RF / Microwave Circuit Design for Wireless Applications

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Wiley, Nov 20, 2012 - Technology & Engineering - 920 pages
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Provides researchers and engineers with a complete set of modeling, design, and implementation tools for tackling the newest IC technologies

Revised and completely updated, "RF/Microwave Circuit Design for Wireless Applications, Second Edition" is a unique, state-of-the-art guide to wireless integrated circuit design that provides researchers and engineers with a complete set of modeling, design, and implementation tools for tackling even the newest IC technologies. It emphasizes practical design solutions for high-performance devices and circuitry, incorporating ample examples of novel and clever circuits from high-profile companies.

Complete with excellent appendices containing working models and CAD-based applications, this powerful one-stop resource: Covers the entire area of circuit design for wireless applications Discusses the complete system for which circuits are designed as well as the device technologies on which the devices and circuits are based Presents theory as well as practical issues Introduces wireless systems and modulation types Takes a systematic approach that differentiates between designing for battery-operated devices and base-station design

"RF/Microwave Circuit Design for Wireless Applications, Second Edition "is an indispensable tool for circuit designers; engineers who design wireless communications systems; and researchers in semiconductor technologies, telecommunications, and wireless transmission systems.

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About the author (2012)

ULRICH L. ROHDE, PhD, Dr.-ing habil., is Chairman of Synergy Microwave Corporation; a partner of Rohde & Schwarz; and Professor of Microwave and RF Technology at the Brandenburgische Technische Universität Cottbus, Germany. He is a Fellow of the IEEE.

MATTHIAS RUDOLPH, PhD, Dr.-ing, is the Ulrich L. Rohde Professor for RF and Microwave Techniques at Brandenburgische Technische Universität Cottbus, Germany. He worked previously at the Ferdinand-Braun-Institut, Leibniz-Institut für Höchstfrequenztechnik (FBH) in charge of GaAs semiconductor nonlinearity and noise modeling.

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