The smart charge controller is designed with a view to decrease the battery charging time, making it capable of charging more than one battery at a time and getting the desired current from the
In this study, an Arduino Nano (microcontroller) is employed to develop battery charge control system for PV panels. The proposed system is composed of an Arduino Nano, sensors, synchronous buck converter, a Wi-Fi module
Solar charging is becoming a popular way to power electronics when grid power is not easy to access. For solar applications, a MPPT algorithm is needed to maximize the use of the solar
For the implementation of an intelligent technique in solar PV battery charge control system Fuzzy logic is also implemented with 3-stage charge regulators with lead-acid battery. This system configuration is fit to charge a battery of 48 V from the 2-kW solar photovoltaic power source. MPPT system configuration block diagram
The implemented circuit consists of a 60 W photovoltaic (PV) module, a buck converter with an MPPT controller, and a 13.5V-48Ah battery. The performance of the solar charge controller is increased by operating the PV module at the maximum power point (MPP) using a modified incremental conductance (IC) MPPT algorithm.
Many industrial solar Photovoltaic charge controllers use the P&O MPPT because of the ease with which it can be tracked and implemented. This MPPT algorithm measures the PV array’s maximum power and delivers a duty cycle proportional to that power to the battery charge controller.
The main contribution of this study involves: To perform the MPPT process in the PV (Photovoltaic) system combined with the Buck-Boost Converter (BBC) using the proposed novel hybrid PSO (Particle Swarm Optimisation) and SSO (Salp Swarm Optimisation) to increase the efficiency of battery charging.
Therefore, one of the alternatives to store energy is batteries. As a result, the solar photovoltaic charge controller plays a very important role in allowing this solution to be possible. The MPP charge controller for solar photovoltaics is made up of a BCC and an MPP tracker.
This system configuration is fit to charge a battery of 48 V from a 2-kW solar photovoltaic power source also controlling the charging by utilizing a 3-stage battery charging technique with maximum power point trackers for charge controllers.
