Title :
Implementation of VaReB technology on electric vehicle
Author :
Parashar, Tanmay ; Mathur, Aseem ; Kohli, Dhruv ; Mittal, Rajveer ; Dube, Anirudh
Author_Institution :
Dept. of EEE, M.A.I.T., Delhi, India
Abstract :
Due to steeply falling reserves of fossil fuels and ever rising prices of Crude Oil, the need for an alternative system to replace IC(Internal Combustion) Engine driven Vehicles for the purpose of Transportation has become a necessary action. Electric Power Vehicles can play a critical role in the substitution to traditional Fossil Fuel powered Vehicles on the globe. Electric Vehicle´s (EV) functional setup comprises essentially of BLDC Hub Motor, Battery Array, Stock Chassis and Regenerative Braking Module which has been modified, designed and developed to achieve the desired function. The VaReB Technology enables the commuter to attain the desired level of Regenerative Power. This is accomplished by variation in the values of Capacitances in the Circuit which is physically controlled by the Electric Brake paddle attached to the Chassis of the Vehicle.
Keywords :
battery powered vehicles; brushless DC motors; crude oil; fossil fuels; pricing; regenerative braking; secondary cells; transportation; BLDC hub motor; EV functional setup; IC engine; VaReB technology implementation; alternative system; battery array; brushless DC motors; capacitance; crude oil prices; electric brake paddle; electric power vehicles; fossil fuel powered vehicles; internal combustion engine; rechargeable storage batteries; regenerative braking module; regenerative power level; stock chassis; transportation; Batteries; Brushless DC motors; Electric vehicles; Synchronous motors; BLDC Hub Motor; Electric Vehicle; Regenerative Braking; VaReB;
Conference_Titel :
Power India International Conference (PIICON), 2014 6th IEEE
Print_ISBN :
978-1-4799-6041-5
DOI :
10.1109/34084POWERI.2014.7117647
