Microwave Engineering, 4th Edition,9780470631553

Microwave Engineering, 4th Edition

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Edition: 4th
ISBN13: 9780470631553
ISBN10: 0470631554
Format: Hardcover
Pub. Date: 2011-11-22
Publisher(s): Wiley
List Price: $307.29

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Summary

Pozar's new edition of Microwave Engineering includes more material on active circuits, noise, nonlinear effects, and wireless systems. Chapters on noise and nonlinear distortion, and active devices have been added along with the coverage of noise and more material on intermodulation distortion and related nonlinear effects.  On active devices, there's more updated material on bipolar junction and field effect transistors. New and updated material on wireless communications systems, including link budget, link margin, digital modulation methods, and bit error rates is also part of the new edition.  Other new material includes a section on transients on transmission lines, the theory of power waves, a discussion of higher order modes and frequency effects for microstrip line, and a discussion of how to determine unloaded    

Author Biography

David Pozar is professor of Electrical and Computer Engineering at University of Massachusetts, Amherst. He has received numerous awards both for his teaching and for his research, including an IEEE Third Millenium award. Dr. Pozar is acknowledged as a leading figure in Microwave and RF circuit design research.

Table of Contents

Electromagnetic Theoryp. 1
Introduction to Microwave Engineeringp. 1
Maxwell's Equationsp. 6
Fields in Media and Boundary Conditionsp. 10
The Wave Equation and Basic Plane Wave Solutionsp. 15
General Plane Wave Solutionsp. 20
Energy and Powerp. 25
Plane Wave Reflection from a Media Interfacep. 28
Oblique Incidence at a Dielectric Interfacep. 35
Some Useful Theoremsp. 40
Transmission Line Theoryp. 48
The Lumped-Element Circuit Model for a Transmission Linep. 48
Field Analysis of Transmission Linesp. 51
The Terminated Lossless Transmission Linep. 56
The Smith Chartp. 63
The Quarter-Wave Transformerp. 72
Generator and Load Mismatchesp. 76
Lossy Transmission Linesp. 78
Transients on Transmission Linesp. 85
Transmission Lines And Waveguidesp. 95
General Solutions for TEM, TE, and TM Wavesp. 96
Parallel Plate Waveguidep. 102
Rectangular Waveguidep. 110
Circular Waveguidep. 121
Coaxial Linep. 130
Surface Waves on a Grounded Dielectric Sheetp. 135
Striplinep. 141
Microstrip Linep. 147
The Transverse Resonance Techniquep. 153
Wave Velocities and Dispersionp. 154
Summary of Transmission Lines and Waveguidesp. 157
Microwave Network Analysisp. 165
Impedance and Equivalent Voltages and Currentsp. 166
Impedance and Admittance Matricesp. 174
The Scattering Matrixp. 178
The Transmission (ABCD) Matrixp. 188
Signal Flow Graphsp. 194
Discontinuities and Modal Analysisp. 203
Excitation of Waveguides-Electric and Magnetic Currentsp. 210
Excitation of Waveguides-Aperture Couplingp. 215
Impedance Matching And Tuningp. 228
Matching with Lumped Elementsp. 229
Single-Stub Tuningp. 234
Double-Stub Tuningp. 241
The Quarter-Wave Transformerp. 246
The Theory of Small Reflectionsp. 250
Binomial Multisection Matching Transformersp. 252
Chebyshev Multisection Matching Transformersp. 256
Tapered Linesp. 261
The Bode-Fano Criterionp. 266
Microwave Resonatorsp. 272
Series and Parallel Resonant Circuitsp. 272
Transmission Line Resonatorsp. 278
Rectangular Waveguide Cavity Resonatorsp. 284
Circular Waveguide Cavity Resonatorsp. 288
Dielectric Resonatorsp. 293
Excitation of Resonatorsp. 297
Cavity Perturbationsp. 306
Power Dividers And Directional Couplersp. 317
Basic Properties of Dividers and Couplersp. 317
The T-Junction Power Dividerp. 324
The Wilkinson Power Dividerp. 328
Waveguide Directional Couplersp. 333
The Quadrature (90?) Hybridp. 343
Coupled Line Directional Couplersp. 347
The Lange Couplerp. 359
The 180? Hybridp. 362
Other Couplersp. 372
Microwave Filtersp. 380
Periodic Structuresp. 381
Filter Design by the Image Parameter Methodp. 388
Filter Design by the Insertion Loss Methodp. 399
Filter Transformationsp. 408
Filter Implementationp. 415
Stepped-Impedance Low-Pass Filtersp. 422
Coupled Line Filtersp. 426
Filters Using Coupled Resonatorsp. 437
Theory And Design Of Ferrimagnetic Componentsp. 451
Basic Properties of Ferrimagnetic Materialsp. 452
Plane Wave Propagation in a Ferrite Mediump. 465
Propagation in a Ferrite-Loaded Rectangular Waveguidep. 471
Ferrite Isolatorsp. 475
Ferrite Phase Shiftersp. 482
Ferrite Circulatorsp. 487
Noise And Nonlinear Distortionp. 496
Noise in Microwave Circuitsp. 496
Noise Figurep. 502
Nonlinear Distortionp. 511
Dynamic Rangep. 519
Active Rf And Microwave Devicesp. 524
Diodes and Diode Circuitsp. 525
Bipolar Junction Transistorsp. 540
Field Effect Transistorsp. 543
Microwave Integrated Circuitsp. 547
Microwave Tubesp. 552
Microwave Amplifier Designp. 558
Two-Port Power Gainsp. 558
Stabilityp. 564
Single-Stage Transistor Amplifier Designp. 571
Broadband Transistor Amplifier Designp. 585
Power Amplifiersp. 596
Oscillators And Mixersp. 604
RF Oscillatorsp. 605
Microwave Oscillatorsp. 613
Oscillator Phase Noisep. 622
Frequency Multipliersp. 627
Mixersp. 637
Introduction To Microwave Systemsp. 658
System Aspects of Antennasp. 658
Wireless Communicationsp. 671
Radar Systemsp. 690
Radiometer Systemsp. 696
Microwave Propagationp. 701
Other Applications and Topicsp. 705
Appendicesp. 712
Prefixesp. 713
Vector Analysisp. 713
Bessel Functionsp. 715
Other Mathematical Resultsp. 718
Physical Constantsp. 718
Conductivities for Some Materialsp. 719
Dielectric Constants and Loss Tangents for Some Materialsp. 719
Properties of Some Microwave Ferrite Materialsp. 720
Standard Rectangular Waveguide Datap. 720
Standard Coaxial Cable Datap. 721
Answers To Selected Problemsp. 722
Indexp. 725
Table of Contents provided by Publisher. All Rights Reserved.

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