a Lector at ACE-Group T Leuven, Belgium were he teached several undergraduate courses on electronic circuit design.

During 2006-2007, he was a post-doctoral researcher at the Department of Electrical Engineering and Computer Sciences of the University of California at Berkeley. At the Berkeley Wireless Research Center, he was working on mm-wave CMOS integrated circuits within the group of Prof. Ali Niknejad. For this research, he received a Francqui Foundation fellowship from the Belgian American Educational Foundation.

Discusses advantages and disadvantages of designing wireless mm-wave communication circuits and systems in CMOS

Analyzes the limitations and pitfalls of building mm-wave circuits in CMOS

Includes mm-wave building block and system design techniques and applies these to 6 different CMOS chips

Provides guidelines for building measurement setups to evaluate high-frequency chips

Includes supplementary material: sn.pub/extras