A typical solar photovoltaic (PV) system consists of several components that work together to harness sunlight and convert it into electricity. These components include:
Solar Panels: Solar panels are the most visible part of a solar PV system. They are made up of multiple solar cells that capture sunlight and convert it into direct current (DC) electricity. Solar panels are typically mounted on rooftops, ground mounts, or other suitable structures with maximum exposure to sunlight.
Mounting Structure: The mounting structure holds the solar panels securely in place and ensures they are properly angled to receive the maximum amount of sunlight throughout the day. It can be fixed or adjustable depending on the specific installation requirements.
Inverters: The electricity generated by solar panels is in the form of DC, but most household appliances and the grid operate on alternating current (AC). Inverters are devices that convert DC electricity into AC electricity, making it suitable for use in homes and businesses. There are three main types of inverters used in solar PV systems:
a. String Inverters: These are the most common type of inverters and are used in traditional solar PV systems. They convert the DC electricity from multiple solar panels connected in series (string) into AC electricity.
b. Microinverters: Microinverters are installed on each individual solar panel, converting the DC electricity to AC right at the source. This design allows each panel to operate independently, which can improve system performance and monitoring.
c. Power Optimizers: Power optimizers are installed at the back of each solar panel, like microinverters, but they work in conjunction with a central inverter. They optimize the power output of each panel before it is converted to AC.
Solar Batteries (Optional): Solar batteries are used to store excess electricity generated by the solar panels. These batteries allow homeowners to store the energy produced during sunny days and use it during cloudy periods or at night when the solar panels are not generating electricity. This increases the self-consumption of solar energy and can provide backup power during grid outages.
Charge Controller (for Battery Systems): If the solar PV system includes batteries, a charge controller is used to regulate the flow of electricity between the solar panels and the batteries. It prevents overcharging of the batteries, which could lead to damage or reduced battery lifespan.
Metering System: A metering system is installed to measure the solar system's electricity production and, in some cases, the electricity consumption. It allows homeowners to monitor their energy usage and track how much energy is being fed back to the grid or consumed on-site.
Electrical Panel (Distribution Board): The AC electricity generated by the solar system is fed into the electrical panel, which distributes it to power the appliances and electrical loads in the building. In cases where the solar system generates more electricity than is consumed, the excess may be sent back to the grid, depending on the local net metering or feed-in tariff regulations.
Overall, a solar PV system with inverters and batteries, if used, enables homeowners and businesses to generate renewable electricity and potentially reduce their dependence on the grid, leading to cost savings and environmental benefits.