Atjaunināt sīkdatņu piekrišanu

Practical Antenna Design for Wireless Products 2019 [Hardback]

  • Formāts: Hardback, 450 pages
  • Izdošanas datums: 31-Aug-2019
  • Izdevniecība: Artech House Publishers
  • ISBN-10: 1630813257
  • ISBN-13: 9781630813253
Citas grāmatas par šo tēmu:
  • Hardback
  • Cena: 191,26 €
  • Grāmatu piegādes laiks ir 3-4 nedēļas, ja grāmata ir uz vietas izdevniecības noliktavā. Ja izdevējam nepieciešams publicēt jaunu tirāžu, grāmatas piegāde var aizkavēties.
  • Daudzums:
  • Ielikt grozā
  • Piegādes laiks - 4-6 nedēļas
  • Pievienot vēlmju sarakstam
Practical Antenna Design for Wireless Products 2019Palielināt
  • Formāts: Hardback, 450 pages
  • Izdošanas datums: 31-Aug-2019
  • Izdevniecība: Artech House Publishers
  • ISBN-10: 1630813257
  • ISBN-13: 9781630813253
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781630813253.html
Keywords:
This comprehensive resource covers both antenna fundamentals and practical implementation strategies, presenting antenna design with optimum performance in actual products and systems. The book helps readers bridge the gap between electromagnetic theory and its application in the design of practical antennas in real products. Practical implementation strategies in products and systems will be addressed in order to design antennas in the context of actual product environments, including PCB layout, component placement and casing design. Practical design examples on wearable electronic products are presented with a systematic approach to designing antennas for actual products.

The book introduces antenna fundamentals to provide the basic concepts and necessary mathematics on electromagnetic analysis, followed by advanced antenna elements. The concept of electromagnetic simulation is presented. The advantages and disadvantages of different numerical methods in antenna modeling are also discussed. Several commercial antenna design and simulation tools are introduced, allowing hands-on practice of antenna modeling and simulation.
Preface 9(4)
Acknowledgments 13(2)
1 Fundamental Concepts
15(20)
1.1 Introduction
15(1)
1.2 Antenna Fundamentals
16(7)
1.2.1 Basic Types of Antenna
16(4)
1.2.2 Multiband and MIMO
20(3)
1.3 Radiation Mechanism
23(12)
1.3.1 Source of Radiation
23(3)
1.3.2 Characteristics of Radiation
26(7)
References
33(2)
2 Specifications and Performances
35(20)
2.1 Introduction
35(1)
2.2 Specifications and Performances
35(20)
2.2.1 Radiation Pattern
35(3)
2.2.2 Beam Solid Angle
38(1)
2.2.3 Radiation Power Intensity
39(1)
2.2.4 Directivity and Effective Aperture
40(1)
2.2.5 Aperture Concept, Effective Aperture, and Directivity
41(2)
2.2.6 Gain
43(2)
2.2.7 Polarization
45(3)
2.2.8 Efficiency
48(1)
2.2.9 Impedance Matching
49(2)
2.2.10 Friis Transmission and Receiving Formulas
51(2)
References
53(2)
3 Basic Antenna Elements
55(20)
3.1 Introduction
55(1)
3.2 Antenna Elements
55(20)
3.2.1 Quarter-Wavelength Monopole or Half-Wavelength Dipole Antenna
55(7)
3.2.2 Loop Antenna
62(4)
3.2.3 Patch Antenna
66(6)
References
72(3)
4 Advanced Antenna Elements
75(18)
4.1 Introduction
75(1)
4.2 Miniature Antennas for Portable Electronics
76(17)
4.2.1 Inverted-L and Inverted-F Antennas
76(5)
4.2.2 Meandered Line
81(2)
4.2.3 Multiband Antenna
83(2)
4.2.4 Dielectric Loaded
85(4)
References
89(4)
5 Electromagnetic Simulation and Software
93(18)
5.1 Introduction
93(1)
5.2 Electromagnetic Simulation Methods
94(3)
5.2.1 MoM
94(1)
5.2.2 Differential Equation Techniques
95(2)
5.3 Antenna Simulation Tools
97(14)
5.3.1 Numerical Electromagnetics Code
98(2)
5.3.2 Momentum
100(1)
5.3.3 FEKO
100(1)
5.3.4 High-Frequency Structure Simulator
101(1)
5.3.5 CST
101(1)
5.3.6 EM.Cube
102(1)
5.3.7 Sonnet
102(1)
5.3.8 WIPL-D Pro
102(1)
5.3.9 AWR Microwave Office
103(1)
5.3.10 Antenna Magus
104(2)
5.3.11 AntSyn
106(1)
References
107(4)
6 Measurements
111(16)
6.1 Introduction
111(1)
6.2 Measuring Equipment
112(1)
6.3 Antenna Ranges
113(3)
6.4 Far-Field Pattern Measurement
116(1)
6.5 Gain Measurement
116(3)
6.6 Directivity
119(1)
6.7 Efficiency Measurements
120(1)
6.8 Phase Measurement
120(1)
6.9 Polarization Measurement
121(1)
6.10 TRP and TIS Measurements
122(2)
6.11 SAR Measurement
124(3)
References
125(2)
7 Impedance Matching
127(30)
7.1 Introduction
127(1)
7.2 Impedance Matching
128(1)
7.3 Smith Chart
129(3)
7.4 Matching Topology and Elements
132(7)
7.4.1 Series Element
132(3)
7.4.2 Shunt Element
135(3)
7.4.3 Matching Topologies
138(1)
7.5 Matching Elements
139(6)
7.5.1 Inductor
139(2)
7.5.2 Capacitor
141(4)
7.5.3 Transmission Line
145(1)
7.6 Practical Considerations
145(12)
7.6.1 Impedance Measurement with VNA
145(1)
7.6.2 Balanced or Unbalanced
146(2)
7.6.3 Ground Effect
148(6)
References
154(3)
8 Practical Implementation Strategies and Design Examples
157(30)
8.1 Introduction
157(1)
8.2 Understanding the Requirements
158(10)
8.2.1 Internal or External
158(1)
8.2.2 Polarization and Directivity
159(6)
8.2.3 Operating Frequency, Size, and Geometry
165(3)
8.3 Implementation Considerations and Strategies
168(19)
8.3.1 RFPCB Layout Techniques and Practices
169(1)
8.3.2 Antenna Location and Placement
169(2)
8.3.3 Ground Plane
171(2)
8.3.4 Enclosure
173(2)
8.3.5 Mechanical Design, PCB Design, and Teamwork
175(8)
References
183(4)
9 Future Trends
187(30)
9.1 Introduction
187(1)
9.2 IoT Technology
188(2)
9.2.1 IoT Devtices
188(1)
9.2.2 Enabling Technologies
188(2)
9.3 Antenna Designs for IoT Applications
190(18)
9.3.1 Smarthome Applications
190(1)
9.3.2 Wearable Devices
191(12)
9.3.3 Commercial Application
203(5)
9.4 Antenna Technologies for the Future
208(9)
9.4.1 Fractal Antennas
208(1)
9.4.2 Polymer
209(1)
9.4.3 Metamaterials
210(1)
9.4.4 3-D Printed Antennas
211(1)
References
212(5)
About the Author 217(2)
Index 219
Henry Lau has more than 25 years of experience in designing wireless systems, products and RFICs in both Hong Kong and the United States. He holds five patents and has one patent pending, all in RF designs. He has also published six conference and journal articles. He is currently running Lexiwave Technology, a wireless company in Hong Kong and US designing and selling RFICs, RF modules, antennas and wireless solutions. He has also been teaching numerous RF-related courses internationally.