Preface |
Introduction / 1: |
Microwave Frequencies / 1.1: |
Microwave Applications / 1.2: |
Microwave Circuit Elements and Analysis / 1.3: |
References |
Electromagnetic Theory / 2: |
Maxwell's Equations / 2.1: |
Constitutive Relations / 2.2: |
Static Fields / 2.3: |
Wave Equation / 2.4: |
Energy and Power / 2.5: |
Boundary Conditions / 2.6: |
Plane Waves / 2.7: |
Reflection from a Dielectric Interface / 2.8: |
Reflection from a Conducting Plane / 2.9: |
Potential Theory / 2.10: |
Derivation of Solution for Vector Potential / 2.11: |
Lorentz Reciprocity Theorem / 2.12: |
Problems |
Transmission Lines and Waveguides / 3: |
Waves on Transmission Lines / Part 1: |
Waves on An Ideal Transmission Line / 3.1: |
Terminated Transmission Line: Resistive Load / 3.2: |
Capacitive Termination / 3.3: |
Steady-State Sinusoidal Waves / 3.4: |
Waves on a Lossy Transmission Line / 3.5: |
Terminated Transmission Line: Sinusoidal Waves / 3.6: |
Field Analysis of Transmission Lines / Part 2: |
Classification of Wave Solutions / 3.7: |
Transmission Lines (Field Analysis) / 3.8: |
Transmission-Line Parameters / 3.9: |
Inhomogeneously Filled Parallel-Plate Transmission Line / 3.10: |
Planar Transmission Lines / 3.11: |
Microstrip Transmission Line / 3.12: |
Coupled Microstrip Lines / 3.13: |
Strip Transmission Lines / 3.14: |
Coupled Strip Lines / 3.15: |
Coplanar Transmission Lines / 3.16: |
Rectangular and Circular Waveguides / Part 3: |
Rectangular Waveguide / 3.17: |
Circular Waveguides / 3.18: |
Wave Velocities / 3.19: |
Ridge Waveguide / 3.20: |
Fin Line / 3.21: |
Circuit Theory for Waveguiding Systems / 4: |
Equivalent Voltages and Currents / 4.1: |
Impedance Description of Waveguide Elements and Circuits / 4.2: |
Foster's Reactance Theorem / 4.3: |
Even and Odd Properties of Z[subscript in] / 4.4: |
N-Port Circuits / 4.5: |
Two-Port Junctions / 4.6: |
Scattering-Matrix Formulation / 4.7: |
Scattering Matrix for a Two-Port Junction / 4.8: |
Transmission-Matrix Representation / 4.9: |
Signal Flow Graphs / 4.10: |
Generalized Scattering Matrix for Power Waves / 4.11: |
Excitation of Waveguides / 4.12: |
Waveguide Coupling by Apertures / 4.13: |
Impedance Transformation and Matching / 5: |
Smith Chart / 5.1: |
Impedance Matching with Reactive Elements / 5.2: |
Double-Stub Matching Network / 5.3: |
Triple-Stub Tuner / 5.4: |
Impedance Matching with Lumped Elements / 5.5: |
Design of Complex Impedance Terminations / 5.6: |
Invariant Property of Impedance Mismatch Factor / 5.7: |
Waveguide Reactive Elements / 5.8: |
Quarter-Wave Transformers / 5.9: |
Theory of Small Reflections / 5.10: |
Approximate Theory for Multisection Quarter-Wave Transformers / 5.11: |
Binomial Transformer / 5.12: |
Chebyshev Transformer / 5.13: |
Chebyshev Transformer (Exact Results) / 5.14: |
Filter Design Based on Quarter-Wave-Transformer Prototype Circuit / 5.15: |
Tapered Transmission Lines / 5.16: |
Synthesis of Transmission-Line Tapers / 5.17: |
Chebyshev Taper / 5.18: |
Exact Equation for the Reflection Coefficient / 5.19: |
Passive Microwave Devices / 6: |
Terminations / 6.1: |
Attenuators / 6.2: |
Phase Shifters / 6.3: |
Directional Couplers / 6.4: |
Hybrid Junctions / 6.5: |
Power Dividers / 6.6: |
Microwave Propagation in Ferrites / 6.7: |
Faraday Rotation / 6.8: |
Microwave Devices Employing Faraday Rotation / 6.9: |
Circulators / 6.10: |
Other Ferrite Devices / 6.11: |
Electromagnetic Resonators / 7: |
Resonant Circuits / 7.1: |
Transmission-Line Resonant Circuits / 7.2: |
Microstrip Resonators / 7.3: |
Microwave Cavities / 7.4: |
Dielectric Resonators / 7.5: |
Equivalent Circuits for Cavities / 7.6: |
Field Expansion in a General Cavity / 7.7: |
Oscillations in a Source-Free Cavity / 7.8: |
Excitation of Cavities / 7.9: |
Cavity Perturbation Theory / 7.10: |
Periodic Structures and Filters / 8: |
Capactively Loaded Transmission-Line-Circuit Analysis / 8.1: |
Wave Analysis of Periodic Structures / 8.2: |
Periodic Structures Composed of Unsymmetrical Two-Port Networks / 8.3: |
Terminated Periodic Structures / 8.4: |
Matching of Periodic Structures / 8.5: |
k[subscript 0]-[beta] Diagram / 8.6: |
Group Velocity and Energy Flow / 8.7: |
Floquet's Theorem and Spatial Harmonics / 8.8: |
Periodic Structures for Traveling-Wave Tubes / 8.9: |
Sheath Helix / 8.10: |
Some General Properties of a Helix / 8.11: |
Introduction to Microwave Filters / 8.12: |
Image-Parameter Method of Filter Design / 8.13: |
Filter Design by Insertion-Loss Method / 8.14: |
Specification of Power Loss Ratio / 8.15: |
Some Low-Pass-Filter Designs / 8.16: |
Frequency Transformations / 8.17: |
Impedance and Admittance Inverters / 8.18: |
A Microstrip Half-Wave Filter / 8.19: |
Microstrip Parallel Coupled Filter / 8.20: |
Quarter-Wave-Coupled Cavity Filters / 8.21: |
Direct-Coupled Cavity Filters / 8.22: |
Other Types of Filters / 8.23: |
Microwave Tubes / 9: |
Electron Beams with dc Conditions / 9.1: |
Space-Charge Waves on Beams with Confined Flow / 9.3: |
Space-Charge Waves on Unfocused Beams / 9.4: |
Ac Power Relations / 9.5: |
Velocity Modulation / 9.6: |
Two-Cavity Klystron / 9.7: |
Reflex Klystron / 9.8: |
Magnetron / 9.9: |
O-Type Traveling-Wave Tube / 9.10: |
M-Type Traveling-Wave Tube / 9.11: |
Gyrotrons / 9.12: |
Other Types of Microwave Tubes / 9.13: |
Solid-State Amplifiers / 10: |
Bipolar Transistors / 10.1: |
Field-Effect Transistors / 10.2: |
Circle-Mapping Properties of Bilinear Transformations / 10.3: |
Microwave Amplifier Design Using S[subscript ij] Parameters / 10.4: |
Amplifier Power Gain / 10.5: |
Amplifier Stability Criteria / 10.6: |
Constant Power-Gain Circles / 10.7: |
Basic Noise Theory / 10.8: |
Low-Noise Amplifier Design / 10.9: |
Constant Mismatch Circles / 10.10: |
Microwave Amplifier Design / 10.11: |
Other Aspects of Microwave Amplifier Design / 10.12: |
Parametric Amplifiers / 11: |
p-n Junction Diodes / 11.1: |
Manley-Rowe Relations / 11.2: |
Linearized Equations for Parametric Amplifiers / 11.3: |
Parametric Up-Converter / 11.4: |
Negative-Resistance Parametric Amplifier / 11.5: |
Noise Properties of Parametric Amplifiers / 11.6: |
Oscillators and Mixers / 12: |
Gunn Oscillators / 12.1: |
IMPATT Diodes / 12.2: |
Transistor Oscillators / 12.3: |
Three-Port Description of a Transistor / 12.4: |
Oscillator Circuits / 12.5: |
Oscillator Design / 12.6: |
Mixers / 12.7: |
Mixer Noise Figure / 12.8: |
Balanced Mixers / 12.9: |
Other Types of Mixers / 12.10: |
Mixer Analysis Using Harmonic Balancing / 12.11: |
Appendixes |
Useful Relations from Vector Analysis / I: |
Bessel Functions / II: |
Conformal Mapping Techniques / III: |
Physical Constants and Other Data / IV: |
Index |
Preface |
Introduction / 1: |
Microwave Frequencies / 1.1: |