Author :
Caratozzolo, P. ; Serra, M. ; Ocampo, C. ; Riera, J.
Abstract :
Hybrid electric vehicles, HEV, are an attractive opportunity to use new energy sources in road transportation, not only to minimize fuel consumption but also to reduce air pollution. Efforts are being made to improve the HEV electrical subsystems, such as electric motors, power converters, electronic controllers, energy management units, batteries, and, more importantly, the system-level integration and optimization. This paper pretends to contribute in the improvement of the hybrid drive-train configuration applying a new motion system, the joint system, JS. In this article the authors show the possible application of JS, in a simplified HEV model with series configuration. An optimized vector control technique is applied to the JS propulsion drive to enhance the HEV performance. The performance of the series HEV model with JS power-train has been checked by simulation.
Keywords :
electric propulsion; hybrid electric vehicles; machine vector control; power convertors; traction motor drives; air pollution reduction; batteries; electric motors; electronic controllers; energy management units; energy sources; fuel consumption minimisation; hybrid drive-train configuration; joint system; motion system; optimized vector control; power converters; propulsion system; road transportation; series hybrid electric vehicle; system-level integration and optimization; Air pollution; Control systems; Electric motors; Energy management; Fuels; Hybrid electric vehicles; Power system modeling; Proposals; Propulsion; Road transportation;
