In industrial production, you often see the presence of a high-voltage DC power supply, which offers continuous adjustable voltage and current values from zero to their rated levels. It features automatic switching between constant voltage and constant current modes, and the ability to select protective electricity, as well as simultaneous display of voltage and current.
Inverter circuits typically input direct current (DC) voltage, as photovoltaic power generation produces DC electricity through solar cell arrays. Therefore, the input circuit includes relevant filtering circuits. The output circuit generally incorporates filtering to minimize the impact of the inverter circuit on the load.
The auxiliary circuit converts the high-voltage DC input voltage into the DC working voltage required by the control circuit. The protection circuit features overvoltage, undervoltage, overcurrent, and short-circuit protection functions. Additionally, the inverter main circuit is crucial in the high-voltage DC stabilized power supply.
The inverter main circuit is a type of circuit composed of inverter power switches and other devices, generally divided into two types: isolated and non-isolated. These several major components form a complete power supply circuit, with the actual circuit consisting of various electronic components to achieve intelligent control of a high-voltage DC stabilized power supply.
