Design of digital phase shifters for multipurpose communication systems with MATLAB design and analysis programs /

This book aims to cover a new emerging need in designing digital phase shifter for modern communication systems. With the advancement of new generation mobile communication systems, directed beams of antenna arrays save a substantial amount of power as well as improve the communication quality. In t...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Yarman, Binboga Siddik (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Denmark : River Publishers, 2022.
Edición:Second edition.
Colección:River Publishers Series in Communications Ser.
Temas:
Mobile communication systems.
Digital communications.
Phase shifters > Design and construction.
Radiocommunications mobiles.
Transmission numérique.
Digital communications
Mobile communication systems
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover
  • Title
  • Design of Digital Phase Shifters for Multipurpose Communication Systems With MATLAB Design and Analysis Programs
  • Contents
  • Preface
  • Readers of the Book
  • Acknowledgement
  • List of Figures
  • List of Tables
  • List of Abbreviations
  • 1 Fundamentals of Digital Phase Shifters
  • 1.1 Introduction
  • 1.2 Concept of Digital Phase Shift
  • 1.3 Digital Phase Bits
  • 1.4 n-Bit Phase shifter
  • 1.5 Phase Error
  • 1.6 Practical Issues
  • 1.7 Types of Digital Phase Shifters
  • References
  • 2 Antennas, Arrays, Beam Forming, and Beam Steering
  • 2.1 Antenna and Its Definitions
  • 2.2 Phased Arrays and Electronic Beam Forming
  • 2.3 Electronic Beam Steering
  • 2.4 MATLAB-Based ARRAY Package
  • 2.5 Conclusion
  • Appendix
  • References
  • 3 Scattering Parameters for Lossless Two-Ports
  • 3.1 Introduction
  • 3.2 Formal Definition of Scattering Parameters
  • 3.3 Generation of Scattering Parameters for Linear Two-Ports
  • 3.4 Transducer Power Gain in Forward and Backward Directions
  • 3.5 Properties of the Scattering Parameters of Lossless Two-Ports
  • 3.6 Blashke Products or All-Pass Functions
  • 3.7 Possible Zeros of a Proper Polynomial f (p)
  • 3.8 Transmission Zeros
  • 3.9 Lossless Ladders
  • 3.10 Further Properties of the Scattering Parameters of the Lossless Two-Ports
  • 3.11 Transfer Scattering Parameters
  • 3.12 Cascaded (or Tandem) Connections of Two-Ports
  • 3.13 Construction of an n-Bit Phase Shifter by Cascading Phase-Shifting Cells
  • 4 Transmission Lines as Phase Shifter
  • 4.1 Ideal Transmission Lines
  • 4.2 Time Domain Solutions of Voltage and Current Wave Equations
  • 4.3 Model for a Two-Pair Wire Transmission Line as an Ideal TEM Line
  • 4.4 Model for a Coaxial Cable as an Ideal TEM Line
  • 4.5 Field Solutions for TEM Lines
  • 4.6 Phasor Solutions for Ideal TEM Lines
  • 4.7 Steady-State Time Domain Solutions for Voltage
  • 4.8 Definition of the Major Parameters of a Transmission Line
  • 4.9 Voltage and Current Expression in Terms of Incident and Reflected Waves
  • 4.10 TEM Lines as Circuit or "Distributed" Elements
  • 4.11 Voltage and Current Expressions at the Load-End
  • 4.12 Voltage and Current Expressions at the Source-End
  • Input Reflection Coefficient on the z = L Plane
  • 4.13 Output Reflection Coefficient at z = 0 Plane
  • 4.14 Voltage Standing Wave Ratio: VSWR
  • 4.15 Open Expressions for the Input and the Output Reflection
  • 4.16 An Open-End TEM Line as a Capacitor
  • 4.17 A Shorted TEM Line as an Inductor
  • 4.18 A Quarter Wavelength TEM Line at Resonance Frequency
  • 4.19 Open-Ended TEM Line with Arbitrary Length
  • 4.20 Shorted TEM Line with Arbitrary Length
  • 4.21 Ideal TEM Lines with No Reflection: Perfectly Matched and Mismatched Lines
  • 4.22 Conclusion
  • Appendix
  • References
  • 5 Loaded-Line Digital Phase Shifters
  • 5.1 Loaded-Line Phase Shifters with Single Reactive Elements

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