Multi-Objective Reconfigurable Three-Phase Off-Board Charger for EV

Abstract

This paper deals with the control and implementation of solar photovoltaic (PV) array-based multi-objective bi-directional charger beneficial for electric vehicle (EV), household load, and utility. For EV, the charger provides the charging facility. For household load, the charger acts as a standalone inverter, and for utility the charger acts as an active power filter. However, for providing the multi-functionality and the multi-mode operation capability of the charger, a reconfigurable control strategy is proposed. Moreover, an adaptive dc-link voltage strategy is proposed for achieving the optimum voltage at dc link under all voltage conditions for achieving minimum ripple in grid currents. The charger also uses a voltage synchronization strategy for achieving the seamless mode transition between the grid-connected and standalone modes. In grid-connected mode, the charger uses a double second-order generalized integrator-based positive sequence estimator along with the improved linear sinusoidal tracer-based algorithm for generating the balanced and sinusoidal reference grid currents, under the unbalanced and distorted grid voltages. The charger is implemented in the laboratory, and the performance is presented under various steady-state and dynamic conditions.