Manual High-Speed Digital System Design

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3 editions of this work
  1. High Speed Digital System Design Handbook by Stephen Hall Garrett James Mccall
  2. High-speed Digital Designs: Mistral - High-speed Digital Designs
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  4. High-Speed Digital Circuit Design

Jim Buchanan has 45 years of experience in analog and digital design with Northrop Grumman Corp. During this time he conducted detailed electrical reviews of most of the circuit designs that originated in the Digital Design Department which consisted of to designers during most of this period and also served as a reviewer throughout Electronics Systems as well as other Northrop Grumman Divisions.

His specialities include PC board and system signal and power integrity issues, mixed signal pc board and backplane design, and Gbit high-speed SERDES interconnection design. He is the author of numerous technical papers and three books on digital design. Jim is currently a high-speed digital design consultant on the staff of Minerva Engineering, Hanover, Maryland providing continued support to Northrop Grumman ES.

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He holds 18 patents. Session 1—Introduction to high-speed logic devices : An overview of the relative performance and specifications, such as noise margin and operating speed, of various high-speed logic families are discussed. A number of tables are provided for comparison of characteristics. Circuit modeling techniques are introduced that aid in the understanding of logic circuit operation.

High Speed Digital System Design Handbook by Stephen Hall Garrett James Mccall

The compatibility of various logic families and devices is discussed. Power sequencing concerns when different logic families are used on a common pc board or backplane are described and solutions are provided.

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Session 2 — Power Distribution : The mechanisms that cause large internal device and load dependent transient switching currents and the detrimental effects of inductance in high-speed interconnection are discussed. Several examples show the possible magnitude of switching currents and demonstrate the possible adverse effects, such as ground bounce, that excessive inductance can cause.

Guidance for minimizing inductance or the effects of inductance in power distribution systems is provided.

High-speed Digital Designs: Mistral - High-speed Digital Designs

The need for low-impedance power and ground distribution networks are discussed and the techniques for achieving them are described. Techniques for calculating losses in power distribution networks are described. Guidelines for the type, amount, and placement of decoupling capacitors and how they help compensate for losses in the power distribution system are provided. Session 3 — Power Distribution Cont.

The many reasons for grounding digital hardware are discussed and proper techniques described. Signal interconnection topics include optimum line impedance and how to minimize crosstalk on pc boards, backplanes, connectors, and cables. Basic transmission-line theory and terminations are described along with termination methods compatible with digital device applications.

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The need for high-quality clock signals in high-speed systems and the techniques for distributing clock signals are described. It is stressed that a sound clock distribution scheme is one of the keys to a reliable high-speed digital system.

Session 1 — Device, PC Board, and System Interfaces: Many of the practical interfacing issues that must be addressed at the device, pc board, and system levels are discussed. The importance of understanding the noise margin and common-mode operating range of interface devices is illustrated.

High-Speed Digital Circuit Design

The need to use differential devices with a large common-mode operating range or some form of devices with high noise immunity on unit-to-unit interfaces is discussed. USD Sign in to Purchase Instantly. Temporarily Out of Stock Online Please check back later for updated availability. Overview High-Speed Digital System Design bridges the gap from theory to implementation in the real world.

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Systems with clock speeds in low megahertz range qualify for high-speed. Proper design results in quality digital transmissions and lowers the chance for errors. This book is for computer and electrical engineers who may or may not have learned electromagnetic theory.

The presentation style allows readers to quickly begin designing their own high-speed systems and diagnosing existing designs for errors. After studying this book, readers will be able to: Design the power distribution system for a printed circuit board to minimize noise; plan the layers of a PCB for signals, power, and ground to maximize signal quality and minimize noise; include test structures in the printed circuit board to easily diagnose manufacturing mistakes; choose the best PCB design parameters such a trace width, height,and routed path to ensure the most stable characteristic impedance; determine the correct termination to minimize reflections; predict the delay caused by a given PCB trace; minimize driver power consumption using AC terminations; compensate for discontinuities along a PCB trace; use pre-emphasis and equalization techniques to counteract lossy transmission lines; determine the amount of crosstalk between two traces; and diagnose existing PCBs to determine the sources of errors.

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