Microstrip patch antennas:
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| Format: | Buch |
| Sprache: | English |
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New Jersey
World Scientific
[2018]
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| Ausgabe: | Second edition |
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | xxv, 661 Seiten Illustrationen, Diagramme |
| ISBN: | 9789813208599 |
Internformat
MARC
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| 020 | |a 9789813208599 |9 978-981-3208-59-9 | ||
| 035 | |a (OCoLC)1010773638 | ||
| 035 | |a (DE-599)BVBBV044464143 | ||
| 040 | |a DE-604 |b ger |e rda | ||
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| 084 | |a ZN 6450 |0 (DE-625)157564: |2 rvk | ||
| 100 | 1 | |a Lee, Kai Fong |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Microstrip patch antennas |c Kai Fong Lee (the University of Mississippi, USA), Kwai Man Luk (City University of Hong Kong, China), Hau Wah Lai (City University of Hong Kong, China) |
| 250 | |a Second edition | ||
| 264 | 1 | |a New Jersey |b World Scientific |c [2018] | |
| 300 | |a xxv, 661 Seiten |b Illustrationen, Diagramme | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
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| 650 | 0 | 7 | |a Streifenleiterantenne |0 (DE-588)4183635-2 |2 gnd |9 rswk-swf |
| 653 | |a Microstrip antennas--Design and construction. | ||
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| 700 | 1 | |a Luk, Kwai Man |d 1958- |e Verfasser |0 (DE-588)141443650 |4 aut | |
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| 999 | |a oai:aleph.bib-bvb.de:BVB01-029864744 | ||
Datensatz im Suchindex
| _version_ | 1804177791968608257 |
|---|---|
| adam_text | Microstrip
Patch
Antennas
Second Edition
Kai Fong Lee
The University of Mississippi, USA
Kwai Mon Luk
City University of Hong Kong, China
Hau Wah Lai
City University of Hong Kong, China
World Scientific
EW JERSEY • LONDON • SINGAPORE • BEIJING • SHANGHAI • HONGKONG • TAIPEI ■ CHENNAI • TOKYO
Contents
Preface to First Edition v
Preface to Second Edition vii
Acknowledgments ix
Chapter 1 Introduction 1
1 1 Introductory Remarks 1
1 2 Conventional Antennas 1
1 3 Geometries of the Basic Microstrip Patch Antenna 8
1 4 Advantages and Disadvantages of Microstrip Patch
Antennas 9
141 Advantages 9
142 Disadvantages of Microstrip Patch Antennas 12
1 5 Material Consideration 13
1 6 Feed Methods for the Single Element 14
161 Coaxial Probe Feed 14
162 Microstrip-Line Feed 14
163 Proximity-Coupled Microstrip-Line Feed 16
164 Aperture-Coupled Feed 17
165 Summary of Advantages and Disadvantages
of Feeding Methods 18
1 7 General Comments on Designing Microstrip
Patch Antennas 19
1 8 Utilization of The Electromagnetic Spectrum for Wireless
Communication Applications 22
References 22
xi
xii Microstrip Patch Antennas (Second Edition)
Chapter 2 Review of Some Background Materials 25
2 1 Boundary Value Problems 25
211 The Vibrating String 25
212 Potential Inside a Rectangle 28
2 2 Some Aspects of Maxwell’s Equations 30
221 Maxwell’s Equations with Fictitious Magnetic
Charges and Currents 30
222 Radiation from Electric Current 30
223 Radiation from Magnetic Current 31
224 Relations Between Vector Potentials and
Far Fields 31
225 Review of Fields as Sources of Radiation
(Equivalence Principle) 32
226 Equivalence of Surface Conduction Current
Density, Js, and Tangential Magnetic Field
Source n x Hs 33
227 Equivalence of Surface Magnetic Current
Density, Ms, and Tangential Electric
Field Source Es x h 34
228 Images of Electric and Magnetic Currents 35
2 3 Problems 37
References 39
Chapter 3 General Formulation of the Cavity Model 41
3 1 Introductory Remarks 41
3 2 Introducing the Cavity Model 43
3 3 The Thin Substrate Assumption 44
3 4 Solution for Cavity Fields 45
3 5 Radiation Field 47
3 6 Feed Modeling 48
3 7 Losses in Cavity 49
3 8 Input Impedance 51
3 9 VSWR Bandwidth 52
3 10 Qualitative Description of the Results Predicted by the
Cavity Model 55
3 11 Limitations of the Cavity Model Analysis 56
3 12 Problems 56
References 57
Contents
xiii
Chapter 4 Characteristics of the Rectangular Patch
Antenna 59
4 1 Geometry of the Rectangular Patch 59
4 2 Characteristics of the Normal Modes 59
421 Magnetic Surface Currents 59
422 Resonant Frequencies 62
423 Far-field Formulas 63
424 Illustration of Radiation Pattern 66
425E Plane and H Plane Patterns 67
426 Effective Loss Tangent [7] 67
427 Radiation Efficiency, Directivity, Gain,
Total Q and Bandwidth 70
4271 Radiation efficiency 70
4272 Directivity and gain 71
4273 Total Q and bandwidth 73
4274 Observations 75
428 Variations of Directivity, Gain and Bandwidth
with Aspect Ratio 77
4 3 Probe-Fed Rectangular Patch 78
431 Modeling the Feed 78
432 Electric Field under the Patch 79
433 Resonant Resistance 80
434 Far Field Formulas 83
435 Cross Polarization Characteristics 83
4351 General remarks 83
4352 Dependences on feed position, substrate
thickness, and resonant frequency 84
4353 Dependence on aspect ratio 85
*4 4 Rectangular Patch on a Cylindrical Surface 92
441 Resonant Frequencies 92
442 Radiation Field 94
443 Input Impedance 97
444 Illustrative Results 98
4441 Radiation patterns 98
4442 Total Q factor 100
4443 Input impedance 101
4 5 Concluding Remarks 102
jjjy Microstrip Patch Antennas (Second Edition)
4 6 Problems -^3
References ^5
Chapter 5 Characteristics of the Circular Patch
Antenna 1^7
5 1 Geometry and Coordinate Systems 107
5 2 Characteristics of Normal Modes 107
521 Internal Fields 107
522 Resonant Frequencies 109
523 Radiation Fields HO
5 3 Coaxial Fed Circular Patch HI
531 Internal and Radiation Fields Ill
532 Losses and Q H2
533 Input Impedance 113
5 4 Illustrative Results 113
541 Magnetic Current Distribution 113
542 Radiation Patterns 115
543 Radiation Efficiency, Directivity, Gain,
Total Q and Bandwidth 116
544 Input Impedance 116
5 5 Cross Polarization Characteristics 117
5 6 Problems and Projects 123
561 Problems 123
562 Projects 125
References 126
Chapter 6 The Annular-Ring Patch and the
Equitriangular Patch 127
6 1 The Annular-Ring Patch 127
611 Geometry and Coordinate Systems 127
612 Characteristics of Normal Modes 127
6121 Internal fields 127
6122 Resonant frequencies 129
6123 Radiation fields and patterns 131
6124 Losses and Q 133
613 Coaxial Fed Annular Ring Patch 134
6131 Internal and radiation fields 134
6132 Input impedance 137
614 Some Experimental Results 139
Contents xv
6141 Resonant frequencies 139
6142 Radiation patterns 141
6143 Input impedance 141
615 Summary 144
6 2 The Equitriangular Patch 144
621 Geometry and Modal Fields 144
622 Resonant Frequencies 146
623 Radiation Fields and Patterns 147
624 Input Impedance of Coaxial Fed Equitriangular
Patch 150
625 Comparison with Experimental Results 156
6251 Resonant frequencies 156
6252 Input impedance 156
6 3 Comparison of Characteristics of the Rectangular,
Circular, Equitriangular and Annular Ring Patches 157
6 4 Problems and Projects 159
References 161
Chapter 7 Introduction to Full Wave Analysis 163
7 1 Rectangular Patch with a Dielectric Cover — Introducing
the Full Wave Moment Method Analysis 164
711 Geometry and Procedure of Analysis 164
712 Integral Equation for the Patch Surface Current
Density 165
713 Galerkin’s Method 168
714 Input Impedance 170
715 Some Numerical Results 171
716 Discussion 172
*7 2 Finite Difference Time Domain Method 174
721 Maxwell’s Equations and the Yee Algorithm 174
722 Treatment of Dielectric Interfaces 178
723 Absorbing Boundary Conditions 178
724 Excitation Source 180
725 Feed Modeling and Input Impedance
Calculation 180
7251 Microstrip line feed 180
7252 Coaxial feed 182
726 Far-Field Radiation Patterns 183
XVI
Microstrip Patch Antennas (Second Edition)
7 3 Problems 186
References *86
Chapter 8 Microstrip Patch Antennas with
Adjustable Air Gaps 189
8 1 Bandwidth Limitations of the Basic Microstrip
Antenna 18®
8 2 Frequency Response Characteristics of Microstrip Patch
Antennas 19®
8 3 Introduction to Microstrip Patch Antennas with
Adjustable Air Gaps 192
831 Geometry 192
832 Heuristic Derivation of Effective Permittivity and
Resonant Frequency 193
8 4 Cavity Model Analysis of the Circular Patch
Antenna with an Air Gap 194
841 Geometry and General Considerations 194
842 Resonant Frequencies 195
843 Fields of the Coaxially-fed Two-layered
Cavity 197
844 Radiation Fields and Input Impedance 199
845 Theoretical and Experimental Results 200
8 5 The Annular Ring Patch Antenna with an Air Gap 201
8 6 Full Wave Moment Method Analysis of the
Rectangular Patch Antenna with an Air Gap 203
861 Geometry and Procedure of Analysis 203
862 Integral Equation for the Patch Surface Current
Density 204
863 Galerkin’s Method 207
864 Input Impedance 208
865 Some Numerical Results 209
8 7 Aperture Coupled and Stripline Fed Patch Antenna with
Air Gaps 210
871 Aperture Coupled Patch Antenna 210
872 Stripline Fed Patch Antenna with Air Gap 213
8 8 Concluding Remarks 216
8 9 Problems and Projects 218
References 219
Contents xvii
Chapter 9 Broadbanding Techniques I — General
Principles, Probe Compensation, Coplanar
Parasitic Patches, Stacked Parasitic Patches 221
9 1 Introductory Remarks 221
9 2 Input Impedance of Coaxially Fed Rectangular Patch
Antenna on Electrically Thick Substrate 221
921 Changes of Impedance as Substrate Thickness
Increases 221
922 Optimization of Feed Position for Maximum
Bandwidth 224
9 3 General Principles of Broadbanding Using Parasitic
Elements and Slots 225
9 4 Probe Compensation in Thick Microstrip Patches 230
9 5 Coplanar Parasitic Patches 232
9 6 Stacked Parasitic Patches 236
961 The Experimental Study of Lee, Lee and
Bobinchak 236
962 The Theoretical Study of Lee, Chen and
Lee [23] 239
9 7 Projects 242
References 245
Chapter 10 Broadbanding Techniques II — The U-Slot
Patch Antenna 247
10 1 Introductory Remarks 247
10 2 The Original Study 247
10 3 The Study of Lee et al [4] 251
10 3 1 Scope of the Study 251
10 3 2 VSWR, Radiation Patterns and Gain 252
10 3 3 Effects of Slot Width and Length 259
10 3 4 Thickness Study 261
10 4 Rectangular U-Slot Patch Antenna on Material
Substrate 263
10 4 1 The Study of Tong et al [5] 263
10 4 2 Attempt at Arriving at Empirical Formulas
for Design 264
10 4 3 Some Design Guides 265
10 5 Double U-slot Rectangular Patch Antenna 266
xvjjj Microstrip Patch Antennas (Second Edition)
10 6 Dual-Beam U-Slot Patch Antenna 267
10 7 Variations of the U-Slot Patch Antenna 272
10 8 Dual-Band, Triple Band and Circularly Polarized U-Slot
Patch Antennas ^74
10 9 Projects
References
Chapter 11 Broadbanding Techniques III — The
L-Probe Coupled Patch and the
Meandering-Probe Fed Patch 277
11 1 Introductory Remarks 277
11 2 Experimental Results of the L-Probe Fed Patch
Antenna 277
11 2 1 Basic Characteristics 277
11 2 2 Parametric Study 280
11 2 3 Numerical Studies 282
11 3 Patch Antenna with Twin L-Probe Feed 289
11 3 1 Basic Characteristics 289
11 3 2 Parametric Studies 292
11 4 Wide-Band Patch Antenna Fed by a Meandering
Probe 297
11 5 Wideband Patch Antennas Fed by Printed Meandering
Strip 300
11 5 1 Geometries of Antennas 300
11 5 2 Performance Characteristics 302
11 521 First order meandering strip 302
11 522 Second and third order PMS 304
11 6 Variations of the L-Probe Coupled Patch Antenna 308
11 7 Dual-Band and Circularly Polarized L-Probe Coupled
Patch Antennas 309
11 8 Projects 310
References 310
Chapter 12 Broadbanding Techniques IV — Aperture
Coupled Patches 313
12 1 Introductory Remarks 313
12 2 Non-Resonant Slots 315
12 3 Resonant Slots 320
12 4 Aperture Coupled Stacked Patches 322
Contents
xix
12 5 Aperture Coupled Stacked Patches with Coplanar
Parasitic Elements 331
12 6 Comparison between Probe-Fed Stacked Patches and
Aperture-Coupled Stacked Patches 336
12 7 Projects 339
References 342
Chapter 13 Size Reduction Techniques 343
13 1 General Remarks 343
13 2 Methods of Reducing the Patch Size 343
13 2 1 Use of Shorting Wall — Quarter Wave
Patch 343
13 211 Introduction 343
13 212 Formula for resonant frequency 344
13 213 Experimental results 345
13 2 2 Partially Shorted Patch and Planar Inverted F
Antenna 351
13 2 3 Use of Shorting Pin 352
13 2 4 The Folded Patch 356
13 3 Small-Size Wide-Bandwidth Patch Antennas 359
13 3 1 The U-Slot Technique 360
13 311 U-slot patch antenna on high dielectric
constant substrates 360
13 312 U-slot patch antenna with shorting
wall 360
13 313 U-slot patch antenna with shorting
pin 362
13 314 Half-structures 364
13 3 2 The L-probe Technique 371
13 321 The two-layer L-probe-fed patch
antenna 371
13 322 The two-layer L-probe-fed patch
antenna with a shorting wall 372
13 3 3 Shorted Stacked Patches 373
13 331 Stacked patches with shorting
walls 373
13 332 Stacked patches with shorting pins 374
13 4 Summary and Concluding Remarks 377
XX Microstrip Patch Antennas (Second Edition)
13 5 Projects 378
References 378
Chapter 14 Dual- and Multi-Band Designs 381
14 1 Introductory Remarks 381
14 2 Dual-Band Stacked Circular Patches 381
14 2 1 Basic Characteristics 381
14 2 2 Dual-Frequency Stacked Circular Patches with
Airgaps 383
14 2 3 Multi-Band Stacked Patches 386
14 3 Use of Dual Modes in Rectangular Patch 387
14 4 Use of Triple Modes in an Equilateral Triangular
Patch 391
14 5 Loaded Patches 392
14 5 1 Dual-Frequency Patch with Reactive
Loading 392
14 5 2 Triple-Band Patch with Reactive Loading 395
14 6 Dual-Band Patch with Slots 399
14 6 1 Basic Characteristics 399
14 6 2 Slot-Loaded Short-Circuited Dual-Band Patch
Antenna 402
14 7 Use of U-Slots 403
14 7 1 Large Frequency Ratios 404
14 711 Dual-band design 405
14 712 Triple and quadruple band designs 405
14 7 2 Small Frequency Ratios 408
14 721 L-probe Fed dual and triple band patch
antennas with U-Slots 409
14 722 Single-layer single-patch dual band and
triple-band patch antennas 415
14 8 Dual Frequency Wideband L-probe Fed Patch 419
14 9 Concluding Remarks 423
14 10 Projects 423
References 423
Chapter 15 Dual Polarized Patch Antenna Designs 425
15 1 General Remarks 425
15 2 Basic Designs 425
15 2 1 Coaxial Probe Feed 426
Contents
XXI
15 2 2 Microstrip Edge Feed 426
15 2 3 Aperture-Coupled Feed 427
15 3 Enhancement in Isolation and Bandwidth for
Aperture-Coupled Patch Antennas 428
15 3 1 Crossed-Slot Coupling 428
15 3 2 Aperture-Coupling with Parallel Microstrip
Lines 429
15 3 3 Aperture Coupling with Semi-Balance Feed 430
15 3 4 Etched Cross-shaped Patch 430
15 4 Design of Wideband L-Probe-Fed Dual-Polarized Patch
Antennas 432
15 4 1 Basic Design 432
15 4 2 Dual-Feed Design 432
15 5 Design of a Two-Element Array 439
15 6 Dual Polarized Patch Antenna Fed by Meandering
Probes 444
15 7 Projects 455
References 456
Chapter 16 Circular Polarization 459
16 1 Introduction 459
16 1 1 Elliptical, Linear and Circular
Polarization 459
16 1 2 Axial Ratio, Axial Ratio Bandwidth, Cross
Polarization 460
16 1 3 Illustration by the Cross Dipole 461
16 131 Hertzian dipole elements 461
16 132 Half-wave dipole elements 463
16 1 4 Complex Effective Length 464
16 1 5 Reception of Elliptically Polarized Wave 465
16 1 6 Polarization Mismatch Factor 467
16 1 7 Applications of Circular Polarization 468
16 1 8 Overview of Circularly Polarized Patch
Antennas 468
16 2 Single Feed Circularly Polarized Patch Antennas 471
16 2 1 General Principles 471
16 2 2 The Almost Square Patch and the Square Patch
with Truncated Corners 472
16 2 3 The Elliptical Patch 476
xxii
Patch tn^nnrt v (Second Edition)
16 3 BnxuUv-»r vi::ic of Single Fox! Circularly Polarized Patch
Antennas 477
16 3- 1 EÄV! of Snlvt rate Thickness 478
16 3- « Brv v*dt uidtng Ising U -slot 479
16 3 3 Bnxidtvuidtng Using L-probe 480
tc 3 4 Rroadbandiiig Using Stacked Patches 486
•16 4 Two Single Feed Circularly Polarized Patch Antennas
with Asymmetrical Slots 487
■16 5 Dual-Band Circularly Polarized Stacked Patches with
Asymmetrical L -Slots 489
16 5 1 Antenna Design 493
16 5 2 Prototype and Measurement Results 495
16 6 Dual Feed Circularly Polarized Patch Antennas 498
16 6 1 General Principles 498
16 6 2 Broadbanding Using Hybrid Feeding
Technique 502
16 621 Square patch antenna operated at TMoi
mode [21] 502
16 622 Circular patch antenna operated at
TM2i mode [22] 505
16 7 Designs using Sequential Rotation Feeding 507
16 7 1 Sequential Feed Array 509
16 711 Basic principles 509
16 712 Example of a planar array of 8 circular
patches with notches 513
16 7 2 Sequentially Fed Patches 513
16 721 Introductory remarks 513
16 722 Circularly polarized patch antenna fed
by four L-probes 514
16 8 Size Reduction Techniques 516
16 8 1 Small Circularly Polarized Folded Patch
Antenna 518
16 8 2 Small Circularly Polarized Patch Antenna with
Slots and Tails 520
16 9 Projects 523
References 524
Contents xxiii
’Chapter 17 Reconfigurable Microstrip Patch Antennas 527
17 1 Introduction 527
17 2 Frequency Reconfigurable Microstrip Patch
Antennas 528
17 2 1 Frequency Tuning with Varactor Diodes 528
17 2 2 Use of Shorting Posts 528
17 23A Tunable U-Slot Patch Antenna 531
17 231 Antenna Geometry 531
17 232 Results 533
17 2 4 Patch Antenna with Switchable Slots (PASS)
for Dual-Band Operation 534
17 241 Geometry and Principle
of Operation 534
17 242 Experimental Results 535
17 243 Simulation Results 536
17 3 Polarization Reconfigurable Microstrip
Patch Antennas 538
17 3 1 Polarization Reconfigurable Square Patch
with Shorting Posts 541
17 3 2 Patch Antenna with Switchable Slots (PASS)
for Circular Polarization Diversity 543
17 3 3 Polarization Agile ^-Shaped Patch
Antenna 547
17 331 Operation Principle 548
17 332 Antenna Design 549
17 333 Antenna Performance 551
17 4 Example of Pattern Reconfigurable Microstrip Patch
Antenna 552
17 4 1 Operation Principle 553
17 4 2 Antenna Structure 554
17 4 3 Performance of the Antenna 556
17 5 Concluding Remarks 559
17 6 Project 561
References 561
Chapter 18 Microstrip Antenna Array I —
Basic Principles and Examples of
Design Below 5 GHz 563
18 1 General Remarks 563
XXIV
Microstrip Patch Antennas (Second Edition)
18 2 Mutual Coupling
18 3 Radiation Pattern of Antenna Array 566
18 4 Antenna Gain of Patch Arrays 568
18 5 Feeding Networks for Linear Arrays 569
18 5 1 Series Feed 569
18 5 2 Parallel Feed 571
18 5 3 Series and Parallel Feeds 573
18 5 4 Anti-Phase Technique 573
18 6 A Wideband Low-profile Microstrip Antenna Array 576
18 7 A Wideband L-probe Fed Stacked Patch Antenna
Array 580
18 8 A 17-slot Patch Microstrip Antenna Array 585
18 9 Concluding Remarks 590
18 10 Projects 591
References 591
‘Chapter 19 Microstrip Antenna Array XI — Sixty
(60) GHz Antenna Array Design and
Applications 593
19 1 General Remarks 593
19 2 Wideband High-Gain 60-GHz LTCC L-Probe Patch
Antenna Array with a Soft Surface 593
19 3 Low-Cost Wideband Microstrip Antenna Array
for 60-GHz Applications 596
19 3 1 Linearly Polarized Antenna Array 596
19 3 2 Circularly Polarized Antenna Array 599
A Low-Profile Unidirectional Printed Antenna for
Himeter-Wave Applications 601
ost High-Gain and Broadband
e-Integrated-Waveguide-Fed Patch
rray for 60-GHz Band 609
Flow 609
ement 611
to Substrate Integrated Waveguide
613
613
Antenna Array 615
Contents
XXV
19 6 60-GHz Substrate Integrated Waveguide Fed
Cavity-Backed Aperture-Coupled Microstrip Patch
Antenna Arrays 617
19 6 1 Design Flow 618
19 6 2 Single Cavity-Backed Patch Antenna 620
19 6 3 Feed Network of 2x2 Subarrays 622
19 6 4 Performance of the Antenna Array 622
19 7 Concluding Remarks 626
References 627
Chapter 20 Novel Material Patch Antennas 629
20 1 Introduction 629
20 2 Dense Dielectric Patch Antennas 629
20 3 Millimeter-wave Dense Dielectric Patch Antenna
Array 634
20 4 Perforated Dense Dielectric Patch Array 638
20 5 A Water Dense Dielectric Patch Antenna 642
20 6 Water Dielectric Patch Antenna with Conical
Radiation 646
20 7 Concluding Remarks 650
20 8 Projects 650
References 651
Index
|
| any_adam_object | 1 |
| author | Lee, Kai Fong Luk, Kwai Man 1958- Lai, Hau Wah |
| author_GND | (DE-588)141443650 |
| author_facet | Lee, Kai Fong Luk, Kwai Man 1958- Lai, Hau Wah |
| author_role | aut aut aut |
| author_sort | Lee, Kai Fong |
| author_variant | k f l kf kfl k m l km kml h w l hw hwl |
| building | Verbundindex |
| bvnumber | BV044464143 |
| classification_rvk | ZN 6450 |
| ctrlnum | (OCoLC)1010773638 (DE-599)BVBBV044464143 |
| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | Second edition |
| format | Book |
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| id | DE-604.BV044464143 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T07:53:40Z |
| institution | BVB |
| isbn | 9789813208599 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029864744 |
| oclc_num | 1010773638 |
| open_access_boolean | |
| owner | DE-29T |
| owner_facet | DE-29T |
| physical | xxv, 661 Seiten Illustrationen, Diagramme |
| publishDate | 2018 |
| publishDateSearch | 2018 |
| publishDateSort | 2018 |
| publisher | World Scientific |
| record_format | marc |
| spelling | Lee, Kai Fong Verfasser aut Microstrip patch antennas Kai Fong Lee (the University of Mississippi, USA), Kwai Man Luk (City University of Hong Kong, China), Hau Wah Lai (City University of Hong Kong, China) Second edition New Jersey World Scientific [2018] xxv, 661 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Streifenleiterantenne (DE-588)4183635-2 gnd rswk-swf Microstrip antennas--Design and construction. Streifenleiterantenne (DE-588)4183635-2 s DE-604 Luk, Kwai Man 1958- Verfasser (DE-588)141443650 aut Lai, Hau Wah Verfasser aut HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029864744&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Lee, Kai Fong Luk, Kwai Man 1958- Lai, Hau Wah Microstrip patch antennas Streifenleiterantenne (DE-588)4183635-2 gnd |
| subject_GND | (DE-588)4183635-2 |
| title | Microstrip patch antennas |
| title_auth | Microstrip patch antennas |
| title_exact_search | Microstrip patch antennas |
| title_full | Microstrip patch antennas Kai Fong Lee (the University of Mississippi, USA), Kwai Man Luk (City University of Hong Kong, China), Hau Wah Lai (City University of Hong Kong, China) |
| title_fullStr | Microstrip patch antennas Kai Fong Lee (the University of Mississippi, USA), Kwai Man Luk (City University of Hong Kong, China), Hau Wah Lai (City University of Hong Kong, China) |
| title_full_unstemmed | Microstrip patch antennas Kai Fong Lee (the University of Mississippi, USA), Kwai Man Luk (City University of Hong Kong, China), Hau Wah Lai (City University of Hong Kong, China) |
| title_short | Microstrip patch antennas |
| title_sort | microstrip patch antennas |
| topic | Streifenleiterantenne (DE-588)4183635-2 gnd |
| topic_facet | Streifenleiterantenne |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029864744&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT leekaifong microstrippatchantennas AT lukkwaiman microstrippatchantennas AT laihauwah microstrippatchantennas |