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E-grāmata: Substrate Integrated Antennas and Arrays

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(University of Electronic Science and Technology of China, Chengdu)
  • Formāts: 264 pages
  • Izdošanas datums: 03-Sep-2018
  • Izdevniecība: CRC Press Inc
  • Valoda: eng
  • ISBN-13: 9781498714570
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Substrate Integrated Antennas and ArraysPalielināt
  • Formāts: 264 pages
  • Izdošanas datums: 03-Sep-2018
  • Izdevniecība: CRC Press Inc
  • Valoda: eng
  • ISBN-13: 9781498714570
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Author Yu Jian Cheng presents students, academics, researchers, and professionals working in a wide variety of contexts with a comprehensive guide to contemporary research in substrate integrated circuits and substrate integrated waveguide technologies. The author has organized the main body of the text in seven chapters devoted to substrate integrated circuits, substrate integrated feeding networks, substrate integrated slot array antennas, and a wide variety of other related subjects. The author is a faculty member of the University of Science and Technology of China. Annotation ©2015 Ringgold, Inc., Portland, OR (protoview.com)

Substrate Integrated Antennas and Arrays provides a single source for cutting-edge information on substrate integrated circuits (SICs), substrate integrated waveguide (SIW) feeding networks, SIW slot array antennas, SIC traveling-wave antennas, SIW feeding antennas, SIW monopulse antennas, and SIW multibeam antennas. Inspired by the author’s extensive research, this comprehensive book:

  • Describes a revolutionary SIC-based antenna technique with the potential to replace existing antenna technologies
  • Examines theoretical and experimental results connected to electrical and mechanical performance
  • Explains how to overcome difficulties in meeting bandwidth, gain, and efficiency specifications

Substrate Integrated Antennas and Arrays offers valuable insight into the state of the art of SIC and SIW antenna technologies, presenting research useful to the development of wireless communication base station antennas, portable microwave point-to-point systems, collision avoidance radars, conformal antennas, and satellite antennas.

Recenzijas

"To the best of my knowledge, this is the first research monograph on substrate integrated antennas and arrays. This authoritative work has provided novel and practical microwave and millimeter wave planar antenna design techniques based on the SIW concept. Written by an outstanding expert in the field contains the most up-to-date theory, design, and prototyping of substrate integrated antennas and arrays." Duixian Liu, IBM Thomas J. Watson Research Center, Yorktown Heights, New York

"Substrate Integrated Waveguide (SIW) is a very important technology for millimetre-wave circuits and array antennas in satellite communications and 5G mobile systems where low loss is critical. This book is comprehensive and timely, and will be a useful reference for graduate students and RF engineers." Steven Gao, University of Kent

Preface ix
Author xi
Chapter 1 Substrate Integrated Circuits 1(52)
1.1 Substrate Integrated Waveguide
1(43)
1.1.1 Design Rule
1(5)
1.1.2 SIW Tolerance
6(11)
1.1.2.1 Sensitivity Approach
6(1)
1.1.2.2 Tolerance on SIW Impedance
7(4)
1.1.2.3 Tolerance on SIW Phase Constant
11(3)
1.1.2.4 Practical Tolerance Consideration
14(3)
1.1.3 SIW Power Handling Capacity
17(14)
1.1.3.1 Average Power Handling Capability of SIW
17(9)
1.1.3.2 Peak Power Handling Capability of SIW
26(2)
1.1.3.3 Power Handling Capability of SIW Bends
28(3)
1.1.4 Temperature Effect on SIW
31(22)
1.1.4.1 SIW Impedance versus Temperature
34(3)
1.1.4.2 SIW Electrical Length versus Temperature
37(2)
1.1.4.3 SIW Attenuation versus Temperature
39(1)
1.1.4.4 Temperature Effect on SIW Slot Antenna
40(4)
1.2 Substrate Integrated Image Guide
44(6)
1.3 Substrate Integrated Nonradiative Dielectric Guide
50(3)
Chapter 2 Substrate Integrated Feeding Network 53(22)
2.1 Substrate Integrated Divider
53(5)
2.1.1 SIW Parallel Feeding Divider
53(3)
2.1.2 SIW Series Feeding Divider
56(2)
2.2 Substrate Integrated Phase Shifter
58(11)
2.2.1 Phase Self-Compensating Theory
59(9)
2.2.2 Tolerance Analysis for Self-Compensating Phase Shifter
68(1)
2.3 Substrate Integrated Coupler
69(2)
2.3.1 SIW H-Plane Coupler
70(1)
2.3.2 SIW E-Plane Coupler
70(1)
2.4 Substrate Integrated Circuit-Related Transition
71(4)
2.4.1 SIW-Microstrip Line Transition
71(1)
2.4.2 SIW-CPW Transition
72(1)
2.4.3 SIW-Waveguide Transition
73(1)
2.4.4 SIIG-GCPW Transition
74(1)
Chapter 3 Substrate Integrated Slot Array Antennas 75(32)
3.1 Standing-Wave SIW Slot Array Antenna
75(11)
3.1.1 Standing-Wave SIW Slot Array Antenna Synthesis
76(4)
3.1.2 Standing-Wave SIW Slot Array Antenna Examples
80(6)
3.2 Traveling-Wave SIW Slot Array Antenna
86(10)
3.2.1 HMSIW Traveling-Wave Antenna with Quadri-Polarization
86(8)
3.2.2 SIW Traveling-Wave CP Antenna
94(2)
3.3 SIW Conformal Slot Array Antenna
96(11)
3.3.1 Conformal SIW Transmission Line
96(2)
3.3.2 SIW Conformal Slot Array Antenna Design
98(4)
3.3.3 SIW Conformal Slot Array Antenna Examples
102(5)
Chapter 4 Substrate Integrated Traveling-Wave Antennas 107(36)
4.1 SIC Surface-Wave Antenna
107(4)
4.1.1 SIW-Fed Tapered Slot Antenna
107(2)
4.1.2 SIC-Fed Rod Antenna
109(1)
4.1.3 SIC-Fed Yagi-Uda Antenna
109(2)
4.1.4 SIC-Fed Log-Periodic Dipole Array Antenna
111(1)
4.2 SIC Uniform Leaky-Wave Antenna
111(12)
4.2.1 SIC Long Slot Leaky-Wave Antenna
112(10)
4.2.1.1 Design Procedure
113(5)
4.2.1.2 Tolerance Analysis
118(4)
4.2.2 HMSIW Uniform Leaky-Wave Antenna
122(1)
4.3 SIC Periodic Leaky-Wave Antenna
123(20)
4.3.1 SIW Periodic Leaky-Wave Antenna
123(1)
4.3.2 SIIG Periodic Leaky-Wave Antenna
124(10)
4.3.2.1 SIIG Longitudinal Metal-Strip Leaky- Wave Antenna
124(1)
4.3.2.2 SIIG Transverse Metal-Strip Leaky- Wave Antenna
125(9)
4.3.3 SIIG-Fed Leaky-Wave Patch Array
134(9)
4.3.3.1 Coupling between the SIIG and the Patch
134(1)
4.3.3.2 Linear Array Design
135(8)
Chapter 5 Substrate Integrated Feeding Antennas 143(28)
5.1 SIW-Fed Patch Antenna Array
143(8)
5.1.1 Microstrip-SIW-Fed Patch Antenna Array
144(5)
5.1.2 Microstrip-SIW-Waveguide-Fed Patch Antenna Array
149(2)
5.2 SIW-Fed Cavity-Backed Patch Antenna Array
151(4)
5.2.1 SIW-Fed Cavity-Backed Linear Polarization Patch Antenna
151(1)
5.2.2 SIW-Fed Cavity-Backed Circular Polarization Patch Antenna
152(3)
5.3 SIW-Fed Dielectric Resonator Antenna
155(1)
5.4 SIW-Fed Open-Ended Cavity Antenna Array
156(2)
5.5 SIW-Fed Printed Open-Ended Waveguide Antenna Array
158(7)
5.5.1 Parametric Study
159(3)
5.5.2 Design Results
162(3)
5.6 Comparison of Substrate Integrated Feeding Antennas
165(6)
Chapter 6 Substrate Integrated Monopulse Antennas 171(26)
6.1 One-Dimensional SIW Monopulse Antenna
171(5)
6.1.1 SIW-Fed TSA Monopulse Antenna Array
171(4)
6.1.2 SIW-Fed Horn Monopulse Antenna Array
175(1)
6.1.3 SIW-Fed Yagi Monopulse Antenna Array
176(1)
6.2 One-Dimensional SIW Multimode Monopulse Antenna
176(8)
6.2.1 Dual V-Type Linearly Tapered Slot Monopulse Antenna
176(7)
6.2.1.1 DVLTSA Element
177(1)
6.2.1.2 Multimode SIW
178(3)
6.2.1.3 Design Result of the DVLTSA Monopulse Antenna
181(2)
6.2.2 Multimode SIW Monopulse Horn
183(1)
6.3 Two-Dimensional SIW Monopulse Antenna Array
184(13)
6.3.1 Configuration of the Two-Dimensional SIW Monopulse Antenna Array
186(3)
6.3.2 Operation Principle of the Two-Dimensional SIW Monopulse Antenna Array
189(1)
6.3.3 Design Result of the Two-Dimensional SIW Monopulse Antenna Array
190(7)
Chapter 7 Substrate Integrated Multibeam Antennas 197(36)
7.1 SIW Circuit Beamforming Technology
197(15)
7.1.1 Substrate Integrated Multibeam Antenna Array Fed by SIW Butler Matrix
197(3)
7.1.2 Substrate Integrated Multibeam Antenna Array Fed by Miniaturized SIW Butler Matrix
200(10)
7.1.2.1 SIW Multilayered Butler Matrix
200(4)
7.1.2.2 Miniaturized Substrate Integrated Multibeam Array Antenna with Multiple Polarizations
204(6)
7.1.3 Substrate Integrated Multibeam Antenna Array Fed by SIW Blass Matrix
210(1)
7.1.4 Substrate Integrated Multibeam Antenna Array Fed by SIW Nolen Matrix
211(1)
7.2 SIW Lens Beamforming Technology
212(15)
7.2.1 Substrate Integrated Multibeam Antenna Array Fed by SIW Rotman Lens
212(3)
7.2.2 Substrate Integrated Multibeam Antenna Array Fed by SIW Modified R-KR Lens
215(8)
7.2.3 Substrate Integrated Multibeam Antenna Array Fed by SIW Reflector Lens
223(2)
7.2.4 Substrate Integrated Multibeam Antenna Array Fed by SIW Miniaturized Multimode Lens
225(2)
7.3 Two-Dimensional SIW Multibeam Antenna Array
227(6)
7.3.1 Mechanism Setting
227(1)
7.3.2 Eight-Port Hybrid
228(1)
7.3.3 Quasi-Traveling-Wave Antenna
229(1)
7.3.4 Leaky-Wave Array
230(3)
References 233(12)
Index 245
Yu Jian Cheng earned his B.Sc from the University of Electronic Science and Technology of China (UESTC), Chengdu, and his Ph.D from Southeast University, Nanjing, China. He is currently a professor at UESTC. Previously, he was part of the research staff at the National University of Singapore. An IEEE and Chinese Institute of Electronics senior member, Dr. Cheng has authored or coauthored more than 70 journal and conference papers, served on the editorial or review boards of various technical journals, and received awards of the One Hundred Person Project of UESTC in 2014, New Century Excellent Talents in University in 2013, National Excellent Doctorate Dissertation of China in 2012, and Jiangsu Province Excellent Doctorate Dissertation in 2011.
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