WInSiC4AP core objective is to contribute in developing reliable technology bricks for efficient and cost-effective applications addressing social challenges and market segments where Europe is a recognized global leader as well as automotive, avionics, railway and defence.
As far as the challenges, in relation to the 2016 MASP, the project addresses the two Key Applications (Smart Mobility and Smart Energy) and the Essential Capability (Semicon Process Equipments Materials) with an approach relied on the strength of “vertical integration” that allows optimization, allows to fit the technologies specifications to the requirements of the applications, and allows the use the full ecosystem.
The above has the aim to enhance the competitiveness of EU- Industries (as well as TIER1 and TIER2) and the value chain in a market context where other countries today, such as the USA or Japan, are advancing and new players are accessing to the SiC market.
New topologies and architecture will be developed, in the project, for targeted application simulating operational environment, at laboratory level, driving the needed and still missed technologies, components and demonstrators to fill the gap between current state of the art and the very high demanding specifications.
In terms of results “to the market” the Project aims to develop reliable technology bricks for efficient and cost-effective applications addressing the above social challenges and market segments where Europe is a recognized global leader as well as automotive, avionics, railway and defence.
Therefore, the project works on group of demonstrators that are:
• DCDC Converters for Automotive with half volume and weight of magnetic components, switching frequencies increased from 25 to 150-200Khz, and target efficiencies up to 96%
• Intelligent Power Switches and Inverter for avionics featuring higher operating temperatures Increase the internal operational temperature range to 85°C (today limited @ 40°C) and switching frequencies >15kHz (in comparison with the actual limit of about 10kHz)
• Compact portable charger for electric vehicles featuring efficiency>93-95% at a 10% less volume/weight in comparison with Si-based actual chargers
• Avionic demonstrators
Moreover, the WInSiC4AP project is one of the first examples of the technical and scientific integration of two financial mechanisms, one is European (with funds from the ECSEL JU programme) and the other all-Italian with the FESR funds from the Italian Ministry of Education and Universities.
The approach taken to the project is also innovative as regarding the strong emphasis on the value chain, at the European level, through the close collaboration in the project between manufacturers, end users, laboratories and research bodies. A keyword that walk with the project is “stay together”. The WPs leadership was well distributed among RTO, companies that provide components, and final users.