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Design and analysis of an active battery management system / Maha Ben Romdhane 

Public ISBD Titre : Design and analysis of an active battery management system Type de document : Travail de fin d'études Auteurs : Maha Ben Romdhane, Auteur ; Omar Hegazy, ; François Defrance Editeur : ECAM Année de publication : 2017 Note générale : VRIJE UNIVERSITEIT BRUSSEL Langues : Anglais (eng) Index. décimale : TFE - Electronique Résumé : For the automotive engineering, the battery pack is one of the most important devices in the vehicle. To extend its lifetime, boost performance and efficiency in order to reply to specific applications and minimize the progressive degradation of the individual battery cells, a battery management system (BMS) is needed. This BMS monitors and protects against overcharge, over-discharge and cell imbalance depending on the battery’s chemistry. In this thesis, a battery balancing system is developed. It uses an active inductive topology and switching control strategy through an embedded system. The coil based active battery management system will be applied on a series 4 cells Lithium Ion battery. This research will show the benefits of maintaining the cell balance on the performance and the performance and thr lifetime battery. Design and analysis of an active battery management system [Travail de fin d'études] / Maha Ben Romdhane, Auteur ; Omar Hegazy, ; François Defrance . - ECAM, 2017. VRIJE UNIVERSITEIT BRUSSEL Langues : Anglais (eng) Index. décimale : TFE - Electronique Résumé : For the automotive engineering, the battery pack is one of the most important devices in the vehicle. To extend its lifetime, boost performance and efficiency in order to reply to specific applications and minimize the progressive degradation of the individual battery cells, a battery management system (BMS) is needed. This BMS monitors and protects against overcharge, over-discharge and cell imbalance depending on the battery’s chemistry. In this thesis, a battery balancing system is developed. It uses an active inductive topology and switching control strategy through an embedded system. The coil based active battery management system will be applied on a series 4 cells Lithium Ion battery. This research will show the benefits of maintaining the cell balance on the performance and the performance and thr lifetime battery.

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