Nos actualités
Wheel spinning fun at SuperGrid Institute!
SuperGrid Institute was buzzing with activity again this year for the Mobility Challenge!
PhD Cédric Mathieu de Vienne : “Study and implementation of High-Voltage Switch components composed of series-connected SiC MOSFETs to enable MVDC technologies”
This thesis focuses on the study and development of high-voltage components using series-connected silicon carbide (SiC) MOSFETs.
SuperGrid Institute recipient of the Best Paper Award at PCIM Europe 2023!
We are proud to be a recipient of the Best Paper Award at PCIM Europe 2023! This paper is co-authored with Huawei Nuremberg Research Center.
Spotlight on Jicable’23
SuperGrid Institute is highly invested in this edition of Jicable'23 – and we’re excited about it! Here is a quick overview on what’s coming…
PCIM here we come: sharing our MVDC expertise!
PCIM 2023 is here and we're excited! We'll present our latest innovations and technologies, focusing on our MVDC technologies & services.
SuperGrid Institute se dote d’un générateur de court-circuit aux performances impressionnantes
Après plus de 6 ans de travail pour sa conception, sa construction et ses essais de réception notre générateur de court-circuit est inauguré.
[Communiqué de presse] SuperGrid Institute inaugure un générateur de court-circuit unique en Europe
Cette nouvelle plateforme a été élaborée pour soutenir les industriels dans le développement des futurs équipements haute tension AC & DC.
Successful kick-off of EU-funded project to define technical frameworks and standards for electricity transmission and accelerate the integration of renewable energy
Under the EU’s “Horizon Europe” funding scheme the InterOPERA project will define future interoperability standards for electricity grids.
Nexans and SuperGrid Institute perform their first transient overvoltage test on a 525kV DC cable system
TOV test: the DC cable system successfully passed several sequences of damped oscillating voltage tests at both 350 Hz and 6 kHz.
PhD Helena Shourick: “Theoretical contributions to EMT-TS co-simulation
This thesis focuses on the development of numerical methods for electromagnetic transients - transient stability (EMT-TS) co-simulation.