Analog design and simulation using OrCAD Capture and PSpice
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 Ca...
| Autor principal: | |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Boston, Mass. :
Elsevier
2012.
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| Edición: | 1st ed |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627774106719 |
Tabla de Contenidos:
- Front Cover; Analog Design and Simulation using OrCAD Capture and PSpice; Copyright; Contents; Preface; Instructions; Limits of ORCAD Demo CD; Pre-16.5; Post-16.5; Chapter 1 - Getting Started; 1.1 Starting Capture; 1.2 Creating a PSpice Project; 1.3 Symbols and Parts; 1.4 Design Templates; 1.5 Summary; 1.6 Exercises; 1.7 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; Chapter 3 - DC Analysis; 3.1 DC Voltage Sweep; 3.2 Markers; 3.3 Exercises; Chapter 4 - AC Analysis
- 4.1 Simulation Parameters4.2 AC Markers; 4.3 Exercises; Chapter 5 - Parametric Sweep; 5.1 Property Editor; 5.2 Exercises; Chapter 6 - Stimulus Editor; 6.1 Stimulus Editor Transient Sources; 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; 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 ExercisesChapter 9 - Transformers; 9.1 Linear Transformer; 9.2 Non-linear Transformer; 9.3 Predefined Transformers; 9.4 Exercises; Chapter 10 - Monte Carlo Analysis; 10.1 Simulation Settings; 10.2 Adding Tolerance Values; 10.3 Exercises; Filter Specifications; 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; Chapter 13 - Analog Behavioral Models; 13.1 ABM devices; 13.2 Exercises
- Chapter 14 - Noise Analysis14.1 Noise Types; 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; 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; 16.5 Exercises; Chapter 17 - Transmission Lines; 17.1 Ideal Transmission Lines; 17.2 Lossy Transmission Lines; 17.3 Exercises; Chapter 18 - Digital Simulation
- 18.1 Digital Device Models18.2 Digital Circuits; 18.3 Digital Simulation Profile; 18.4 Displaying Digital Signals; 18.5 Exercises; Chapter 19 - Mixed Simulation; 19.1 - Exercises; Chapter 20 - Creating Hierarchical Designs; 20.1 Hierarchical Ports and Off-page Connectors; 20.2 Hierarchical Blocks and Symbols; 20.3 Passing Parameters; 20.4 Hierarchical Netlist; 20.5 Exercises; Chapter 21 - Magnetic Parts Editor; 21.1 Design Cycle; 21.2 Exercises; 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
