Archivio Istituzionale della RicercaThis paper presents a complete design methodology for a 60 kW AC/DC active rectifier stage of a modular electric vehicle ultra-fast battery charger. Due to the well known performance of three-level unidirectional rectifiers, a T-type converter topology is selected. Moreover, in view of the high target nominal power of the converter, a six-leg approach is adopted, thus halving the current rating of each bridge-leg and allowing for the adoption of conventional discrete semiconductor devices (i.e., Si MOSFETs and Si diodes). Therefore, a step-by-step design procedure is proposed, based on the selection, sizing and/or optimization of all main converter active and passive components, including the semiconductor devices, the DC-side capacitors, the AC-side inductors and the loss dissipation system (i.e., heatsink and fans). Finally, a 60 kW converter prototype is realized and its performance is experimentally assessed.
Design and Experimental Assessment of a 60 kW All-Si Three-Phase Six-Leg T-Type Rectifier for Electric Vehicle Ultra-Fast Charging / Cittanti, Davide; Vico, Enrico; Gregorio, Matteo; Bojoi, IUSTIN RADU. - ELETTRONICO. - (2021), pp. 01-08. (Intervento presentato al convegno 2021 International Conference on Electrical, Computer, Communications and Mechatronics Engineering (ICECCME) tenutosi a Mauritius, Mauritius nel 7-8 Oct. 2021) [10.1109/iceccme52200.2021.9590926].
Design and Experimental Assessment of a 60 kW All-Si Three-Phase Six-Leg T-Type Rectifier for Electric Vehicle Ultra-Fast Charging
Davide Cittanti;Enrico Vico;Matteo Gregorio;Radu Bojoi
2021
Abstract
This paper presents a complete design methodology for a 60 kW AC/DC active rectifier stage of a modular electric vehicle ultra-fast battery charger. Due to the well known performance of three-level unidirectional rectifiers, a T-type converter topology is selected. Moreover, in view of the high target nominal power of the converter, a six-leg approach is adopted, thus halving the current rating of each bridge-leg and allowing for the adoption of conventional discrete semiconductor devices (i.e., Si MOSFETs and Si diodes). Therefore, a step-by-step design procedure is proposed, based on the selection, sizing and/or optimization of all main converter active and passive components, including the semiconductor devices, the DC-side capacitors, the AC-side inductors and the loss dissipation system (i.e., heatsink and fans). Finally, a 60 kW converter prototype is realized and its performance is experimentally assessed.
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https://hdl.handle.net/11583/2937192