Component Sizing of Electric Vehicles: A Programming
Approach 2022-01-5085
The rising demand for battery electric vehicles has resulted in market saturation
in terms of various start-ups, and established automakers are also introducing
new models every year. The automakers have to put a lot of effort into sizing
powertrain components optimally to get the best performance and efficiency. This
paper proposes a programming approach for estimating the preliminary component
sizing based on analytical equations regarding electric motor power rating and
battery-pack energy capacity. Estimating tractive force for various vehicle
performance goals dictates the motor power rating. The battery sizing for
lead-acid and Li-ion batteries is proposed based on the empirical relationship
between vehicle curb weight and battery-pack weight and the energy consumption
approach. The validation and verification of the program based on output
accuracy and user experience are presented.