Principles of RF and microwave design

Principles of RF and microwave design

Packed with references and examples, this comprehensive resource provides a thorough introduction to the principles of electronic circuits operating in the radio, microwave, and millimeter-wave frequency ranges. --

Detalles Bibliográficos
Autor principal: Morgan, Matthew A. (-)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Norwood, MA : Artech House [2020]
Colección:EBSCO Academic eBook Collection Complete.
Artech House microwave library.
Acceso en línea:Conectar con la versión electrónica
Ver en Universidad de Navarra:https://innopac.unav.es/record=b45635791*spi
Tabla de Contenidos:
  • Principles of RF and Microwave Design
  • Preface
  • Contents
  • Acknowledgments
  • Fields and Waves
  • Maxwell's Equations
  • Large-Scale Form and Constitutive Relations
  • Physical Interpretation
  • The Continuity Equation
  • Boundary Conditions on a Perfect Conductor
  • Boundary Conditions at a Dielectric Interface
  • Differential Form
  • Differential Boundary Conditions
  • Static Fields
  • Electrostatics
  • Magnetostatics
  • Static Fields in a Coaxial Geometry
  • Wave Solutions
  • Spectral Analysis
  • Maxwell's Equations in the Frequency Domain
  • Phasor Notation.
  • Wave-Boundary Interactions
  • Reflection from a Conducting Boundary
  • Reflection and Refraction from a Dielectric Boundary
  • Lossy Materials
  • Dielectric Polarization
  • Magnetic Polarization
  • Conduction
  • The Skin Effect
  • Lorentz Reciprocity
  • From Fields to Circuits
  • Problems
  • References
  • Lumped Elements
  • Voltage, Current, and Kirchhoff's Laws
  • Kirchhoff's Voltage Law
  • Kirchhoff's Current Law
  • Lumped-Element Devices
  • Resistors
  • Reactive Elements
  • Capacitors
  • Inductors
  • Transformers
  • Energy and Power
  • Power Dissipation in Resistors.
  • Energy Storage in a Capacitor
  • Energy Storage in an Inductor
  • Energy Transfer in a Transformer
  • Terminal Parameters in the Frequency Domain
  • Impedance and Admittance
  • Complex Power
  • Resonators
  • Series RLC Resonator
  • Parallel RLC Resonator
  • Loaded Q
  • Sources
  • Tellegen's Theorem and Its Implications
  • Network Reciprocity
  • Parasitics
  • Realistic Capacitors
  • Realistic Inductors
  • Realistic Transformers
  • Problems
  • References
  • Transmission Lines
  • Construction from Lumped Elements
  • Distributed Inductance and Resistance
  • Distributed Capacitance and Conductance.
  • The Telegrapher's Equations
  • Construction from Field Equations
  • Separation of Variables
  • Relating Terminal Parameters to Field Quantities
  • Transmission Lines in Circuits
  • The Terminated Transmission Line
  • Stubs and Quarter-Wave Transformers
  • Infinite T-Lines and the Characteristic Impedance
  • Signal Transmission with Transmission Lines
  • Loss in Transmission Lines
  • The 50 ohm Standard
  • Transmission-Line Resonators
  • Half-Wave Resonators
  • Quarter-Wave Resonators
  • Coupling to a Transmission-Line Resonator
  • Printed Circuit Technologies
  • Microstrip Design Equations.
  • Planar Junctions and Discontinuities
  • Radial Stubs
  • Coupled Lines
  • Problems
  • References
  • Network Parameters
  • Immittance Network Parameters
  • Impedance Parameters
  • Admittance Parameters
  • ABCD-Parameters
  • Hybrid and Inverse-Hybrid Parameters
  • Wave Network Parameters
  • Scattering Parameters
  • Scattering Transfer Parameters
  • Properties of Networks
  • Reciprocity
  • Symmetry
  • Antimetry
  • Losslessness
  • Passivity
  • A Constraint on Three-Port Networks
  • Signal-Flow Graphs
  • Principles of Signal-Flow Graphs
  • Decomposition Rules
  • Mason's Rule
  • Equivalent Matrix Form.
  • Even and Odd-Mode Analysis.

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