Microwave engineering : passive circuits

PREFACE
FOREWORD
1 INTRODUCTION
1-1 The Microwave Spectrum
1-2 Historical Background
1-3 Microwave Applications
1-4 Standard Notation, Prefixes, and Physical Constants
References
2 ELEMENTARY FIELDS AND WAVES
2-1 Electric and Magnetic Fields
a. The Electric Field,
b. The Magnetic Field,
2-2 Fields in Conductors and Insulators
a. The Electric Field in Conducting Materials,
b. The Electric Field in Dielectrics,
c. The Magnetic Field in Magnetic Materials,
2-3 Maxwell’s Equations and Boundary Conditions
a. Maxwell’s Equations,
b. Boundary Conditions for Electric and Magnetic Fields,
2-4 Wave Propagation in Perfect Insulators
2-5 Wave Polarization
2-6 Wave Propagation in Imperfect Insulators and Conductors
a. Plane Waves in a Lossy Dielectric,
b. Plane Waves in a Good Conductor,
2- 7 Reflections at Conducting and Dielectric Boundaries
a. Reflections from a Perfect Conductor,
b. Reflections and Refractions at a Dielectric Boundary,
References
Problems
3 TRANSMISSION-LINE THEORY
3-1 Circuit Representation of Transmission Lines
3-2 Transients on a Transmission Line
3-3 Sinusoidal Excitation of Transmission Lines
3-4 Terminated Transmission Lines
a. Lines Terminated in ZL , the General Case,
b. Some Special Cases of Terminated Lines,
c. Power Flow along Terminated Lines,
3-5 The Impedance Transformation
3-6 Examples of the Impedance Transformation
a. Impedance Transformation on a Lossless Line,
b. Impedance Transformation on a Lossy Line,
3-7 The Smith Chart
a. The Basis of the Smith Chart,
b. Typical Smith Chart Computations
References
Problems
4 IMPEDANCE MATCHING AND TWO-PORT NETWORK ANALYSIS
4-1 Some Impedance Matching Techniques
a. Reactive Matching Networks,
b. Transmission-Line Sections as Matching Networks,
c. Dissipative Matching Networks,
d. Variable Matching Networks,
4-2 Quarter-Wave and Tapered-Line Impedance Transformers
a. The Single-Section Quarter-Wave Transformer,
b. Multisection Quarter-Wave Transformers,
c. Tapered-Line Transformers,
4-3 Two- Port Network Analysis with Transmission Matrices
a. ABCD Matrix Analysis of Two-Port Networks,
b. The Wave-Transmission Matrix,
4-4 S-Parameters and Signal Flow Graphs
References
Problems
5 MICROWAVE TRANSMISSION UNES
5-1 The Open Two-Wire Line
5-2 The Coaxial Line
5-3 Strip-Type Transmission Lines
5-4 Rectangular and Circular Waveguides
a. Rectangular Waveguide,
b. Circular Waveguide,
★5-5 Theory of Waveguide Transmission
a. Rectangular Waveguide Transmission,
b. Circular Waveguide Transmission,
5-6 Some Special Waveguide Configurations
References
Problems
6 COAXIAL AND STRIPLINE COMPONENTS
6-1 Terminations
a. Matched Loads,
b. Short and Open Circuits,
c. Standard Mismatches,
d. Variable Reactances,
6-2 Connectors and Transitions
a. Dielectric Bead Supports,
b. Standard Coaxial Connectors,
c. TEM to TEM Transitions,
6-3 Attenuators and Phase Shifters
a. Coaxial and Stripline Attenuators,
b. Coaxial and Strip line Phase Shifters,
6-4 Transmission-Line Discontinuities
a. Coaxial Discontinuities,
b. Stripline and Microstrip Discontinuities,
6-5 DC Returns and Blocks
a. DC Returns,
b. DC Blocks,
c. Bias-Injection Circuits,
6-6 Lowpass Filters
6-7 Microwave Integrated Circuits
References
Problems
7 WAVEGUIDE COMPONENTS
7-1 Mode Transducers
a. Coaxial to Waveguide Transitions,
b. Waveguide to Waveguide Transitions,
c. Waveguide Bends and Twists,
d. Circular Polarizers,
7-2 Waveguide Discontinuities
7-3 Terminations
a. Matched Loads,
b. Standard Mismatches,
c. Adjustable Short Circuits,
d. Waveguide Flanges,
7-4 Attenuators and Phase Shifters
a. Waveguide Attenuators,
b. Waveguide Phase Shifters,
7-5 Rotary Joints
7-6 Mechanical- and Gas-Type Switches
a. Mechanical Switches,
b. Gas Discharge Switches,
References
Problems
8 RECIPROCAL MULTIPORT JUNCTIONS
8-1 Three-Port Junctions
a. Coaxial and Stripline Configurations,
b. Waveguide Three-Port Junctions,
8-2 Hybrid Junctions
8-3 Directional Couplers
a. Discrete Coupling,
b. Distributed Coupling,
8-4 Other Multiport Junctions
8-5 Some Multiport Applications
a. Directional Coupler Applications,
b. 3 dB Hybrid Applications,
References
Problems
9 MICROWAVE RESONATORS AND FILTERS
9-1 A Review of Resonant Circuits
9-2 Principles of Microwave Resonators
a. Open and Shorted TEM Lines as Resonators,
b. Cavity Resonators,
★9-3 Field Analysis of Cavity Resonators
a. The Rectangular Cavity Resonator,
b. The Cylindrical Cavity Resonator,
9-4 Narrowband Micro wave Filters
a. Bandstop Filters,
b. Bandpass Filters,
9-5 Wideband Microwave Filters
a. Wideband Filters with Quarter-Wavelength Stubs,
b. Coupled-Line Filters,
9-6 Some Filter and Resonator Applications
a. Frequency Multiplexers,
b. Resonator Applications,
c. Periodic Structures,
References
Problems
APPENDICES
A LIST OF SYMBOLS AND UNITS
B MATERIAL CONSTANTS
C TRANSMISSION MATRICES
D THE SCATTERING MATRIX
E HYPERBOLIC FUNCTIONS
F POINT-TO-POINT TRANSMISSION
ANSWERS TO PROBLEMS
INDEX