Principles Of Power Integrity For Pdn Design Simplified
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Principles of Power Integrity for PDN Design--Simplified
Consistently Design PDNs That Deliver Reliable Performance at the Right Cost Too often, PDN designs work inconsistently, and techniques that work in some scenarios seem to fail inexplicably in others. This book explains why and presents realistic processes for getting PDN designs right in any new product. Drawing on 60+ years of signal and power integrity experience, Larry Smith and Eric Bogatin show how to manage noise and electrical performance, and complement intuition with analysis to balance cost, performance, risk, and schedule. Throughout, they distill the essence of complex real-world problems, quantify core principles via approximation, and apply them to specific examples. For easy usage, dozens of key concepts and observations are highlighted as tips and listed in quick, chapter-ending summaries. Coverage includes • A practical, start-to-finish approach to consistently meeting PDN performance goals • Understanding how signals interact with interconnects • Identifying root causes of common problems, so you can avoid them • Leveraging analysis tools to efficiently explore design space and optimize tradeoffs • Analyzing impedance-related properties of series and parallel RLC circuits • Measuring low impedance for components and entire PDN ecologies • Predicting loop inductance from physical design features • Reducing peak impedances from combinations of capacitors • Understanding power and ground plane properties in the PDN interconnect • Taming signal integrity problems when signals change return planes • Reducing peak impedance created by on-die capacitance and package lead inductance • Controlling transient current waveform interactions with PDN features • Simple spreadsheet-based analysis techniques for quickly creating first-pass designs This guide will be indispensable for all engineers involved in PDN design, including product, board, and chip designers; system, hardware, component, and package engineers; power supply designers, SI and EMI engineers, sales engineers, and their managers.
Power Integrity
Author: Steven M. Sandler
language: en
Publisher: McGraw Hill Professional
Release Date: 2014-07-29
PROVEN TECHNIQUES FOR GENERATING HIGH-FIDELITY MEASUREMENTS Power Integrity: Measuring, Optimizing, and Troubleshooting Power Related Parameters in Electronics Systems provides field-tested techniques for producing high-fidelity measurements using the appropriate equipment. The book thoroughly discusses measurement guidelines, test instrument selection and use, connecting the equipment to the device being tested, and interpreting the acquired data. The latest electronics technologies and their impact on measurement are discussed. Detailed photographs, screenshots, schematics, and equations are included throughout this practical guide. Learn how to accurately measure: Impedance Stability Power supply rejection ratio (PSRR) Reverse transfer and crosstalk Step load response Ripple and noise Edges High-frequency impedance
Advanced Signal Integrity for High-Speed Digital Designs
A synergistic approach to signal integrity for high-speed digital design This book is designed to provide contemporary readers with an understanding of the emerging high-speed signal integrity issues that are creating roadblocks in digital design. Written by the foremost experts on the subject, it leverages concepts and techniques from non-related fields such as applied physics and microwave engineering and applies them to high-speed digital design—creating the optimal combination between theory and practical applications. Following an introduction to the importance of signal integrity, chapter coverage includes: Electromagnetic fundamentals for signal integrity Transmission line fundamentals Crosstalk Non-ideal conductor models, including surface roughness and frequency-dependent inductance Frequency-dependent properties of dielectrics Differential signaling Mathematical requirements of physical channels S-parameters for digital engineers Non-ideal return paths and via resonance I/O circuits and models Equalization Modeling and budgeting of timing jitter and noise System analysis using response surface modeling Each chapter includes many figures and numerous examples to help readers relate the concepts to everyday design and concludes with problems for readers to test their understanding of the material. Advanced Signal Integrity for High-Speed Digital Designs is suitable as a textbook for graduate-level courses on signal integrity, for programs taught in industry for professional engineers, and as a reference for the high-speed digital designer.