Artificial transmission lines for RF and microwave applications /

"This book presents and discusses alternatives to ordinary transmission lines for the design and implementation of advanced RF/microwave components in planar technology"--

Λεπτομέρειες βιβλιογραφικής εγγραφής
Κύριος συγγραφέας: Martín, Ferran, 1965-
Μορφή: Ηλ. βιβλίο
Γλώσσα:English
Έκδοση: Hoboken : John Wiley and Sons, Inc., 2015.
Σειρά:Wiley series in microwave and optical engineering.
Θέματα:
Διαθέσιμο Online:Full Text via HEAL-Link
Πίνακας περιεχομένων:
  • Preface
  • Acknowledgments
  • 1. Fundamentals of planar transmission lines. 1.1. Planar transmission lines, distributed circuits and artificial transmission lines ; 1.2. Distributed circuit analysis and main transmission line parameters ; 1.3. Loaded (terminated) transmission lines ; 1.4. Lossy transmission lines ; 1.5. Comparative analysis of planar transmission lines ; 1.6. Some illustrative applications of planar transmission lines ; References
  • 2. Artificial transmission lines based on periodic structures. 2.1. Introduction and scope ; 2.2. Floquet analysis of periodic structures ; 2.3. The transfer matrix method ; 2.4. Coupled mode theory ; 2.5. Applications ; References
  • 3. Metamaterial transmission lines: fundamentals, theory, circuit models, and main implementations. 3.1. Introduction, terminology, and scope ; 3.2. Effective medium metamaterials ; 3.3. Electrically small resonators for metamaterials and microwave circuit design ; 3.4. Canonical models of metamaterial transmission lines ; 3.5. Implementation of metamaterial transmission lines and lumped element equivalent circuit models ; References
  • 4. Metamaterial transmission lines: RF/microwave applications. 4.1. Introduction ; 4.2. Applications of CRLH transmission lines ; 4.3. Transmission lines with metamaterial loading and applications ; References
  • 5. Reconfigurable, tunable and nonlinear artificial transmission lines. 5.1. Introduction ; 5.2. Materials, components and technologies to implement tunable devices ; 5.3. Tunable and reconfigurable metamaterial transmission lines and applications ; 5.4. Nonlinear transmission lines (NLTLs) ; References
  • 6. Other advanced transmission lines. 6.1. Introduction ; 6.2. Magnetoinductive-wave (MIW) and electroinductive-wave (EIW) delay lines ; 6.3. Balanced transmission lines with common-mode suppression ; 6.4. Wideband artificial transmission lines ; 6.5. Substrate integrated waveguides (SIW) and their application to metamaterial transmission lines ; References
  • Appendixes. Appendix A. Equivalence between plane wave propagation in source-free, linear, isotropic and homogeneous media, TEM wave propagation in transmission lines and wave propagation in transmission lines described by its distributed circuit model ; Appendix B. The Smith Chart ; Appendix C. The scattering matrix ; Appendix D. Current density distribution in a conductor ; Appendix E. Derivation of the simplified coupled mode equations and coupling coefficient from the distributed circuit model of a transmission line ; Appendix F. Averaging the effective dielectric constant in EBG-based transmission lines ; Appendix G. Parameter extraction. G.1 Parameter extraction in CSRR-loaded lines ; G.2 Parameter extraction in SRR-loaded lines ; G.3 Parameter extraction in OSRR-loaded lines ; G.4 Parameter extraction in OCSRR-loaded lines ; Appendix H. Synthesis of resonant type metamaterial transmission lines by means of Aggressive Space Mapping (ASM). H.1 General formulation of ASM ; H.2 Determination of the convergence region in the coarse model space ; H.3 Determination of the initial layout ; H.4 The core ASM algorithm ; H.5 Illustrative examples and convergence speed ; Appendix I. Conditions to obtain all-pass X-type and bridged-T networks
  • Index .