Microstrip and Printed Antenna Design

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This updated third edition of this popular book covers all types of printed microstrip antenna design, from rectangular to circular, broadband and dual band, and millimeter wave microstrip antenna to microstrip arrays. The book features new analysis of rectangular and circular microstrip antenna eff...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Bancroft, Randy
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Stevenage : Institution of Engineering & Technology, 2019.
Edición:3rd ed.
Colección:Telecommunications Ser.
Temas:
Microstrip antennas.
Antennes microrubans.
broadband antennas.
microstrip antennas.
millimetre wave antennas.
multifrequency antennas.
numerical analysis.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Intro; Contents; Preface; 1. Microstrip antennas; 1.1 The origin of microstrip radiators; 1.2 Microstrip antenna analysis methods; 1.3 Microstrip antenna advantages and disadvantages; 1.4 Microstrip antenna applications; References; 2. Rectangular microstrip antennas; 2.1 The transmission line model; 2.2 The cavity model; 2.3 Radiation pattern of a linear rectangular patch; 2.4 Quarter-wave microstrip antenna; 2.5 Circular-polarized design; 2.6 Efficiency; 2.7 Design of microstrip antenna with dielectric cover; 2.8 Design guidelines for rectangular microstrip antenna
  • 2.9 Design guidelines for a circularly polarized microstrip antenna2.10 Electromagnetically coupled rectangular microstrip antenna; 2.11 Ultra-wide rectangular microstrip antennas; 2.12 Rectangular microstrip antenna cross-polarization; References; 3. Circular microstrip antennas; 3.1 Circular microstrip antenna properties; 3.2 Directivity; 3.3 Input resistance and impedance bandwidth; 3.4 Gain, radiation pattern, and efficiency; 3.5 Circular microstrip antenna radiation modes; 3.6 Circular microstrip antenna cross-polarization; 3.7 Annular microstrip antenna
  • 3.8 Shorted annular microstrip antennaReferences; 4. Broadband microstrip antennas; 4.1 Broadband microstrip antennas; 4.2 Microstrip antenna broadbanding; 4.3 Patch shape for optimized bandwidth; 4.4 Broadband monopole pattern patch-ring; References; 5. Dual-band microstrip antennas; 5.1 Rectangular microstrip dual-band antenna; 5.2 Multiple resonator dual-band antennas; 5.3 Dual-band microstrip antenna design using a diplexer; 5.4 Multiband patch shaping using a genetic algorithm; References; 6. Microstrip arrays; 6.1 Planar array theory
  • 6.2 Rectangular microstrip antenna array modeled with slots6.3 Aperture excitation distribution; 6.4 Microstrip array feeding methods; 6.5 Mutual coupling; References; 7. Printed antennas; 7.1 Omnidirectional microstrip antenna; 7.2 Tapered (Vivaldi) antenna; 7.3 Microstrip-fed slot antenna; 7.4 Stripline series slot antenna; 7.5 Inverted F antenna; 7.6 Electrically small antennas; 7.7 Tapered balun printed dipole; 7.8 Log-periodic balun dipole; 7.9 Loop antenna and coupler for RFID; 7.10 CPW flexible monopole; 7.11 Characteristic mode antenna; References
  • 8. Millimeter wave microstrip antennas8.1 General millimeter wave design considerations; 8.2 Corporate-fed patch arrays; References; Appendix A. Microstrip antenna substrates; A.1 Microstrip antenna/transmission line substrates; A.2 Metal cladding; A.3 Dielectric materials; A.4 Radome materials; A.5 Water absorption; A.6 Dielectric films; A.7 Passive intermodulation; A.8 Solder mask and conformal coatings; References; Appendix B. Numerical methods; B.1 Numerical integration; B.2 Evaluation of sums; B.3 Fixed-point iteration; B.4 Bisection algorithm; B.5 MSA Q-efficiency calculation

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