Power Electronics Motor Drive Systems Fundamentals Experiments and Applications 1st edition by Stefanos Manias 0128118148 9780128118146

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ISBN-10 :  0128118148 

ISBN-13 : 9780128118146

Author :  Stefanos Manias 

Power Electronics and Motor Drive Systems is designed to aid electrical engineers, researchers, and students to analyze and address common problems in state-of-the-art power electronics technologies. Author Stefanos Manias supplies a detailed discussion of the theory of power electronics circuits and electronic power conversion technology systems, with common problems and methods of analysis to critically evaluate results.

Power Electronics, Motor Drive Systems: Fundamentals, Experiments and Applications 1st Table of contents:

1. Power Electronics Technology
1.0. Introduction to Power Electronics Technology
1.1. Synthesis of a Required Voltage Waveform
1.2. Power Electronics Applications
1.3. Introduction to Power Semiconductor Devices
2. Circuits With Switches and Diodes
2.0. Introduction
2.1. Circuit With DC Source and Resistive–Capacitive Load
2.2. Circuit With DC Source and Resistive–Inductive Load
2.3. Circuit With DC Source and Inductive Load
2.4. Circuit With DC Source and R–L–C Load
2.5. Circuit With AC Source and R–L–C Load
2.6. Power Diode
2.7. Single-Phase Half-Wave Diode Rectifier With Resistive Load
2.8. Single-Phase Half-Wave Diode Rectifier With Resistive–Capacitive Load
2.9. Single-Phase Half-Wave Diode Rectifier With R–L Load
2.10. Single-Phase Half-Wave Diode Rectifier With R–L Load and Freewheeling Diode
2.11. Single-Phase Half–Wave Diode Rectifier With R–L–E Load
3. Thyristor and Single-Phase Half-Wave Controlled Rectifier
3.0. Introduction
3.1. Thyristor–Silicon Controlled Rectifier
3.2. Single-Phase Half-Wave Thyristor Rectifier With Resistive Load
3.3. Single-Phase Half-Wave Thyristor Rectifier With Resistive–Inductive Load
3.4. Single-Phase Half-Wave Thyristor Rectifier With Inductive Load
3.5. Single-Phase Half-Wave Thyristor Rectifier With R–L–E Load
3.6. Gate Drive Circuits for Thyristors
3.7. Simulation Examples Using the Power Simulation Software Program
4. Diode Rectifiers
4.0. Introduction
4.1. Single-Phase Full-Wave Diode Rectifier With Center–Tapped Transformer
4.2. Power Components Calculation and Power Quality for Nonlinear Loads
4.3. Single-Phase Full-Bridge Diode Rectifier
4.4. Multiphase Half-Wave Diode Rectifiers
4.5. Three-Phase Bridge Diode Rectifier
4.6. Twelve-Pulse Diode Rectifier
4.7. Commutation Overlap Phenomenon of Diodes
4.8. Simulation Examples Using Power Simulation Software
5. Thyristor-Controlled Rectifiers
5.0. Introduction
5.1. Single-Phase Full-Bridge Fully Controlled Thyristor Rectifier
5.2. Three-Phase Half-Wave Thyristor Rectifier
5.3. Three-Phase Bridge Fully Controlled Thyristor Rectifier
5.4. Asymmetric or Half-Controlled Rectifiers
5.5. Twelve-Pulse Fully Controlled Thyristor Rectifier
6. Inverters (DC–AC Converters)
6.0. Introduction
6.1. Single-Phase Half-Bridge Inverter
6.2. Single-Phase Full-Bridge Inverter
6.3. Output Voltage Control of Single-Phase Inverters
6.4. Three-Phase Voltage Source Inverter
6.5. Multilevel Voltage Source Inverters
6.6. Current Source Inverters
6.7. Selected Harmonic Elimination Technique and SHE-PWM
6.8. Other Pulse Width Modulation Techniques
6.9. P–Q Control of a Three-Phase Voltage Source Inverter
7. DC–DC Converters
7.0. Introduction
7.1. Step-Down or Buck Converter
7.2. Step-Up or Boost Converter
7.3. Buck–Boost (Step-Down–Step-Up) DC–DC Converter
7.4. Output Voltage Control of DC–DC Converters Using Pulse Width Modulation Technique
7.5. Switched–Mode Power Supplies
7.6. State–Space Representation of DC–DC Converters
7.7. Discrete State Equations of Boost and Buck Converters
7.8. Simplified Circuits and Approximate Transfer Functions of Boost and Buck Converters
7.9. Boost and Buck Converter Simulation Using SPICE and MATLAB/Simulink Software
7.10. Switching Power Losses of a Power Semiconductor Switch and Electromagnetic Interference
7.11. Resonant DC–DC Converters
8. AC Voltage Controllers and Thyristor-Based Static VAR Compensators
8.0. Introduction
8.1. Single-Phase AC Voltage Thyristor Controller With Resistive Load
8.2. Single-Phase AC Voltage Controller With Resistive–Inductive Load
8.3. Three-Phase AC Voltage Thyristor Controller
8.4. Thyristor-Based Static VAR Compensators
8.5. Triode for Alternate Current
9. PWM or Switched Mode Rectifiers
9.0. Introduction
9.1. Single-Phase Boost Pulse Width Modulation Rectifier
9.2. Three-Phase Pulse Width Modulation or Boost Pulse Width Modulation Rectifier
9.3. Single-Phase Full-Bridge Regenerative Pulse Width Modulation Rectifier
9.4. Multilevel Regenerative Pulse Width Modulation Rectifiers
10. Fully Controlled Semiconductor Devices
10.0. Introduction
10.1. Power Bipolar Junction Transistor (BJT)
10.2. Power Metal-Oxide-Semiconductor Field Effect Transistor (MOSFET)
10.3. Insulated Gate Bipolar Transistor (IGBT)
10.4. Gate Turn-Off Thyristor (GTO)
10.5. MOS-Controlled Thyristor (MCT)
10.6. Gate Commutated Thyristor (GCT) and Integrated Gate Commutated Thyristor (IGCT)
10.7. Silicon Carbide Technology for Power Semiconductor Construction
10.8. Mount Package Types of Semiconductor Devices and Types of Heat Sinks
10.9. Protection Circuits (Snubbers) for Power Semiconductor Devices
11. Passive and Active Filters
11.0. Introduction
11.1. Buck Converter Input Passive Filter Design
11.2. Inverter Output Passive Filter Design
11.3. Inverter Input Passive Filter Design
11.4. Passive Filters for Current Harmonics Elimination
11.5. Active Filters
12. Introduction to Motor Drive Systems
12.0. Introduction
12.1. Electric Motor Drive Systems
12.2. DC Motor Drive Systems
12.3. AC Motor Drive Systems
12.4. Asynchronous or Induction Motors
12.5. Synchronous Motor Drive Systems
12.6. Conclusions

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