Large-format modules with M10 wafer size use frame packaging to ensure module strength. Monocrystalline PERC cells is more efficient, Low current density technology effectively reduces the internal power consumption of components. MBB and half-chip technology to reduce the impact of hidden cracks and shading on module power generation Lower system and labor costs.
Technology
The PERC cell has a passivated rear side and a laser grooving process, which significantly improves the cell efficiency. |  |
 | Half-cut cell?is to cut the cell into two seperate parts by mature?infrared laser, hence halve the working current.?The thermal loss on the ribbon will be remarkably?reduced and the module's power increases.?The reliability of module is also enhanced.The combination of half-cut cell technology and?bifacial module can amplify the gain over the effect?of current-reduction. |
Materials
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| 12% Ultra Clear Tempered Glass. | Higher Efficiency, 9BB Cells | 120N Tensile Strength Frame |
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| 120N Tensile Strength Frame | 4mm2 Qualified cable with MC4 | High Transmittance EVA |
Certifications
Features
1.?PERC technology improves efficiency, increases power?generation, and contributes to lower LCOE.
2. Lower Heatspot Risk.?Innovative circuit design and "Half Cell" structu re decrease the?temperature of heatspots and effectively reduce power loss.
3. Reliable performance in low-light conditions such as?in the morning,at dusk or during raining days.
4. Carefully selected materials ensure the module still works well underthe condition of 2400Pa wind load and 5400Pa snow load.
5. High quality solarcelland advanced processing technology?contribute to excellent PID resistance performance.
6. 12 years products warranty and 25 years linear output power warranty.
