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E-raamat: Complete PCB Design Using OrCAD Capture and PCB Editor

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(FlowCAD, Germany), (Parallel Systems Ltd., Bracknell, UK), (PCB SOFT Ltd, Russia), (Cadence Certified instructor on Allegro PCB Editor and Sigrity), (Consultant, Silverdale, WA, USA)
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 20-Jun-2019
  • Kirjastus: Academic Press Inc
  • Keel: eng
  • ISBN-13: 9780128176856
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Complete PCB Design Using OrCAD Capture and PCB EditorSuurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 20-Jun-2019
  • Kirjastus: Academic Press Inc
  • Keel: eng
  • ISBN-13: 9780128176856
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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 Layout, 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.

  • 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
Acknowledgments ix
Introduction xi
1 Introduction to printed circuit board design and computer-aided design
1(16)
Computer-aided design and the OrCAD design suite
1(2)
Printed circuit board fabrication
3(9)
Function of OrCAD PCB Editor in the printed circuit board design process
12(2)
Design files created by PCB Editor
14(3)
2 Introduction to the printed circuit board design flow by example
17(24)
Overview of the design flow
17(1)
Creating a circuit design with Capture
18(9)
Designing the printed circuit board with PCB Editor
27(14)
3 Project structures and the PCB Editor tool set
41(26)
Project setup and schematic entry details
41(6)
Understanding the PCB Editor environment and tool set
47(20)
4 Introduction to industry standards
67(16)
Introduction to the standards organizations
68(3)
Classes and types of printed circuit boards
71(2)
Introduction to standard fabrication allowances
73(1)
Printed circuit board dimensions and tolerances
74(7)
References
81(1)
Further reading
81(2)
5 Introduction to design for manufacturing
83(28)
Introduction to printed circuit board assembly and soldering processes
83(6)
Component placement and orientation guide
89(6)
Footprint and padstack design for printed circuit board manufacturability
95(14)
References
109(2)
6 PCB design for signal integrity
111(62)
Circuit design issues not related to PCB layout
112(2)
Issues related to PCB layout
114(8)
Ground planes and ground bounce
122(8)
PCB electrical characteristics
130(23)
PCB routing topics
153(9)
Topologies, Z0, TPD, trace width, and trace separation design equations for various transmission lines
162(6)
Using PSpice to simulate transmission lines
168(4)
References
172(1)
7 Making and editing Capture parts
173(50)
The Capture part libraries
173(1)
Types of packaging
174(2)
Part editing tools
176(3)
Methods of constructing Capture parts
179(39)
Constructing Capture symbols
218(5)
8 Making and editing footprints
223(54)
Introduction to PCB Editor's symbols library
224(1)
Composition of a footprint
225(5)
Introduction to the Padstack Editor
230(5)
Footprint design examples
235(23)
Flash symbols for thermal reliefs
258(5)
Mechanical symbols
263(5)
Blind, buried, and microvias
268(3)
OrCAD Library Builder
271(1)
3D canvas
272(4)
References
276(1)
9 Printed circuit board design examples
277(192)
Introduction
278(1)
Overview of the design flow
279(2)
Example 1 Dual power supply, analog design
281(81)
Example 2 Mixed analog/digital design using split power, Ground planes
362(29)
Example 3 Multipage, multipower, and multiground mixed A/D printed circuit board design with PSpice
391(33)
Example 4 High-speed digital design
424(28)
Positive planes
452(7)
Design templates
459(3)
Using the board wizard
462(4)
Moving on to manufacturing
466(2)
References
468(1)
Further reading
468(1)
10 Artwork development and board fabrication
469(38)
Schematic design in Capture
469(2)
The board design with PCB Editor
471(26)
Using CAD tools to 3D model the printed circuit board design
497(3)
Fabricating the board
500(1)
Generating pick and place files
501(4)
References
505(2)
11 Component information system
507(36)
Introduction
507(2)
Properties in component information system
509(5)
Component information system administration
514(8)
Component information system and PSpice
522(9)
Working of component information system
531(3)
Part manager
534(2)
Bill of materials
536(2)
Variants
538(5)
12 Signal integrity simulation with OrCAD
543(12)
What is signal integrity?
543(2)
How to simulate in OrCAD Signal Explorer
545(2)
How to use OrCAD PCB SI tool
547(4)
Electrical rule checks in OrCAD Sigrity ERC
551(4)
Appendices
555(38)
Appendix A List of design standards
557(2)
Appendix B Partial list of packages and footprints and some of the footprints included in OrCAD PCB Editor
559(14)
Appendix C Rise and fall times for various logic families
573(2)
Appendix D Drill and screw dimensions
575(2)
Appendix E References by subject
577(16)
Index 593
Kraig Mitzner is a consultant in Silverdale, WA, USA Bob Doe joined OrCAD UK in April 1999 and moved to Cadence in January 2000 after Cadence acquired OrCAD. When Cadence appointed a UK Channel Partner in 2002, Bob moved to Parallel Systems Ltd. in September 2002 and has worked there since looking after post sales technical support and training courses. Parallel Systems provides front line support, sales and training for the OrCAD and Allegro Products. www.orcad.co.uk Parallel Systems has produced over 400 free tutorial videos for the Cadence software. Alexander Akulin gained his engineering education in Moscow Aviation University in 1990. He worked for 9 years as an electronics engineer in a Nuclear Physics Institute of Moscow State University. In 1999 he has founded the EMS company in Moscow called PCB Technology, which became a big holding providing PCB design, manufacturing, and assembly services in Russia. Alexander as co-owner and CTO of this company participated in creation of the technical department of PCB supply chain, PCB design center and the assembly factory from scratch”. In 2012 he founded, together with several partners, PCB SOFT which provided system integration and eCAD sales services. In 2015 PCB SOFT Ltd became Channel Partner of Cadence Design Systems, and started selling OrCAD, Allegro and Sigrity tools in Russia including providing support, education and workshop services. Anton Suponin graduated in 2005 from Moscow State Technical University. He has considerable experience working at electronics manufacturing facilities, PCB manufacturing and PCB layout and simulation companies. He has accomplished a number of layouts of complex PCB designs with high-speed SERDES links, DDR memory, HDI stackups. While working in PCB design office, he learned Cadence Sigrity software and used it to simulate SI/PI in his PCB projects. Now he is a Cadence certified instructor on Allegro PCB Editor and Sigrity simulation tools Dirk Müller has an electrical engineering degree from the University of Emden where he completed a thesis on computer architecture and data transmission for high-speed computers based on INMOS transputers. He has worked in customer support and custom adaptation of embedded computers to control industrial laser printers. He founded FlowCAD in 2003, a company selling and supporting PCB Design Software for customers in central Europe. Today he leads the development department and Design Services Group at FlowCAD
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