- Paperback: 560 pages
- Publisher: Prentice Hall; 1 edition (9 Oct 2000)
- Language English
- ISBN-10: 0130289043
- ISBN-13: 978-0130289049
- Product Dimensions: 24.4 x 18.5 x 2.6 cm
- Amazon Bestsellers Rank: 3,267,827 in Books (See Top 100 in Books)
- See Complete Table of Contents
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Product Description
Product Description
For advanced courses in digital design.
This state-of-the-art book provides students with techniques for predicting and achieving target performance levels. Gives students all the theory, practice, general signal integrity issues, and leading-edge experimental techniques they need to accurately model and simulate those interconnections and predict real-world performance.
From the Back Cover
- State-of-the-art techniques for predicting and achieving target performance levels
- Theory, practice, general signal integrity issues, and leading-edge experimental techniques
Model and simulate high-speed digital systems for maximum performance
Maximizing the performance of digital systems means optimizing their high-speed interconnections. Digital Signal Integrity gives engineers all the theory and practical methods they need to accurately model and simulate those interconnections and predict real-world performance. Whether you're modeling microprocessors, memories, DSPs, or ASICs, these techniques will get you to market faster with greater reliability. Coverage includes:
- In-depth reviews of inductance, capacitance, resistance, single and multiconductor transmission lines, generalized termination schemes, crosstalk, differential signaling, and other modeling/simulation issues
- Multiconductor interconnects: packages, sockets, connectors and buses
- Modal decomposition: understanding the outputs generated by commercial modeling software
- Layer peeling with time-domain reflectometry: its power and limitations
- Experimental techniques for characterizing interconnect parasitics
In Digital Signal Integrity, Motorola senior engineer Brian Young presents broad coverage of modeling from data obtained through electromagnetic simulation, transmission line theory, frequency and time-domain modeling, analog circuit simulation, digital signaling, and architecture. Young offers a strong mathematical foundation for every technique, as well as over 100 end-of-chapter problems. If you're stretching the performance envelope, you must be able to rely on your models and simulations. With this book, you can.
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4.0 out of 5 stars (1 customer review)
5 of 5 people found the following review helpful:
4.0 out of 5 stars
Not Practical. Interesting Theoretical Discussion, 17 Feb 2003
By Ozdal Barkan - Published on Amazon.com
This review is from: Digital Signal Integrity: Modeling and Simulation with Interconnects and Packages (Prentice Hall Modern Semiconductor Design) (Paperback)
This book is not Howard Johnson's "Black Magic..". It is not one of the many books discussing practical rules of thumb to solve EMI and signal integrity issues. It covers the basics but the emphasis is to understand the modeling and simulation of signal integrity issues. It is theoretical but not in a very complicated mathematical way. You don't need to know Maxwell's equations, but you need to be able to follow some simple matrix equations. The book can be a little hard to read at some points but some of the sections are a joy. For example, the simple models showing the skin effect and current crowding are the best I have seen in any book on this subject. Without using any advanced math, but simply breaking down the wires into a few sections and using nothing more than inductance, mutual inductance, and resistance, the author shows how skin effect and current crowding come about. The section on capacitance matrices, definition of partial inductance and the different definitions of inductance: Field-based, Energy-based, and thin wire, clear up many questions I had about these concepts. When I first started using this book for a class I took, I had bought Daly's book as I thought it was easier to read and covered more practical subjects. I have completely changed my first impression. Daly's book although containing many practical subjects is badly written, while this book which doesn't have the friendliest fonts and presentation is actually a very good book. I have to thank the instructor for choosing this book. I would have never bought it on my own.
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