Download Spice for Power Electronics and Electric Power

Summary:
Integrates SPICE with a junior or senior level power electronics course
Demonstrates how SPICE can be used to simulate and verify power converter performance
Applies PSpice to draw and analyze power electronic circuits and study the effects of circuit parameters
Discusses PSpice features such as Probe, Table, Value, and more
Provides examples of linear and non-linear inductors and transformers, as well as power converter circuits
Includes experiments on principles of operation of static power conversion, pulse width modulation (PWM) for voltage and frequency control, and analysis and design considerations
Enables observation of the effects of changes in design parameters without actually building a circuit

To be accredited, a power electronics course should cover a significant amount of design content and include extensive use of computer-aided analysis with simulation tools such as SPICE. Based upon the authors’ experience in designing such courses, SPICE for Power Electronics and Electric Power, Second Edition integrates a SPICE simulator with a power electronics course at a junior or senior level. This textbook assumes no prior knowledge of SPICE and introduces the applications of various SPICE commands through numerous examples of power electronic circuits.

The authors emphasize the techniques for power conversions and for quality output waveforms, rather than accurate modeling of power semiconductor devices. This textbook enables students to compare the results with those that are obtained in a classroom environment via simple switch models or devices.

Not only a supplement to any standard textbook on power electronics and power systems, this volume can also be used as a textbook on SPICE. It suggests laboratory experiments and design problems, and presents complete laboratory guidelines for each experiment. This text can also be used as a laboratory manual for power electronics, with its design problems serving as assignments for a design-oriented simulation laboratory.

Contents:
Descriptions of SPICE
* Types of Spice
* Types of Analysis
* Limitations of PSpice
* Descriptions of Simulation Software Tools
* PSpice Platform
* PSpice A/D
* PSpice Schematics
* OrCAD Capture
* PSpice Schematics vs. OrCAD Capture
* SPICE Resources
* Web Sites with Free SPICE Models
* Web Sites with SPICE Models
* SPICE and Circuit Simulation Information Sites
* Engineering Magazines with SPICE Articles

Circuit Descriptions
* Input Files
* Nodes
* Element Values
* Circuit Elements
* Element Models
* Sources
* Output Variables
* Types of Analysis
* PSpice Output Commands
* Format of Circuit Files
* Format of Output Files
* Examples of PSpice Simulations
* PSpice Schematics
* PSpice Schematics Layout
* PSpice A/D
* Probe
* Importing Microsim Schematics in OrCAD Capture

Defining Output Variables
* DC Sweep and Transient Analysis
* Voltage Output
* Current Output
* Power Output
* AC Analysis
* Voltage Output
* Current Output
* Output Markers
* Noise Analysis

Voltage and Current Sources
* Sources Modeling
* Pulse Source
* Piecewise Linear Source
* Sinusoidal Source
* Exponential Source
* Single-Frequency Frequency Modulation Source
* Independent Sources
* Independent Voltage Source
* Independent Current Source
* Schematic Independent Sources
* Dependent Sources
* Polynomial Source
* Voltage-Controlled Voltage Source
* Current-Controlled Current Source
* Voltage-Controlled Current Source
* Current-Controlled Voltage Source
* Schematic Dependent Sources
* Behavioral Device Modeling
* Value
* Table
* Laplace
* Freq

Passive Elements
* Modeling of Elements
* Some Model Statements
* Operating Temperature
* Some Temperature Statements
* RLC Elements
* Resistor
* Some Resistor Statements
* Capacitor
* Some Capacitor Statements
* Inductor
* Some Inductor Statements
* Magnetic Elements and Transformers
* Linear Magnetic Circuits
* Nonlinear Magnetic Circuits
* Lossless Transmission Lines
* Switches
* Voltage-Controlled Switch
* Current-Controlled Switch
* Time-Dependent Switches
* Time-Dependent Close Switch
* Time-Dependent Open Switch
SPICE Dot Commands
* MODEL (Model)
* SUBCKT (Subcircuit)
* ENDS (End of Subcircuit)
* FUNC (Function)
* GLOBAL (Global)
* LIB (Library File)
* INC (Include File)
* PARAM (Parameter)
* STEP (Parametric Analysis)
* PRINT (Print)
* PLOT (Plot)
* PROBE (Probe)
* WIDTH (Width)
* Operating Temperature and End of Circuit
* DC Analysis
* OP (Operating Point)
* NODESET (Nodeset)
* SENS (Sensitivity Analysis)
* TF (Small-Signal Transfer Function)
* DC (DC Sweep)
* AC Analysis
* Noise Analysis
* Transient Analysis
* IC (Initial Transient Conditions)
* TRAN (Transient Analysis)
* Fourier Analysis
* Monte Carlo Analysis
* Sensitivity and Worst-Case Analysis

Problems Diode Rectifiers
* Diode Model
* Diode Statement
* Diode Characteristics
* Diode Parameters
* Modeling Zener Diodes
* Tabular Data
* Diode Rectifiers
* Laboratory Experiments
* Experiment DR.1
* Single-Phase Full-Wave Center-Tapped Rectifier
* Experiment DR.2
* Single-Phase Bridge Rectifier
* Experiment DR.3
* Three-Phase Bridge Rectifier

DC-DC Converters
* DC Switch Chopper
* BJT SPICE Model
* BJT Parameters
* Examples of BJT Choppers
* MOSFET Choppers
* MOSFET Parameters
* Examples of MOSFET Choppers
* IGBT Model
* Laboratory Experiment
* Experiment TP.1
* DC Buck Chopper
* Experimental TP-2
* DC Boost Chopper

Pulse-Width-Modulated Inverters
* Voltage-Source Inverters
* Current-Source Inverters
* Laboratory Experiments
* Experiment PW.1
* Single-Phase Half-Bridge Inverter
* Experiment PW.2
* Single-Phase Full-Bridge Inverter
* Experiment PW.3
* Single-Phase Full-Bridge Inverter with PWM Control
* Experiment PW.4
* Experiment PW.5
* Three-Phase Bridge Inverter
* Experiment PW.6
* Single-Phase Current-Source Inverter
* Experiment PW.7
* Three-Phase Current-Source Inverter

Resonant-Pulse Inverters
* Resonant-Pulse Inverters
* Zero-Current Switching Converters (ZCSC)
* Zero-Voltage Switching Converter (ZVSC)
* Laboratory Experiments
* Experiment RI.1
* Single-Phase Half-Bridge Resonant Inverter
* Experiment RI.2
* Single-Phase Full-Bridge Resonant Inverter
* Experiment RI.3
* Push-Pull Inverter
* Experiment RI.4
* Parallel Resonant Inverter
* Experiment RI.5
* ZCSC
* Experiment RI.6

Controlled Rectifiers
* AC Thyristor Model
* Controlled Rectifiers
* Examples of Controlled Rectifiers
* Switched Thyristor DC Model
* GTO Thyristor Model
* Example of Forced-Commutated Rectifiers
* Laboratory Experiments
* Experiment TC.1
* Single-Phase Half-Wave Controlled Rectifier
* Experiment TC.2
* Single-Phase Full-Wave Controlled Rectifier
* Experiment TC.3
* Three-Phase Full-Wave Controlled Rectifier

AC Voltage Controllers
* AC Thyristor Model
* AC Voltage Controllers
* Examples of AC Voltage Controllers
* Laboratory Experiments
* Experiment AC.1
* Single-Phase AC Voltage Controller
* Experiment AC.2
* Three-Phase AC Voltage Controller

Control Applications
* Op-Amp Circuits
* DC Linear Models
* AC Linear Models
* Nonlinear Macromodels
* Control Systems
* Signal Conditioning
* Closed-Loop Current Control

Characteristics of Electrical Motors
* DC Motor Characteristics
* Induction Motor Characteristics

Difficulties
* Large Circuits
* Running Multiple Circuits
* Large Outputs
* Long Transient Runs
* Convergence
* DC Sweep
* Bias-Point Calculation
* Transient Analysis
* Analysis Accuracy
* Negative Component Values
* Power Switching Circuits
* Model Parameters of Diodes and Transistors
* Error Tolerances
* Snubbing Resistor
* Quasi-Steady-State Condition
* Floating Nodes
* Nodes with Fewer than Two Connections
* Voltage Source and Inductor Loops
* Running PSpice Files on Spice
* Running Spice Files on PSpice
* Using Earlier Version of Schematics

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