MODERN ANTENNA DESIGN(第二版):本书是著名的A JOHN WILEY & SONS, INC., PUBLICATION
2005年出版的大作。这是我在别的网站收集的资料,希望对您能有用
1 Properties of Antennas 1
1-1 Antenna Radiation, 2
1-2 Gain, 3
1-3 Effective Area, 6
1-4 Path Loss, 6
1-5 Radar Range Equation and Cross Section, 7
1-6 Why Use an Antenna? 9
1-7 Directivity, 10
1-8 Directivity Estimates, 11
1-8.1 Pencil Beam, 11
1-8.2 Butterfly or Omnidirectional Pattern, 13
1-9 Beam Efficiency, 16
1-10 Input-Impedance Mismatch Loss, 17
1-11 Polarization, 18
1-11.1 Circular Polarization Components, 19
1-11.2 Huygens Source Polarization, 21
1-11.3 Relations Between Bases, 22
1-11.4 Antenna Polarization Response, 23
1-11.5 Phase Response of Rotating Antennas, 25
1-11.6 Partial Gain, 26
1-11.7 Measurement of Circular Polarization Using
Amplitude Only, 26
1-12 Vector Effective Height, 27
1-13 Antenna Factor, 29
1-14 Mutual Coupling Between Antennas, 29
1.15 Antenna Noise Temperature, 30
1-16 Communication Link Budget and Radar Range, 35
1-17 Multipath, 36
1-18 Propagation Over Soil, 37
1-19 Multipath Fading, 39
References, 40
2 Radiation Structures and Numerical Methods 42
2-1 Auxiliary Vector Potentials, 43
2-1.1 Radiation from Electric Currents, 44
2-1.2 Radiation from Magnetic Currents, 49
2-2 Apertures: Huygens Source Approximation, 51
2-2.1 Near- and Far-Field Regions, 55
2-2.2 Huygens Source, 57
2-3 Boundary Conditions, 57
2-4 Physical Optics, 59
2-4.1 Radiated Fields Given Currents, 59
2-4.2 Applying Physical Optics, 60
2-4.3 Equivalent Currents, 65
2-4.4 Reactance Theorem and Mutual Coupling, 66
2-5 Method of Moments, 67
2-5.1 Use of the Reactance Theorem for the Method of
Moments, 68
2-5.2 General Moments Method Approach, 69
2-5.3 Thin-Wire Moment Method Codes, 71
2-5.4 Surface and Volume Moment Method Codes, 71
2-5.5 Examples of Moment Method Models, 72
2-6 Finite-Difference Time-Domain Method, 76
2-6.1 Implementation, 76
2-6.2 Central Difference Derivative, 77
2-6.3 Finite-Difference Maxwell’s Equations, 77
2-6.4 Time Step for Stability, 79
2-6.5 Numerical Dispersion and Stability, 80
2-6.6 Computer Storage and Execution Times, 80
2-6.7 Excitation, 81
2-6.8 Waveguide Horn Example, 83
2-7 Ray Optics and the Geometric Theory of Diffraction, 84
2-7.1 Fermat’s Principle, 85
2-7.2 H-Plane Pattern of a Dipole Located Over a Finite
Strip, 85
2-7.3 E-Plane Pattern of a Rectangular Horn, 87
2-7.4 H-Plane Pattern of a Rectangular Horn, 89
2-7.5 Amplitude Variations Along a Ray, 90
2-7.6 Extra Phase Shift Through Caustics, 93
2-7.7 Snell’s Laws and Reflection, 93
2-7.8 Polarization Effects in Reflections, 94
2-7.9 Reflection from a Curved Surface, 94
2-7.10 Ray Tracing, 96
2-7.11 Edge Diffraction, 96
2-7.12 Slope Diffraction, 98
2-7.13 Corner Diffraction, 99
2-7.14 Equivalent Currents, 99
2-7.15 Diffraction from Curved Surfaces, 99
References, 100
3 Arrays 102
3-1 Two-Element Array, 104
3-2 Linear Array of N Elements, 109
3-3 Hansen and Woodyard End-Fire Array, 114
3-4 Phased Arrays, 115
3-5 Grating Lobes, 117
3-6 Multiple Beams, 118
3-7 Planar Array, 120
3-8 Grating Lobes in Planar Arrays, 125
3-9 Mutual Impedance, 127
3-10 Scan Blindness and Array Element Pattern, 127
3-11 Compensating Array Feeding for Mutual Coupling, 128
3-12 Array Gain, 129
3-13 Arrays Using Arbitrarily Oriented Elements, 133
References, 135
4 Aperture Distributions and Array Synthesis 136
4-1 Amplitude Taper and Phase Error Efficiencies, 137
4-1.1 Separable Rectangular Aperture Distributions, 139
4-1.2 Circularly Symmetrical Distributions, 140
4-2 Simple Linear Distributions, 140
4-3 Taylor One-Parameter Linear Distribution, 144
4-4 Taylor n Line Distribution, 147
4-5 Taylor Line Distribution with Edge Nulls, 152
4-6 Elliott’s Method for Modified Taylor Distribution and
Arbitrary Sidelobes, 155
4-7 Bayliss Line-Source Distribution, 158
4-8 Woodward Line-Source Synthesis, 162
4-9 Schelkunoff’s Unit-Circle Method, 164
4-10 Dolph–Chebyshev Linear Array, 170
4-11 Villeneuve Array Synthesis, 172
4-12 Zero Sampling of Continuous Distributions, 173
4-13 Fourier Series Shaped-Beam Array Synthesis, 175
4-14 Orchard Method of Array Synthesis, 178
4-15 Series-Fed Array and Traveling-Wave Feed Synthesis, 188
4-16 Circular Apertures, 191
4-17 Circular Gaussian Distribution, 194
4-18 Hansen Single-Parameter Circular Distribution, 195
4-19 Taylor Circular-Aperture Distribution, 196
4-20 Bayliss Circular-Aperture Distribution, 200
4-21 Planar Arrays, 202
4-22 Convolution Technique for Planar Arrays, 203
4-23 Aperture Blockage, 208
4-24 Quadratic Phase Error, 211
4-25 Beam Efficiency of Circular Apertures with Axisymmetric
Distribution, 214
References, 215
5 Dipoles, Slots, and Loops 217
5-1 Standing-Wave Currents, 218
5-2 Radiation Resistance (Conductance), 220
5-3 Babinet–Booker Principle, 222
5-4 Dipoles Located Over a Ground Plane, 223
5-5 Dipole Mounted Over Finite Ground Planes, 225
5-6 Crossed Dipoles for Circular Polarization, 231
5-7 Super Turnstile or Batwing Antenna, 234
5-8 Corner Reflector, 237
5-9 Monopole, 242
5-10 Sleeve Antenna, 242
5-11 Cavity-Mounted Dipole Antenna, 245
5-12 Folded Dipole, 247
5-13 Shunt Feeding, 248
5-14 Discone Antenna, 249
5-15 Baluns, 251
5-15.1 Folded Balun, 252
5-15.2 Sleeve or Bazooka Baluns, 253
5-15.3 Split Coax Balun, 255
5-15.4 Half-Wavelength Balun, 256
5-15.5 Candelabra Balun, 256
5-15.6 Ferrite Core Baluns, 256
5-15.7 Ferrite Candelabra Balun, 258
5-15.8 Transformer Balun, 258
5-15.9 Split Tapered Coax Balun, 259
5-15.10 Natural Balun, 260
5-16 Small Loop, 260
5-17 Alford Loop, 261
5-18 Resonant Loop, 263
5-19 Quadrifilar Helix, 264
5-20 Cavity-Backed Slots, 266
5-21 Stripline Series Slots, 266
5-22 Shallow-Cavity Crossed-Slot Antenna, 269
5-23 Waveguide-Fed Slots, 270
5-24 Rectangular-Waveguide Wall Slots, 271
5-25 Circular-Waveguide Slots, 276
5-26 Waveguide Slot Arrays, 278
5-26.1 Nonresonant Array, 279
5-26.2 Resonant Array, 282
References, 283
6 Microstrip Antennas 285
6-1 Microstrip Antenna Patterns, 287
6-2 Microstrip Patch Bandwidth and Surface-Wave
Efficiency, 293
6-3 Rectangular Microstrip Patch Antenna, 299
6-4 Quarter-Wave Patch Antenna, 310
6-5 Circular Microstrip Patch, 313
6-6 Circularly Polarized Patch Antennas, 316
6-7 Compact Patches, 319
6-8 Directly Fed Stacked Patches, 323
6-9 Aperture-Coupled Stacked Patches, 325
6-10 Patch Antenna Feed Networks, 327
6-11 Series-Fed Array, 329
6-12 Microstrip Dipole, 330
6-13 Microstrip Franklin Array, 332
6-14 Microstrip Antenna Mechanical Properties, 333
References, 334
7 Horn Antennas 336
7-1 Rectangular Horn (Pyramidal), 337
7-1.1 Beamwidth, 341
7-1.2 Optimum Rectangular Horn, 343
7-1.3 Designing to Given Beamwidths, 346
7-1.4 Phase Center, 347
7-2 Circular-Aperture Horn, 348
7-2.1 Beamwidth, 350
7-2.2 Phase Center, 352
7-3 Circular (Conical) Corrugated Horn, 353
7-3.1 Scalar Horn, 357
7-3.2 Corrugation Design, 357
7-3.3 Choke Horns, 358
7-3.4 Rectangular Corrugated Horns, 359
7-4 Corrugated Ground Plane, 359
7-5 Gaussian Beam, 362
7-6 Ridged Waveguide Horns, 365
7-7 Box Horn, 372
7-8 T-Bar-Fed Slot Antenna, 374
7-9 Multimode Circular Horn, 376
7-10 Biconical Horn, 376
References, 378
8 Reflector Antennas 380
8-1 Paraboloidal Reflector Geometry, 381
8-2 Paraboloidal Reflector Aperture Distribution Losses, 383
8-3 Approximate Spillover and Amplitude Taper Trade-offs, 385
8-4 Phase Error Losses and Axial Defocusing, 387
8-5 Astigmatism, 389
8-6 Feed Scanning, 390
8-7 Random Phase Errors, 393
8-8 Focal Plane Fields, 396
8-9 Feed Mismatch Due to the Reflector, 397
8-10 Front-to-Back Ratio, 399
8-11 Offset-Fed Reflector, 399
8-12 Reflections from Conic Sections, 405
8-13 Dual-Reflector Antennas, 408
8-13.1 Feed Blockage, 410
8-13.2 Diffraction Loss, 413
8-13.3 Cassegrain Tolerances, 414
8-14 Feed and Subreflector Support Strut Radiation, 416
8-15 Gain/Noise Temperature of a Dual Reflector, 421
8-16 Displaced-Axis Dual Reflector, 421
8-17 Offset-Fed Dual Reflector, 424
8-18 Horn Reflector and Dragonian Dual Reflector, 427
8-19 Spherical Reflector, 429
8-20 Shaped Reflectors, 432
8-20.1 Cylindrical Reflector Synthesis, 433
8-20.2 Circularly Symmetrical Reflector Synthesis, 434
8-20.3 Doubly Curved Reflector for Shaped Beams, 437
8-20.4 Dual Shaped Reflectors, 439
8-21 Optimization Synthesis of Shaped and
Multiple-Beam Reflectors, 442
References, 443
9 Lens Antennas 447
9-1 Single Refracting Surface Lenses, 448
9-2 Zoned Lenses, 451
9-3 General Two-Surface Lenses, 454
9-4 Single-Surface or Contact Lenses, 459
9-5 Metal Plate Lenses, 461
9-6 Surface Mismatch and Dielectric Losses, 463
9-7 Feed Scanning of a Hyperboloidal Lens, 464
9-8 Dual-Surface Lenses, 465
9-8.1 Coma-Free Axisymmetric Dielectric Lens, 466
9-8.2 Specified Aperture Distribution Axisymmetric
Dielectric Lens, 468
9-9 Bootlace Lens, 470
9-10 Luneburg Lens, 472
References, 472
10 Traveling-Wave Antennas 474
10-1 General Traveling Waves, 475
10-1.1 Slow Wave, 478
10-1.2 Fast Waves (Leaky Wave Structure), 480
10-2 Long Wire Antennas, 481
10-2.1 Beverage Antenna, 481
10-2.2 V Antenna, 482
10-2.3 Rhombic Antenna, 483
10-3 Yagi–Uda Antennas, 485
10-3.1 Multiple-Feed Yagi–Uda Antennas, 492
10-3.2 Resonant Loop Yagi–Uda Antennas, 495
10-4 Corrugated Rod (Cigar) Antenna, 497
10-5 Dielectric Rod (Polyrod) Antenna, 499
10-6 Helical Wire Antenna, 502
10-6.1 Helical Modes, 503
10-6.2 Axial Mode, 504
10-6.3 Feed of a Helical Antenna, 506
10-6.4 Long Helical Antenna, 507
10-6.5 Short Helical Antenna, 508
10-7 Short Backfire Antenna, 509
10-8 Tapered Slot Antennas, 512
10-9 Leaky Wave Structures, 516
References, 518
11 Frequency-Independent Antennas 521
Spiral Antennas, 522
11-1 Modal Expansion of Antenna Patterns, 524
11-2 Archimedean Spiral, 526
11-3 Equiangular Spiral, 527
11-4 Pattern Analysis of Spiral Antennas, 530
11-5 Spiral Construction and Feeding, 535
11-5.1 Spiral Construction, 535
11-5.2 Balun Feed, 536
11-5.3 Infinite Balun, 538
11-5.4 Beamformer and Coaxial Line Feed, 538
11-6 Spiral and Beamformer Measurements, 538
11-7 Feed Network and Antenna Interaction, 540
11-8 Modulated Arm Width Spiral, 541
11-9 Conical Log Spiral Antenna, 543
11-10 Mode 2 Conical Log Spiral Antenna, 549
11-11 Feeding Conical Log Spirals, 550
Log-Periodic Antennas, 550
11-12 Log-Periodic Dipole Antenna, 551
11-12.1 Feeding a Log-Periodic Dipole Antenna, 556
11-12.2 Phase Center, 558
11-12.3 Elevation Angle, 559
11-12.4 Arrays of Log-Periodic Dipole Antennas, 560
11-13 Other Log-Periodic Types, 561
11-14 Log-Periodic Antenna Feeding Paraboloidal Reflector, 563
11-15 V Log-Periodic Array, 567
11-16 Cavity-Backed Planar Log-Periodic Antennas, 569
References, 571
12 Phased Arrays 573
12-1 Fixed Phase Shifters (Phasers), 574
12-2 Quantization Lobes, 578
12-3 Array Errors, 580
12-4 Nonuniform and Random Element Existence Arrays, 582
12-4.1 Linear Space Tapered Array, 582
12-4.2 Circular Space Tapered Array, 584
12-4.3 Statistically Thinned Array, 587
12-5 Array Element Pattern, 588
12-6 Feed Networks, 590
12-6.1 Corporate Feed, 590
12-6.2 Series Feed, 592
12-6.3 Variable Power Divider and Phase Shifter, 592
12-6.4 Butler Matrix, 594
12-6.5 Space Feeding, 596
12-6.6 Tapered Feed Network with Uniform-Amplitude
Subarrays, 597
12-7 Pattern Null Formation in Arbitrary Array, 599
12-8 Phased Array Application to Communication Systems, 601
12-9 Near-Field Measurements on Phased Arrays, 602
References, 604
Index 607
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