Publisher: Prentice Hall PTR
Pub Date: September 15, 2003
ISBN: 0-13-066946-6
Pages: 608
Section 2.7. The Spectrum of an Ideal Square Wave
Section 2.8. From the Frequency Domain to the Time Domain
Section 2.9. Effect of Bandwidth on Rise Time
Section 2.10. Bandwidth and Rise Time
Section 2.11. What Does "Significant" Mean?
Section 2.12. Bandwidth of Real Signals
Section 2.13. Bandwidth and Clock Frequency
Section 2.14. Bandwidth of a Measurement
Section 2.15. Bandwidth of a Model
Section 2.16. Bandwidth of an Interconnect
Section 2.17. Bottom Line
Chapter 3. Impedance and Electrical Models
Section 3.1. Describing Signal-Integrity Solutions in Terms of Impedance
Section 3.2. What Is Impedance?
Section 3.3. Real vs. Ideal Circuit Elements
Section 3.4. Impedance of an Ideal Resistor in the Time Domain
Section 3.5. Impedance of an Ideal Capacitor in the Time Domain
Section 3.6. Impedance of an Ideal Inductor in the Time Domain
Section 3.7. Impedance in the Frequency Domain
Section 3.8. Equivalent Electrical Circuit Models
Section 3.9. Circuit Theory and SPICE
Section 3.10. Introduction to Modeling
Section 3.11. The Bottom Line
Chapter 4. The Physical Basis of Resistance
Section 4.1. Translating Physical Design into Electrical Performance
Section 4.2. The Only Good Approximation for the Resistance of Interconnects
Section 4.3. Bulk Resistivity
Section 4.4. Resistance per Length
Section 4.5. Sheet Resistance
Section 4.6. The Bottom Line
Chapter 5. The Physical Basis of Capacitance
Section 5.1. Current Flow in Capacitors
Section 5.2. The Capacitance of a Sphere
Section 5.3. Parallel Plate Approximation
Section 5.4. Dielectric Constant
Section 5.5. Power and Ground Planes and Decoupling Capacitance
Section 5.6. Capacitance per Length
Section 5.7. 2D Field Solvers
Section 5.8. Effective Dielectric Constant
Section 5.9. The Bottom Line
Chapter 6. The Physical Basis of Inductance
Section 6.1. What Is Inductance?
Section 6.2. Inductance Principle #1: There Are Circular Magneti
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