Fault identification in HVDC grids using a transient parametric model
This paper presents a novel single-ended fault identification algorithm for meshed High Voltage Direct Current grids.
This paper presents a novel single-ended fault identification algorithm for meshed High Voltage Direct Current grids.
This paper investigates the gate-driver design challenges encountered due to the fast switching of wide band-gap semiconductors (here, SiC MOSFETs) in the half-bridge configuration.
The experimental studies show the effects of the transformer construction and vector group (star/delta) on the common-mode currents through the gate drivers of SiC MOSFETs in a 100kW 1.2kV three-phase dual active bridge converter.
In this paper, a methodology is proposed to define the optimal rated power and number of PEBBs.
A synergetic effect between hBN and alumina has been observed regarding thermal and electrical properties. A 500% increase in the thermal conductivity could be achieved with a limited impact on viscosity increase.
One of the possible SF6 alternatives that emerged in recent times is a fluoronitrile (FN), NovecTM 4710, based mixture.
SuperGrid Institute présent pour la deuxième année consécutive sur le podium des déposants de brevets en France, dans la catégorie PME!
We are very excited to be able to share our first ever annual report with you!
The International Smart Grid Action Network (ISGAN) has recently published its discussion paper “micro vs MEGA: trends influencing the development of the power system”, with the contribution of SuperGrid Institute experts.
The International Smart Grid Action Network (ISGAN) has recently published its discussion paper “micro vs MEGA: trends influencing the development of the power system”, with the contribution of SuperGrid Institute experts.