Digital Design
Artificial Intelligence Applications in High-Frequency Magnetic Components Design for Power Electronics Systems: An Overviewpowerd
Audience:
Artificial Intelligence Professionals, Automotive Designers, Digital Design Professionals, Electric Vehicle Manufacturers, Electric Vehicle Powertrain Designers
Artificial Intelligence Professionals, Automotive Designers, Digital Design Professionals, Electric Vehicle Manufacturers, Electric Vehicle Powertrain Designers
Keyword:
Artificial Intelligence, E-Volve Cluster, High-Frequency Inductor Design, High-Frequency Magnetic Components, High-Frequency Transformer Design, Loss Models, Power Electronics, POWERDRIVE
Artificial Intelligence, E-Volve Cluster, High-Frequency Inductor Design, High-Frequency Magnetic Components, High-Frequency Transformer Design, Loss Models, Power Electronics, POWERDRIVE
Link:
IEEE Xplore
Electric Vehicle Operations
Bidirectional Onboard Chargers for Electric Vehicles: State-of-the-Art and Future Trends
Audience:
Battery and Charge Management Engineers, Charging Infrastructure Providers, Electric Vehicle Charging Infrastructure Developers, Electric Vehicle Manufacturers, Power Electronics Researchers
Battery and Charge Management Engineers, Charging Infrastructure Providers, Electric Vehicle Charging Infrastructure Developers, Electric Vehicle Manufacturers, Power Electronics Researchers
Keyword:
Charging Infrastructure, E-Volve Cluster, Electric Vehicle Charging, Electric Vehicles, EV Charging Solutions, High Power Density, POWERDRIVE, Smart Charging Infrastructure, Vehicle to Grid, Wide Bandgap-Based Power Electronics
Charging Infrastructure, E-Volve Cluster, Electric Vehicle Charging, Electric Vehicles, EV Charging Solutions, High Power Density, POWERDRIVE, Smart Charging Infrastructure, Vehicle to Grid, Wide Bandgap-Based Power Electronics
Link:
IEEE Xplore
Digital Design
Conditional Generative Adversarial Network Aided Iron Loss Prediction for High-Frequency Magnetic Components
Audience:
Artificial Intelligence Professionals, Automotive Component Manufacturers, Automotive Component Suppliers, Automotive Designers, Automotive Engineers, Circular Economy Experts, Digital Design Professionals, Electric Vehicle Manufacturers
Artificial Intelligence Professionals, Automotive Component Manufacturers, Automotive Component Suppliers, Automotive Designers, Automotive Engineers, Circular Economy Experts, Digital Design Professionals, Electric Vehicle Manufacturers
Keyword:
Conditional Generative Adversarial Network, Deep Neural Network, E-Volve Cluster, High-Frequency Magnetic Components, Multilayer Perceptron, POWERDRIVE, Volumetric Iron Losses
Conditional Generative Adversarial Network, Deep Neural Network, E-Volve Cluster, High-Frequency Magnetic Components, Multilayer Perceptron, POWERDRIVE, Volumetric Iron Losses
Link:
IEEE Xplore
Powertrain Modularity & Integration
DAB with Switched Inductor (DAB-SI) for Reduced Effective Currents at Light-load Operation
Audience:
Automotive Component Manufacturers, Electric Vehicle Manufacturers, Electric Vehicle Powertrain Designers, Electronic Suppliers and Manufacturers, Power Electronic Engineers
Automotive Component Manufacturers, Electric Vehicle Manufacturers, Electric Vehicle Powertrain Designers, Electronic Suppliers and Manufacturers, Power Electronic Engineers
Keyword:
Bidirectional Switch, Dual Active Bridge, E-Volve Cluster, Power Electronics, POWERDRIVE, Switched Inductor, Vehicle Power System
Bidirectional Switch, Dual Active Bridge, E-Volve Cluster, Power Electronics, POWERDRIVE, Switched Inductor, Vehicle Power System
Link:
IEEE Xplore
Electric Vehicle Design
Fast and Accurate Non-Linear Model for Synchronous Machines Including Core Losses
Audience:
Automotive Engineers, Control System Designers, Electric Vehicle Designers, Power Electronics Researchers, Simulation and Modelling Professionals
Automotive Engineers, Control System Designers, Electric Vehicle Designers, Power Electronics Researchers, Simulation and Modelling Professionals
Keyword:
Core Loss, E-Volve Cluster, Electric Vehicles, Lookup-Tables, POWERDRIVE, Rotor Topology, State-Space Model, Synchronous Machine
Core Loss, E-Volve Cluster, Electric Vehicles, Lookup-Tables, POWERDRIVE, Rotor Topology, State-Space Model, Synchronous Machine
Link:
IEEE Xplore
Electric Vehicle Design
Interleaved PCB Winding Planar Transformer for Electric Vehicle Charging CLLC Converters
Audience:
Battery and Charge Management Engineers, Charging Infrastructure Providers, Electric Vehicle Charging Infrastructure Developers, Electric Vehicle Manufacturers, Electronic Suppliers and Manufacturers, Electronics Engineers
Battery and Charge Management Engineers, Charging Infrastructure Providers, Electric Vehicle Charging Infrastructure Developers, Electric Vehicle Manufacturers, Electronic Suppliers and Manufacturers, Electronics Engineers
Keyword:
CLLC Converter, DC-DC Converter, E-Volve Cluster, EV Charging Solutions, Finite Element Analysis, High-Frequency Magnetic Components, Interleaving, On-Board Charger, Planar Transformer, POWERDRIVE, Resonant Converter
CLLC Converter, DC-DC Converter, E-Volve Cluster, EV Charging Solutions, Finite Element Analysis, High-Frequency Magnetic Components, Interleaving, On-Board Charger, Planar Transformer, POWERDRIVE, Resonant Converter
Link:
IEEE Xplore
Electric Vehicle Operations
Pareto Optimised High-Frequency Planar Transformers for Electric Vehicle Chargers
Audience:
Battery and Charge Management Engineers, Charging Infrastructure Providers, Electric Vehicle Charging Infrastructure Developers, Power Electronic Engineers, Power Electronics Researchers
Battery and Charge Management Engineers, Charging Infrastructure Providers, Electric Vehicle Charging Infrastructure Developers, Power Electronic Engineers, Power Electronics Researchers
Keyword:
Bridge Circuits, Circuit Simulation, DC-DC Converter, E-Volve Cluster, Magnetic Design, Magnetic Separation, Pareto Optimisation, Planar Transformer, POWERDRIVE
Bridge Circuits, Circuit Simulation, DC-DC Converter, E-Volve Cluster, Magnetic Design, Magnetic Separation, Pareto Optimisation, Planar Transformer, POWERDRIVE
Link:
IEEE Xplore