A Fuel-Efficient BLDC Motor-Driven Light Electric Vehicle With Single-Stage Onboard Charging System
Anjanee Kumar Mishra, Ankit Kumar Singh, Gururaj Mirle Vishwanath
Abstract
This work proposed a simple, compact, and efficient scheme for an onboard charging configuration for light plug-in electric vehicles (LPEVs) with a dual charging arrangement, i.e., utility grid and solar panel. The system is targeted to develop an LPEV with a low dc bus voltage (< 100 V) and onboard solar support using a brushless dc motor (BLDCM) drive due to its economic controller, compact drive arrangement, and high efficiency. The designed integrated converter works well under all operating modes such as charging, propulsion (PP), and regenerative braking (RB) operations. The developed converter works as a power factor correction (PFC) converter during grid charging as well as performs a maximum power point tracking (MPPT) converter when charging through solar power. A new approach of the controller in regenerative mode exploiting both the drive and proposed integrated control is unique for this system. As a result, the designed system becomes compact and efficient, making it a competitive solution for an onboard charging scheme for LEVs.