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High Speed Signal Propagation

Author: Howard W. Johnson
Publisher: Prentice Hall Professional
ISBN: 9780130844088
Size: 10.10 MB
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Annotation Raves for Dr. Johnson's previous classic, "High-Speed Digital Design! ...".one of the finest efforts to come along in the field of applied high-speed digital design because of its focus on providing tools for the whole design team bringing a high-speed product to life. For all the PCB designers and circuit designers out there, buy it; read it; keep it." -- Dan Baumgartner, Printed Circuit Design Faster and farther: State-of-the-art signal transmission techniques In "High-Speed Signal Propagation, Howard Johnson and Martin Graham bring together state-of-the-art techniques for building digital interconnections that can transmit faster, farther, and more efficiently than ever before. Packed with new examples and never-before-published high-speed design guidance, this book offers a complete and unified theory of signal propagation for all metallic media, from cables to pcb traces to chips. Coverage includes: Managing tradeoffs between speed and distancePhysical theory of signal impairments: skin and proximity effects, dielectric loss, surface roughness, and non-TEM mode propagationGeneralized frequency- and step-response modelsCalculation of time-domain waveforms from frequency-domain transfer functionsDifferential signaling: Edge-coupled and broadside-coupled differential pairs, bends, intra-pair skew, differential trace geometry impedance, crosstalk, and radiationInter-cabinet connections: Coax, twisted-pair, fiber, equalizers, and LAN building wiringClock distribution: Special requirements, repeaters, multi-drop clock distribution, jitter, and power filteringSimulation: Frequency domain simulation methods, Spice, and IBIS

Printed Circuit Board Designer S Reference

Author: Christopher T. Robertson
Publisher: Prentice Hall Professional
ISBN: 9780130674814
Size: 27.78 MB
Format: PDF, ePub
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PCB design instruction and reference manual, all in one book!In-depth explanation of the processes and tools used in modern PCB designStandards, formulas, definitions, and procedures, plus software to tie it all together Buy it to learn, but keep it as a valued reference tool! Printed circuit boards (PCBs) literally form the backbone of electronic devices. The electronics industry continues its spread into every aspect of modern life, yet surprisingly little written material exists about PCB standards and design. At the same time, the industry is beginning to feel the effects of a lack of new designers entering the field! To address this situation, PCB design authority Christopher T. Robertson wrote "Printed Circuit Board Designer's Reference: Basics." This book teaches the essentials of PCB design the same standards and techniques used in the field, but collected in one place. You'll learn most of the key design techniques in use today, and be in the perfect position to learn the more advanced methods when you're ready. On the job, "Printed Circuit Board Designer's Reference: Basics" will continue to serve as an indispensable reference source filled with tables, charts, and task checklists you'll definitely want to keep on hand. Rounding out the book is a valuable software package DR Resource (Designer's Reference Resource) a multifunction calculator that manages the day-to-day activities of the PCB designer, performs project management functions, and keeps vital documentation and standards data right at your fingertips. Inside you'll find: Thorough coverage of PCB design tools and techniquesTools for everyday calculations, useful tables, quick reference charts, and a full checklist covering the entire design processClear explanations of where values come from, how to use and adjust them, and much more This book was written for new designers looking for a solid foundation in PCB design, although designers with more experience will find the reference material, software, and explanations of the values that manufacturers use invaluable as well. "

Digital Communications Test And Measurement

Author: Dennis Derickson
Publisher: Pearson Education
ISBN: 0132797216
Size: 65.70 MB
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A Comprehensive Guide to Physical Layer Test and Measurement of Digital Communication Links Today's new data communication and computer interconnection systems run at unprecedented speeds, presenting new challenges not only in the design, but also in troubleshooting, test, and measurement. This book assembles contributions from practitioners at top test and measurement companies, component manufacturers,and universities. It brings together information that has never been broadly accessible before—information that was previously buried in application notes, seminar and conference presentations, short courses, and unpublished works. Readers will gain a thorough understanding of the inner workings of digital high-speed systems, and learn how the different aspects of such systems can be tested. The editors and contributors cover key areas in test and measurement of transmitters (digital waveform and jitter analysis and bit error ratio), receivers (sensitivity, jitter tolerance, and PLL/CDR characterization), and high-speed channel characterization (in time and frequency domain). Extensive illustrations are provided throughout. Coverage includes Signal integrity from a measurement point of view Digital waveform analysis using high bandwidth real-time and sampling (equivalent time) oscilloscopes Bit error ratio measurements for both electrical and optical links Extensive coverage on the topic of jitter in high-speed networks State-of-the-art optical sampling techniques for analysis of 100 Gbit/s + signals Receiver characterization: clock recovery, phase locked loops, jitter tolerance and transfer functions, sensitivity testing, and stressed-waveform receiver testing Channel and system characterization: TDR/T and frequency domain-based alternatives Testing and measuring PC architecture communication links: PCIexpress, SATA, and FB DIMM

Cmos Continuous Time Adaptive Equalizers For High Speed Serial Links

Author: Cecilia Gimeno Gasca
Publisher: Springer
ISBN: 3319105639
Size: 34.12 MB
Format: PDF, Kindle
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This book introduces readers to the design of adaptive equalization solutions integrated in standard CMOS technology for high-speed serial links. Since continuous-time equalizers offer various advantages as an alternative to discrete-time equalizers at multi-gigabit rates, this book provides a detailed description of continuous-time adaptive equalizers design - both at transistor and system levels-, their main characteristics and performances. The authors begin with a complete review and analysis of the state of the art of equalizers for wireline applications, describing why they are necessary, their types, and their main applications. Next, theoretical fundamentals of continuous-time adaptive equalizers are explored. Then, new structures are proposed to implement the different building blocks of the adaptive equalizer: line equalizer, loop-filters, power comparator, etc. The authors demonstrate the design of a complete low-power, low-voltage, high-speed, continuous-time adaptive equalizer. Finally, a cost-effective CMOS receiver which includes the proposed continuous-time adaptive equalizer is designed for 1.25 Gb/s optical communications through 50-m length, 1-mm diameter plastic optical fiber (POF).

Rtl Hardware Design Using Vhdl

Author: Pong P. Chu
Publisher: John Wiley & Sons
ISBN: 047178639X
Size: 25.60 MB
Format: PDF, ePub, Mobi
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The skills and guidance needed to master RTL hardware design This book teaches readers how to systematically design efficient,portable, and scalable Register Transfer Level (RTL) digitalcircuits using the VHDL hardware description language and synthesissoftware. Focusing on the module-level design, which is composed offunctional units, routing circuit, and storage, the bookillustrates the relationship between the VHDL constructs and theunderlying hardware components, and shows how to develop codes thatfaithfully reflect the module-level design and can be synthesizedinto efficient gate-level implementation. Several unique features distinguish the book: * Coding style that shows a clear relationship between VHDLconstructs and hardware components * Conceptual diagrams that illustrate the realization of VHDLcodes * Emphasis on the code reuse * Practical examples that demonstrate and reinforce designconcepts, procedures, and techniques * Two chapters on realizing sequential algorithms in hardware * Two chapters on scalable and parameterized designs andcoding * One chapter covering the synchronization and interface betweenmultiple clock domains Although the focus of the book is RTL synthesis, it also examinesthe synthesis task from the perspective of the overall developmentprocess. Readers learn good design practices and guidelines toensure that an RTL design can accommodate future simulation,verification, and testing needs, and can be easily incorporatedinto a larger system or reused. Discussion is independent oftechnology and can be applied to both ASIC and FPGA devices. With a balanced presentation of fundamentals and practicalexamples, this is an excellent textbook for upper-levelundergraduate or graduate courses in advanced digital logic.Engineers who need to make effective use of today's synthesissoftware and FPGA devices should also refer to this book.

Electromagnetic Compatibility Engineering

Author: Henry W. Ott
Publisher: John Wiley & Sons
ISBN: 1118210654
Size: 17.74 MB
Format: PDF, Mobi
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Praise for Noise Reduction Techniques IN electronic systems "Henry Ott has literally 'written the book' on the subject of EMC. . . . He not only knows the subject, but has the rare ability to communicate that knowledge to others." —EE Times Electromagnetic Compatibility Engineering is a completely revised, expanded, and updated version of Henry Ott's popular book Noise Reduction Techniques in Electronic Systems. It reflects the most recent developments in the field of electromagnetic compatibility (EMC) and noise reduction¿and their practical applications to the design of analog and digital circuits in computer, home entertainment, medical, telecom, industrial process control, and automotive equipment, as well as military and aerospace systems. While maintaining and updating the core information—such as cabling, grounding, filtering, shielding, digital circuit grounding and layout, and ESD—that made the previous book such a wide success, this new book includes additional coverage of: Equipment/systems grounding Switching power supplies and variable-speed motor drives Digital circuit power distribution and decoupling PCB layout and stack-up Mixed-signal PCB layout RF and transient immunity Power line disturbances Precompliance EMC measurements New appendices on dipole antennae, the theory of partial inductance, and the ten most common EMC problems The concepts presented are applicable to analog and digital circuits operating from below audio frequencies to those in the GHz range. Throughout the book, an emphasis is placed on cost-effective EMC designs, with the amount and complexity of mathematics kept to the strictest minimum. Complemented with over 250 problems with answers, Electromagnetic Compatibility Engineering equips readers with the knowledge needed to design electronic equipment that is compatible with the electromagnetic environment and compliant with national and international EMC regulations. It is an essential resource for practicing engineers who face EMC and regulatory compliance issues and an ideal textbook for EE courses at the advanced undergraduate and graduate levels.

Power Integrity Modeling And Design For Semiconductors And Systems

Author: Madhavan Swaminathan
Publisher: Pearson Education
ISBN: 0132797178
Size: 51.27 MB
Format: PDF, Kindle
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The First Comprehensive, Example-Rich Guide to Power Integrity Modeling Professionals such as signal integrity engineers, package designers, and system architects need to thoroughly understand signal and power integrity issues in order to successfully design packages and boards for high speed systems. Now, for the first time, there's a complete guide to power integrity modeling: everything you need to know, from the basics through the state of the art. Using realistic case studies and downloadable software examples, two leading experts demonstrate today's best techniques for designing and modeling interconnects to efficiently distribute power and minimize noise. The authors carefully introduce the core concepts of power distribution design, systematically present and compare leading techniques for modeling noise, and link these techniques to specific applications. Their many examples range from the simplest (using analytical equations to compute power supply noise) through complex system-level applications. The authors Introduce power delivery network components, analysis, high-frequency measurement, and modeling requirements Thoroughly explain modeling of power/ground planes, including plane behavior, lumped modeling, distributed circuit-based approaches, and much more Offer in-depth coverage of simultaneous switching noise, including modeling for return currents using time- and frequency-domain analysis Introduce several leading time-domain simulation methods, such as macromodeling, and discuss their advantages and disadvantages Present the application of the modeling methods on several advanced case studies that include high-speed servers, high-speed differential signaling, chip package analysis, materials characterization, embedded decoupling capacitors, and electromagnetic bandgap structures This book's system-level focus and practical examples will make it indispensable for every student and professional concerned with power integrity, including electrical engineers, system designers, signal integrity engineers, and materials scientists. It will also be valuable to developers building software that helps to analyze high-speed systems.

Jitter Noise And Signal Integrity At High Speed

Author: Mike Peng Li
Publisher: Prentice-Hall PTR
ISBN: 9780132429610
Size: 76.31 MB
Format: PDF, Docs
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State-of-the-art JNB and SI Problem-Solving: Theory, Analysis, Methods, and Applications Jitter, noise, and bit error (JNB) and signal integrity (SI) have become today's greatest challenges in high-speed digital design. Now, there's a comprehensive and up-to-date guide to overcoming these challenges, direct from Dr. Mike Peng Li, cochair of the PCI Express jitter standard committee. One of the field's most respected experts, Li has brought together the latest theory, analysis, methods, and practical applications, demonstrating how to solve difficult JNB and SI problems in both link components and complete systems. Li introduces the fundamental terminology, definitions, and concepts associated with JNB and SI, as well as their sources and root causes. He guides readers from basic math, statistics, circuit and system models all the way through final applications. Emphasizing clock and serial data communications applications, he covers JNB and SI simulation, modeling, diagnostics, debugging, compliance testing, and much more. Coverage includes JNB component classification, interrelationships, measurement references, and transfer functions Statistical techniques and signal processing theory for quantitatively understanding and modeling JNB and related components Jitter, noise, and BER: physical/mathematical foundations and statistical signal processing views Jitter separation methods in statistical distribution, time, and frequency domains Clock jitter in detail: phase, period, and cycle-to-cycle jitter, and key interrelationships among them PLL jitter in clock generation and clock recovery Jitter, noise, and SI mechanisms in high-speed link systems Quantitative modeling and analysis for jitter, noise, and SI Testing requirements and methods for links and systems Emerging trends in high-speed JNB and SI As data rates continue to accelerate, engineers encounter increasingly complex JNB and SI problems. In Jitter, Noise, and Signal Integrity at High-Speed, Dr. Li provides powerful new tools for solving these problems–quickly, efficiently, and reliably. Preface xv Acknowledgements xxi About the Author xxiii Chapter 1: Introduction 1 Chapter 2: Statistical Signal and Linear Theory for Jitter, Noise, and Signal Integrity 27 Chapter 3: Source, Mechanism, and Math Model for Jitter and Noise 75 Chapter 4: Jitter, Noise, BER (JNB), and Interrelationships 109 Chapter 5: Jitter and Noise Separation and Analysis in Statistical Domain 131 Chapter 6: Jitter and Noise Separation and Analysis in the Time and Frequency Domains 163 Chapter 7: Clock Jitter 185 Chapter 8: PLL Jitter and Transfer Function Analysis 209 Chapter 9: Jitter and Signal Integrity Mechanisms for High-Speed Links 253 Chapter 10: Modeling and Analysis for Jitter and Signaling Integrity for High-Speed Links 281 Chapter 11: Testing and Analysis for Jitter and Signaling Integrity for High-Speed Links 309 Chapter 12: Book Summary and Future Challenges 345 Index 353