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Full Description
This book presents the transformational progress in next-generation advanced converter circuit topologies based on the unique electrical properties of wide-bandgap semiconductors, including silicon carbide (SiC) and gallium nitride (GaN). It addresses the opportunities for significant advances in power electronics circuit performance opened by the availability of wide-bandgap power devices and the challenges associated with using these devices that must be overcome when applying them. The authors tackle specific grand challenges in application areas covering a broad range of power electronics circuits and systems disciplines, including electric motor-driven systems, automotive applications, air/rail/ship propulsion, electric vehicle chargers, high-performance computing and data centers, power supplies, solar inverters, wind-electric systems, high/medium voltage transmission/distribution equipment and power electronics interacting with the grid, power conversion for grid storage, monolithic power processing, and solid-state circuit breakers.
Wide Bandgap Power Electronics: Emerging Converter Technologies and Applications introduces readers to the unique characteristics of wide-bandgap power semiconductor devices and the revolutionary impact that they are capable of having on the performance of power converters in future power electronics applications and will be an invaluable resource for practicing engineers, researchers, and graduate students in the field of power electronics, applications, and systems.
Contents
Introduction.- Power Conversion Through Novel Current Source Matrix Converter.- High Power Density 10-kV SiC-MOSFET-based Modular, Scalable Power Converters for Medium Voltage Applications.- SiC-Based Wireless Power Transformation for Data Centers & Medium Voltage Applications.- Universal Battery Supercharger.- A Universal Converter for DC, Single-Phase AC, and Multi-phase AC Systems.- Single DC Source Based Cascaded Multilevel Inverter.- Advanced Parallel Resonant MHz / MW Scale Three Phase AC to DC Ultra-Fast EV Charger.- Ultra Dense Power Converters for Advanced Electrical Systems.- Grid-Connected Modular Soft-Switching Solid State Transformers.- A Bidirectional, Transformerless Converter Topology for Grid-tied Energy Storage Systems.- Enabling Ultra-Compact, Lightweight, Efficient, and Reliable 6.6 kW On-Board Bi-Directional Electric Vehicle Charger with Advanced Topology and Control.- A High-Voltage High-Reliability Scalable Architecture for Electric Vehicle Power Electronics.- WBG-Enabled Current-Source Inverters for Integrated PM Machine Drives.- Low-Cost e-mode GaN HEMT Gate Driver IC Enables Revolutionary Energy Savings in Variable Speed Drives for Appliance Motors.- Reliable, High Power Density Inverters for Heavy Equipment Applications.- Extreme Efficiency 240 Vac to Load Data Center Power Delivery Topologies and Control.- Wide Bandgap Solid State Circuit Breakers for AC and DC Microgrids.- Unified Power Flow Controller.- 1200 V SiC Based Extremely Compact, 500 kW, 2000 Hz Inverter for High-Speed Permanent Magnet Synchronous Machine (PMSM) Applications.- Resonant Voltage Regulator Architecture Eliminates 30-50% Energy Consumption of Digital ICs.- Aircraft Electrification - The Next Frontier for EV Technology.- WBG Based Power Electronics: Techno-Economic Aspect and Commercialization.
