HMS01.1N-W0054-A-07-NNNN  HMS Single Axis Inverters

The core of the working principle of the inverter is to convert direct current (DC) into alternating current (AC). This conversion process is realized through the switching action of semiconductor switching devices (such as transistors, field effect tubes, etc.).

In the DC input part, the electrical energy is first filtered and stabilized to ensure the stability and reliability of the subsequent inverter process. Then, in the inverter part, the direct current is switched by the semiconductor switching device at a certain frequency, so that the direct current is repeatedly switched in the switching device, resulting in an alternating current waveform. This process is driven by a control signal that determines the switching frequency and sequence of the switching devices.

In the process of inverter, it is also necessary to control and adjust. The control part controls and adjusts the inverter process in real time according to the demand of the power grid and the operating state of the system. For example, when the grid demand increases, the control part will increase the inverter frequency; When the grid demand is reduced, the inverter frequency is reduced. In addition, the control part will also monitor and protect the operating state of the system to ensure the stability and safety of the system.

Finally, after the inverter, the AC will be filtered and stabilized, and then transmitted to the AC output part. Here, AC makes the necessary adjustments and optimizations to meet the demands and quality requirements of the grid. Eventually, alternating current is delivered to electrical equipment such as lighting, air conditioning, computers, etc.

In general, the inverter converts direct current into alternating current through the switching action of the semiconductor switching device, and ensures that the output alternating current meets the grid needs and equipment requirements through control and regulation.