In the paper it is discussed on the performances of an electrochemical supercapacitor and battery hybrid power source for on-board applications. The system is analytically represented by means of a double time scale model, which is experimentally validated on a 80 V prototype using a pulsing load. Focusing on interrelations among battery, supercapacitor and load, power peaks, internal losses and lifecycle issues are discussed with the aim to define criteria and design directives for battery and supercapacitor integration in a compact and light system.
Supercapacitor Flywheel for High Power Electrochemical Sources / Pagano, Mario; L., Piegari. - STAMPA. - I:(2004), pp. 718-723. (Intervento presentato al convegno Power Electronics Specialists Conference PESC 2004 tenutosi a Aachen, Germany nel June 20-25, 2004) [10.1109/pesc.2004.1355837].
Supercapacitor Flywheel for High Power Electrochemical Sources
PAGANO, MARIO;
2004
Abstract
In the paper it is discussed on the performances of an electrochemical supercapacitor and battery hybrid power source for on-board applications. The system is analytically represented by means of a double time scale model, which is experimentally validated on a 80 V prototype using a pulsing load. Focusing on interrelations among battery, supercapacitor and load, power peaks, internal losses and lifecycle issues are discussed with the aim to define criteria and design directives for battery and supercapacitor integration in a compact and light system.File | Dimensione | Formato | |
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