An Introduction to the Theory of Microwave Circuits
Published on 1. January 1969
446 pages
978-0-323-16294-4 (ISBN)
Description
An Introduction to the Theory of Microwave Circuits
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Content
- Front Cover
- An Introduction to the Theory of Microwave Circuits
- Copyright Page
- Table of Contents
- Preface
- Chapter 1. Elements of Conventional Circuit Theory
- 1.1 Transmission Line Theory
- 1.2 Smith Chart
- 1.3 Bilinear Transformations
- 1.4 Power Waves
- Problems
- Chapter 2. Electromagnetic Field Vectors
- 2.1 Vectors
- 2.2 Maxwell's Equations
- 2.3 Plane Waves
- Problems
- Chapter 3. Waveguides
- 3.1 Perfect Conductors
- 3.2 TE10 Mode in Rectangular Waveguides
- 3.3 Introductory Eigenvalue Problem
- 3.4 Eigenfunctions for Waveguides
- 3.5 General Theory of Waveguides
- 3.6 Examples of Waveguides
- 3.7 Waveguide Discontinuities
- 3.8 Effect of Wall Losses
- 3.9 Waveguides with Inhomogeneous Media
- Problems
- Chapter 4. Resonant Cavities
- 4.1 Introduction
- 4.2 Expansions of Electromagnetic Fields
- 4.3 Equivalent Circuits
- 4.4 Perturbation of Boundaries
- 4.5 Cavities with Inhomogeneous Media
- Problems
- Chapter 5. Matrices and Waveguide Junctions
- 5.1 Matrices
- 5.2 Reciprocal Conditions
- 5.3 Lossless Conditions
- 5.4 Frequency Characteristic of Lossless Reciprocal Junctions
- 5.5 Lossless Reciprocal Three-port Networks
- 5.6 Symmetrical Y Junctions
- 5.7 Tensor Permeability of Ferrites
- 5.8 Three-port Circulators
- Problems
- Chapter 6. Coupled Modes and Periodic Structures
- 6.1 Distributed Couplings
- 6.2 Perturbation Method for the Eigenvalue Problem
- 6.3 Interactions between Two Waves
- 6.4 Periodic Structures
- 6.5 ?-ß Diagram
- Problems
- Chapter 7. Linear Amplifiers
- 7.1 Canonical Forms
- 7.2 Noise Measure
- 7.3 Unconditional Stability
- 7.4 Unilateral Gain
- 7.5 Tunnel Diode Amplifiers
- 7.6 Manley-Rowe Relations
- 7.7 Negative Resistance Parametric Amplifiers
- Problems
- Chapter 8. Electron Beams
- 8.1 An Electron Beam Model
- 8.2 Space Charge Waves
- 8.3 Gap Interactions
- 8.4 Continuous Interaction with a Slow Wave Structure
- 8.5 Electron Beam Noise
- Problems
- Chapter 9. Oscillators
- 9.1 A Simplified Oscillator Model
- 9.2 Synchronization by Injection Locking
- 9.3 Noise in Oscillators
- Problems .
- Appendix I: Proof of lim k2n = 8
- 1. One-Dimensional Case
- 2. Two-Dimensional Case
- 3. Three-Dimensional Case
- 4. Resonant Cavities with Inhomogeneous Media
- Appendix II: Generalized Functions and Fourier Analysis
- References
- Subject Index
