Design and Implementation of Multilevel Inver...

Design and Implementation of Multilevel Inverters for Electric Vehicles

Author Name : Ashutosh Bodade, Manisha Tima, Ketan Raj, Prof. Vedanti Hardas

ABSTRACT

This venture presents a fell H-connect staggered inverter for crossover electric vehicles (HEV) applications actualized without the utilization of inductors. Right now accessible force inverter situation for HEVs utilize a dc support converter to help the battery voltage for a conventional three-stage inverter. The present HEV foothold drive inverters have low force thickness, are costly, and have low proficiency since they need a massive inductor. A fell H-connect staggered inverter plan for HEV applications actualized without the utilization of inductors is proposed in this task. A principal exchanging plan is utilized to do balance control and to deliver a five-level stage voltage. The proposed dc–ac fell H-connect staggered inverter can create a yield ac voltage without the utilization of inductors. The use of this dc–ac inverter on HEV can bring about the disposal of the massive inductor of present dc–dc support converters

Keywords:Cascaded Multilevel Inverter(CMLI), Hybrid Electric Vehicles(HEV)