Behzad Razavi is a Professor of Electrical Engineering at the University of California, Los Angeles. He has received numerous teaching and education awards, has served as an IEEE Distinguished Lecturer, and is a member of the US National Academy of Engineering and a Fellow of the IEEE. His previous text-books include Fundamentals of Microelectronics, RF Microelectronics, Design of Analog CMOS ...
Design Techniques for High-Speed, High-Resolution Comparators Behzad Razavi, Member, IEEE, and Bruce A. Wooley, Fellow, IEEE Reviewed by: Minh Le
Razavi, Behzad. Design of analog CMOS integrated circuits / Behzad Razavi, professor of electrical engineering, University of California, Los Angeles. – Second edition. pages cm Includes bibliographical references and index. ISBN 978-0-07-252493-2 (alk. paper) – ISBN 0-07-252493-6 (alk. paper) 1. Analog CMOS integrated circuits. 2.
Professor Razavi is an IEEE Distinguished Lecturer, a Fellow of IEEE, and the author of Principles of Data Conversion System Design, RF Microelectronics, First Edi-tion (translated to Chinese, Japanese, and Korean), Design of Analog CMOS Integrated Circuits (translated to Chinese, Japanese, and Korean), Design of Integrated Circuits for xxiii
CORRESPONDING AUTHOR: B. RAZAVI (e-mail: razavi@ee.ucla.edu) This work was supported in part by Realtek Semiconductor and in part by Oracle. ABSTRACT Wireline transmitters operating at tens of gigabits per second pose challenging design issues ranging from limited bandwidths to severe sensitivity to jitter.
Low Noise Ampli er With Resistive Feedback Jack Ou Department of Electrical and Computer Engineering Razavi, Sec. 13.2.1 Evolution 6= 0 M 1
Abstract—In this paper, we propose a forward body biasing technique to enhance the performance of the StrongARM comparators. We apply this technique, which is mainly based on clocked tuning of the threshold voltage of the NMOS cross-coupled transistors, to different architectures, namely: Kobayashi, Razavi, and Improved StrongARM comparators. The circuits are simulated in the standard 65nm ...