| Edition |
Second edition. |
| Description |
1 online resource |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
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data file |
| Note |
Includes index. |
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Online resource; title from PDF title page (EBSCO, viewed December 11, 2017). |
| Summary |
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. 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. |
| Contents |
Front Cover -- Analog Design and Simulation using OrCAD® Capture and PSpice® -- Copyright -- Contents -- Preface -- Instructions -- Limits of ORCAD Demo Lite DVD -- OrCAD 17.2 Lite -- Advanced Analysis -- Chapter 1: Getting Started -- 1.1. Starting Capture -- 1.2. Creating a PSpice Project -- 1.3. Symbols and Parts -- 1.3.1. Symbols -- 1.3.2. Parts -- 1.3.3. Search for Parts -- 1.3.4. Quick Place of PSpice Components -- 1.4. PSpice Modeling Applications -- 1.5. Design Templates -- 1.6. Demo Designs -- 1.7. Exporting Capture Designs -- 1.8. Saving a Project -- 1.8.1. Saved Designs -- 1.8.2. Find and Replace Text Utility -- 1.8.3. Password Protection -- 1.9. Summary -- 1.10. Exercises -- Exercise 1 -- Exercise 2 -- 1.11. Extra Library Work -- Chapter 2: DC Bias Point Analysis -- 2.1. Netlist Generation -- 2.2. Displaying Bias Points -- 2.3. Save Bias Point -- 2.4. Load Bias Point -- 2.5. Exercises -- Exercise 1 -- Chapter 3: DC Analysis -- 3.1. DC Voltage Sweep -- 3.2. Markers -- 3.3. Exercises -- Exercise 1 -- Exercise 2 -- Chapter 4: AC Analysis -- 4.1. Simulation Parameters -- 4.2. AC Markers -- 4.3. Exercises -- Exercise 1 -- 4.3.1. Twin T notch filter -- Chapter 5: Parametric Sweep -- 5.1. Property Editor -- 5.2. Exercises -- Exercise 1 -- Theory -- Exercise 2 -- Notch Filter -- Exercise 3 -- Active Notch Filter -- Chapter 6: Stimulus Editor -- 6.1. Stimulus Editor Transient Sources -- 6.1.1. Exponential (Exp) Source -- 6.1.2. Pulse Source -- 6.1.3. VPWL -- 6.1.4. SIN (Sinusoidal) -- 6.1.5. SSFM (Single-Frequency FM) -- 6.2. User-Generated Time-Voltage Waveforms -- 6.3. Simulation Profiles -- 6.4. Exercise -- Chapter 7: Transient Analysis -- 7.1. Simulation Settings -- 7.2. Scheduling -- 7.3. Check Points -- 7.4. Defining a Time-Voltage Stimulus Using Text Files -- 7.5. Exercises -- Exercise 1 -- Exercise 2. |
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Using the Graphically Created Waveform in the Stimulus Editor -- Using a File With Time-Voltage Data Describing the Input Waveform -- Generating a Periodic Vin -- Chapter 8: Convergence Problems and Error Messages -- 8.1. Common Error Messages -- 8.2. Establishing a Bias Point -- 8.3. Convergence Issues -- 8.4. Simulation Settings Options -- 8.5. Exercises -- Exercise 1 -- Exercise 2 -- Exercise 3 -- Exercise 4 -- Chapter 9: Transformers -- 9.1. Linear Transformer -- 9.2. Nonlinear Transformer -- 9.3. Predefined Transformers -- 9.4. Exercises -- Exercise 1 -- Exercise 2 -- Chapter 10: Monte Carlo Analysis -- 10.1. Simulation Settings -- 10.1.1. Output Variable -- 10.1.2. Number of Runs -- 10.1.3. Use Distribution -- 10.1.4. Random Number Seed -- 10.1.5. Save Data From -- 10.1.6. MC Load/Save -- 10.1.7. More Settings -- 10.2. Adding Tolerance Values -- 10.3. Exercises -- Exercise 1 -- Exercise 2 -- Chapter 11: Worst Case Analysis -- 11.1. Sensitivity Analysis -- 11.2. Worst Case Analysis -- 11.3. Adding Tolerances -- 11.4. Collating Functions -- 11.5. Exercise -- Chapter 12: Performance Analysis -- 12.1. Measurement Functions -- 12.2. Measurement Definitions -- 12.3. Exercises -- Exercise 1 -- Exercise 2 -- Chapter 13: Analog Behaviorial Models -- 13.1. ABM Devices -- 13.2. Exercises -- Exercise 1 -- Exercise 2 -- Exercise 3 -- Chapter 14: Noise Analysis -- 14.1. Noise Types -- 14.1.1. Resistor Noise -- 14.1.2. Semiconductor Noise -- 14.2. Total Noise Contributions -- 14.3. Running a Noise Analysis -- 14.4. Noise Definitions -- 14.5. Exercise -- Chapter 15: Temperature Analysis -- 15.1. Temperature Coefficients -- 15.2. Running a Temperature Analysis -- 15.3. Exercises -- Exercise 1 -- Exercise 2 -- Chapter 16: Adding and Creating PSpice Models -- 16.1. Capture Properties for a PSpice Part -- 16.2. PSpice Model Definition -- 16.3. Subcircuits. |
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16.4. Model Editor -- 16.4.1. Copying an Existing PSpice Model -- 16.4.2. Model Import Wizard -- 16.4.3. Downloading Models From a Vendor Website -- 16.4.4. Encryption -- 16.4.5. IBIS Translator -- 16.5. Exercises -- Exercise 1 -- Exercise 2 -- Exercise 3 -- Exercise 4 -- Exercise 5 -- Chapter 17: Transmission Lines -- 17.1. Ideal Transmission Lines -- 17.2. Lossy Transmission Lines -- 17.3. Exercises -- Exercise 1 -- Matched Load for RL -- RL Replaced With a Short Circuit -- RL Replaced With an Open Circuit -- Exercise 2 -- Standing Wave Ratio (SWR) -- SWR for Short Circuit -- SWR for Open Circuit -- Chapter 18: Digital Simulation -- 18.1. Digital Device Models -- 18.2. Digital Circuits -- 18.3. Digital Simulation Profile -- 18.4. Displaying Digital Signals -- 18.5. Exercises -- Exercise 1 -- Exercise 2 -- Exercise 3 -- Chapter 19: Mixed Simulation -- 19.1. Exercises -- Exercise 1 -- Exercise 2 -- Chapter 20: Creating Hierarchical Designs -- 20.1. Hierarchical Ports and Off-Page Connectors -- 20.2. Hierarchical Blocks and Symbols -- 20.2.1. Hierarchical Blocks -- 20.2.2. Hierarchical Symbols -- 20.3. Passing Parameters -- 20.4. Hierarchical Netlist -- 20.5. Exercises -- Exercise 1 -- Exercise 2 -- Creating a Hierarchical Symbol Which Can Be Saved to a Library -- Exercise 3 -- Testing the Oscillator in a Hierarchy -- Exercise 4 -- Exercise 5 -- Chapter 21: Magnetic Parts Editor -- 21.1. Design Cycle -- 21.2. Exercises -- Exercise 1 -- Step 1: Component Selection -- Step 2: General Information -- Step 3: Electrical Parameters -- Step 4: Core Selection -- Step 5: Bobbin-Winding Selection -- Step 6: Results View -- Exercise 2 -- Creating a Transformer Model -- Exercise 3 -- Chapter 22: Test Benches -- 22.1. Selection of Test Bench Parts -- 22.2. Unconnected Floating Nets. |
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22.3. Comparing and Updating Differences Between the Master Design and Test Bench Designs -- 22.4. Exercises -- Exercise 1 -- Exercise 2 -- Chapter 23: Advanced Analysis -- 23.1. Introduction -- 23.1.1. Advanced Analysis Libraries -- Chapter 24: Sensitivity Analysis -- Introduction -- 24.1. Absolute and Relative Analysis -- Absolute Sensitivity -- Relative Sensitivity -- 24.2. Example -- 24.3. Assigning Component and Parameter Tolerances -- 24.4. Exercises -- Exercise 1 -- Exercise 2 -- Chapter 25: Optimizer -- Introduction -- 25.1. Optimization Engines -- 25.2. Measurement Expressions -- 25.3. Specifications -- 25.4. Exercises -- Exercise 1 -- Exercise 2 -- Chapter 26: Monte Carlo -- 26.1. Introduction -- 26.2. Exercise -- Exercise 1 -- Chapter 27: Smoke Analysis -- 27.1. Passive Smoke Parameters -- 27.1.1. Resistor Smoke Parameters -- 27.1.2. Inductor Smoke Parameters -- 27.1.3. Capacitor Smoke Parameters -- 27.2. Active Smoke Parameters -- 27.2.1. Bipolar Transistors -- 27.3. Derating Files -- 27.4. Example 1 -- Derating Factor -- 27.5. Exercises -- Exercise 1 -- 27.6. Example 2 -- Exercise 2 -- 27.7. Example 3 -- Exercise 3 -- 27.8. Example 4 -- Appendix: PSpice Measurement Definitions -- Index -- Back Cover -- Preface -- Instructions -- Limits of OrCAD Demo Lite DVD -- OrCAD 17.2 Lite -- Advanced Analysis. |
| Subject |
PSpice.
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PSpice
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Electronic circuit design.
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Electronic circuits -- Computer simulation.
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Circuits électroniques -- Calcul.
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Circuits électroniques -- Simulation par ordinateur.
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TECHNOLOGY & ENGINEERING -- Mechanical.
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Electronic circuit design
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Electronic circuits -- Computer simulation
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| Other Form: |
Print version: Fitzpatrick, Dennis. Analog design and simulation using OrCAD Capture and PSpice. Second edition. Oxford, England ; Cambridge, Massachusetts : Newnes, ©2018 x, 439 pages 9780081025055 |
| ISBN |
9780081025062 (electronic bk.) |
|
0081025068 (electronic bk.) |
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9780081025055 (electronic bk.) |
|
008102505X (electronic bk.) |
| Standard No. |
AU@ 000061498027 |
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CHNEW 001014675 |
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GBVCP 1014933161 |
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