Multilevel Inverters for Emergent Topologies and Advanced Power Electronics Applications

Multilevel Inverters for Emergent Topologies and Advanced Power Electronics Applications investigates modern device topologies, control methods, and application areas for the rapidly developing conversion technology. The device topologies section begins with conventional two-level inverter topologies to provide a background on the DC-AC power conversion process and required circuit configurations. Thereafter, multilevel topologies originating from neutral point clamped topologies are presented in detail. The improved and inherited regular multilevel topologies such as flying capacitor and conventional H-bridge topology are presented to illustrate the multilevel concept. Emerging topologies are introduced regarding application areas such as renewable energy sources, electric vehicles, and power systems. The book goes on to discuss fundamental operational principles of inverters using the conventional pulse width modulated control method. Current and voltage based closed loop control methods such as repetitive control, space vector modulation, peak-to-peak ripple control, voltage and current H? repetitive control, proportional resonant control and other recent methods are developed. Core modern applications including wind energy, photovoltaics, microgrids, hybrid microgrids, electric vehicles, active filters, and static VAR compensators are investigated in depth. Reviews mathematical modeling and step-by-step simulation examples, straddling both basic and advanced topologiesAssesses how to systematically deploy and control multilevel power inverters in application scenariosReviews key applications across wind energy, photovoltaics, microgrids, hybrid microgrids, electric vehicles, active filters, static VAR compensators INDICE: 1. Power Conversion and Two-Level DC-AC Inverters2. Introduction to Multilevel Voltage Source Inverters3. Neutral Point Clamped and T-Type Multilevel Inverters4. Flying Capacitor Multilevel Inverters5. Conventional H-Bridge and Recent H Multilevel Topologies6. Matrix Inverter Topologies7. Modular and Packed U-Cell Topologies8. Asymmetrical Multilevel Inverter Topologies9. Resonant and Z-Source Multilevel Inverters10. Pulse Width Modulation Schemes11. Soft Computing Based Controllers, FLC, Kalman, ANN, Sliding Mode 12. Current Repetitive Control Methods13. Hysteresis Control Methods14. Soft Switching Control15. Current and Voltage H? Repetitive Control16. Proportional Resonance Control17. Current Predictive and Model Predictive Control18. Multilevel Inverter Applications in Renewable Energy Source19. Multilevel Inverter Applications for Electric Vehicle Drives20. STATCOM and D-STATCOM with Multilevel Inverters21. Solid State Transformers with Multilevel Inverters22. Power Quality Improvement with Multilevel Inverters

• ISBN: 978-0-12-821668-2
• Editorial: Academic Press
• Encuadernacion: Rústica
• Páginas: 216
• Fecha Publicación: 01/02/2021
• Nº Volúmenes: 1
• Idioma: Inglés