An enhanced performance IPT based battery charger for electric vehicles application
الملخص
World-wide scientists/engineers were motivated to research in the area of renewable energy resources and to reduce the consumption of fossil fuels. Hence, electric and hybrid vehicles have won the attention of many researchers and vehicles manufacturers. Electric vehicle requires a charging system having a high degree of reliability and robustness and to run maintenance-free. This brings the inductive power transfer (IPT) systems to play a significant role in electric vehicle battery chargers applications. IPT system has proved its capability to be a safe, convenient, and efficient electric vehicle battery charger through its features, such as operating in a harsh environment, high efficiency at reasonable power levels, and decreasing equipment maintenance through operating without any mechanical contacts. This paper presents an enhanced performance IPT system, which is particularly suitable for electric vehicle battery charging application. The proposed system is slightly affected by the small tolerance between sender (track coil) and receiver (pickup coil). Relation between application, transformer configuration selection, and power converter controller is discussed in details. The proposed system effectiveness is investigated, in addition to simulation, by an experimental set-up.
المجموعات
- الهندسة الكهربائية [2649 items ]
وثائق ذات صلة
عرض الوثائق المتصلة بواسطة: العنوان، المؤلف، المنشئ والموضوع.
-
Performance assessment of two-timescale multi-objective volt/var optimization scheme considering EV charging stations, BESSs, and RESs in active distribution networks
Zamzam, Tassneem; Shaban, K.; Gaouda, A.; Massoud, Ahmed ( Elsevier Ltd , 2022 , Article)The high penetrations of distributed energy resources of renewable energy sources, battery energy storage systems, and electric vehicles introduced several challenges to power networks. It can lead to high voltage variation, ... -
Home energy management system embedded with a multi-objective demand response optimization model to benefit customers and operators
Amer, A.; Shaban, K.; Gaouda, A.; Massoud, Ahmed ( MDPI AG , 2021 , Article)This paper proposes a Home Energy Management System (HEMS) that optimizes the load demand and distributed energy resources. The optimal demand/generation profile is presented while considering utility price signal, customer ... -
Development of energy efficient battery electric car for Shell Eco-Marathon competition - Qatar University experience
Howlader A.H.; Chowdhury N.A.; Faiter M.M.K.; Touati F.; Benammar M.A. ( IEEE Computer Society , 2014 , Conference Paper)The paper reports on the participation of Electrical Engineering students of Qatar University students in Shell Eco Marathon (SEM) competition, which aims at designing and racing energy efficient vehicles. This participation ...