Solaria announced today that it has introduced its PowerXT 330-Wp and 400-Wp modules optimized for residential and commercial rooftops respectively– offering best-in-class efficiency for this rapidly-growing sector of the clean energy market. Solaria’s high output modules are built on the company’s proprietary technology – which utilizes an advanced cell interconnect and module production processes. Solaria modules significantly boost power generation while eliminating reliability challenges that can reduce conventional PV modules’ long-term performance.
“We’re thrilled to be introducing PowerXT 330-Wp and 400-Wp modules to the rapidly growing solar market,” said Solaria CEO Suvi Sharma. “This innovation represents Solaria’s latest step in our industry-leading efficiency roadmap. Solaria PowerXT modules meet the needs of solar installers keen to maximize power deployment on their customers’ roofs – enabling them to install safe, clean, renewable and reliable on-site power plants.”
In order to meet rapidly growing customer demand, Solaria has established a manufacturing partnership with SolarPark in Korea. This is in addition to Solaria’s module production capacity located in Fremont, California.
“Solaria’s modules are incredibly powerful,” said SolarPark Chairman Hyunwoo Park. “We’ve been seeking innovative products to manufacture, and it is clear to us that Solaria has commercialized industry-leading modules that create the new standard in PV module efficiency and system costs.”
Solaria will serve its customers in North America as well as select international markets with its high-performance PV modules from this Korean production facility.
News item from Solaria
Oscar Bloch says
It’s good that Solaria is innovating in an increasingly competitive market for residential and commercial PV. Unfortunately, Solaria, at least as described in this article, does not state the panel efficiency (conversion efficiency) of its new product. Most commercial grade panels are somewhere between 14% and 16% conversion efficiency. Can you provide this data sot customers can compare panel performance? Is this efficiency based on micro inverters at the panel site, or conventional inverters at the power hook-up site?
Thanks.
David Watterson says
http://static1.squarespace.com/static/568f7df70e4c112f75e6c82b/t/573beb419f7266be9fa7d4b0/1463544648832/Datasheet_PowerXT_Rooftop_320-330_v17_4-18-16.pdf