Verfügbarkeit: Advanced signal integrity for high-speed digital designs

Advanced signal integrity for high-speed digital designs:

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Bibliographische Detailangaben
1. Verfasser:	Hall, Stephen H. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Hoboken, NJ Wiley 2009
Schlagworte:	Digital electronics Logic design Signal integrity (Electronics) Digitalschaltung Schaltungsentwurf
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVII, 660 S. Ill., graph. Darst.
ISBN:	9780470192351

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MARC


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Datensatz im Suchindex

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adam_text	ADVANCED SIGNAL INTEGRITY FOR HIGH-SPEED DIGITAL DESIGNS STEPHEN H. HALL HOWARD L. HECK * H H M L MM ICCC CELEBRATING 125 YEARS OF BISSNEERING THE FUTURE WILEY A JOHN WILEY & SONS, INC., PUBLICATION CONTENTS PREFACE 1. INTRODUCTION: THE IMPORTANCE OF SIGNAL INTEGRITY 1.1 COMPUTING POWER: PAST AND FUTURE, 1 1.2 THE PROBLEM, 4 1.3 THE BASICS, 5 1.4 A NEW REALM OF BUS DESIGN, 7 1.5 SCOPE OF THE BOOK, 7 1.6 SUMMARY, 8 REFERENCES, 8 2. ELECTROMAGNETIC FUNDAMENTALS FOR SIGNAL INTEGRITY 2.1 MAXWELL S EQUATIONS, 10 2.2 COMMON VECTOR OPERATORS, 13 2.2.1 VECTOR, 13 2.2.2 DOT PRODUCT, 13 2.2.3 CROSS PRODUCT, 14 2.2.4 VECTOR AND SCALAR FIELDS, 15 2.2.5 FLUX, 15 2.2.6 GRADIENT, 18 2.2.7 DIVERGENCE, 18 2.2.8 CURL, 20 2.3 WAVE PROPAGATION, 23 2.3.1 WAVE EQUATION, 23 2.3.2 RELATION BETWEEN E AND H AND THE TRANSVERSE ELECTROMAGNETIC MODE, 25 2.3.3 TIME-HARMONIC FIELDS, 27 2.3.4 PROPAGATION OF TIME-HARMONIC PLANE WAVES, 28 2.4 ELECTROSTATICS, 32 2.4.1 ELECTROSTATIC SCALAR POTENTIAL IN TERMS OF AN ELECTRIC FIELD, 36 2.4.2 ENERGY IN AN ELECTRIC FIELD, 37 2.4.3 CAPACITANCE, 40 2.4.4 ENERGY STORED IN A CAPACITOR, 41 2.5 MAGNETOSTATICS, 42 2.5.1 MAGNETIC VECTOR POTENTIAL, 46 2.5.2 INDUCTANCE, 48 2.5.3 ENERGY IN A MAGNETIC FIELD, 51 2.6 POWER FLOW AND THE POYNTING VECTOR, 53 2.6.1 TIME-AVERAGED VALUES, 56 2.7 REFLECTIONS OF ELECTROMAGNETIC WAVES, 57 2.7.1 PLANE WAVE INCIDENT ON A PERFECT CONDUCTOR, 57 2.7.2 PLANE WAVE INCIDENT ON A LOSSLESS DIELECTRIC, 60 REFERENCES, 62 PROBLEMS, 62 3. IDEAL TRANSMISSION-LINE FUNDAMENTALS 3.1 TRANSMISSION-LINE STRUCTURES, 66 3.2 WAVE PROPAGATION ON LOSS-FREE TRANSMISSION LINES, 67 3.2.1 ELECTRIC AND MAGNETIC FIELDS ON A TRANSMISSION LINE, 68 3.2.2 TELEGRAPHER S EQUATIONS, 73 3.2.3 EQUIVALENT CIRCUIT FOR THE LOSS-FREE CASE, 76 3.2.4 WAVE EQUATION IN TERMS OF LC, 80 3.3 TRANSMISSION-LINE PROPERTIES, 82 3.3.1 TRANSMISSION-LINE PHASE VELOCITY, 82 3.3.2 TRANSMISSION-LINE CHARACTERISTIC IMPEDANCE, 82 3.3.3 EFFECTIVE DIELECTRIC PERMITTIVITY, 83 3.3.4 SIMPLE FORMULAS FOR CALCULATING THE CHARACTERISTIC IMPEDANCE, 85 3.3.5 VALIDITY OF THE * APPROXIMATION, 86 3.4 TRANSMISSION-LINE PARAMETERS FOR THE LOSS-FREE CASE, 90 3.4.1 LAPLACE AND POISSON EQUATIONS, 91 3.4.2 TRANSMISSION-LINE PARAMETERS FOR A COAXIAL LINE, 91 3.4.3 TRANSMISSION-LINE PARAMETERS FOR A MICROSTRIP, 94 3.4.4 CHARGE DISTRIBUTION NEAR A CONDUCTOR EDGE, 100 3.4.5 CHARGE DISTRIBUTION AND TRANSMISSION-LINE PARAMETERS, 104 VII 3.4.6 FIELD MAPPING, 107 3.5 TRANSMISSION-LINE REFLECTIONS, 113 3.5.1 TRANSMISSION-LINE REFLECTION AND TRANSMISSION COEFFICIENT, 113 3.5.2 LAUNCHING AN INITIAL WAVE, 116 3.5.3 MULTIPLE REFLECTIONS, 116 3.5.4 LATTICE DIAGRAMS AND OVER- OR UNDERDRIVEN TRANSMISSION LINES, 118 3.5.5 LATTICE DIAGRAMS FOR NONIDEAL TOPOLOGIES, 121 3.5.6 EFFECT OF RISE AND FALL TIMES ON REFLECTIONS, 129 3.5.7 REFLECTIONS FROM REACTIVE LOADS, 129 3.6 TIME-DOMAIN REFLECTOMETRY, 134 3.6.1 MEASURING THE CHARACTERISTIC IMPEDANCE AND DELAY OF A TRANSMISSION LINE, 134 3.6.2 MEASURING INDUCTANCE AND CAPACITANCE OF REACTIVE STRUCTURES, 137 3.6.3 UNDERSTANDING THE TDR PROFILE, 140 REFERENCES, 140 PROBLEMS, 141 4. CROSSTALK 145 4.1 MUTUAL INDUCTANCE AND CAPACITANCE, 146 4.1.1 MUTUAL INDUCTANCE, 147 4.1.2 MUTUAL CAPACITANCE, 149 4.1.3 FIELD SOLVERS, 152 4.2 COUPLED WAVE EQUATIONS, 153 4.2.1 WAVE EQUATION REVISITED, 153 4.2.2 COUPLED WAVE EQUATIONS, 155 4.3 COUPLED LINE ANALYSIS, 157 4.3.1 IMPEDANCE AND VELOCITY, 157 4.3.2 COUPLED NOISE, 165 4.4 MODAL ANALYSIS, 177 4.4.1 MODAL DECOMPOSITION, 178 4.4.2 MODAL IMPEDANCE AND VELOCITY, 180 4.4.3 RECONSTRUCTING THE SIGNAL, 180 4.4.4 MODAL ANALYSIS, 181 4.4.5 MODAL ANALYSIS OF LOSSY LINES, 192 4.5 CROSSTALK MINIMIZATION, 193 4.6 SUMMARY, 194 REFERENCES, 195 PROBLEMS, 195 VLLL CONTENTS 5. NONIDEAL CONDUCTOR MODELS 201 5.1 SIGNALS PROPAGATING IN UNBOUNDED CONDUCTIVE MEDIA, 202 5.1.1 PROPAGATION CONSTANT FOR CONDUCTIVE MEDIA, 202 5.1.2 SKIN DEPTH, 204 5.2 CLASSIC CONDUCTOR MODEL FOR TRANSMISSION LINES, 205 5.2.1 DC LOSSES IN CONDUCTORS, 206 5.2.2 FREQUENCY-DEPENDENT RESISTANCE IN CONDUCTORS, 207 5.2.3 FREQUENCY-DEPENDENT INDUCTANCE, 213 5.2.4 POWER LOSS IN A SMOOTH CONDUCTOR, 218 5.3 SURFACE ROUGHNESS, 222 5.3.1 HAMMERSTAD MODEL, 223 5.3.2 HEMISPHERICAL MODEL, 228 5.3.3 HURAY MODEL, 237 5.3.4 CONCLUSIONS, 243 5.4 TRANSMISSION-LINE PARAMETERS FOR NONIDEAL CONDUCTORS, 244 5.4.1 EQUIVALENT CIRCUIT, IMPEDANCE, AND PROPAGATION CONSTANT, 244 5.4.2 TELEGRAPHER S EQUATIONS FOR A REAL CONDUCTOR AND A PERFECT DIELECTRIC, 246 REFERENCES, 247 PROBLEMS, 247 6. ELECTRICAL PROPERTIES OF DIELECTRICS 249 6.1 POLARIZATION OF DIELECTRICS, 250 6.1.1 ELECTRONIC POLARIZATION, 250 6.1.2 ORIENTATIONAL (DIPOLE) POLARIZATION, 253 6.1.3 IONIC (MOLECULAR) POLARIZATION, 253 6.1.4 RELATIVE PERMITTIVITY, 254 6.2 CLASSIFICATION OF DIELECTRIC MATERIALS, 256 6.3 FREQUENCY-DEPENDENT DIELECTRIC BEHAVIOR, 256 6.3.1 DC DIELECTRIC LOSSES, 257 6.3.2 FREQUENCY-DEPENDENT DIELECTRIC MODEL: SINGLE POLE, 257 6.3.3 ANOMALOUS DISPERSION, 261 6.3.4 FREQUENCY-DEPENDENT DIELECTRIC MODEL: MULTIPOLE, 262 6.3.5 INFINITE-POLE MODEL, 266 6.4 PROPERTIES OF A PHYSICAL DIELECTRIC MODEL, 269 6.4.1 RELATIONSHIP BETWEEN S AND E , 269 6.4.2 MATHEMATICAL LIMITS, 271 IX 6.5 FIBER-WEAVE EFFECT, 274 6.5.1 PHYSICAL STRUCTURE OF AN FR4 DIELECTRIC AND DIELECTRIC CONSTANT VARIATION, 275 6.5.2 MITIGATION, 276 6.5.3 MODELING THE FIBER-WEAVE EFFECT, 277 6.6 ENVIRONMENTAL VARIATION IN DIELECTRIC BEHAVIOR, 279 6.6.1 ENVIRONMENTAL EFFECTS ON TRANSMISSION-LINE PERFORMANCE, 281 6.6.2 MITIGATION, 283 6.6.3 MODELING THE EFFECT OF RELATIVE HUMIDITY ON AN FR4 DIELECTRIC, 284 6.7 TRANSMISSION-LINE PARAMETERS FOR LOSSY DIELECTRICS AND REALISTIC CONDUCTORS, 285 6.7.1 EQUIVALENT CIRCUIT, IMPEDANCE, AND PROPAGATION CONSTANT, 285 6.7.2 TELEGRAPHER S EQUATIONS FOR REALISTIC CONDUCTORS AND LOSSY DIELECTRICS, 291 REFERENCES, 292 PROBLEMS, 292 7. DIFFERENTIAL SIGNALING 297 7.1 REMOVAL OF COMMON-MODE NOISE, 299 7.2 DIFFERENTIAL CROSSTALK, 300 7.3 VIRTUAL REFERENCE PLANE, 302 7.4 PROPAGATION OF MODAL VOLTAGES, 303 7.5 COMMON TERMINOLOGY, 304 7.6 DRAWBACKS OF DIFFERENTIAL SIGNALING, 305 7.6.1 MODE CONVERSION, 305 7.6.2 FIBER-WEAVE EFFECT, 310 REFERENCE, 313 PROBLEMS, 313 8. MATHEMATICAL REQUIREMENTS FOR PHYSICAL CHANNELS 315 8.1 FREQUENCY-DOMAIN EFFECTS IN TIME-DOMAIN SIMULATIONS, 316 8.1.1 LINEAR AND TIME INVARIANCE, 316 8.1.2 TIME- AND FREQUENCY-DOMAIN EQUIVALENCIES, 317 8.1.3 FREQUENCY SPECTRUM OF A DIGITAL PULSE, 321 8.1.4 SYSTEM RESPONSE, 324 8.1.5 SINGLE-BIT (PULSE) RESPONSE, 327 8.2 REQUIREMENTS FOR A PHYSICAL CHANNEL, 331 8.2.1 CAUSALITY, 331 X CONTENTS 8.2.2 PASSIVITY, 340 8.2.3 STABILITY, 343 REFERENCES, 345 PROBLEMS, 345 9. NETWORK ANALYSIS FOR DIGITAL ENGINEERS 347 9.1 HIGH-FREQUENCY VOLTAGE AND CURRENT WAVES, 349 9.1.1 INPUT REFLECTION INTO A TERMINATED NETWORK, 349 9.1.2 INPUT IMPEDANCE, 353 9.2 NETWORK THEORY, 354 9.2.1 IMPEDANCE MATRIX, 355 9.2.2 SCATTERING MATRIX, 358 9.2.3 ABCD PARAMETERS, 382 9.2.4 CASCADING 5-PARAMETERS, 390 9.2.5 CALIBRATION AND DEEMBEDDING, 395 9.2.6 CHANGING THE REFERENCE IMPEDANCE, 399 9.2.7 MULTIMODE S-PARAMETERS, 400 9.3 PROPERTIES OF PHYSICAL S-PARAMETERS, 406 9.3.1 PASSIVITY, 406 9.3.2 REALITY, 408 9.3.3 CAUSALITY, 408 9.3.4 SUBJECTIVE EXAMINATION OF 5-PARAMETERS, 410 REFERENCES, 413 PROBLEMS, 413 10. TOPICS IN HIGH-SPEED CHANNEL MODELING 417 10.1 CREATING A PHYSICAL TRANSMISSION-LINE MODEL, 418 10.1.1 TABULAR APPROACH, 418 10.1.2 GENERATING A TABULAR DIELECTRIC MODEL, 419 10.1.3 GENERATING A TABULAR CONDUCTOR MODEL, 420 10.2 NONLDEAL RETURN PATHS, 422 10.2.1 PATH OF LEAST IMPEDANCE, 422 10.2.2 TRANSMISSION LINE ROUTED OVER A GAP IN THE REFERENCE PLANE, 423 10.2.3 SUMMARY, 434 10.3 VIAS, 434 10.3.1 VIA RESONANCE, 434 10.3.2 PLANE RADIATION LOSSES, 437 10.3.3 PARALLEL-PLATE WAVEGUIDE, 439 REFERENCES, 441 PROBLEMS, 442 CONTENTS XI 11. I/O CIRCUITS AND MODELS 443 11.1 I/O DESIGN CONSIDERATIONS, 444 11.2 PUSH-PULL TRANSMITTERS, 446 11.2.1 OPERATION, 446 11.2.2 LINEAR MODELS, 448 11.2.3 NONLINEAR MODELS, 453 11.2.4 ADVANCED DESIGN CONSIDERATIONS, 455 11.3 CMOS RECEIVERS, 459 11.3.1 OPERATION, 459 11.3.2 MODELING, 460 11.3.3 ADVANCED DESIGN CONSIDERATIONS, 460 11.4 ESD PROTECTION CIRCUITS, 460 11.4.1 OPERATION, 461 11.4.2 MODELING, 461 11.4.3 ADVANCED DESIGN CONSIDERATIONS, 463 11.5 ON-CHIP TERMINATION, 463 11.5.1 OPERATION, 463 11.5.2 MODELING, 463 11.5.3 ADVANCED DESIGN CONSIDERATIONS, 464 11.6 BERGERON DIAGRAMS, 465 11.6.1 THEORY AND METHOD, 470 11.6.2 LIMITATIONS, 474 11.7 OPEN-DRAIN TRANSMITTERS, 474 11.7.1 OPERATION, 474 11.7.2 MODELING, 476 11.7.3 ADVANCED DESIGN CONSIDERATIONS, 476 11.8 DIFFERENTIAL CURRENT-MODE TRANSMITTERS, 479 11.8.1 OPERATION, 479 11.8.2 MODELING, 480 11.8.3 ADVANCED DESIGN CONSIDERATIONS, 480 11.9 LOW-SWING AND DIFFERENTIAL RECEIVERS, 481 11.9.1 OPERATION, 481 11.9.2 MODELING, 482 11.9.3 ADVANCED DESIGN CONSIDERATIONS, 483 11.10 IBIS MODELS, 483 11.10.1 MODEL STRUCTURE AND DEVELOPMENT PROCESS, 483 11.10.2 GENERATING MODEL DATA, 485 11.10.3 DIFFERENTIAL I/O MODELS, 488 11.10.4 EXAMPLE OF AN IBIS FILE, 490 11.11 SUMMARY, 492 REFERENCES, 492 * . * XII CONTENTS PROBLEMS, 494 12. EQUALIZATION 499 12.1 ANALYSIS AND DESIGN BACKGROUND, 500 12.1.1 MAXIMUM DATA TRANSFER CAPACITY, 500 12.1.2 LINEAR TIME-INVARIANT SYSTEMS, 502 12.1.3 IDEAL VERSUS PRACTICAL INTERCONNECTS, 506 12.1.4 EQUALIZATION OVERVIEW, 511 12.2 CONTINUOUS-TIME LINEAR EQUALIZERS, 513 12.2.1 PASSIVE CTLES, 514 12.2.2 ACTIVE CTLES, 521 12.3 DISCRETE LINEAR EQUALIZERS, 522 12.3.1 TRANSMITTER EQUALIZATION, 525 12.3.2 COEFFICIENT SELECTION, 530 12.3.3 RECEIVER EQUALIZATION, 535 12.3.4 NONIDEALITIES IN DLES, 536 12.3.5 ADAPTIVE EQUALIZATION, 536 12.4 DECISION FEEDBACK EQUALIZATION, 540 12.5 SUMMARY, 542 REFERENCES, 545 PROBLEMS, 546 13. MODELING AND BUDGETING OF TIMING JITTER AND NOISE 549 13.1 EYE DIAGRAM, 550 13.2 BIT ERROR RATE, 552 13.2.1 WORST-CASE ANALYSIS, 552 13.2.2 BIT ERROR RATE ANALYSIS, 555 13.3 JITTER SOURCES AND BUDGETS, 560 13.3.1 JITTER TYPES AND SOURCES, 561 13.3.2 SYSTEM JITTER BUDGETS, 568 13.4 NOISE SOURCES AND BUDGETS, 572 13.4.1 NOISE SOURCES, 572 13.4.2 NOISE BUDGETS, 579 13.5 PEAK DISTORTION ANALYSIS METHODS, 583 13.5.1 SUPERPOSITION AND THE PULSE RESPONSE, 583 13.5.2 WORST-CASE BIT PATTERNS AND DATA EYES, 585 13.5.3 PEAK DISTORTION ANALYSIS INCLUDING CROSSTALK, 594 13.5.4 LIMITATIONS, 598 13.6 SUMMARY, 599 REFERENCES, 599 PROBLEMS, 600 CONTENTS XIII 14. SYSTEM ANALYSIS USING RESPONSE SURFACE MODELING 605 14.1 MODEL DESIGN CONSIDERATIONS, 606 14.2 CASE STUDY: 10-GB/S DIFFERENTIAL PCB INTERFACE, 607 14.3 RSM CONSTRUCTION BY LEAST SQUARES FITTING, 607 14.4 MEASURES OF FIT, 615 14.4.1 RESIDUALS, 615 14.4.2 FIT COEFFICIENTS, 616 14.5 SIGNIFICANCE TESTING, 618 14.5.1 MODEL SIGNIFICANCE: THE F-TEST, 618 14.5.2 PARAMETER SIGNIFICANCE: INDIVIDUAL F-TESTS, 619 14.6 CONFIDENCE INTERVALS, 621 14.7 SENSITIVITY ANALYSIS AND DESIGN OPTIMIZATION, 623 14.8 DEFECT RATE PREDICTION USING MONTE CARLO SIMULATION, 628 14.9 ADDITIONAL RSM CONSIDERATIONS, 633 14.10 SUMMARY, 633 REFERENCES, 634 PROBLEMS, 635 APPENDIX A: USEFUL FORMULAS, IDENTITIES, UNITS, AND CONSTANTS 637 APPENDIX B: FOUR-PORT CONVERSIONS BETWEEN T- AND 5-PARAMETERS 641 APPENDIX C: CRITICAL VALUES OF THE F-STATISTIC 645 APPENDIX D: CRITICAL VALUES OF THE *-STATISTIC 647 APPENDIX E: CAUSAL RELATIONSHIP BETWEEN SKIN EFFECT RESISTANCE AND INTERNAL INDUCTANCE FOR ROUGH CONDUCTORS 649 APPENDIX F: SPICE LEVEL 3 MODEL FOR 0.25 ^M MOSIS PROCESS 653 INDEX 655
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spelling	Hall, Stephen H. Verfasser aut Advanced signal integrity for high-speed digital designs Stephen H. Hall ; Howard L. Heck Hoboken, NJ Wiley 2009 XVII, 660 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Digital electronics Logic design Signal integrity (Electronics) Digitalschaltung (DE-588)4012295-5 gnd rswk-swf Schaltungsentwurf (DE-588)4179389-4 gnd rswk-swf Digitalschaltung (DE-588)4012295-5 s Schaltungsentwurf (DE-588)4179389-4 s DE-604 Heck, Howard L. Sonstige oth GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017617326&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Hall, Stephen H. Advanced signal integrity for high-speed digital designs Digital electronics Logic design Signal integrity (Electronics) Digitalschaltung (DE-588)4012295-5 gnd Schaltungsentwurf (DE-588)4179389-4 gnd
subject_GND	(DE-588)4012295-5 (DE-588)4179389-4
title	Advanced signal integrity for high-speed digital designs
title_auth	Advanced signal integrity for high-speed digital designs
title_exact_search	Advanced signal integrity for high-speed digital designs
title_full	Advanced signal integrity for high-speed digital designs Stephen H. Hall ; Howard L. Heck
title_fullStr	Advanced signal integrity for high-speed digital designs Stephen H. Hall ; Howard L. Heck
title_full_unstemmed	Advanced signal integrity for high-speed digital designs Stephen H. Hall ; Howard L. Heck
title_short	Advanced signal integrity for high-speed digital designs
title_sort	advanced signal integrity for high speed digital designs
topic	Digital electronics Logic design Signal integrity (Electronics) Digitalschaltung (DE-588)4012295-5 gnd Schaltungsentwurf (DE-588)4179389-4 gnd
topic_facet	Digital electronics Logic design Signal integrity (Electronics) Digitalschaltung Schaltungsentwurf
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017617326&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT hallstephenh advancedsignalintegrityforhighspeeddigitaldesigns AT heckhowardl advancedsignalintegrityforhighspeeddigitaldesigns

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