Antenna Theory, w. CD-ROM
Analysis and Design
(Sprache: Englisch)
The most-up-to-date resource available on antenna theory and design. Expanded coverage of design procedures and equations makes meeting ABET design requirements easy and prepares readers for authentic situations in industry. New coverage of microstrip...
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The most-up-to-date resource available on antenna theory and design. Expanded coverage of design procedures and equations makes meeting ABET design requirements easy and prepares readers for authentic situations in industry. New coverage of microstrip antennas exposes readers to information vital to a wide variety of practical applications.
Klappentext zu „Antenna Theory, w. CD-ROM “
The discipline of antenna theory has experienced vast technological changes. In response, Constantine Balanis has updated his classic text, Antenna Theory , offering the most recent look at all the necessary topics. New material includes smart antennas and fractal antennas, along with the latest applications in wireless communications. Multimedia material on an accompanying CD presents PowerPoint viewgraphs of lecture notes, interactive review questions, Java animations and applets, and MATLAB features. Like the previous editions, Antenna Theory, Third Edition meets the needs of electrical engineering and physics students at the senior undergraduate and beginning graduate levels, and those of practicing engineers as well. It is a benchmark text for mastering the latest theory in the subject, and for better understanding the technological applications.An Instructor s Manual presenting detailed solutions to all the problems in the book is available from the Wiley editorial department.
The new edition of a classic resource for the study of antenna theory, updated with Multimedia Material
The discipline of antenna theory has experienced vast technological changes. In response, Constantine Balanis has updated his classic text, Antenna Theory, offering the most recent look at all the necessary topics. Like the previous editions, Antenna Theory, Third Edition is designed to meet the needs of electrical engineering and physics students at the senior undergraduate and beginning graduate levels, and those of practicing engineers as well. The text assumes that the readers have a knowledge of basic undergraduate electromagnetic theory, including Maxwell's equations and the wave equation, introductory physics, and differential and integral calculus.
The Third Edition offers new material that includes:
* A chapter on smart antennas, which is presently a hot topic of current interest to antenna engineers in a number of application areas, especially wireless communication
* A fractal antenna section, which introduces a new class of antennas that has received a lot of interest and attention after the second edition was published
* New end-of-chapter tables that provide a summary of important equations in each of the respective chapters
* Additional new figures, photos, and tables to better illustrate concepts
* Additional end-of-the-chapter problems
An important new feature is the multimedia material on the accompanying CD, which presents:
* PowerPoint view graphs of lecture notes
* End-of-the-chapter interactive questions for revie
* Animations and applets for most of the chapters based on Java
* Second-edition FORTRAN computer programs translated to MATLAB(r)
* Additional new computer programs based on MATLAB(r) with applications to topics in the various chapters
The discipline of antenna theory has experienced vast technological changes. In response, Constantine Balanis has updated his classic text, Antenna Theory, offering the most recent look at all the necessary topics. Like the previous editions, Antenna Theory, Third Edition is designed to meet the needs of electrical engineering and physics students at the senior undergraduate and beginning graduate levels, and those of practicing engineers as well. The text assumes that the readers have a knowledge of basic undergraduate electromagnetic theory, including Maxwell's equations and the wave equation, introductory physics, and differential and integral calculus.
The Third Edition offers new material that includes:
* A chapter on smart antennas, which is presently a hot topic of current interest to antenna engineers in a number of application areas, especially wireless communication
* A fractal antenna section, which introduces a new class of antennas that has received a lot of interest and attention after the second edition was published
* New end-of-chapter tables that provide a summary of important equations in each of the respective chapters
* Additional new figures, photos, and tables to better illustrate concepts
* Additional end-of-the-chapter problems
An important new feature is the multimedia material on the accompanying CD, which presents:
* PowerPoint view graphs of lecture notes
* End-of-the-chapter interactive questions for revie
* Animations and applets for most of the chapters based on Java
* Second-edition FORTRAN computer programs translated to MATLAB(r)
* Additional new computer programs based on MATLAB(r) with applications to topics in the various chapters
Inhaltsverzeichnis zu „Antenna Theory, w. CD-ROM “
Preface xiii1 Antennas 1
1.1 Introduction 1
1.2 Types of Antennas 4
1.3 Radiation Mechanism 7
1.4 Current Distribution on a Thin Wire Antenna 17
1.5 Historical Advancement 20
1.6 Multimedia 24
References 24
2 Fundamental Parameters of Antennas 27
2.1 Introduction 27
2.2 Radiation Pattern 27
2.3 Radiation Power Density 38
2.4 Radiation Intensity 40
2.5 Beamwidth 42
2.6 Directivity 44
2.7 Numerical Techniques 58
2.8 Antenna Efficiency 64
2.9 Gain 65
2.10 Beam Efficiency 69
2.11 Bandwidth 70
2.12 Polarization 70
2.13 Input Impedance 80
2.14 Antenna Radiation Efficiency 85
2.15 Antenna Vector Effective Length and Equivalent Areas 87
2.16 Maximum Directivity and Maximum Effective Area 92
2.17 Friis Transmission Equation and Radar Range Equation 94
2.18 Antenna Temperature 104
2.19 Multimedia 108
References 112
Problems 114
3 Radiation Integrals and Auxiliary Potential Functions 133
3.1 Introduction 133
3.2 The Vector Potential A for an Electric Current Source J 135
3.3 The Vector Potential F for a Magnetic Current Source M 137
3.4 Electric and Magnetic Fields for Electric (J) and Magnetic (M) Current Sources 138
3.5 Solution of the Inhomogeneous Vector Potential Wave Equation 139
3.6 Far-Field Radiation 142
3.7 Duality Theorem 144
3.8 Reciprocity and Reaction Theorems 144
References 150
Problems 150
4 Linear Wire Antennas 151
4.1 Introduction 151
4.2 Infinitesimal Dipole 151
4.3 Small Dipole 162
4.4 Region Separation 165
4.5 Finite Length Dipole 170
4.6 Half-Wavelength Dipole 182
4.7 Linear Elements Near or on Infinite Perfect Conductors 184
4.8 Ground Effects 205
4.9 Computer Codes 214
4.10 Multimedia 217
References 218
Problems 219
5 Loop Antennas 231
5.1 Introduction 231
5.2 Small Circular Loop 232
5.3 Circular Loop of Constant Current 246
5.4 Circular Loop with Nonuniform Current 255
5.5
... mehr
Ground and Earth Curvature Effects for Circular Loops 261
5.6 Polygonal Loop Antennas 263
5.7 Ferrite Loop 266
5.8 Mobile Communication Systems Applications 268
5.9 Multimedia 269
References 273
Problems 275
6 Arrays: Linear, Planar, and Circular 283
6.1 Introduction 283
6.2 Two-Element Array 284
6.3 N-Element Linear Array: Uniform Amplitude and Spacing 290
6.4 N-Element Linear Array: Directivity 313
6.5 Design Procedure 318
6.6 N-Element Linear Array: Three-Dimensional Characteristics 320
6.7 Rectangular-to-Polar Graphical Solution 322
6.8 N-Element Linear Array: Uniform Spacing, Nonuniform Amplitude 324
6.9 Superdirectivity 345
6.10 Planar Array 349
6.11 Design Considerations 362
6.12 Circular Array 365
6.13 Multimedia 369
References 370
Problems 371
7 Antenna Synthesis and Continuous Sources 385
7.1 Introduction 385
7.2 Continuous Sources 386
7.3 Schelkunoff Polynomial Method 388
7.4 Fourier Transform Method 393
7.5 Woodward-Lawson Method 399
7.6 Taylor Line-Source (Tschebyscheff-Error) 406
7.7 Taylor Line-Source (One-Parameter) 410
7.8 Triangular, Cosine, and Cosine-Squared Amplitude Distributions 417
7.9 Line-Source Phase Distributions 418
7.10 Continuous Aperture Sources 419
7.11 Multimedia 423
References 423
Problems 424
8 Integral Equations, Moment Method, and Self and Mutual Impedances 433
8.1 Introduction 433
8.2 Integral Equation Method 434
8.3 Finite Diameter Wires 442
8.4 Moment Method Solution 450
8.5 Self-Impedance 458
8.6 Mutual Impedance Between Linear Elements 468
8.7 Mutual Coupling in Arrays 478
8.8 Multimedia 491
References 491
Problems 494
9 Broadband Dipoles and Matching Techniques 497
9.1 Introduction 497
9.2 Biconical Antenna 500
9.3 Triangular Sheet, Bow-Tie, and Wire Simulation 506
9.4 Cylindrical Dipole 508
9.5 Folded Dipole 515
9.6 Discone and Conical Skirt Monopole 521
9.7 Ma
5.6 Polygonal Loop Antennas 263
5.7 Ferrite Loop 266
5.8 Mobile Communication Systems Applications 268
5.9 Multimedia 269
References 273
Problems 275
6 Arrays: Linear, Planar, and Circular 283
6.1 Introduction 283
6.2 Two-Element Array 284
6.3 N-Element Linear Array: Uniform Amplitude and Spacing 290
6.4 N-Element Linear Array: Directivity 313
6.5 Design Procedure 318
6.6 N-Element Linear Array: Three-Dimensional Characteristics 320
6.7 Rectangular-to-Polar Graphical Solution 322
6.8 N-Element Linear Array: Uniform Spacing, Nonuniform Amplitude 324
6.9 Superdirectivity 345
6.10 Planar Array 349
6.11 Design Considerations 362
6.12 Circular Array 365
6.13 Multimedia 369
References 370
Problems 371
7 Antenna Synthesis and Continuous Sources 385
7.1 Introduction 385
7.2 Continuous Sources 386
7.3 Schelkunoff Polynomial Method 388
7.4 Fourier Transform Method 393
7.5 Woodward-Lawson Method 399
7.6 Taylor Line-Source (Tschebyscheff-Error) 406
7.7 Taylor Line-Source (One-Parameter) 410
7.8 Triangular, Cosine, and Cosine-Squared Amplitude Distributions 417
7.9 Line-Source Phase Distributions 418
7.10 Continuous Aperture Sources 419
7.11 Multimedia 423
References 423
Problems 424
8 Integral Equations, Moment Method, and Self and Mutual Impedances 433
8.1 Introduction 433
8.2 Integral Equation Method 434
8.3 Finite Diameter Wires 442
8.4 Moment Method Solution 450
8.5 Self-Impedance 458
8.6 Mutual Impedance Between Linear Elements 468
8.7 Mutual Coupling in Arrays 478
8.8 Multimedia 491
References 491
Problems 494
9 Broadband Dipoles and Matching Techniques 497
9.1 Introduction 497
9.2 Biconical Antenna 500
9.3 Triangular Sheet, Bow-Tie, and Wire Simulation 506
9.4 Cylindrical Dipole 508
9.5 Folded Dipole 515
9.6 Discone and Conical Skirt Monopole 521
9.7 Ma
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Autoren-Porträt von Constantine A. Balanis
CONSTANTINE A. BALANIS received his BSEE degree from Virginia Tech in1964, his MEE degree from the University of Virginia in 1966, his PhD in electrical engineering from The Ohio State University in 1969, and an honorary doctorate from the Aristotle University of Thessaloniki in 2004. From 1964 to 1970, he was with the NASA Langley Research Center in Hampton, Virginia, and from 1970 to 1983, he was with the Department of Electrical Engineering of West Virginia University. In 1983, he joined Arizona State University and is now Regents' Professor of Electrical Engineering. Dr. Balanis is a Life Fellow of the IEEE and the author of Advanced Engineering Electromagnetics, also published by Wiley.
Bibliographische Angaben
- Autor: Constantine A. Balanis
- 2005, 3. Aufl., XVII, 1117 Seiten, Maße: 18,8 x 26 cm, Gebunden, Englisch
- Verlag: Wiley & Sons
- ISBN-10: 047166782X
- ISBN-13: 9780471667827
Sprache:
Englisch
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