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. --
Clasificación: | Libro Electrónico |
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Autor principal: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Norwood, MA :
Artech House,
[2020]
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Colección: | Artech House microwave library.
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Temas: | |
Acceso en línea: | Texto completo |
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