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E-raamat: Analog Design and Simulation using OrCAD Capture and PSpice

(School of Engineering, University of East Anglia, Norwich, UK)
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 28-Sep-2011
  • Kirjastus: Newnes (an imprint of Butterworth-Heinemann Ltd )
  • Keel: eng
  • ISBN-13: 9780080970967
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Analog Design and Simulation using OrCAD Capture and PSpiceSuurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 28-Sep-2011
  • Kirjastus: Newnes (an imprint of Butterworth-Heinemann Ltd )
  • Keel: eng
  • ISBN-13: 9780080970967
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Anyone involved in circuit design that needs the practical know-how it takes to design a successful circuit or product, will find this practical guide to using Capture-PSpice (written by a former Cadence PSpice expert for Europe) an essential book. The text delivers step-by-step guidance on using Capture-PSpice to help professionals produce reliable, effective designs.

Readers will learn how to get up and running quickly and efficiently with industry standard software and in sufficient detail to enable building upon personal experience to avoid common errors and pit-falls. This book is of great benefit to professional electronics design engineers, advanced amateur electronics designers, electronic engineering students and academic staff looking for a book with a real-world design outlook.

 

    • Provides both a comprehensive user guide, and a detailed overview of simulation
    • Each chapter has worked and ready to try sample designs and provides a wide range of to-do exercises
    • Core skills are developed using a running case study circuit
    • Covers Capture and PSpice together for the first time

     



    Analog Design and Simulation using OrCAD Capture and PSpice provides step-by-step instructions on how to use the Cadence/OrCAD family of Electronic Design Automation software for analog design and simulation. Organized into 22 chapters, each with exercises at the end, it explains how to start Capture and set up the project type and libraries for PSpice simulation. It also covers the use of AC analysis to calculate the frequency and phase response of a circuit and DC analysis to calculate the circuits bias point over a range of values.
    The book describes a parametric sweep, which involves sweeping a parameter through a range of values, along with the use of Stimulus Editor to define transient analog and digital sources. It also examines the failure of simulations due to circuit errors and missing or incorrect parameters, and discusses the use of Monte Carlo analysis to estimate the response of a circuit when device model parameters are randomly varied between specified tolerance limits according to a specified statistical distribution. Other chapters focus on the use of worst-case analysis to identify the most critical components that will affect circuit performance, how to add and create PSpice models, and how the frequency-related signal and dispersion losses of transmission lines affect the signal integrity of high-speed signals via the transmission lines.
    Practitioners, researchers, and those interested in using the Cadence/OrCAD professional simulation software to design and analyze electronic circuits will find the information, methods, compounds, and experiments described in this book extremely useful.

      • Provides both a comprehensive user guide, and a detailed overview of simulation
      • Each chapter has worked and ready to try sample designs and provides a wide range of to-do exercises
      • Core skills are developed using a running case study circuit
      • Covers Capture and PSpice together for the first time

        Arvustused

        "This book provides step-by-step guidance to using Capture and PSpice by providing a comprehensive users guide and detailed overview of the simulation methodsThis book is highly recommended for anyone learning capture and PSpice modeling." --IEEE Electrical Insulation Magazine, July-August 2013

        "This text is recommended for those who want to learn how to model electrical circuits because the reader will quickly learn about the core skills necessary to use this very popular software package and is well worth the price of the bookThis book is highly recommended for anyone learning capture and PSpice modeling." --IEEE Electrical Insulation Magazine, July/August 2013

        "exceptionally easy to follow. It has clear explanations, lots of graphics showing the Capture and PSpice user interfaces, and detailed step-by-step instructionsthis 300-page book covers a lot of ground! It also has something for just about everybody, novice and expert alike." --Cadence.com, February 2013

        "This is a great introduction to a complex subject" --EDN.com, February 2013

        "In the EDA sector, there are a lot of books about research and new techniques, or how to learn and use new languages, but there are not many how-to, practical books that enable you to come up to speed with a tool. The book has divided the problem into many parts and each is tackled at a reasonable paceThis is a great introduction to a complex subjectI highly recommend it for anyone looking at this subject for the first time." --EDN.com

        Muu info

        The practical guide to using Capture-PSpice to learn both circuit design and simulation. Gets readers up and running quickly and efficiently with this industry standard software
        Preface ix
        Instructions xi
        Chapter 1 Getting Started
        		1(20)
        1.1 Starting Capture
        		1(1)
        1.2 Creating a PSpice Project
        		2(5)
        1.3 Symbols and Parts
        		7(3)
        1.4 Design Templates
        		10(2)
        1.5 Summary
        		12(1)
        1.6 Exercises
        		13(4)
        1.7 Extra Library Work
        		17(4)
        Chapter 2 DC Bias Point Analysis
        		21(18)
        2.1 Netlist Generation
        		23(4)
        2.2 Displaying Bias Points
        		27(2)
        2.3 Save Bias Point
        		29(1)
        2.4 Load Bias Point
        		30(1)
        2.5 Exercises
        		31(8)
        Chapter 3 DC Analysis
        		39(14)
        3.1 DC Voltage Sweep
        		39(2)
        3.2 Markers
        		41(4)
        3.3 Exercises
        		45(8)
        Chapter 4 AC Analysis
        		53(10)
        4.1 Simulation Parameters
        		53(3)
        4.2 AC Markers
        		56(1)
        4.3 Exercises
        		57(6)
        Chapter 5 Parametric Sweep
        		63(20)
        5.1 Property Editor
        		64(3)
        5.2 Exercises
        		67(16)
        Chapter 6 Stimulus Editor
        		83(18)
        6.1 Stimulus Editor Transient Sources
        		84(7)
        6.2 User-generated Time-Voltage Waveforms
        		91(1)
        6.3 Simulation Profiles
        		91(1)
        6.4 Exercise
        		92(9)
        Chapter 7 Transient Analysis
        		101(14)
        7.1 Simulation Settings
        		102(1)
        7.2 Scheduling
        		102(1)
        7.3 Check Points
        		103(1)
        7.4 Defining a Time-Voltage Stimulus using Text Files
        		104(2)
        7.5 Exercises
        		106(9)
        Chapter 8 Convergence Problems and Error Messages
        		115(10)
        8.1 Common Error Messages
        		115(1)
        8.2 Establishing a Bias Point
        		116(1)
        8.3 Convergence Issues
        		117(1)
        8.4 Simulation Settings Options
        		118(2)
        8.5 Exercises
        		120(5)
        Chapter 9 Transformers
        		125(8)
        9.1 Linear Transformer
        		125(1)
        9.2 Non-linear Transformer
        		126(1)
        9.3 Predefined Transformers
        		127(1)
        9.4 Exercises
        		128(5)
        Chapter 10 Monte Carlo Analysis
        		133(14)
        10.1 Simulation Settings
        		134(3)
        10.2 Adding Tolerance Values
        		137(1)
        10.3 Exercises
        		138(9)
        Chapter 11 Worst Case Analysis
        		147(10)
        11.1 Sensitivity Analysis
        		148(1)
        11.2 Worst Case Analysis
        		149(1)
        11.3 Adding Tolerances
        		150(1)
        11.4 Collating Functions
        		150(1)
        11.5 Exercise
        		151(6)
        Chapter 12 Performance Analysis
        		157(8)
        12.1 Measurement Functions
        		157(1)
        12.2 Measurement Definitions
        		157(3)
        12.3 Exercises
        		160(5)
        Chapter 13 Analog Behavioral Models
        		165(8)
        13.1 ABM devices
        		165(5)
        13.2 Exercises
        		170(3)
        Chapter 14 Noise Analysis
        		173(12)
        14.1 Noise Types
        		173(1)
        14.2 Total Noise Contributions
        		174(1)
        14.3 Running a Noise Analysis
        		175(1)
        14.4 Noise Definitions
        		176(2)
        14.5 Exercise
        		178(7)
        Chapter 15 Temperature Analysis
        		185(10)
        15.1 Temperature Coefficients
        		185(1)
        15.2 Running a Temperature Analysis
        		186(2)
        15.3 Exercises
        		188(7)
        Chapter 16 Adding and Creating PSpice Models
        		195(22)
        16.1 Capture Properties for a PSpice Part
        		195(2)
        16.2 PSpice Model Definition
        		197(2)
        16.3 Subcircuits
        		199(2)
        16.4 Model Editor
        		201(7)
        16.5 Exercises
        		208(9)
        Chapter 17 Transmission Lines
        		217(16)
        17.1 Ideal Transmission Lines
        		217(1)
        17.2 Lossy Transmission Lines
        		218(3)
        17.3 Exercises
        		221(12)
        Chapter 18 Digital Simulation
        		233(14)
        18.1 Digital Device Models
        		233(1)
        18.2 Digital Circuits
        		234(1)
        18.3 Digital Simulation Profile
        		235(1)
        18.4 Displaying Digital Signals
        		236(2)
        18.5 Exercises
        		238(9)
        Chapter 19 Mixed Simulation
        		247(6)
        19.1 Exercises
        		247(6)
        Chapter 20 Creating Hierarchical Designs
        		253(28)
        20.1 Hierarchical Ports and Off-page Connectors
        		254(3)
        20.2 Hierarchical Blocks and Symbols
        		257(3)
        20.3 Passing Parameters
        		260(1)
        20.4 Hierarchical Netlist
        		260(1)
        20.5 Exercises
        		261(20)
        Chapter 21 Magnetic Parts Editor
        		281(20)
        21.1 Design Cycle
        		281(1)
        21.2 Exercises
        		282(19)
        Chapter 22 Test Benches
        		301(14)
        22.1 Selection of Test Bench Parts
        		302(2)
        22.2 Unconnected Floating Nets
        		304(1)
        22.3 Comparing and Updating Differences between the Master Design and Test Bench Designs
        		304(1)
        22.4 Exercises
        		305(10)
        Appendix 315(4)
        Index 319
        Dr Fitzpatrick is a Chartered engineer and lecturer at the University of East Anglia teaching electrical and electronic engineering with a research interest in Biomedical Engineering. His primary research interest is in the use of Functional Electrical Simulation (FES) for the restoration of bladder function and restoration of gait in stroke and spinal cord injured patients. His research focuses on the design and development of custom designed implantable electrodes. His recent book, Analogue Design and Simulation using OrCAD Capture and PSpice, published by Elsevier, has sold worldwide to highly acclaimed reviews in numerous prestigious electronic engineering journals including EDN and Electronic Times, the book being officially endorsed by Cadence Design Systems.

        Dr Fitzpatrick has published other books in the field of Biomedical Engineering and is the Series editor for the Developments in Biomedical Engineering and Bioelectronics book series by Elsevier.
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