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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: 11-Dec-2017
  • Kirjastus: Newnes (an imprint of Butterworth-Heinemann Ltd )
  • Keel: eng
  • ISBN-13: 9780081025062
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Analog Design and Simulation Using OrCAD Capture and PSpiceSuurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 11-Dec-2017
  • Kirjastus: Newnes (an imprint of Butterworth-Heinemann Ltd )
  • Keel: eng
  • ISBN-13: 9780081025062
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New to this edition: Updated to using OrCAD Release 17.2 and its new features; Coverage of PSPICE extra features: PSpice Designer, PSpice Designer Plus, Modelling Application, PSpice Part Search Symbol Viewer, PSpice Report, Associate PSpice model, New delay functions for Behavioural Simulation Models, New Models, Support for negative values in hysteresis voltage and threshold voltage; A new chapter on PSpice Advanced Analysis

Analog Design and Simulation Using OrCAD Capture and PSpice, Second Edition provides step-by-step instructions on how to use the Cadence/OrCAD family of Electronic Design Automation software for analog design and simulation. The book explains how to enter schematics in Capture, set up project types, project libraries and prepare circuits for PSpice simulation. There are chapters on the different analysis types for DC Bias point, DC sweep, AC frequency sweep, Parametric analysis, Temperature analysis, Performance Analysis, Noise analysis, Sensitivity and Monte Carlo simulation. Subsequent chapters explain how the Stimulus Editor is used to define custom analog and digital signals, how the Model Editor is used to view and create new PSpice models and Capture parts and how the Magnetic Parts Editor is used to design transformers and inductors. Other chapters include Analog Behaviorial models, Test Benches as well as how to create hierarchical designs.

The book includes the latest features in the OrCAD 17.2 release and there are exercises with step by step instructions at the end of each chapter that enables the reader to progress based upon their experience and knowledge gained from previous chapters. The author worked for Cadence for over eight years and supported and delivered OrCAD PSpice training courses all over Europe. This book has been endorsed by Cadence.

In addition, there are new chapters on the PSpice Advanced Analysis suite of tools: Sensitivity Analysis, Optimizer, Monte Carlo, and Smoke Analysis.The chapters show how circuit performance can effectively be maximised and optimised for variations in component tolerances, temperature effects, manufacturing yields and component stress.
Preface xi
Instructions xiii
1 Getting Started
1(34)
1.1 Starting Capture
1(1)
1.2 Creating a PSpice Project
2(6)
1.3 Symbols and Parts
8(10)
1.4 PSpice Modeling Applications
18(1)
1.5 Design Templates
19(1)
1.6 Demo Designs
20(1)
1.7 Exporting Capture Designs
21(2)
1.8 Saving a Project
23(3)
1.9 Summary
26(1)
1.10 Exercises
27(5)
1.11 Extra Library Work
32(3)
2 DC Bias Point Analysis
35(18)
2.1 Netlist Generation
38(5)
2.2 Displaying Bias Points
43(1)
2.3 Save Bias Point
44(1)
2.4 Load Bias Point
45(1)
2.5 Exercises
45(8)
3 DC Analysis
53(16)
3.1 DC Voltage Sweep
54(1)
3.2 Markers
54(5)
3.3 Exercises
59(10)
4 AC Analysis
69(10)
4.1 Simulation Parameters
70(2)
4.2 AC Markers
72(1)
4.3 Exercises
72(7)
5 Parametric Sweep
79(20)
5.1 Property Editor
79(4)
5.2 Exercises
83(16)
6 Stimulus Editor
99(18)
6.1 Stimulus Editor Transient Sources
100(6)
6.2 User-Generated Time-Voltage Waveforms
106(1)
6.3 Simulation Profiles
107(1)
6.4 Exercise
107(10)
7 Transient Analysis
117(14)
7.1 Simulation Settings
118(1)
7.2 Scheduling
118(1)
7.3 Checkpoints
119(1)
7.4 Defining a Time-Voltage Stimulus Using Text Files
120(2)
7.5 Exercises
122(9)
8 Convergence Problems and Error Messages
131(10)
8.1 Common Error Messages
131(1)
8.2 Establishing a Bias Point
132(1)
8.3 Convergence Issues
133(1)
8.4 Simulation Settings Options
134(2)
8.5 Exercises
136(5)
9 Transformers
141(10)
9.1 Linear Transformer
141(1)
9.2 Nonlinear Transformer
142(2)
9.3 Predefined Transformers
144(1)
9.4 Exercises
144(7)
10 Monte Carlo Analysis
151(14)
10.1 Simulation Settings
152(3)
10.2 Adding Tolerance Values
155(1)
10.3 Exercises
156(9)
11 Worst Case Analysis
165(12)
11.1 Sensitivity Analysis
166(1)
11.2 Worst Case Analysis
167(1)
11.3 Adding Tolerances
168(1)
11.4 Collating Functions
168(1)
11.5 Exercise
169(8)
12 Performance Analysis
177(8)
12.1 Measurement Functions
177(1)
12.2 Measurement Definitions
177(3)
12.3 Exercises
180(5)
13 Analog Behaviorial Models
185(12)
13.1 ABM Devices
185(7)
13.2 Exercises
192(5)
14 Noise Analysis
197(12)
14.1 Noise Types
197(1)
14.2 Total Noise Contributions
198(1)
14.3 Running a Noise Analysis
199(1)
14.4 Noise Definitions
200(3)
14.5 Exercise
203(6)
15 Temperature Analysis
209(8)
15.1 Temperature Coefficients
209(1)
15.2 Running a Temperature Analysis
210(2)
15.3 Exercises
212(5)
16 Adding and Creating PSpice Models
217(26)
16.1 Capture Properties for a PSpice Part
217(2)
16.2 PSpice Model Definition
219(2)
16.3 Subcircuits
221(2)
16.4 Model Editor
223(8)
16.5 Exercises
231(12)
17 Transmission Lines
243(16)
17.1 Ideal Transmission Lines
243(1)
17.2 Lossy Transmission Lines
244(3)
17.3 Exercises
247(12)
18 Digital Simulation
259(16)
18.1 Digital Device Models
259(1)
18.2 Digital Circuits
260(2)
18.3 Digital Simulation Profile
262(1)
18.4 Displaying Digital Signals
263(1)
18.5 Exercises
264(11)
19 Mixed Simulation
275(8)
19.1 Exercises
276(7)
20 Creating Hierarchical Designs
283(28)
20.1 Hierarchical Ports and Off-Page Connectors
285(2)
20.2 Hierarchical Blocks and Symbols
287(2)
20.3 Passing Parameters
289(1)
20.4 Hierarchical Netlist
290(1)
20.5 Exercises
291(20)
21 Magnetic Parts Editor
311(20)
21.1 Design Cycle
311(1)
21.2 Exercises
312(19)
22 Test Benches
331(16)
22.1 Selection of Test Bench Parts
332(1)
22.2 Unconnected Floating Nets
333(2)
22.3 Comparing and Updating Differences Between the Master Design and Test Bench Designs
335(1)
22.4 Exercises
336(11)
23 Advanced Analysis
347(4)
23.1 Introduction
347(4)
24 Sensitivity Analysis
351(16)
Introduction
351(1)
24.1 Absolute and Relative Analysis
352(1)
24.2 Example
353(1)
24.3 Assigning Component and Parameter Tolerances
354(3)
24.4 Exercises
357(10)
25 Optimizer
367(12)
Introduction
367(1)
25.1 Optimization Engines
367(1)
25.2 Measurement Expressions
368(1)
25.3 Specifications
368(1)
25.4 Exercises
369(10)
26 Monte Carlo
379(6)
26.1 Introduction
379(3)
26.2 Exercise
382(3)
27 Smoke Analysis
385(40)
27.1 Passive Smoke Parameters
387(5)
27.2 Active Smoke Parameters
392(3)
27.3 Derating Files
395(3)
27.4 Example 1
398(3)
27.5 Exercises
401(3)
27.6 Example 2
404(10)
27.7 Example 3
414(5)
27.8 Example 4
419(6)
Appendix 425(2)
Index 427
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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