05835nam 2200733Ia 450 991013943480332120230725041553.01-282-54843-397866125484370-470-68892-00-470-68891-2(CKB)2500000000001405(EBL)514475(OCoLC)609863038(SSID)ssj0000358793(PQKBManifestationID)11257136(PQKBTitleCode)TC0000358793(PQKBWorkID)10380117(PQKB)11127067(MiAaPQ)EBC514475(Au-PeEL)EBL514475(CaPaEBR)ebr10377820(CaONFJC)MIL254843(EXLCZ)99250000000000140520091204d2010 uy 0engurcn|||||||||txtccrDesign of ultra wideband power transfer networks[electronic resource] /Binboga Siddik YarmanChichester, West Sussex, U.K. ;Hoboken, N.J. Wiley20101 online resource (777 p.)Description based upon print version of record.0-470-31989-5 Includes bibliographical references and index.DESIGN OF ULTRA WIDEBAND POWER TRANSFER NETWORKS; Contents; About the Author; Preface; 1 Circuit Theory for Power Transfer Networks; 1.1 Introduction; 1.2 Ideal Circuit Elements; 1.3 Average Power Dissipation and Effective Voltage and Current; 1.4 Definitions of Voltage and Current Phasors; 1.5 Definitions of Active, Passive and Lossless One-ports; 1.6 Definition of Resistor; 1.7 Definition of Capacitor; 1.8 Definition of Inductor; 1.9 Definition of an Ideal Transformer; 1.10 Coupled Coils; 1.11 Definitions: Laplace and Fourier Transformations of a Time Domain Function f(t)1.12 Useful Mathematical Properties of Laplace and Fourier Transforms of a Causal Function 1.13 Numerical Evaluation of Hilbert Transform; 1.14 Convolution; 1.15 Signal Energy; 1.16 Definition of Impedance and Admittance; 1.17 Immittance of One-port Networks; 1.18 Definition: 'Positive Real Functions'; 2 Electromagnetic Field Theory for Power Transfer Networks: Fields,Waves and Lumped Circuit Models; 2.1 Introduction; 2.2 Coulomb's Law and Electric Fields; 2.3 Definition of Electric Field; 2.4 Definition of Electric Potential; 2.5 Units of Force, Energy and Potential2.6 Uniform Electric Field 2.7 Units of Electric Field; 2.8 Definition of Displacement Vector or 'Electric Flux Density Vector' D; 2.9 Boundary Conditions in an Electric Field; 2.10 Differential Relation between the Potential and the Electric Field; 2.11 Parallel Plate Capacitor; 2.12 Capacitance of a Transmission Line; 2.13 Capacitance of Coaxial Cable; 2.14 Resistance of a Conductor of Length L: Ohm's Law; 2.15 Principle of Charge Conservation and the Continuity Equation; 2.16 Energy Density in an Electric Field; 2.17 The Magnetic Field2.18 Generation of Magnetic Fields: Biot-Savart and Ampre's Law 2.19 Direction of Magnetic Field: Right Hand Rule; 2.20 Unit of Magnetic Field: Related Quantities; 2.21 Unit of Magnetic Flux Density B; 2.22 Unit of Magnetic Flux ; 2.23 Definition of Inductance L; 2.24 Permeability and its Unit; 2.25 Magnetic Force between Two Parallel Wires; 2.26 Magnetic Field Generated by a Circular Current-Carrying Wire; 2.27 Magnetic Field of a Tidily Wired Solenoid of N Turns; 2.28 The Toroid; 2.29 Inductance of N-Turn Wire Loops; 2.30 Inductance of a Coaxial Transmission Line2.31 Parallel Wire Transmission Line 2.32 Faraday's Law; 2.33 Energy Stored in a Magnetic Field; 2.34 Magnetic Energy Density in a Given Volume; 2.35 Transformer; 2.36 Mutual Inductance; 2.37 Boundary Conditions and Maxwell Equations; 2.38 Summary of Maxwell Equations and Electromagnetic Wave Propagation; 2.39 Power Flow in Electromagnetic Fields: Poynting's Theorem; 2.40 General Form of Electromagnetic Wave Equation; 2.41 Solutions of Maxwell Equations Using Complex Phasors; 2.42 Determination of the Electromagnetic Field Distribution of a Short Current Element: Hertzian Dipole Problem2.43 Antenna LossCombining 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;<liUltra-wideband antennasDesign and constructionBroadband communication systemsPower supplyDesign and constructionTelecommunication linesDesign and constructionBroadband amplifiersDesign and constructionImpedance matchingElectric power transmissionUltra-wideband antennasDesign and construction.Broadband communication systemsPower supplyDesign and construction.Telecommunication linesDesign and construction.Broadband amplifiersDesign and construction.Impedance matching.Electric power transmission.621.384/135Yarman Binboga Siddik920480MiAaPQMiAaPQMiAaPQBOOK9910139434803321Design of ultra wideband power transfer networks2117842UNINA