Photovoltaic systems: do you have the right power supply?

A photovoltaic (PV) system is a system composed of a field, a combiner, a cabinet for DC energy distribution, a photovoltaic inverter, a transformer, etc...

Higher input and output voltage levels can significantly reduce losses on the AC/DC line side, as well as contain wiring losses on the low-voltage side of the transformer, automatically increasing the efficiency of the entire system.

Additionally, having a compact system with high power density also helps in management and transportation costs and maintenance.

Mornsun's high input voltage DC/DC converters (1500V) can take current directly from the photovoltaic system's voltage bus and convert it into power for unit monitoring. This is why they are widely used in applications such as photovoltaic combiners, photovoltaic inverters, energy storage systems, wind energy conversion systems, UHV transmission, SVG, and so on.

The entire energy sector is slowly shifting its focus from more traditional energy sources to sources commonly identified as 'new energy'. These renewable sources allow for more controlled management, leaving the resources of our planet unaffected, with zero impact on the environment.

Both solar and wind energy are high-efficiency sources that the entire industry is focusing on year after year. In particular, photovoltaic systems are the most developed and the entire market is investing in them.

Energy Systems for

An intelligent energy network is divided into generators, transmitters, substations, distributors, and monitoring systems. An automated network can control and manage each node throughout the entire transmission process, from energy generation to consumption.

As efficient as a system can be, the entire network depends heavily on the control system. A typical photovoltaic system can be schematized according to the following image.

A photovoltaic system receives energy from the sun