Title :
Regenerative brake system for small scale electric bus
Author :
Ferreira, T.J.P. ; Melo, G.A. ; Canesin, C.A. ; Brito, M.A.G.
Author_Institution :
Electr. Eng. Dept., Sao Paulo State Univ. - UNESP, Ilha Solteira, Brazil
Abstract :
This paper proposes a regenerative braking system for a small-scale prototype applied to an electric bus, which is driven by a DC motor. The employed topology is based on two bidirectional DC-DC converters, cascaded connected, and with specific energy control function to provide energy flux between accumulators and motor drive. The recovered energy provided for the traction motor, when operating as a generator, is stored in a supercapacitor pack, which can feed the Li-Ion battery packs, depending on their charge conditions. Using MatLab-Simulink integrated to a DSpace platform for the control logic development, a prototype was designed for practical investigation. Finally, it should be informed that the experimental results from this prototype will be presented in a future paper.
Keywords :
DC motors; DC-DC power convertors; Simula; battery powered vehicles; mathematics computing; power engineering computing; regenerative braking; secondary cells; supercapacitors; DSpace platform; Li-ion battery packs; Matlab-Simulink; accumulators; bidirectional dc-dc converters; charge conditions; control logic development; dc motor; electric bus; energy flux; generator; motor drive; regenerative braking system; small-scale prototype; specific energy control function; supercapacitor pack; traction motor; Acceleration; Batteries; Process control; Supercapacitors; Traction motors; Vehicles; Voltage control;
Conference_Titel :
Industry Applications (INDUSCON), 2014 11th IEEE/IAS International Conference on
Print_ISBN :
978-1-4799-5550-3
DOI :
10.1109/INDUSCON.2014.7059402
