Des:Based on ZNSHINE Solar's leading multi-busbar technology, the modules adopt the 210mm silicon wafer, half-cut technology, non-destructive cutting technology, avoid the damage of cutting surface, realize the optimal half-cell design, and reduce the current loss and the risk of hot spot and high-density interconnect technologies, which together allow it to reach 670W power output and 21.6% module efficiency.
Des:Dual-glass module is based on 210mm silicon wafer, high power, high efficiency, high compatibility, high quality and low BOS. Gallium-doped technology overcomes LID degradation and guarantees the long-term power generation of the module.. It can reduce the probability of fire, increase moisture resistance, anti-corrosion property to acid and alkaline solution.
Des:The product combines 210mm large-size silicon wafers with PERC, multi-busbar, half-cut,and improve the energy density of the module with high-density cell interconnect technology and bifacial technology. The bifacial layout brings greater power, and the maximum backside gain is up to 25%. This series is suitable for utility-scale power stations and distributed project.
Des:The product combines 210mm large-size silicon wafers with N-type , multi-busbar, half-cut, and improve the energy density of the module with high-density cell interconnect technology and bifacial technology. The backside generates electricity up to 25%, it effectively absorbs the incident light in the positive side and reflected and scattered light in the back side, outputs enough power.
Des:Dual-glass module is based on 210mm N-type, high power, high efficiency, high compatibility, high quality and lower temperature coefficient. It has better resistance and can reduce the probability of fire, increase moisture resistance, anti-corrosion property to acid and alkaline solution
Des:Refresh the experience of high efficiency. The series adopts N-type cell and features high-density packaging, enhanced reliability, non-destructive cutting and other technologies to achieve the core strengths of ultra-high power generation/ultra-high efficiency, lower LID / LETID, optimized temperature coefficient, good capture in low light effect and high compatibility.