RE+ 24, the largest international solar exhibition in North America, has been kicked off from 9 to 12 September at Anaheim, Los Angeles. VSUN made a significant impact at the event by showcasing its flagship Vesta N series modules, including the 620N Bifacial Double Glass module, 440N Ultra Black bifacial module, 715N Bifacial Double Glass module, and 595N with transparent back-sheet module. Vesta modules are ideal for residential, commercial, and large-scale ground-mounted solar projects, drawing considerable attention from industry professionals.

VSUN is deeply engaged in the North American market, and proactively executes a comprehensive strategy, hoping to reinforce its commitment to the U.S. partners. This year, the upgraded Vesta N series continued to receive widespread praise at the exhibition. The 715N Bifacial Double Glass module, utilizing 210mm wafer technology, delivers high power output and efficiency, making it particularly suitable for the growing demand for large-scale solar installations in the U.S. market. This module is equipped with Steel Frames, and delivers superior durability and performance leading to reduced project cost, risk, and reduced GHG emissions.

Other notable Vesta modules, including 440N Ultra Black and 595N module are capable of withstanding the impact of 50mm hailstones with impacting energy of 31.5J, ensuring excellent performance even in extreme weather conditions due to 3.2mm tempered glass design. Furthermore, the big cavity width frame design of the 620N Bifacial module with 210*182 rectangular wafer is wind-resistant, capable of withstanding 3600Pa wind load.

During RE+, VSUN team engaged in comprehensive technical discussions and extensive dialogue regarding potential collaborations with numerous partners. American distribution partners have also expressed their wholehearted support for VSUN’s business expansion.

Upholding the principles of mutual benefit and long-term cooperation, VSUN will leverage its technological expertise and market advantages along with partners' strengths, to significantly contribute to the solar energy transformation.