High Frequency Techniques An Introduction to RF and Microwave Design and Computer Simulation.

Detalles Bibliográficos
Autor principal: White, Joseph F.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Newark : John Wiley & Sons, Incorporated, 2003.
Colección:New York Academy of Sciences Ser.
Temas:
Electronic books.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Intro
  • HIGH FREQUENCY TECHNIQUES
  • CONTENTS
  • Preface
  • Acknowledgments
  • 1 Introduction
  • 1.1 Beginning of Wireless
  • 1.2 Current Radio Spectrum
  • 1.3 Conventions Used in This Text
  • Sections
  • Equations
  • Figures
  • Exercises
  • Symbols
  • Prefixes
  • Fonts
  • 1.4 Vectors and Coordinates
  • 1.5 General Constants and Useful Conversions
  • 2 Review of AC Analysis and Network Simulation
  • 2.1 Basic Circuit Elements
  • The Resistor
  • Ohm's Law
  • The Inductor
  • The Capacitor
  • 2.2 Kirchhoff's Laws
  • 2.3 Alternating Current (AC) Analysis
  • Ohm's Law in Complex Form
  • 2.4 Voltage and Current Phasors
  • 2.5 Impedance
  • Estimating Reactance
  • Addition of Series Impedances
  • 2.6 Admittance
  • Admittance Definition
  • Addition of Parallel Admittances
  • The Product over the Sum
  • 2.7 LLFPB Networks
  • 2.8 Decibels, dBW, and dBm
  • Logarithms (Logs)
  • Multiplying by Adding Logs
  • Dividing by Subtracting Logs
  • Zero Powers
  • Bel Scale
  • Decibel Scale
  • Decibels-Relative Measures
  • Absolute Power Levels-dBm and dBW
  • Decibel Power Scales
  • 2.9 Power Transfer
  • Calculating Power Transfer
  • Maximum Power Transfer
  • 2.10 Specifying Loss
  • Insertion Loss
  • Transducer Loss
  • Loss Due to Series Impedance
  • Loss Due to Shunt Admittance
  • Loss in Terms of Scattering Parameters
  • 2.11 Real RLC Models
  • Resistor with Parasitics
  • Inductor with Parasitics
  • Capacitor with Parasitics
  • 2.12 Designing LC Elements
  • Lumped Coils
  • High m Inductor Cores-the Hysteresis Curve
  • Estimating Wire Inductance
  • Parallel Plate Capacitors
  • 2.13 Skin Effect
  • 2.14 Network Simulation
  • 3 LC Resonance and Matching Networks
  • 3.1 LC Resonance
  • 3.2 Series Circuit Quality Factors
  • Q of Inductors and Capacitors
  • Q(E), External Q
  • Q(L), Loaded Q
  • 3.3 Parallel Circuit Quality Factors
  • 3.4 Coupled Resonators
  • Direct Coupled Resonators
  • Lightly Coupled Resonators
  • 3.5 Q Matching
  • Low to High Resistance
  • Broadbanding the Q Matching Method
  • High to Low Resistance
  • 4 Distributed Circuit Design
  • 4.1 Transmission Lines
  • 4.2 Wavelength in a Dielectric
  • 4.3 Pulses on Transmission Lines
  • 4.4 Incident and Reflected Waves
  • 4.5 Reflection Coefficient
  • 4.6 Return Loss
  • 4.7 Mismatch Loss
  • 4.8 Mismatch Error
  • 4.9 The Telegrapher Equations
  • 4.10 Transmission Line Wave Equations
  • 4.11 Wave Propagation
  • 4.12 Phase and Group Velocities
  • 4.13 Reflection Coefficient and Impedance
  • 4.14 Impedance Transformation Equation
  • 4.15 Impedance Matching with One Transmission Line
  • 4.16 Fano's (and Bode's) Limit
  • Type A Mismatched Loads
  • Type B Mismatched Loads
  • Impedance Transformation Not Included
  • 5 The Smith Chart
  • 5.1 Basis of the Smith Chart
  • 5.2 Drawing the Smith Chart
  • 5.3 Admittance on the Smith Chart
  • 5.4 Tuning a Mismatched Load
  • 5.5 Slotted Line Impedance Measurement
  • 5.6 VSWR = r
  • 5.7 Negative Resistance Smith Chart
  • 5.8 Navigating the Smith Chart

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