Complete PCB Design Using OrCAD Capture and PCB Editor, 2nd Edition

Complete PCB Design Using OrCAD Capture and PCB Editor, 2nd Edition

by Kraig Mitzner, Bob Doe, Alexander Akulin, Anton Suponin, Dirk Müller
Released June 2019
Publisher(s): Academic Press
ISBN: 9780128176856

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Book description

Complete PCB Design Using OrCAD Capture and PCB Editor, Second Edition, provides practical instruction on how to use the OrCAD design suite to design and manufacture printed circuit boards. Chapters cover how to Design a PCB using OrCAD Capture and OrCAD PCB Editor, adding PSpice simulation capabilities to a design, how to develop custom schematic parts, how to create footprints and PSpice models, and how to perform documentation, simulation and board fabrication from the same schematic design. This book is suitable for both beginners and experienced designers, providing basic principles and the program's full capabilities for optimizing designs.

Companion sitehttps://www.elsevier.com/books-and-journals/book-companion/9780128176849

  • Presents a fully updated edition on OrCAD Capture, Version 17.2
  • Combines the theoretical and practical parts of PCB design
  • Includes real-life design examples that show how and why designs work, providing a comprehensive toolset for understanding OrCAD software
  • Provides the exact order in which a circuit and PCB are designed
  • Introduces the IPC, JEDEC and IEEE standards relating to PCB design

Table of contents

  1. Cover image
  2. Title page
  3. Table of Contents
  4. Copyright
  5. Acknowledgments
  6. Introduction
  7. Chapter 1. Introduction to printed circuit board design and computer-aided design
    1. Abstract
    2. Computer-aided design and the OrCAD design suite
    3. Printed circuit board fabrication
    4. Function of OrCAD PCB Editor in the printed circuit board design process
    5. Design files created by PCB Editor
  8. Chapter 2. Introduction to the printed circuit board design flow by example
    1. Abstract
    2. Overview of the design flow
    3. Creating a circuit design with Capture
    4. Designing the printed circuit board with PCB Editor
  9. Chapter 3. Project structures and the PCB Editor tool set
    1. Abstract
    2. Project setup and schematic entry details
    3. Understanding the PCB Editor environment and tool set
  10. Chapter 4. Introduction to industry standards
    1. Abstract
    2. Introduction to the standards organizations
    3. Classes and types of printed circuit boards
    4. Introduction to standard fabrication allowances
    5. Printed circuit board dimensions and tolerances
    6. References
    7. Further reading
  11. Chapter 5. Introduction to design for manufacturing
    1. Abstract
    2. Introduction to printed circuit board assembly and soldering processes
    3. Component placement and orientation guide
    4. Footprint and padstack design for printed circuit board manufacturability
    5. References
  12. Chapter 6. PCB design for signal integrity
    1. Abstract
    2. Circuit design issues not related to PCB layout
    3. Issues related to PCB layout
    4. Ground planes and ground bounce
    5. PCB electrical characteristics
    6. PCB routing topics
    7. Topologies, Z0, TPD, trace width, and trace separation design equations for various transmission lines
    8. Using PSpice to simulate transmission lines
    9. References
  13. Chapter 7. Making and editing Capture parts
    1. Abstract
    2. The Capture part libraries
    3. Types of packaging
    4. Part editing tools
    5. Methods of constructing Capture parts
    6. Constructing Capture symbols
  14. Chapter 8. Making and editing footprints
    1. Abstract
    2. Introduction to PCB Editor’s symbols library
    3. Composition of a footprint
    4. Introduction to the Padstack Editor
    5. Footprint design examples
    6. Flash symbols for thermal reliefs
    7. Mechanical symbols
    8. Blind, buried, and microvias
    9. OrCAD Library Builder
    10. 3D canvas
    11. References
  15. Chapter 9. Printed circuit board design examples
    1. Abstract
    2. Introduction
    3. Overview of the design flow
    4. Example 1. Dual power supply, analog design
    5. Example 2. Mixed analog/digital design using split power, Ground planes
    6. Example 3. Multipage, multipower, and multiground mixed A/D printed circuit board design with PSpice
    7. Example 4. High-speed digital design
    8. Positive planes
    9. Design templates
    10. Using the board wizard
    11. Moving on to manufacturing
    12. References
    13. Further reading
  16. Chapter 10. Artwork development and board fabrication
    1. Abstract
    2. Schematic design in Capture
    3. The board design with PCB Editor
    4. Using CAD tools to 3D model the printed circuit board design
    5. Fabricating the board
    6. Generating pick and place files
    7. References
  17. Chapter 11. Component information system
    1. Abstract
    2. Introduction
    3. Properties in component information system
    4. Component information system administration
    5. Component information system and PSpice
    6. Working with component information system
    7. Part Manager
    8. Bill of materials
    9. Variants
  18. Chapter 12. Signal integrity simulation with OrCAD
    1. Abstract
    2. What is signal integrity?
    3. How to simulate in OrCAD Signal Explorer
    4. How to use OrCAD PCB SI tool
    5. Electrical rule checks in OrCAD Sigrity ERC
  19. Appendices
    1. Appendix A. List of design standards
      1. ANSI standards
      2. ASME standards
      3. IEEE standards
      4. IPC standards
      5. JEDEC standards
      6. Military standards
    2. Appendix B. Partial list of packages and footprints and some of the footprints included in OrCAD PCB Editor
    3. Appendix C. Rise and fall times for various logic families
    4. Appendix D. Drill and screw dimensions
    5. Appendix E. References by subject
      1. Component package types and mounting (surface-mounted device)
      2. Component placement, spacing, and orientation
      3. Land patterns (footprint design)
      4. Layer stack-ups
      5. Lead relationships
      6. Materials
      7. Mounting hardware and specifications
      8. PCB
      9. Plated through holes
      10. Rise and fall times of logic families
      11. Schematics
      12. Signal integrity
      13. EMI/EMC
      14. Soldering and assembly
      15. Thermal management
      16. Trace routing
      17. Transmission lines
    6. Index

Product information

  • Title: Complete PCB Design Using OrCAD Capture and PCB Editor, 2nd Edition
  • Author(s): Kraig Mitzner, Bob Doe, Alexander Akulin, Anton Suponin, Dirk Müller
  • Release date: June 2019
  • Publisher(s): Academic Press
  • ISBN: 9780128176856