Independently Controllable Single-Input Dual-Output DC-DC Converter for DC Microgrid Based PV Fed EV Charging Stations

Publications

Independently Controllable Single-Input Dual-Output DC-DC Converter for DC Microgrid Based PV Fed EV Charging Stations

Year : 2024

Publisher : Institute of Electrical and Electronics Engineers Inc.

Source Title : 2024 IEEE 4th International Conference on Sustainable Energy and Future Electric Transportation, SEFET 2024

Document Type :

Abstract

A new non-isolated single-input dual-output (NI-SIDO) DC-DC converter is proposed in this paper. The converter has the advantage of incorporating multiple outputs for energy storage applications, applicable in DC micro-grid storage systems, Electric vehicular charging stations, battery converters, and renewable energy systems without a filter capacitor. The significant advantage of the converter is it uses the interleaving technique to incorporate the outputs. The voltage stress across the switches and capacitor voltage stress is also reduced drastically. Thus it reduces the capacitor size when compared with the conventional boost converter. A closed-loop control strategy is implemented to control the load voltage as well as the inductor current. The converter is designed, analyzed, implemented, and tested using MATLAB SIMULINK software for 150W. The Simulation results are presented under various operating conditions such as changes in load with solar PV systems. The results from real-time testing are presented with the OPAL-RT system.