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Modern Small Antennas.
If you need to design and develop small antennas, this complete, cutting-edge guide covers everything you need to know.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Cambridge :
Cambridge University Press,
2013.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Halftitle; Dedication; Title; Copyright; Contents; Preface; Chapter 1 Introduction (K. Fujimoto); Chapter 2 Small antennas (K. Fujimoto); Chapter 3 Properties of small antennas (K. Fujimoto and Y. Kim); Chapter 4 Fundamental limitation of small antennas (K. Fujimoto); Chapter 5 Subjects related with small antennas (K. Fujimoto); Chapter 6 Principles and techniques for making antennas small (H. Morishita and K. Fujimoto); Chapter 7 Design and practice of small antennas I (K. Fujimoto); Chapter 8 Design and practice of small antennas II (K. Fujimoto).
- Chapter 9 Evaluation of small antenna performance (H. Morishita)Chapter 10 Electromagnetic simulation (H. Morishita and Y. Kim); Chapter 11 Glossary (K. Fujimoto and N.T. Hung); Acknowledgements; 1 Introduction; 2 Small antennas; 2.1 Definition of small antennas; 2.2 Significance of small antennas; 3 Properties of small antennas; 3.1 Performance of small antennas; 3.1.1 Input impedance; 3.1.2 Bandwidth BW and antenna Q; 3.1.3 Radiation efficiency; 3.1.4 Gain; 3.2 Importance of impedance matching in small antennas; 3.3 Problems of environmental effect in small antennas.
- 4 Fundamental limitations of small antennas4.1 Fundamental limitations; 4.2 Brief review of some typical work on small antennas; 5 Subjects related with small antennas; 5.1 Major subjects and topics; 5.1.1 Investigation of fundamentals of small antennas; 5.1.2 Realization of small antennas; 5.2 Practical design problems; 5.3 General topics; 6 Principles and techniques for making antennas small; 6.1 Principles for making antennas small; 6.2 Techniques and methods for producing ESA; 6.2.1 Lowering the antenna resonance frequency; 6.2.1.1 SW structure; 6.2.1.1.1 Periodic structures.
- 6.2.1.1.2 Modification of antenna geometry to extend the current path6.2.1.1.3 Material loading on an antenna structure; 6.2.2 Full use of volume/space circumscribing antenna; 6.2.3 Arrangement of current distributions uniformly; 6.2.4 Increase of radiation modes; 6.2.4.1 Use of self-complementary structure; 6.2.4.2 Use of conjugate structure; 6.2.4.3 Compose with different types of antennas; 6.2.5 Applications of metamaterials to make antennas small; 6.2.5.1 Application of SNG to small antennas; 6.2.5.1.1 Matching in space; 6.2.5.1.2 Matching at the load terminals; 6.2.5.2 DNG applications.
- 6.3 Techniques and methods to produce FSA6.3.1 FSA composed by integration of components; 6.3.2 FSA composed by integration of functions; 6.3.3 FSA of composite structure; 6.4 Techniques and methods for producing PCSA; 6.4.1 PCSA of low-profile structure; 6.4.2 PCSA employing a high impedance surface; 6.5 Techniques and methods for making PSA; 6.5.1 PSA in microwave (MW) and millimeter-wave (MMW) regions; 6.5.2 Simple PSA; 6.6 Optimization techniques; 6.6.1 Genetic algorithm; 6.6.2 Particle swarm optimization; 6.6.3 Topology optimization; 6.6.4 Volumetric material optimization.