The new products are available in nine versions with the power of power ranging from 620 W to 660 W and the efficiency of the power conversion from 23.0% to 24.4%. The Canadian solar sun said that the panels have a carbon footprint of 285 kg CO₂eq/kW, allegedly one of the lowest of all silicone-based solar modules worldwide.
The Canadian Zonne-Zonne-Zonne-Sonne-Sonne-Sonne-Sonne-Solar has presented a new heterojunction Solar Module series for use in Utility-Scale and commercial and industrial (C&I) applications.
“The low-carbon modules reach a leading carbon footprint of only 285 kg CO₂eq/KW, one of the lowest of all silicone-based solar modules worldwide, so that a new benchmark is set in sustainable solar production,” the company said in a statement. “The new LC modules deliver up to 660 W -output with module -efficiency of up to 24.4%, with deliveries that start in August 2025.”
The 132-Halve cell modules measure 2,382 mm x 1.134 mm x 30 mm and roads 32.8 kg.
The new IP68-assessed products are available in nine versions with a capacity of 620 W to 660 W and the efficiency of the power conversion from 23.0% to 24.4%.
The panels also have 2 mm heat-heated glass on both sides, anti-reflecting coating and an anodized aluminum alloy frame. Their temperature coefficient is -0.24%/C and the bifaciality factor is 95%according to the manufacturer.
The modules are supported by a 15-year product guarantee, together with a guaranteed power degradation of no more than 1% in the first year and a maximum of 0.3% per year during the following 30 years.
The company explained that the low carbon levels of the modules were made possible due to higher ingrons use speeds, a reduction in the wafer thickness to 110 μm, compared to 130-135 μm in topcon and return cells with return contact, a reduction in production steps and an 8.8% -10.7% reduction of the consumption.
“All in all, these improvements shorten the carbon distribution time of the LC modules of the Canadian Zonne-Solar with about 11%, compared to conventional N-type silicone-based modules that are available today,” the manufacturer said.
This content is protected by copyright and may not be reused. If you want to work with us and reuse part of our content, please contact: editors@pv-magazine.com.
