@ARTICLE{Kusmantoro_Adhi_Solar_2023, author={Kusmantoro, Adhi and Farikhah, Irna}, volume={vol. 72}, number={No 4}, journal={Archives of Electrical Engineering}, pages={931-950}, howpublished={online}, year={2023}, publisher={Polish Academy of Sciences}, abstract={The abundant use of solar energy in Indonesia has the potential to become electrical energy in a microgrid system. Currently the use of renewable energy sources (RESs) in Indonesia is increasing in line with the reduction of fossil fuels. This paper proposes a new microgrid DC configuration and designs a centralized control strategy to manage the power flow from renewable energy sources and the load side. The proposed design uses three PV arrays (300 Wp PV module) with a multi-battery storage system (MBSS), storage (200 Ah battery). Centralized control in the study used an outseal programmable logic controller (PLC). In this study, the load on the microgrid is twenty housing, so that the use of electrical energy for one day is 146.360 Wh. It is estimated that in one month it takes 4.390.800 Wh of electrical energy. The new DC microgrid configuration uses a hybrid configuration, namely the DC coupling and AC coupling configurations.The results of the study show that the DC microgrid hybrid configuration with centralized control is able to alternately regulate the energy flow from the PV array and MBSS. The proposed system has an efficiency of 98% higher than the previous DC microgrid control strategy and configuration models.}, type={Article}, title={Solar power and multi-battery for new configuration DC microgrid using centralized control}, URL={http://ochroma.man.poznan.pl/Content/129533/PDF-MASTER/art05_int.pdf}, doi={10.24425/aee.2023.147419}, keywords={centralized control, DC microgrid, multi-battery, PV array}, }