Advanced Signal Integrity for High-Speed Digital Designs-论坛里有人要: Advanced Signal Integrity for High-Speed Digital Designs.part2.rar

Advanced Signal Integrity for High-Speed Digital Designs
    Stephen H. Hall, Howard L. Heck
ISBN: 978-0-470-19235-1
Hardcover
660 pages
March 2009, Wiley-IEEE Press

共两个part

Preface.

Acknowledgments.

Chapter 1: Introduction: The importance of signal integrity.

1.1 Computing Power: Past and Future.

1.2 The problem.

1.3 The Basics.

1.4 A new realm of bus design.

1.5 Scope.

1.6 Summary.

1.7 References.

Chapter 2: Electromagnetic Fundamentals for Signal Integrity.

2.1 Introduction.

2.2 Maxwell’s Equations.

2.3 Common Vector Operators.

2.4 Wave Propagation.

2.5 Electrostatics.

2.6 Magnetostatics.

2.7 Power Flow and the Poynting Vector.

2.8 Reflections of Electromagnetic Waves.

2.9 References.

2.10 Problems.

Chapter 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.

3.6 Time domain Reflectometry.

3.7 References.

3.8 Problems.

Chapter 4: Crosstalk.

4.1 Mutual Inductance and Capacitance.

4.2 Coupled Wave Equations.

4.3 Coupled Line Analysis.

4.4 Modal Analysis.

4.5 Crosstalk Minimization.

4.6 Summary.

4.7 References.

4.8 Problems.

Chapter 5: Non-ideal conductor models for transmission lines.

5.1 Signals propagating in an unbounded conductive media.

5.2 Classic conductor model for transmission lines.

5.3 Surface Roughness.

5.4 Transmission line parameters with a non-ideal conductor.

5.5 Problems.

Chapter 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.

6.5 The fiber-weave effect.

6.6 Environmental variation in dielectric behavior.

6.7 Transmission line parameters for lossy dielectrics and realistic conductors.

6.8 References.

6.9 Problems.

Chapter 7: Differential signaling.

7.1 Removal of common mode noise.

7.2 Differential Crosstalk.

7.3 Virtual reference plane.

7.4 Propagation of Modal Voltages.

7.5 Common terminology.

7.6 Drawbacks of differential signaling.

7.7 References.

7.8 Problems.

Chapter 8: Mathematical Requirements of Physical Channels.

8.1 Frequency domain effects in time domain simulations.

8.2 Requirements for a physical Channel.

8.3 References.

8.4 Problems.

Chapter 9: Network Analysis for Digital Engineers.

9.1 High frequency voltage and current waves.

9.2 Network Theory.

9.3 Properties of Physical S-parameters.

9.4 References.

9.5 Problems.

Chapter 10: Topics in High-Speed Channel Modeling.

10.1 Creating a physical transmission line mode.

10.2 Non-Ideal Return Paths.

10.3 Vias.

10.4 References.

10.5 Problems.

Chapter 11: I/O Circuits and Models.

11.1 Introduction.

11.2 Push-Pull Transmitters.

11.3 CMOS Receivers.

11.4 ESD Protection Circuits.

11.5 On-Chip Termination.

11.6 Bergeron Diagrams.

11.7 Open Drain Transmitters.

11.8 Differential Current Mode Transmitters.

11.9 Low Swing/Differential Receivers.

11.10 IBIS Models.

11.11 Summary.

11.12 References.

11.13 Problems.

Chapter 12: Equalization.

12.1 Introduction.

12.2 Continuous Time Linear Equalizers.

12.3 Discrete Linear Equalizers.

12.4 Decision Feedback Equalization.

12.5 Summary.

12.6 References.

12.7 Problems.

Chapter 13: Modeling and Budgeting of Timing Jitter and Noise.

13.1 The Eye Diagram.

13.2 Bit Error Rate.

13.3 Jitter Sources and Budgets.

13.4 Noise Sources and Budgets.

13.5 Peak Distortion Analysis Methods.

13.6 Summary.

13.7 References.

13.8 Problems.

Chapter 14: System Analysis Using Response Surface Modeling.

14.1 Introduction.

14.2 Case Study: 10 Gb/s differential PCB interface.

14.3 RSM Construction by Least Squares Fitting.

14.4 Measures of Fit.

14.5 Significance Testing.

14.6 Confidence Intervals.

14.7 Sensitivity Analysis and Design Optimization.

14.8 Defect Rate Prediction Using Monte Carlo Simulation.

14.9 Additional RSM Considerations.

14.10 Summary.

14.11 References.

14.12 Problems.

Appendix A: Useful formulae, identities, units and constants.

Appendix B: 4-port Conversions between T and S-parameters.

Appendix C: Critical values of the F-statistic.

Appendix D: Critical values of the t-statistic..

Appendix E: Derivation of the internal inductance using the Hilbert Transform.

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