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E-raamat: The Art of Simulation Using PSPICEAnalog and Digital

(University of Southampton, Southampton, England)
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This comprehensive volume covers both elementary and advanced analog and digital circuit simulation using PSpice. The text includes many worked examples, circuit diagrams, tables, and code listings. It also compares practical results with those obtained from simulation.
Preface
Introduction
Brief History of SPICE
Book Structure
PSpice Syntax
Simulation Hierarchy
Chapter Summary
References
Circuit Entry and Preliminary Analyses
Introduction
Passive Components Description
Semiconductor Components Description
Diode Description
Bipolar Transistor Description
Independent Sources
DC Independent Source
AC Independent Source
Transient Independent Source
Output Options of Simulation Results
Direct Outputs
Tabulated and Plotted Outputs
Graphics Outputs-Probe
Running PSpice-The Control Shell
Simulation Examples
Schematic Capture
Chapter Summary
References
Transient and Fourier Analyses
Transient Independent Sources
Exponential Independent Source (EXP)
Pulse Independent Source (PULSE)
Sinusoidal Independent Source (SIN)
Single-Frequency Frequency-Modulated Source (SFFM)
Piece-Wise Linear Independent Source (PWL)
The .TRAN Statement
Simulation Examples
Fourier Analysis (Text Mode)
Fourier Analysis (Graphics Mode)
Chapter Summary
References
Dependent Sources (Linear and Nonlinear)
Linear Dependent Sources
Linear Voltage-Controlled Voltage Source (VCVS)
Linear Voltage-Controlled Current Source (VCCS)
Linear Current-Controlled Current Source (CCCS)
Linear Current-Controlled Voltage Source (CCVS)
Polynomial Nonlinear Dependent Sources
One-Dimensional Polynomial VCVS
Two-Dimensional Polynomial VCVS
Effective Use of Dependent Sources
Chapter Summary
References
Subcircuits and Efficient Use of PSpice
The .PARAM Statement
Subcircuits
Calling Subcircuits
Components Scaling
The .STEP Statement
Chapter Summary
References
Analog Device Models and Libraries
Passive Components
Resistor Model
Capacitor Model
Inductor Model
Semiconductor Models
Diode Model
Bipolar Transistor Model
Operational Amplifier Model
Using Op-amp Macromodels
Dealing with Unstable Circuits
Chapter Summary
References
Sensitivity and Monte Carlo Analyses
Sensitivity Definitions
Component Tolerances
Sensitivity and Worst-Case Analyses
Simulation Examples
Monte Carlo Analysis
Temperature Analysis
Chapter Summary
References
Analog Behavioural Modelling "Block-Diagram" Simulation Approach
Introduction
Implementation
VALUE
TABLE
FREQ
LAPLACE
CHEBYSHEV
Application Example
Primitive-Level Approach
Simulation of Integration and Differentiation
Modelling Practical Components
Chapter Summary
References
Digital and Mixed Analog/Digital Simulations
Digital Components Description
Description of Logic Gates
Flip-Flops and Latches
Digital Waveform Generation
Stimulus Generator (STIM)
Examples
Simulation Examples
PSpice Digital Components Library
Modifying Digital Model Parameters
Mixed Analog/Digital Circuit Simulations
Chapter Summary
References
Appendices
Stimulus Editor (StmEd)
Simulation of Oscillator Circuits
Simulation of Switched Capacitor Networks
Simulation of Transmission Lines
PSpice Control Options
CMOS Circuit Simulation
Al-Hashimi\, Bashir
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