• High Speed Digital Design See large image

    High Speed Digital Design (Prentice Hall Modern Semiconductor Design) (Hardback) By (author) Howard W. Johnson, By (author) Martin Graham, By (author) Graham Martin

    $98.61 - Save $32.17 24% off - RRP $130.78 Free delivery worldwide Available
    Dispatched in 3 business days
    When will my order arrive?
    Add to basket | Add to wishlist |

    DescriptionFocusing on a combination of digital and analog circuit theory, this comprehensive volume will help engineers who work with digital systems, shorten their product development cycles, and fix their latest high-speed design problems. *Covers signal reflection, crosstalk, and noise problems that occur in high-speed digtal machines (above 10 megahertz). *lncludes checklists that ask the questions an experienced designer would about a new system. *Offers useful formulas for inductance, capacitance, resistance, rise time, and Q. *Explains the trade-offs between signal cross talk, mechanical fabrication of tolerances, and trace routing density. *Presents a methodology for determining how many layrs will be required to route a printed circuit board.


Other books

Other people who viewed this bought | Other books in this category
Showing items 1 to 10 of 10

 

Reviews | Bibliographic data
  • Full bibliographic data for High Speed Digital Design

    Title
    High Speed Digital Design
    Authors and contributors
    By (author) Howard W. Johnson, By (author) Martin Graham, By (author) Graham Martin
    Physical properties
    Format: Hardback
    Number of pages: 384
    Width: 184 mm
    Height: 240 mm
    Thickness: 26 mm
    Weight: 867 g
    Language
    English
    ISBN
    ISBN 13: 9780133957242
    ISBN 10: 0133957241
    Classifications

    B&T Book Type: NF
    BIC E4L: TEC
    BISAC V2.8: TEC009030
    B&T Modifier: Region of Publication: 01
    B&T Modifier: Academic Level: 01
    Nielsen BookScan Product Class 3: S9.6
    LC subject heading:
    B&T Merchandise Category: SCI
    B&T General Subject: 710
    Ingram Subject Code: TE
    B&T Modifier: Text Format: 06
    BISAC V2.8: TEC007000
    DC20: 621.3815
    LC subject heading:
    BIC subject category V2: TJFC
    BISAC V2.8: TEC008000
    DC22: 621.381
    BISAC V2.8: TEC008010
    Warengruppen-Systematik des deutschen Buchhandels: 16830
    LC subject heading: ,
    B&T Approval Code: A93523000
    Libri: DATE6993, ELEL2520
    LC classification: TK7868.D5 J635 1993, TK7868.D5J
    Thema V1.0: TJF, TJFC
    Illustrations note
    Zahlr. Abb., Graf. u. Tab.
    Publisher
    Pearson Education (US)
    Imprint name
    Prentice Hall
    Publication date
    08 April 1993
    Publication City/Country
    Upper Saddle River
    Author Information
    Howard W. Johnson is president of Olympic Technology Group, Inc., of Redmond, Washington, a digital electronic design and consulting organization. Before founding the firm, he was Manager of Technology and Advanced Development at Ultra Network Technologies, a manufacturer of gigabit-per-second local area networks for supercomputers. Since obtaining his Ph.D. in 1982 from Rice University, he has specialized in the design of high-speed digital communications and digital signal processing systems. Martin Graham has been a Professor of Electrical Engineering and Computer Sciences at the University of California at Berkeley since 1966, where he teaches the design of reliable and manufacturable electronic systems.
    Back cover copy
    Focusing on a combination of digital and analog circuit theory, this comprehensive volume will help engineers who work with digital systems, shorten their product development cycles, and fix their latest high-speed design problems. Covers signal reflection, crosstalk, and noise problems that occur in high-speed digtal machines (above 10 megahertz).lncludes checklists that ask the questions an experienced designer would about a new system.Offers useful formulas for inductance, capacitance, resistance, rise time, and Q.Explains the trade-offs between signal cross talk, mechanical fabrication of tolerances, and trace routing density.Presents a methodology for determining how many layrs will be required to route a printed circuit board.
    Table of contents
    Fundamentals; high speed properties of logic gates; measurement techniques; transmission lines; ground planes and layer stacking; terminations; VIAS; power systems; connectors; ribbon cables; clock distribution; clock oscillators.