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Yarman B. Design of ultra wideband power transfer net. 2010 Rep
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Textbook in PDF format

Combining analytic theory and modern computer-aided design techniques this volume will enable you to understand and design power transfer networks and amplifiers in next generation radio frequency (RF) and microwave communication systems.
A comprehensive theory of circuits constructed with lumped and distributed elements is covered, as are electromagnetic field theory, filter theory, and broadband matching. Along with detailed roadmaps and accessible algorithms, this book provides up-to-date, practical design examples including:
filters built with microstrip lines in C and X bands;
various antenna matching networks over HF and microwave frequencies;
channel equalizers with arbitary gain shapes;
matching networks for ultrasonic transducers;
ultra wideband microwave amplifiers constructed with lumped and distributed elements.
A companion website details all Real Frequency Techniques (including line segment and computational techniques) with design tools developed on MatLab.
Essential reading for all RF and circuit design engineers, this is also a great reference text for other electrical engineers and researchers working on the development of communications applications at wideband frequencies. This book is also beneficial to advanced electrical and communications engineering students taking courses in RF and microwave communications technology.
Circuit Theory for Power Transfer Networks.
Electromagnetic Field Theory for Power Transfer Networks: Fields, Waves and Lumped Circuit Models.
Transmission Lines for Circuit Designers: Transmission Lines as Circuit Elements.
Circuits Constructed with Commensurate Transmission Lines: Properties of Transmission Line Circuits in the Richard Domain.
Insertion Loss Approximation for Arbitrary Gain Forms via the Simplified Real Frequency Technique: Filter Design via SRFT.
Formal Description of Lossless Two-ports in Terms of Scattering Parameters: Scattering Parameters in the p Domain.
Numerical Generation of Minimum Functions via the Parametric Approach.
Gewertz Procedure to Generate a Minimum Function from its Even Part: Generation of Minimum Function in Rational Form.
Description of Power Transfer Networks via Driving Point Input Immittance: Darlington’s Theorem.
Design of Power Transfer Networks: A Glimpse of the Analytic Theory via a Unified Approach.
Modern Approaches to Broadband Matching Problems: Real Frequency Solutions.
Immittance Data Modeling via Linear Interpolation Techniques: A Classical Circuit Theory Approach.
Lossless Two-ports Formed with Mixed Lumped and Distributed Elements: Design of Matching Networks with Mixed Elements