The ability to monitor temperature variations during the actual operation of power modules is key to reliability investigations and the development of lifetime prediction strategies. This paper proposes an original solution, specifically devised with novel fast-switching silicon carbide (SiC) power MOSFETs in mind. The results show ability to track temperature variations resulting from active power cycling of the devices, including high speed transients, thus enabling to discriminate among different potential failure mechanisms. Validation of the proposed methodology and its accuracy is carried out with the support of infrared thermography.
Experimentally validated methodology for real-time temperature cycle tracking in SiC power modules / Stella, Fausto; Olanrewaju, Olufisayo; Yang, Zineng; Catellazzi, Alberto; Pellegrino, Gianmario. - ELETTRONICO. - (In corso di stampa). (Intervento presentato al convegno 29th European Symposium on Reliability of Electron Devices, Failure Physics and Analysis (ESREF 2018) tenutosi a Aalborg (DK) nel OCTOBER 1-5, 2018).
Experimentally validated methodology for real-time temperature cycle tracking in SiC power modules
Fausto Stella;Gianmario Pellegrino
In corso di stampa
Abstract
The ability to monitor temperature variations during the actual operation of power modules is key to reliability investigations and the development of lifetime prediction strategies. This paper proposes an original solution, specifically devised with novel fast-switching silicon carbide (SiC) power MOSFETs in mind. The results show ability to track temperature variations resulting from active power cycling of the devices, including high speed transients, thus enabling to discriminate among different potential failure mechanisms. Validation of the proposed methodology and its accuracy is carried out with the support of infrared thermography.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2713894
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