Summary
Silicon Carbide based power electronics use electrical energy significantly more efficient than current silicon-based semiconductors: gains from 6% to 30% are expected depending on application. TRANSFORM will provide European downstream market players with a reliable source of SiC components and systems based on an entirely European value chain - from substrates to energy converters. Its technical excellence strengthens the global competitive position of Europe. TRANSFORM improves current SiC technologies beyond state-of-the-art to serve large emerging markets for electric power conversion in renewable energies, mobility and industry. Substrate manufacturing process innovation will establish a new global standard: smart-cut technology allows high scalability, superior performance and reliability. Substrate and equipment manufacturers plus technology providers cooperate to increase maturity of the new processes from lab demonstration to pilot lines. Device manufacturers develop and tailor processes and device design based on the new substrate process, including adaptation of planarMOS and development of new TrenchMOS technology. Performance and reliability of devices is expected to increase greatly. For exploiting the potential of SiC devices, integration technologies and system design are improved concurrently, including new copper metallization processes for higher reliability and performance, module integration for high reliability and reduction of cost, and dedicated integrated driver technologies to optimize switching modes and parallel operation in high current applications. The project will demonstrate energy savings in applications (DC/AC, DC/DC, AC/DC) in the renewable energy domain, industry and automotive. TRANSFORM contributes to European societal goals and the green economy through significantly increasing energy efficiency by providing a competitive, ready-to-industrialized technology, strengthening Europes technological sovereignty in a critical field.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/101007237 |
Start date: | 01-05-2021 |
End date: | 31-10-2024 |
Total budget - Public funding: | 89 087 499,00 Euro - 20 736 450,00 Euro |
Cordis data
Original description
Silicon Carbide based power electronics use electrical energy significantly more efficient than current silicon-based semiconductors: gains from 6% to 30% are expected depending on application. TRANSFORM will provide European downstream market players with a reliable source of SiC components and systems based on an entirely European value chain - from substrates to energy converters. Its technical excellence strengthens the global competitive position of Europe. TRANSFORM improves current SiC technologies beyond state-of-the-art to serve large emerging markets for electric power conversion in renewable energies, mobility and industry. Substrate manufacturing process innovation will establish a new global standard: smart-cut technology allows high scalability, superior performance and reliability. Substrate and equipment manufacturers plus technology providers cooperate to increase maturity of the new processes from lab demonstration to pilot lines. Device manufacturers develop and tailor processes and device design based on the new substrate process, including adaptation of planarMOS and development of new TrenchMOS technology. Performance and reliability of devices is expected to increase greatly. For exploiting the potential of SiC devices, integration technologies and system design are improved concurrently, including new copper metallization processes for higher reliability and performance, module integration for high reliability and reduction of cost, and dedicated integrated driver technologies to optimize switching modes and parallel operation in high current applications. The project will demonstrate energy savings in applications (DC/AC, DC/DC, AC/DC) in the renewable energy domain, industry and automotive. TRANSFORM contributes to European societal goals and the green economy through significantly increasing energy efficiency by providing a competitive, ready-to-industrialized technology, strengthening Europes technological sovereignty in a critical field.Status
SIGNEDCall topic
ECSEL-2020-1-IAUpdate Date
27-10-2022
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