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by HOWARD L. HECK, STEPHEN H. HALL
Advanced Signal Integrity For High-Speed Digital Designs
Cover
Title page
Preface
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 OF THE BOOK
1.6 SUMMARY
REFERENCES
2: ELECTROMAGNETIC FUNDAMENTALS FOR SIGNAL INTEGRITY
2.1 MAXWELL'S EQUATIONS
2.2 COMMON VECTOR OPERATORS
2.3 WAVE PROPAGATION
2.4 ELECTROSTATICS
2.5 MAGNETOSTATICS
2.6 POWER FLOW AND THE POYNTING VECTOR
2.7 REFLECTIONS OF ELECTROMAGNETIC WAVES
REFERENCES
PROBLEMS
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
REFERENCES
PROBLEMS
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
REFERENCES
PROBLEMS
5: NONIDEAL CONDUCTOR MODELS
5.1 SIGNALS PROPAGATING IN UNBOUNDED CONDUCTIVE MEDIA
5.2 CLASSIC CONDUCTOR MODEL FOR TRANSMISSION LINES
5.3 SURFACE ROUGHNESS
5.4 TRANSMISSION-LINE PARAMETERS FOR NONIDEAL CONDUCTORS
REFERENCES
PROBLEMS
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 FIBER-WEAVE EFFECT
6.6 ENVIRONMENTAL VARIATION IN DIELECTRIC BEHAVIOR
6.7 TRANSMISSION-LINE PARAMETERS FOR LOSSY DIELECTRICS AND REALISTIC CONDUCTORS
REFERENCES
PROBLEMS
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
REFERENCES
PROBLEMS
8: MATHEMATICAL REQUIREMENTS FOR PHYSICAL CHANNELS
8.1 FREQUENCY-DOMAIN EFFECTS IN TIME-DOMAIN SIMULATIONS
8.2 REQUIREMENTS FOR A PHYSICAL CHANNEL
REFERENCES
PROBLEMS
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
REFERENCES
PROBLEMS
10: TOPICS IN HIGH-SPEED CHANNEL MODELING
10.1 CREATING A PHYSICAL TRANSMISSION-LINE MODEL
10.2 NONIDEAL RETURN PATHS
10.3 VIAS
REFERENCES
PROBLEMS
11: I/O CIRCUITS AND MODELS
11.1 I/O DESIGN CONSIDERATIONS
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 AND DIFFERENTIAL RECEIVERS
11.10 IBIS MODELS
11.11 SUMMARY
REFERENCES
PROBLEMS
12: EQUALIZATION
12.1 ANALYSIS AND DESIGN BACKGROUND
12.2 CONTINUOUS-TIME LINEAR EQUALIZERS
12.3 DISCRETE LINEAR EQUALIZERS
12.4 DECISION FEEDBACK EQUALIZATION
12.5 SUMMARY
REFERENCES
PROBLEMS
13: MODELING AND BUDGETING OF TIMING JITTER AND NOISE
13.1 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
REFERENCES
PROBLEMS
14: SYSTEM ANALYSIS USING RESPONSE SURFACE MODELING
14.1 MODEL DESIGN CONSIDERATIONS
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
REFERENCES
PROBLEMS
APPENDIX A: USEFUL FORMULAS, IDENTITIES, UNITS, AND CONSTANTS
APPENDIX B: FOUR-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: CAUSAL RELATIONSHIP BETWEEN SKIN EFFECT RESISTANCE AND INTERNAL INDUCTANCE FOR ROUGH CONDUCTORS
APPENDIX F: SPICE LEVEL 3 MODEL FOR 0.25 μM MOSIS PROCESS
INDEX
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ADVANCED SIGNAL INTEGRITY FOR HIGH-SPEED DIGITAL DESIGNS
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