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Completed HORIZON European Commission

High Performance Power Electronics Integrations

€5.48M EUR

Funder European Commission
Recipient Organization Virtual Vehicle Research Gmbh
Country Austria
Start Date Nov 01, 2022
End Date Oct 31, 2025
Duration 1,095 days
Number of Grantees 13
Roles Participant; Coordinator; Associated Partner
Data Source European Commission
Grant ID 101056760
Grant Description

HiPE brings together 13 participants covering the whole value chain, to develop a new highly energy-efficient, cost-effective, modular, compact and integrated wide bandgap (WBG) power electronics solutions for the next generation of battery electric vehicles (BEV), and to facilitate a significant market penetration of WBG in the automotive sector.The project outputs will include: i) a scalable and modular family of WBG-based traction inverters and DC/DC converters with significantly improved specific cooling performance, suitable for 400V, 800V and 1200V applications, with power ratings from 50 to 250 kW, integrated into electric drives enabling drastic size and weight reductions; ii) a family of integrated WBG-based on-board chargers and DC/DC converters, with optimised innovative topologies, including use of GaN; and iii) integrated, fault-tolerant and cost-effective GaN-based power electronics for high-voltage ancillaries and chassis actuators.

The result will be an unprecedented level of functional integration, e.g., the HiPE power electronics solutions will be smart cyber-physical systems, incl. intelligent and predictive controllers to optimise performance, innovative and computationally efficient data-driven approaches to monitor the state-of-health of the relevant hardware, as well as novel digital-twin-based methodologies to tailor the component- and vehicle-level algorithms to the specific condition of the hardware installed on each individual BEV, and actively control the reliability and availability of the relevant parts.

This will be achieved while preserving the expected automotive quality level without having to recur to overengineering, thanks to the innovative implementation of data-driven dependability techniques for cyber-physical systems.

The extensive simulation analyses running in parallel with the design and experimental activities will further demonstrate the scalability, modularity and wider potential impact of power electronics solutions.

All Grantees

Ideas & Motion Srl; Nexperia Germany Gmbh; Fraunhofer Gesellschaft Zur Forderung Der Angewandten Forschung Ev; Skoda Auto As; Ustav Teorie Informace A Automatizace Av Cr Vvi; Virtual Vehicle Research Gmbh; Avl List Gmbh; Technische Universitaet Ilmenau; Iesta - Institut Fur Innovative Energie -Stoffaustauschsysteme; Ford Otomotiv Sanayi Anonim Sirketi; Tenneco Automotive Europe Bvba; University of Surrey; Marelli Europe Spa

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