Biography

I am a PhD student in Electrical Engineering at the University of Pavia, in collaboration with ENI SpA, conducting research on SiC MOSFET-based high-current power converters for magnetic field generation, with potential applications in nuclear fusion and particle acceleration. My work also explores various topologies of grid-connected and DC-DC converters, focusing on energy storage integration, grid support, control system design, real-time simulation, and hardware-in-the-loop testing. I’m involved in research projects such as a multilevel STATCOM system with Nidec SpA for supercapacitor-based grid support, and active filtering systems with the University of Cagliari using triple active bridge topologies.

CV

Projects

Grid Active Node for DC Electrical Systems (GRAND)

Development of innovative multi-port power conversion systems for DC microgrids that enable seamless integration of Distributed Energy Resources and Storage into the Internet of Energy: focus on advanced control, optimized design, and remote operability.

SiC MOSFET-Based Power Supply for high-current applications

Proper design of electrical converters is essential for applications requiring precise current control, especially in high-current (tens of kiloamperes) systems used for generating strong magnetic fields in plasma confinement or particle acceleration.

Contacts