Powertrain Modularity & Integration
Experimental Evaluation of EMI and Efficiency in a Hybrid T-Type Wide-Bandgap Converter
Audience:
Electric Powertrain Researchers, Electric Vehicle Designers, Power Electronic Engineers
Electric Powertrain Researchers, Electric Vehicle Designers, Power Electronic Engineers
Keyword:
E-Volve Cluster, Fault Detection Algorithms, Fault-Tolerant Control, Poster, RHODaS, SiC/GaN Power Converters, Wide Bandgap Devices
E-Volve Cluster, Fault Detection Algorithms, Fault-Tolerant Control, Poster, RHODaS, SiC/GaN Power Converters, Wide Bandgap Devices
Link:
Zenodo
Powertrain Modularity & Integration
Fault Tolerant Control of SiC/GaN Power Converters
This document describes fault-tolerant control strategies for the SiC/GaN power converter and the eMotor of the RHODaS integrated motor drive (IMD).
Audience:
Automotive Industry Professionals, Control Systems Developers, Electrical Engineering Researchers, Electrical Engineers, Power Electronics Researchers
Automotive Industry Professionals, Control Systems Developers, Electrical Engineering Researchers, Electrical Engineers, Power Electronics Researchers
Keyword:
E-Volve Cluster, Electric Motors, Fault Detection Algorithms, Fault-Tolerant Control, Integrated Motor Drive, Power Converters, RHODaS, SiC/GaN Power Converters
E-Volve Cluster, Electric Motors, Fault Detection Algorithms, Fault-Tolerant Control, Integrated Motor Drive, Power Converters, RHODaS, SiC/GaN Power Converters