First Solar has integrated new technology into its modules and optimized them for 1500VDC applications. Combined with GE’s 4MW ProSolar 1500V inverter/transformer stations, this development enables power plant engineering design that significantly increases the size of the solar array served by each inverter and reduces the number of inverter/transformer stations required for each plant to convert the power from direct current (DC) to alternating current (AC) and feed electricity to a commercial electrical grid. The resulting plant design maintains high power delivery while lowering installation and maintenance costs.
“This is a significant step in establishing the next generation of utility-scale PV power plants,” said Mahesh Morjaria, First Solar’s Vice President of Product Management. “Partnering with an industry giant such as GE, we are able to take our power plant design to the next level, and bring additional value to our customers.” Morjaria also noted that future generations of First Solar modules will increase optimization, benefiting from advances gained in part from the acquisition last fall of GE thin-film PV technology.
“GE is known throughout the industry as an established leader in power generation technology. With our ProSolar inverters, we were able to draw from our experience developing and manufacturing technology for traditional power plants to create a highly efficient solution with industry-leading capabilities,” said Joe Mastrangelo, CEO of GE Power Conversion. “The inverters’ design enable our customers to apply engineering design that significantly increases efficiency of energy production. Together with First Solar, we can help customers get the most out of their solar power systems.”
Morjaria said First Solar has already identified projects under construction for initial deployment of the new 1500v system. The 4MW ProSolar 1500V station is the largest inverter in the industry capable of accommodating 1,500 volt DC solar arrays, which is a major factor in utilizing economies of scale by significantly increasing the array size and reducing the number of inverters required by a solar power plant.