Dissertation topics suggested by the teacher.
- M.Sc. internship with thesis abroad at Texas Instruments
Development of a reference design board for an active neutral point clamped inverter
Duration: 6 months
Place: Munich, Germany
UNIBO Supervisor: Prof. Riccardo Mandrioli
Industry Supervisor: Riccardo Ruffo, PhD
- M.Sc. thesis in collaboration with the Power Electronics Group of the Eindhoven University of Technology
Circularity-aware design of an Interleaved synchronous boost converter for industrial applications
Duration: 6 months
Place: Bologna, Group of Power Electronics and Photovoltaics
UNIBO Supervisors: Prof. Riccardo Mandrioli and Prof. Mattia Ricco
Tu/e Supervisors: Prof. Francesca Grazian and Prof. Lorenzo Ceccarelli
Recent dissertations supervised by the teacher.
First cycle degree programmes dissertations
- Confronto tra Full Power Processing e Partial Power Processing per la Ricarica in Movimento di Filobus
- Convertitori elettronici di potenza ad alta tensione per la propulsione ionica stratosferica
- Idrogeno da fotovoltaico: effetti delle configurazioni impiantistiche e dell'ambiente esterno sulla produttività
- Stato dell'arte sui convertitori elettronici di potenza per celle a combustibile in ambito automobilistico
- Studio e dimensionamento di un impianto fotovoltaico galleggiante in parallelo alla centrale idroelettrica di Bargi
Second cycle degree programmes dissertations
- A comprehensive study of rotating electrical machines with a focus on externally excited synchronous machines: design example of a radial rotary transformer
- Analysis of efficiency-enhancing techniques for DC/DC step down converters at the hardware and software level
- Charging Performance and Drivability of Electric Vehicles
- Design and Implementation of an Optimal Predictive Controller for Dual Active Bridge Converter
- Design and Industrialization of a Battery Charger for Electric Scooters Based on Wireless Power Transfer
- Design of High-Power Interleaved Inverters for UPS Applications
- Low-Voltage High-Current Inverter Design for Motorsport Applications
- Model Predictive Control of a Photovoltaic-Powered Domestic Hot Water Generation System with Electric and Thermal Energy Storage: Optimization of Operational Costs and Profitability.
