Experimental results and validation of lab-scale power converters prototypes
This document provides a comprehensive report on the activities related to the experimental validation of lab-scale power converter prototypes.
Academia and Research Institutions, Automotive Industry Policymakers, Electric Vehicle Manufacturers, Electric Vehicle Powertrain Designers, Environmental and Energy Efficiency Experts, EU Policymakers, Fleet Managers and Operators, Government And Regulatory Agencies, Heavy-Duty Vehicle Producers, Logistics and Freight Operators, Power Electronic Engineers
E-Volve Cluster, Fault Detection Algorithms, Heavy-Duty Electric Transport, Power Converters, Power Electronics, RHODaS, SiC and GaN Devices, SiC/GaN Power Converters
Link:
Rhodas deliverable
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).
Automotive Industry Professionals, Control Systems Developers, Electrical Engineering Researchers, Electrical Engineers, Power Electronics Researchers
E-Volve Cluster, Electric Motors, Fault Detection Algorithms, Fault-Tolerant Control, Integrated Motor Drive, Power Converters, RHODaS, SiC/GaN Power Converters
FMEA 2.0: Machine Learning Applications in Smart Microgrid Risk Assessment
Modern Smart Grids are complex systems incorporating physical components like distributed energy resources and storage, along with cyber components for advanced control, networking, and monitoring.
Consultants in Smart Grid Safety and Reliability, Cyber-Physical System Engineers, Energy System Developers, Government Policy Makers in Energy Infrastructure, Reliability Engineers, Risk Management Specialists, Smart Grid Technology Researchers
Clustering Algorithms, Decision Support Systems, E-Volve Cluster, Heuristic Algorithms, Knowledge Based Systems, Machine Learning Algorithms, RHODaS, Smart Grids
Link:
ieeexplore.ieee.org
High-speed issues mitigation of GaN power transistors based on a new gate driving profile
Electric Vehicle Designers, Electrical Engineering Researchers, Electrical Engineers, Power Electronics Researchers
Link:
IEEE Xplore
Intelligent Power Modules with Integrated Sensors and OTP/OCP Circuits
The report details the results related to the design, fabrication and validation of the compact power modules, including active switches, gate drivers and auxiliary electronics, at a laboratory level conducted as part of the RHODaS project.
Electric Propulsion Researchers, Electrical Engineers, Electronic Suppliers and Manufacturers, EV Manufacturers, Power Electronic Engineers
E-Volve Cluster, Electronic Components, Heavy-Duty Electric Transport, OTP/OCP Circuits, Power Converters, Power Modules, RHODaS, SiC and GaN Devices
Link:
Rhodas deliverable, Zenodo
Lab Testing and Validation of the Thermal Management System
This document reports on the laboratory testing of the Thermal Management System (TMS) for a 150 kW High-Power Converter (HPC). Two prototype heatsinks, one made of copper and the other of aluminium, were tested.
Automotive Component Manufacturers, Automotive Designers, Automotive Manufacturers, Environmental and Energy Efficiency Experts, Thermal Management Researchers, Thermal Systems Engineers
Computational Fluid Dynamics, E-Volve Cluster, Heatsink Design, Power Converters, RHODaS, Thermal Management System
Link:
Rhodas deliverable
Materials Specifications and Requirements for Active and Passive Electronic Components. Selection Matrix and Integration Strategies
This report specifies the active electronic switches and resistive and reactive passive components, as well as converters' materials such as bus-bars and coolers that will be developed in the RHODaS project.
Electric Propulsion Researchers, Electrical Engineers, Electronic Suppliers and Manufacturers, EV Manufacturers, Power Electronic Engineers
E-Volve Cluster, Electronic Components, Heavy-Duty Electric Transport, Power Converters, RHODaS, Semiconductors
Link:
Rhodas deliverable, Zenodo
RHODaS Webinar 1: Design of Electric and Electronic Components for EV Powertrains
The RHODaS Webinar Series presents four interconnected sessions exploring the latest European research on next-generation electric powertrain technologies.
Electric Vehicle Designers, Electric Vehicle Powertrain Designers, Power Electronics Researchers
E-Volve Cluster, Electric Vehicle Components, Power Electronics, RHODaS, SCAPE, SiC and GaN Devices, Webinar, Wide Bandgap Devices
Link:
RHODaS webinar
RHODaS Webinar 2: Design and Development of EV Thermal Management Systems
The RHODaS Webinar Series presents four interconnected sessions exploring the latest European research on next-generation electric powertrain technologies.
Electric Powertrain Researchers, Electric Vehicle Powertrain Designers, Researchers in Thermal Management, Thermal Systems Engineers
Chip-Embedding, Cooling Systems, E-Volve Cluster, Heatsink Design, RHODaS, SCAPE, Thermal Management Solution, Webinar
Link:
RHODaS webinar
RHODaS Webinar 3: Software Design and Development of Digital Tools for EVs
The RHODaS Webinar Series presents four interconnected sessions exploring the latest European research on next-generation electric powertrain technologies.
Digital Design Professionals, Digital Twin Researchers, Digital Twin Technology Specialists, Fleet Managers and Operators, Logistics and Fleet Management Companies
Digital Design, Digital Twin Technology, E-Volve Cluster, Fault Detection Algorithms, MAXIMA, Powertrain Systems, RHODaS, SCAPE, Vehicle Health Monitoring, Webinar
Link:
RHODaS webinar