Radio-Frequency and Microwave Communication Circuits: Analysis and Design / Edition 2

Radio-Frequency and Microwave Communication Circuits: Analysis and Design / Edition 2

by Devendra K. Misra
     
 

ISBN-10: 0471478733

ISBN-13: 9780471478737

Pub. Date: 07/30/2004

Publisher: Wiley

The products that drive the wireless communication industry, such as cell phones and pagers, employ circuits that operate at radio and microwave frequencies. Following on from a highly successful first edition, the second edition provides readers with a detailed introduction to RF and microwave circuits. Throughout, examples from real-world devices and engineering

Overview

The products that drive the wireless communication industry, such as cell phones and pagers, employ circuits that operate at radio and microwave frequencies. Following on from a highly successful first edition, the second edition provides readers with a detailed introduction to RF and microwave circuits. Throughout, examples from real-world devices and engineering problems are used to great effect to illustrate circuit concepts.

• Takes a top-down approach, describing circuits in the overall context of communication systems.

• Presents expanded coverage of waveguides and FT mixers.

• Discusses new areas such as oscillators design and digital communication.

*An Instructor's Manual presenting detailed solutions to all the problems in the book is available from the Wiley editorial department.

Product Details

ISBN-13:
9780471478737
Publisher:
Wiley
Publication date:
07/30/2004
Edition description:
REV
Pages:
632
Product dimensions:
6.36(w) x 9.39(h) x 1.30(d)

Table of Contents

Prefaceix
1Introduction1
1.1Microwave Transmission Lines4
1.2Transmitter and Receiver Architectures8
2Communication Systems11
2.1Terrestrial Communication12
2.2Satellite Communication13
2.3Radio-Frequency Wireless Services16
2.4Antenna Systems18
2.5Noise and Distortion33
Suggested Reading52
Problems52
3Transmission Lines57
3.1Distributed Circuit Analysis of Transmission Lines57
3.2Sending-End Impedance67
3.3Standing Wave and Standing Wave Ratio80
3.4Smith Chart85
Suggested Reading95
Problems95
4Electromagnetic Fields and Waves104
4.1Fundamental Laws of Electromagnetic Fields104
4.2The Wave Equation and Uniform Plane Wave Solutions114
4.3Boundary Conditions119
4.4Uniform Plane Wave Incident Normally on an Interface123
4.5Modified Maxwell's Equations and Potential Functions126
4.6Construction of Solutions130
4.7Metallic Parallel-Plate Waveguide133
4.8Metallic Rectangular Waveguide137
4.9Metallic Circular Waveguide142
Suggested Reading145
Problems145
5Resonant Circuits151
5.1Series Resonant Circuits151
5.2Parallel Resonant Circuits160
5.3Transformer-Coupled Circuits164
5.4Transmission Line Resonant Circuits170
5.5Microwave Resonators177
Suggested Reading184
Problems184
6Impedance-Matching Networks189
6.1Single Reactive Element or Stub Matching Networks190
6.2Double-Stub Matching Networks202
6.3Matching Networks Using Lumped Elements207
Suggested Reading226
Problems226
7Impedance Transformers234
7.1Single-Section Quarter-Wave Transformers234
7.2Multisection Quarter-Wave Transformers237
7.3Transformer with Uniformly Distributed Section Reflection Coefficients239
7.4Binomial Transformers244
7.5Chebyshev Transformers248
7.6Exact Formulation and Design of Multisection Impedance Transformers255
7.7Tapered Transmission Lines263
7.8Synthesis of Transmission Line Tapers270
7.9Bode-Fano Constraints for Lossless Matching Networks280
Suggested Reading281
Problems281
8Two-Port Networks283
8.1Impedance Parameters284
8.2Admittance Parameters289
8.3Hybrid Parameters296
8.4Transmission Parameters298
8.5Conversion of Impedance, Admittance, Chain, and Hybrid Parameters304
8.6Scattering Parameters304
8.7Conversion From Impedance, Admittance, Chain, and Hybrid Parameters to Scattering Parameters, or Vice Versa323
8.8Chain Scattering Parameters325
Suggested Reading325
Problems326
9Filter Design333
9.1Image Parameter Method334
9.2Insertion-Loss Method353
9.3Microwave Filters380
Suggested Reading389
Problems389
10Signal-Flow Graphs and Their Applications392
10.1Definitions and Manipulation of Signal-Flow Graphs396
10.2Signal-Flow Graph Representation of a Voltage Source401
10.3Signal-Flow Graph Representation of a Passive Single-Port Device402
10.4Power Gain Equations410
Suggested Reading417
Problems418
11Transistor Amplifier Design422
11.1Stability Considerations422
11.2Amplifier Design for Maximum Gain429
11.3Constant-Gain Circles439
11.4Constant Noise Figure Circles457
11.5Broadband Amplifiers466
11.6Small-Signal Equivalent-Circuit Models of Transistors469
11.7DC Bias Circuits for Transistors472
Suggested Reading475
Problems476
12Oscillator Design479
12.1Feedback and Basic Concepts479
12.2Crystal Oscillators492
12.3Electronic Tuning of Oscillators494
12.4Phase-Locked Loop497
12.5Frequency Synthesizers516
12.6One-Port Negative Resistance Oscillators520
12.7Microwave Transistor Oscillators523
Suggested Reading538
Problems538
13Detectors and Mixers543
13.1Amplitude Modulation544
13.2Frequency Modulation555
13.3Switching-Type Mixers559
13.4Conversion Loss565
13.5Intermodulation Distortion in Diode-Ring Mixers567
13.6FET Mixers571
Suggested Reading577
Problems577
Appendix 1Decibels and Neper580
Appendix 2Characteristics of Selected Transmission Lines582
Appendix 3Specifications of Selected Coaxial Lines and Waveguides588
Appendix 4Some Mathematical Formulas590
Appendix 5Vector Identities593
Appendix 6Some Useful Network Transformations596
Appendix 7Properties of Some Materials599
Appendix 8Common Abbreviations601
Appendix 9Physical Constants609
Index611

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