In our daily life, solar inverters play a very important role. It is widely used in our home equipment, travel equipment and other equipment. Let's take a look at how solar inverters work.
A solar inverter converts a DC voltage into a high-voltage current. In addition to this main inverter circuit, it also has a control circuit and an auxiliary circuit. In addition, there are special circuits for protection. The main function of the control circuit is to control the opening and closing of the switching tube of the inverter, and to complete the inverter function with the main inverter circuit.
The main function of the input circuit is to provide the main inverter circuit with a DC voltage that can ensure the normal operation of the circuit. The main function of the output circuit is to ensure the quality of the AC power output from the main inverter circuit, and to adjust and modify the output voltage to make it meet the user's requirements. The main function of the auxiliary circuit is to convert the input voltage of the inverter circuit into DC power suitable for the control circuit and to detect various circuits. The main function of the protection circuit is to protect the various circuits from overheating and voltage.
The main application scenarios of solar inverters are wide, mainly including cars, notebooks, air conditioners, home theaters, electric wheels, power tools, sewing machines, TVs, washing machines, range hoods, refrigerators, video recorders, massagers, fans, lighting, etc. It is used to provide AC auxiliary power for DC power supply. In some places where AC power is needed, a solar inverter can be used to convert DC power to AC power. Many common systems using solar energy use a lot of electricity. The electricity generated by the energy of the sun is DC power, and the power grid needs AC power, so it can invert the DC power generated by solar energy to AC power, and then input it into the power grid.
