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Bogatin's practical guide to transmission line design and characterization for signal integrity applications

This multimedia eBook establishes a solid foundation in the essential principles of how signals interact with transmission lines, how the physical design of interconnects affects transmission line properties, and how to interpret single-ended and differential time domain reflection (TDR) measurement...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Bogatin, Eric (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Norwood, MA Artech House [2020]
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Practical Guide to Transmission Line Design and Characterization for Signal Integrity Applications
  • Table of Contents
  • Chapter 1 What Are Transmission Lines and Why You Should Care
  • 1.1 Do We Really Need Another Transmissi
  • 1.2 All Interconnects Are Transmission L
  • 1.3 The Importance of Measurement or Cha
  • 1.4 When Are Interconnects Not Transpare
  • 1.5 Why the RF World is Different from t
  • 1.6 Review Questions
  • Chapter 2 Essential Principles of Signal on Interconnects
  • 2.1 All Interconnects are Transmission Lines
  • 2.2 Signals Are Dynamic
  • 2.3 A Simple Free Tool to Illustrate the Propagation of a Signal
  • 2.4 Time Delay and Wiring Delay
  • 2.5 Signals See an Instantaneous Impedance
  • 2.6 Instantaneous Impedance and Characteristic Impedance
  • 2.7 What Happened to the Inductance of the Transmission Line?
  • 2.8 What is Special about 50 Ohms?
  • 2.9 The Paradox of Current Flow into a Transmission Line
  • 2.10 Displacement Current as a New Type of Current
  • 2.11 Return Current in a Transmission Line
  • 2.12 Where Does the Return Current Flow?
  • 2.13 Review Questions
  • Chapter 3 Categorizing Transmission Lines
  • 3.1 Distinguishing Metrics
  • 3.2 Uniform or Nonuniform Transmission Lines
  • 3.3 Single-Ended or Differential
  • 3.4 Uncoupled or Coupled
  • 3.5 Lossless and Lossy Transmission Lines
  • 3.6 Balanced or Unbalanced
  • 3.7 Review Questions
  • Chapter 4 Five Impedances of a Transmission Line
  • 4.1 The Instantaneous Impedance
  • 4.2 Characteristic Impedance
  • 4.3 The Surge or Wave Impedance
  • 4.4 The Input Impedance in the Time Domain
  • 4.5 Drawing Circuits with Resistors and Transmission Lines
  • 4.6 Input Impedance in the Frequency Domain
  • 4.7 A Few Special Cases for the Input Impedance in the Frequency Domain
  • 4.8 Which is Better, the Frequency or the Time Domain Impedance?
  • 4.9 Review Questions
  • Chapter 5 Why We Care About Impedance: Reflections
  • 5.1 Reflections Keep the Universe from Blowing Up
  • 5.2 The Reflection and Transmission Coefficient
  • 5.3 Using the Reflection Coefficient and Transmission Coefficient
  • 5.4 An Important Distinction Between the Signal and the Voltage
  • 5.5 Important Termination Special Case: A 50-Ohm Resistive Load
  • 5.6 Important Termination Special Case:
  • 5.7 Important Termination Case: A Short
  • 5.8 Resolving the Paradox: Where Did 2V
  • 5.9 Another Paradox: The Signal Launched into the Transmission Line
  • 5.10 Review Questions
  • Chapter 6 Analyzing Reflections with the Bounce Diagram
  • 6.1 A Typical TX-RX Circuit
  • 6.2 The Bounce Diagram: An Example
  • 6.3 Simulating the Dynamic Nature of Reflections
  • 6.4 Special Case: Short at the Far End
  • 6.5 Circuits with an Interface between Two Tranmission Lines
  • 6.6 Try These Examples of Transmission Line Circuits
  • 6.7 Review Questions