Analog design and simulation using OrCAD Capture and PSpice

Analog design and simulation using OrCAD Capture and PSpice

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 Mo...

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Detalles Bibliográficos
Otros Autores: Fitzpatrick, Dennis, author (author)
Formato: Libro electrónico
Idioma:Inglés
Publicado: Oxford, England ; Cambridge, Massachusetts : Newnes 2018.
Edición:Second edition
Materias:
PSpice.
OrCAD SDT.
Electronic circuit design.
Electronic circuits > Computer simulation.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009630645606719
Tabla de Contenidos:
  • 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.
  • 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.
  • 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.
  • 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.

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