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Microwave Engineering

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ISBN-10: 0470631554

ISBN-13: 9780470631553

Edition: 4th 2012

Authors: David M. Pozar

List price: $222.00
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Description:

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…    
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Book details

List price: $222.00
Edition: 4th
Copyright year: 2012
Publisher: John Wiley & Sons, Limited
Publication date: 12/23/2011
Binding: Hardcover
Pages: 752
Size: 7.25" wide x 10.25" long x 1.00" tall
Weight: 3.080
Language: English

David Pozar is a professor of electrical and computer engineering at the University of Massachusetts at Amherst, where he has worked since 1980. Pozar has written numerous books on the topic of microwave engineering such as Microwave Engineering (1997) and Antenna Design Using Personal Computers (1985). Pozar attended the University of Akron, earning both a BS and an MS in Electrical Engineering. He received his Ph.D. in Electrical Engineering from The Ohio State University in 1980. He is active in the IEEE Association and has won several awards from them for outstanding contributions. He has also received an outstanding senior faculty award and a R.W.P. King Best Paper award, among others.…    

Electromagnetic Theory
Introduction to Microwave Engineering
Maxwell's Equations
Fields in Media and Boundary Conditions
The Wave Equation and Basic Plane Wave Solutions
General Plane Wave Solutions
Energy and Power
Plane Wave Reflection from a Media Interface
Oblique Incidence at a Dielectric Interface
Some Useful Theorems
Transmission Line Theory
The Lumped-Element Circuit Model for a Transmission Line
Field Analysis of Transmission Lines
The Terminated Lossless Transmission Line
The Smith Chart
The Quarter-Wave Transformer
Generator and Load Mismatches
Lossy Transmission Lines
Transients on Transmission Lines
Transmission Lines And Waveguides
General Solutions for TEM, TE, and TM Waves
Parallel Plate Waveguide
Rectangular Waveguide
Circular Waveguide
Coaxial Line
Surface Waves on a Grounded Dielectric Sheet
Stripline
Microstrip Line
The Transverse Resonance Technique
Wave Velocities and Dispersion
Summary of Transmission Lines and Waveguides
Microwave Network Analysis
Impedance and Equivalent Voltages and Currents
Impedance and Admittance Matrices
The Scattering Matrix
The Transmission (ABCD) Matrix
Signal Flow Graphs
Discontinuities and Modal Analysis
Excitation of Waveguides-Electric and Magnetic Currents
Excitation of Waveguides-Aperture Coupling
Impedance Matching And Tuning
Matching with Lumped Elements
Single-Stub Tuning
Double-Stub Tuning
The Quarter-Wave Transformer
The Theory of Small Reflections
Binomial Multisection Matching Transformers
Chebyshev Multisection Matching Transformers
Tapered Lines
The Bode-Fano Criterion
Microwave Resonators
Series and Parallel Resonant Circuits
Transmission Line Resonators
Rectangular Waveguide Cavity Resonators
Circular Waveguide Cavity Resonators
Dielectric Resonators
Excitation of Resonators
Cavity Perturbations
Power Dividers And Directional Couplers
Basic Properties of Dividers and Couplers
The T-Junction Power Divider
The Wilkinson Power Divider
Waveguide Directional Couplers
The Quadrature (90?) Hybrid
Coupled Line Directional Couplers
The Lange Coupler
The 180? Hybrid
Other Couplers
Microwave Filters
Periodic Structures
Filter Design by the Image Parameter Method
Filter Design by the Insertion Loss Method
Filter Transformations
Filter Implementation
Stepped-Impedance Low-Pass Filters
Coupled Line Filters
Filters Using Coupled Resonators
Theory And Design Of Ferrimagnetic Components
Basic Properties of Ferrimagnetic Materials
Plane Wave Propagation in a Ferrite Medium
Propagation in a Ferrite-Loaded Rectangular Waveguide
Ferrite Isolators
Ferrite Phase Shifters
Ferrite Circulators
Noise And Nonlinear Distortion
Noise in Microwave Circuits
Noise Figure
Nonlinear Distortion
Dynamic Range
Active Rf And Microwave Devices
Diodes and Diode Circuits
Bipolar Junction Transistors
Field Effect Transistors
Microwave Integrated Circuits
Microwave Tubes
Microwave Amplifier Design
Two-Port Power Gains
Stability
Single-Stage Transistor Amplifier Design
Broadband Transistor Amplifier Design
Power Amplifiers
Oscillators And Mixers
RF Oscillators
Microwave Oscillators
Oscillator Phase Noise
Frequency Multipliers
Mixers
Introduction To Microwave Systems
System Aspects of Antennas
Wireless Communications
Radar Systems
Radiometer Systems
Microwave Propagation
Other Applications and Topics
Appendices
Prefixes
Vector Analysis
Bessel Functions
Other Mathematical Results
Physical Constants
Conductivities for Some Materials
Dielectric Constants and Loss Tangents for Some Materials
Properties of Some Microwave Ferrite Materials
Standard Rectangular Waveguide Data
Standard Coaxial Cable Data
Answers To Selected Problems
Index