Bolivar, Nelson, author.
Fundamentals of power electronics / Nelson Bolivar. - Oakville, Ontario : Arcler Press, c2019 - xxiv,197 pages : color illustrations
To access the E-Book : https://www.bibliotex.com/ (Log-in/Register is required).
Includes references and index.
Chapter 1: Electromigration and Power Electronics
Chapter 2: Power Electronics Systems and Explicit Numerical Schemes
Chapter 3: Characterization of Shielding Efficiency for Power Electronics Frequency Domain
Chapter 4: A Very Fast Method for the DC Analysis of Diode–Transistor Circuits
Chapter 5: The Electrical Properties of Al/Methylene-Blue/N-Si/Au Schottky Diodes
Chapter 6: High-Voltage Generators With Optimized Power Efficiency
Chapter 7: Stability Analysis on Power System With Large Power Source
Chapter 8: Implementation of a Higher Quality DC Power Converter
Chapter 9: Control of Unit Power Factor PWM Rectifier
Chapter 10: A Comparison Study of Input ESD Protection Schemes Utilizing Nmos, Thyristor, and Diode Devices
Chapter 11: New Model for Drain and Gate Current of Single-Electron Transistor at High Temperature
Chapter 12: Accurate Extraction of Effective Gate Resistance in RF Mosfet
Chapter 13: Design of Low Voltage, Low Power (IF) Amplifier Based-On Mosfet Darlington Configuration
Chapter 14: Characterization Process of Mosfet With Virtual Instrumentation for Dp4t RF Switch
Chapter 15: Implementation & Comparative Analysis of 10, 18 & 24 Level Diode Clamped Inverters Using “Trust Region Dog Leg” Method
Chapter 16: Simulation and Analysis of a Compact Electronic Infrastructure for DC Micro-Grid
Chapter 17: Power Electronics for Pv-Based Communal Grids
Chapter 18: A High-Performance Complementary Inverter Based on Transition Metal Dichalcogenide Field-Effect Transistors
Chapter 19: Design and Implementation of ANFIS Controller Based Grid Connected Voltage Source Inverters in Rtos Environment
Chapter 20: Control Method of Inverters for Large-Scale Grid Connected Photovoltaic Power System
Chapter 21: Paralleled Dc-Dc Power Converters Sliding Mode Control with Dual Stages Design
Chapter 22: A Novel Voltage Balancing Method of Modular Multilevel Converters
The application of power electronics is increasingly being seen in residential, commercial, industrial,
transportation, aerospace, and telecommunication systems. This comprehensive book provides fundamental
knowledge for the analysis and design of modern power electronic devices. Power Electronics is the study of
switching electronic circuits in order to control the flow of electrical energy. Power Electronics is the technology
behind switching power supplies, power converters, power inverters, motor drives, and motor soft starters.
In English text.
Power electronics.
EBOP TK 7881.15 / B65 2019
Fundamentals of power electronics / Nelson Bolivar. - Oakville, Ontario : Arcler Press, c2019 - xxiv,197 pages : color illustrations
To access the E-Book : https://www.bibliotex.com/ (Log-in/Register is required).
Includes references and index.
Chapter 1: Electromigration and Power Electronics
Chapter 2: Power Electronics Systems and Explicit Numerical Schemes
Chapter 3: Characterization of Shielding Efficiency for Power Electronics Frequency Domain
Chapter 4: A Very Fast Method for the DC Analysis of Diode–Transistor Circuits
Chapter 5: The Electrical Properties of Al/Methylene-Blue/N-Si/Au Schottky Diodes
Chapter 6: High-Voltage Generators With Optimized Power Efficiency
Chapter 7: Stability Analysis on Power System With Large Power Source
Chapter 8: Implementation of a Higher Quality DC Power Converter
Chapter 9: Control of Unit Power Factor PWM Rectifier
Chapter 10: A Comparison Study of Input ESD Protection Schemes Utilizing Nmos, Thyristor, and Diode Devices
Chapter 11: New Model for Drain and Gate Current of Single-Electron Transistor at High Temperature
Chapter 12: Accurate Extraction of Effective Gate Resistance in RF Mosfet
Chapter 13: Design of Low Voltage, Low Power (IF) Amplifier Based-On Mosfet Darlington Configuration
Chapter 14: Characterization Process of Mosfet With Virtual Instrumentation for Dp4t RF Switch
Chapter 15: Implementation & Comparative Analysis of 10, 18 & 24 Level Diode Clamped Inverters Using “Trust Region Dog Leg” Method
Chapter 16: Simulation and Analysis of a Compact Electronic Infrastructure for DC Micro-Grid
Chapter 17: Power Electronics for Pv-Based Communal Grids
Chapter 18: A High-Performance Complementary Inverter Based on Transition Metal Dichalcogenide Field-Effect Transistors
Chapter 19: Design and Implementation of ANFIS Controller Based Grid Connected Voltage Source Inverters in Rtos Environment
Chapter 20: Control Method of Inverters for Large-Scale Grid Connected Photovoltaic Power System
Chapter 21: Paralleled Dc-Dc Power Converters Sliding Mode Control with Dual Stages Design
Chapter 22: A Novel Voltage Balancing Method of Modular Multilevel Converters
The application of power electronics is increasingly being seen in residential, commercial, industrial,
transportation, aerospace, and telecommunication systems. This comprehensive book provides fundamental
knowledge for the analysis and design of modern power electronic devices. Power Electronics is the study of
switching electronic circuits in order to control the flow of electrical energy. Power Electronics is the technology
behind switching power supplies, power converters, power inverters, motor drives, and motor soft starters.
In English text.
Power electronics.
EBOP TK 7881.15 / B65 2019