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Power Electronics Step-by-Step : Design, Modeling, Simulation, and Control /

This book is comprehensive in covering the fundamental subjects in modern power electronics and control engineering.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Xiao, Weidong (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York, N.Y. : McGraw-Hill Education, [2021]
Edición:First edition.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Title Page
  • Copyright Page
  • Dedication
  • About the Author
  • Contents
  • Preface
  • 1 Background
  • 1.1 Classification of Power Conversion
  • 1.2 Interdisciplinary Nature of Power Electronics
  • 1.3 Typical Applications
  • 1.4 Tools for Development
  • 1.5 Ideal Power Conversion
  • 1.6 AC and DC
  • 1.7 Galvanic Isolation
  • 1.8 Fundamental Magnetics
  • 1.9 Loss-Free Power Conversion
  • Bibliography
  • Problems
  • 2 Circuit Elements
  • 2.1 Linear Voltage Regulator by BJT
  • 2.2 Diode and Passive Switch
  • 2.3 Active Switches
  • 2.4 Bridge Circuits
  • 2.5 Power Capacitors
  • 2.6 Passive Components
  • 2.7 Circuits for Low-Pass Filtering
  • 2.8 Summary
  • Bibliography
  • Problems
  • 3 Non-Isolated DC/DC Conversion
  • 3.1 Pulse Width Modulation
  • 3.2 Operational Condition
  • 3.3 Buck Converter
  • 3.4 Boost Converter
  • 3.5 Non-Inverting Buck-Boost Converter
  • 3.6 Buck-Boost Converter: Inverting Version
  • 3.7 Cuk Converter
  • 3.8 Synchronous Switching
  • 3.9 Summary
  • Bibliography
  • Problems
  • 4 Computation and Analysis
  • 4.1 Root Mean Square
  • 4.2 Loss Analysis and Reduction
  • 4.3 Gate Driver
  • 4.4 Fourier Series
  • 4.5 Power Quality of AC
  • 4.6 Power Quality of DC
  • 4.7 Thermal Stress and Analysis
  • 4.8 Summary
  • Bibliography
  • Problems
  • 5 DC to Single-Phase AC Conversion
  • 5.1 Square Wave AC
  • 5.2 Sine-Triangle Modulation
  • 5.3 Two-Switch Bridge for DC/AC
  • 5.4 Modeling for Simulation
  • 5.5 Case Study
  • 5.6 Summary
  • Bibliography
  • Problems
  • 6 Single-Phase AC to DC Conversion
  • 6.1 Half-Wave Rectification
  • 6.2 Full-Wave Bridge Rectifier
  • 6.3 Active Rectifier
  • 6.4 Alternative Configuration
  • 6.5 Modeling for Simulation
  • 6.6 Summary
  • Bibliography
  • Problems
  • 7 Isolated DC/DC Conversion
  • 7.1 Region of Magnetic Field
  • 7.2 Flyback Topology
  • 7.3 Forward Converter
  • 7.4 Synchronous Rectification
  • 7.5 Full Bridge for DC/AC Stage
  • 7.6 Push-Pull Converters
  • 7.7 Variation and Enhancement
  • 7.8 Summary
  • Bibliography
  • Problems
  • 8 Conversion Between Three-Phase AC and DC
  • 8.1 DC/AC Conversion
  • 8.2 AC/DC Conversion
  • 8.3 AC/AC Conversion
  • 8.4 Summary
  • Bibliography
  • Problems
  • 9 Bidirectional Power Conversion
  • 9.1 Non-Isolated DC/DC Conversion
  • 9.2 Dual Active Bridge
  • 9.3 Conversion Between DC and AC
  • 9.4 Summary
  • Bibliography
  • Problems
  • 10 Averaging for Modeling and Simulation
  • 10.1 Switching Dynamics
  • 10.2 Continuous Conduction Mode
  • 10.3 Discontinuous Conduction Mode
  • 10.4 Integrated Simulation Model
  • 10.5 Summary
  • Bibliography
  • Problems
  • 11 Linearized Model for Dynamic Analysis
  • 11.1 General Linearization
  • 11.2 Linearization of Dual Active Bridge
  • 11.3 Linearization Based on CCM
  • 11.4 Linearization Based on DCM
  • 11.5 Summary
  • Bibliography
  • Problems
  • 12 Control and Regulation
  • 12.1 Stability and Performance
  • 12.2 On/Off Control
  • 12.3 Affine Parameterization
  • 12.4 Controller Implementation
  • 12.5 Cascade Control
  • 12.6 Windup Effect and Prevention
  • 12.7 Sensing and Measurement
  • 12.8 Summary
  • Bibliography
  • Problems
  • Acronyms
  • Index.