Powertrain Modularity & Integration
Active Gate Drivers for High-Power, High-Frequency WBG devices
This document presents the analysis, development, and testing of advanced active gate drivers (AGD) for high-power, high-frequency wide bandgap (WBG) devices, specifically focusing on Gallium Nitride (GaN) transistors.
Audience:
Academic Institutions, Electric Vehicle Manufacturers, Electrical Engineering Students, Industrial Power Converter Designers, Power Electronic Engineers, Researchers in Semiconductor Technology
Academic Institutions, Electric Vehicle Manufacturers, Electrical Engineering Students, Industrial Power Converter Designers, Power Electronic Engineers, Researchers in Semiconductor Technology
Keyword:
Active Gate Drivers, E-Volve Cluster, Gallium Nitride, High-Frequency Pulse Width Modulation, RHODaS, Silicon Carbide, Wide Bandgap Devices
Active Gate Drivers, E-Volve Cluster, Gallium Nitride, High-Frequency Pulse Width Modulation, RHODaS, Silicon Carbide, Wide Bandgap Devices
Link:
Rhodas deliverable
Powertrain Modularity & Integration
Evaluating Modulation Techniques in a Hybrid T-Type Power Converter based on GaN and SiC Semiconductors for Electric Transport
Audience:
Electric Vehicle Manufacturers, Electric Vehicle Powertrain Designers, Electronic Suppliers and Manufacturers, Power Electronic Engineers, Power Electronics Researchers
Electric Vehicle Manufacturers, Electric Vehicle Powertrain Designers, Electronic Suppliers and Manufacturers, Power Electronic Engineers, Power Electronics Researchers
Keyword:
E-Volve Cluster, Electric Vehicles, Gallium Nitride, Power Electronics, Pulsewidth Modulation, RHODaS, Semiconductors, Silicon Carbide, Wide Bandgap-Based Power Electronics
E-Volve Cluster, Electric Vehicles, Gallium Nitride, Power Electronics, Pulsewidth Modulation, RHODaS, Semiconductors, Silicon Carbide, Wide Bandgap-Based Power Electronics
Link:
IEEE Xplore