SPICE for Power Electronics and Electric Power 3rd Edition by Muhammad Rashid – Ebook PDF Instant Download/Delivery: 1439860467 , 978-1439860465
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ISBN 10: 1439860467
ISBN 13: 978-1439860465
Author: Muhammad Rashid
Power electronics can be a difficult course for students to understand and for professors to teach. Simplifying the process for both, SPICE for Power Electronics and Electric Power, Third Edition illustrates methods of integrating industry standard SPICE software for design verification and as a theoretical laboratory bench.
Helpful PSpice Software and Program Files Available for Download
Based on the author Muhammad H. Rashid’s considerable experience merging design content and SPICE into a power electronics course, this vastly improved and updated edition focuses on helping readers integrate the SPICE simulator with a minimum amount of time and effort. Giving users a better understanding of the operation of a power electronics circuit, the author explores the transient behavior of current and voltage waveforms for each and every circuit element at every stage. The book also includes examples of all types of power converters, as well as circuits with linear and nonlinear inductors.
SPICE for Power Electronics and Electric Power 3rd Table of contents:
Chapter 1 Introduction
1.1 Introduction
1.2 Descriptions of SPICE
1.3 Types of SPICE
1.4 Types of Analysis
1.5 Limitations of PSpice
1.6 Descriptions of Simulation Software Tools
1.7 PSpice Platform
1.7.1 PSpice A/D
1.7.2 PSpice Schematics
1.7.3 OrCAD Capture
1.8 PSpice Schematics versus OrCAD Capture
1.9 SPICE Resources
1.9.1 Websites with Free SPICE Models
1.9.2 Websites with SPICE Models
1.9.3 SPICE and Circuit Simulation Information Sites
1.9.4 Engineering Magazines with SPICE Articles
Suggested Reading
Chapter 2 Circuit Descriptions
2.1 Introduction
2.2 Input Files
2.3 Nodes
2.4 Element Values
2.5 Circuit Elements
2.6 Element Models
2.7 Sources
2.8 Output Variables
2.9 Types of Analysis
2.10 PSpice Output Commands
2.11 Format of Circuit Files
2.12 Format of Output Files
2.13 Examples of PSpice Simulations
2.13.1 Pulse and Step Responses of RLC Circuits
2.13.2 Sinusoidal and Frequency Responses of RLC Circuits
2.14 PSpice Schematics
2.14.1 PSpice Schematics Layout
2.14.2 PSpice A/D
2.14.3 Probe
2.14.4 OrCAD Capture
2.15 Importing Microsim Schematics in OrCAD Capture
Problems
Suggested Reading
Chapter 3 Defining Output Variables
3.1 Introduction
3.2 DC Sweep and Transient Analysis
3.2.1 Voltage Output
3.2.2 Current Output
3.2.3 Power Output
3.3 AC Analysis
3.3.1 Voltage Output
3.3.2 Current Output
3.4 Output Markers
3.5 Noise Analysis
Summary
Chapter 4 Voltage and Current Sources
4.1 Introduction
4.2 Sources Modeling
4.2.1 Pulse Source
4.2.2 Piecewise Linear Source
4.2.3 Sinusoidal Source
4.2.4 Exponential Source
4.2.5 Single-Frequency Frequency Modulation Source
4.2.6 AC Sources
4.3 Independent Sources
4.3.1 Independent Voltage Source
4.3.2 Independent Current Source
4.3.3 Schematic Independent Sources
4.4 Dependent Sources
4.4.1 Polynomial Source
4.4.2 Voltage-Controlled Voltage Source
4.4.3 Current-Controlled Current Source
4.4.4 Voltage-Controlled Current Source
4.4.5 Current-Controlled Voltage Source
4.4.6 Schematic-Dependent Sources
4.5 Behavioral Device Modeling
4.5.1 VALUE
4.5.2 TABLE
4.5.3 LAPLACE
4.5.4 FREQ
Summary
Problems
Suggested Reading
Chapter 5 Passive Elements
5.1 Introduction
5.2 Modeling of Elements
5.2.1 Some Model Statements
5.3 Operating Temperature
5.3.1 Some Temperature Statements
5.4 RLC Elements
5.4.1 Resistor
5.4.2 Capacitor
5.4.3 Inductor
5.5 Magnetic Elements and Transformers
5.5.1 Linear Magnetic Circuits
5.5.2 Nonlinear Magnetic Circuits
5.6 Lossless Transmission Lines
5.7 Switches
5.7.1 Voltage-Controlled Switch
5.7.2 Current-Controlled Switch
5.7.3 Time-Dependent Switches
Summary
Problems
Suggested Reading
Chapter 6 Dot Commands
6.1 Introduction
6.2 Models
6.2.1 .MODEL (Model)
6.2.2 .SUBCKT (Subcircuit)
6.2.3 .ENDS (End of Subcircuit)
6.2.4 .FUNC (Function)
6.2.5 .GLOBAL (Global)
6.2.6 .LIB (Library File)
6.2.7 .INC (Include File)
6.2.8 .PARAM (Parameter)
6.2.9 .STEP (Parametric Analysis)
6.3 Types of Output
6.3.1 .PRINT (Print)
6.3.2 .PLOT (Plot)
6.3.3 .PROBE (Probe)
6.3.4 Probe Output
6.3.5 .WIDTH (Width)
6.4 Operating Temperature and End of Circuit
6.5 Options
6.6 DC Analysis
6.6.1 .OP (Operating Point)
6.6.2 .NODESET (Nodeset)
6.6.3 .SENS (Sensitivity Analysis)
6.6.4 .TF (Small-Signal Transfer Function)
6.6.5 .DC (DC Sweep)
6.7 AC Analysis
6.8 Noise Analysis
6.9 Transient Analysis
6.9.1 .IC (Initial Transient Conditions)
6.9.2 .TRAN (Transient Analysis)
6.10 Fourier Analysis
6.11 Monte Carlo Analysis
6.12 Sensitivity and Worst-Case Analysis
Summary
Problems
Suggested Reading
Chapter 7 Diode Rectifiers
7.1 Introduction
7.2 Diode Model
7.3 Diode Statement
7.4 Diode Characteristics
7.5 Diode Parameters
7.5.1 Modeling Zener Diodes
7.5.2 Tabular Data
7.6 Diode Rectifiers
7.6.1 Examples of Single-Phase Diode Rectifiers
7.6.2 Examples of Three-Phase Diode Rectifiers
7.7 Laboratory Experiments
7.7.1 Experiment DR.1
7.7.2 Experiment DR.2
7.7.3 Experiment DR.3
Summary
Design Problems
Suggested Reading
Chapter 8 DC–DC Converters
8.1 Introduction
8.2 DC Switch Chopper
8.3 BJT SPICE Model
8.4 BJT Parameters
8.5 Examples of BJT DC–DC Converters
8.6 MOSFET Choppers
8.7 MOSFET Parameters
8.8 Examples of MOSFET DC–DC Converters
8.9 IGBT Model
8.10 Examples of IGBT DC-DC Converters
8.11 Laboratory Experiment
8.11.1 Experiment TP.1
8.11.2 Experiment TP.2
Summary
Design Problems
Suggested Reading
Chapter 9 Pulse Width–Modulated Inverters
9.1 Introduction
9.2 Voltage-Source Inverters
9.2.1 Examples of Single-Phase PWM Inverters
9.2.2 Examples of Single-Phase SPWM Inverters
9.2.3 Examples of Three-Phase PWM Inverters
9.2.4 Examples of Three-Phase SPWM Inverters
9.3 Current-Source Inverters
9.3.1 Example of Current-Source Inverter
9.4 DC Link Inverters
9.4.1 Example of DC Link Three-Phase Inverter
9.5 Laboratory Experiments
9.5.1 Experiment PW.1
9.5.2 Experiment PW.2
9.5.3 Experiment PW.3
9.5.4 Experiment PW.4
9.5.5 Experiment PW.5
9.5.6 Experiment PW.6
9.5.7 Experiment PW.7
Summary
Design Problems
Suggested Reading
Chapter 10 Resonant-Pulse Inverters
10.1 Introduction
10.2 Resonant-Pulse Inverters
10.2.1 Examples of Resonant-Pulse Inverters
10.3 Zero-Current Switching Converters
10.3.1 Examples of Zero-Current Switching Resonant Inverters
10.4 Zero-Voltage Switching Converter
10.4.1 Examples of Zero-Voltage Switching Converters
10.5 Laboratory Experiments
10.5.1 Experiment RI.1
10.5.2 Experiment RI.2
10.5.3 Experiment RI.3
10.5.4 Experiment RI.4
10.5.5 Experiment RI.5
10.5.6 Experiment RI.6
Summary
Design Problems
Suggested Reading
Chapter 11 Controlled Rectifiers
11.1 Introduction
11.2 AC Thyristor Model
11.3 Controlled Rectifiers
11.4 Examples of Controlled Rectifiers
11.4.1 Examples of Single-Phase Controlled Rectifiers
11.4.2 Examples of Three-Phase Controlled Rectifiers
11.5 Switched Thyristor DC Model
11.6 GTO Thyristor Model
11.7 Example of Forced-Commutated Rectifiers
11.8 Laboratory Experiments
11.8.1 Experiment TC.1
11.8.2 Experiment TC.2
11.8.3 Experiment TC.3
Summary
Design Problems
Suggested Reading
Chapter 12 AC Voltage Controllers
12.1 Introduction
12.2 AC Thyristor Model
12.3 Phase-Controlled AC Voltage Controllers
12.4 Examples of Phase-Controlled AC Voltage Controllers
12.4.1 Examples of Single-Phase AC Voltage Controllers
12.4.2 Examples of Three-Phase AC Voltage Controllers
12.4.3 Examples of Single-Phase AC Voltage Controllers with an Output Filter
12.5 AC Voltage Controllers with PWM Control
12.5.1 Example of Single-Phase AC Voltage Controller with PWM Control
12.6 Cycloconverters
12.6.1 Example of Single-Phase Cycloconverter
12.7 Laboratory Experiments
12.7.1 Experiment AC.1
12.7.2 Experiment AC.2
Summary
Design Problems
Suggested Reading
Chapter 13 Control Applications
13.1 Introduction
13.2 Op-Amp Circuits
13.2.1 DC Linear Models
13.2.2 AC Linear Models
13.2.3 Nonlinear Macromodels
13.2.4 Examples of Op-Amp Circuits
13.3 Control Systems
13.3.1 Examples of Control Circuits
13.4 Signal Conditioning Circuits
13.4.1 Examples of Signal Conditioning Circuits
13.5 Closed-Loop Current Control
13.5.1 Examples of Closed-Loop Control
Problems
Suggested Reading
Chapter 14 Characteristics of Electrical Motors
14.1 Introduction
14.2 DC Motor Characteristics
14.2.1 Examples of DC Motor Controlled by DC–DC Converter
14.3 Induction Motor Characteristics
14.3.1 Examples of Induction Motor Characteristics
Problems
Suggested Reading
Chapter 15 Simulation Errors, Convergence Problems, and Other Difficulties
15.1 Introduction
15.2 Large Circuits
15.3 Running Multiple Circuits
15.4 Large Outputs
15.5 Long Transient Runs
15.6 Convergence
15.6.1 DC Sweep
15.6.2 Bias-Point Calculation
15.6.3 Transient Analysis
15.7 Analysis Accuracy
15.8 Negative Component Values
15.9 Power-Switching Circuits
15.9.1 Model Parameters of Diodes and Transistors
15.9.2 Error Tolerances
15.9.3 Snubbing Resistor
15.9.4 Quasi-Steady-State Condition
15.10 Floating Nodes
15.11 Nodes with Fewer than Two Connections
15.12 Voltage Source and Inductor Loops
15.13 Running PSpice Files on SPICE
15.14 Running SPICE Files on PSpice
15.15 Using Earlier Version of Schematics
Problems
Suggested Reading
Index
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