410W solar module with 210mm cell is ready to sell

SpolarPV high efficiency 410W with 210mm cell is ready to sell. Your perfect choice for rooftop. It offer your best project performance, and fully compatible with residential, industrial, and commercial mainstream inverters.

210mm PERC solar panel

The benefits of 210mm

Simply increasing the size of a solar wafer wouldn’t make much sense unless the larger size also delivered more PV system value. And that’s exactly what the 210mm accomplishes through lower LCOE and widespread component compatibility, among a host of other benefits.  

Best way to achieve lowest LCOE

210mm modules using half-cut cell technology reduces the PV system voltage compared to the legacy modules, allowing for a lower string length in the system. This innovative low-voltage and high-string design decreases the system LCOE. The overall value of the 210mm lets solar EPCs, developers and installers achieve the lowest possible LCOE.

410W solar module

Widespread PV system compatibility

The 210mm modules have extremely high installation compatibility with major system components. This makes them the ideal choice for a wide variety of installation requirements, whether for fixed-tilt racking and tracking systems, or for utility, residential and C&I projects. The high compatibility ensures optimal component interoperability for better PV system performance and fewer delays during interconnection.

The importance of 210mm standardization

Through the standardization of 210mm size silicon wafer, the size of the silicon wafer and module etc., the industrial chain can achieve the best scale effect, powerfully help upstream and downstream enterprises improve production efficiency, optimize supply, and drive industry technological innovation, while reducing the cost of industry chain manufacturing, the initial investment of photovoltaic systems and LCOE (levelized cost of energy) of power generation, to achieve grid parity.

The unified module size effectively solves the pain points of customers, greatly reduces the uncertainty in the design process, and improves the efficiency while selecting racking structure, inverters, cables, combiner boxes, etc. and enhances the flexibility of module supply. At the same time, the installation efficiency of modules and racking structure can be improved, and the design and EPC costs can be reduced. 

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