Title :
A dual-topology ICPT applied to an electric vehicle battery charger
Author :
Auvigne, C. ; Germano, P. ; Ladas, D. ; Perriard, Y.
Abstract :
In many applications, it can be useful transferring energy from a power supply to the load without any physical link. Such a solution can avoid corrosion, waterproofness problems on the one hand. And can help simplifying mechanical design on the other hand. Furthermore, it increases security level making the plugging of the cable useless, especially for high voltage transmission. This can been achieved with an inductive coupler power transfer (ICPT). In most applications, the transformer is loaded by a linear resistance. Thus, in order to recharge batteries, a converter is usually placed at the secondary side to manage battery load profile (a first step at constant current and a second one at constant voltage). The paper discusses a new method allowing the generation of this profile from the primary side. In order to achieve this goal, two compensation topologies are used.
Keywords :
battery chargers; battery management systems; battery powered vehicles; inductive power transmission; power convertors; power supplies to apparatus; power transformers; secondary cells; battery load profile management; cable plugging; converter; corrosion; dual-topology ICPT; electric vehicle battery charger; high voltage transmission; inductive coupler power transfer; linear resistance transformer; mechanical design; power supply; rechargeable battery; security level; waterproofness problem; Batteries; Capacitors; Current measurement; Load modeling; Mathematical model; Topology; Voltage measurement; ICPT; Inductive Coupled Power Transfer; compensation topology; contactless battery charger;
Conference_Titel :
Electrical Machines (ICEM), 2012 XXth International Conference on
Conference_Location :
Marseille
Print_ISBN :
978-1-4673-0143-5
Electronic_ISBN :
978-1-4673-0141-1
DOI :
10.1109/ICElMach.2012.6350201
