Title :
Regenerative-friction braking distribution. Tool for the comparison of strategies and vehicles configurations
Author :
de Prada Martin, L. ; Gonzalez Hernandez, M.I. ; Martin Sanchez, J.S. ; Araujo Perez, B. ; Canibano Alvarez, E.
Author_Institution :
Fundacion CIDAUT, Valladolid, Spain
Abstract :
One of the most important features of electric vehicles is their ability to recover significant amounts of braking energy. The electric motors can be controlled to operate as generators in order to convert the kinetic or potential energy of the vehicle into electric energy that can be stored in the battery and then reused. In a hard braking manoeuvre, the braking torque is much larger than the torque that an electric motor can produce. So, mechanical friction braking systems have to coexist with electrical regenerative braking. Additionally, several electric vehicle configurations are feasible taking account different location of the electric motors (different layouts). A considerable variety of possible architectural solutions, ranging from one to four individually controlled electric drive units is possible.
Keywords :
electric vehicles; friction; machine control; motor drives; regenerative braking; secondary cells; braking energy; braking manoeuvre; braking torque; electric drive units; electric energy; electric motors; electric vehicle configurations; electrical regenerative braking; kinetic energy; mechanical friction braking systems; potential energy; regenerative-friction braking distribution; Axles; Batteries; Friction; Torque; Traction motors; Vehicle dynamics; Vehicles; 5pt italic; list 3–5 keywords from the provided keyword list in 9; separated by commas;
Conference_Titel :
Electric Vehicle Symposium and Exhibition (EVS27), 2013 World
Conference_Location :
Barcelona
DOI :
10.1109/EVS.2013.6914975
