Princeton Power Systems develops 2 MW inverter for DOE

The use of six DC ports creates an advantage over other systems as it eliminates the need for multiple inverters and transformers, thus meeting the goal to reduce installation and wiring costs

Princeton Power Systems announces the development of a 2 MW inverter for the Department of Energy's (DOE) SunShot Incubator program. The newly designed six-port inverter reduces the overall cost of solar installations and balance of systems components to help the DOE achieve its goal of a $1.00/watt total installed cost of solar.

Two DC ports were added to the inverter to make it a six DC port 2 MW inverter, designed to contribute to the SunShot's initiative to reduce solar energy system costs in order to increase widespread adoption of renewable energy technology.

The use of six DC ports creates an advantage over other systems as it eliminates the need for multiple inverters and transformers, thus meeting the goal to reduce installation and wiring costs.

In addition to having six ports, the 2 MW inverter offers direct 13.8 kV grid connection without the use of a 60Hz isolation transformer. A small and efficient high-frequency transformer is integrated directly into the box, taking the place of a bulky step-up transformer as an addition to the system. The inverter incorporates energy storage capabilities with an integrated high-frequency nano-crystaline transformer for a consistent power flow.

The development of the 2 MW smart inverter leverages platform technologies in the recently released Demand Response Inverter product line, designed specifically to integrate smart inverter features and functions with advanced batteries in distributed generation applications.

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