CONTENTS
1. Introduction: The Importance of Signal Integrity
1.1 Computing Power: Past and Future
2. Electromagnetic Fundamentals for Signal Integrity
2.6 Power Flow and the Poynting Vector
2.7 Reflections of Electromagnetic Waves
3. Ideal Transmission-Line Fundamentals
3.1 Transmission-Line Structures
3.2 Wave Propagation on Loss-Free Transmission Lines
3.3 Transmission-Line Properties
3.4 Transmission-Line Parameters for the Loss-Free Case
3.5 Transmission-Line Reflections
4.1 Mutual Inductance and Capacitance
5.1 Signals Propagating in Unbounded Conductive Media
5.2 Classic Conductor Model for Transmission Lines
5.4 Transmission-Line Parameters for Nonideal Conductors
6. Electrical Properties of Dielectrics
6.1 Polarization of Dielectrics
6.2 Classification of Dielectric Materials
6.3 Frequency-Dependent Dielectric Behavior
6.4 Properties of a Physical Dielectric Model