CPCT1 Solar Backsheet
Amidst the photovoltaic industry's rapid transition to bifacial technology, company has successfully developed the next-generation CPCt1 transparent solar backsheet, leveraging years of material R&D expertise. Featuring an innovative dual-sided fluorinated coating structure achieved through precision coating technology and optimized formulation, this product delivers comprehensive environmental protection for bifacial PV modules while maintaining excellent light transmittance.
Specification & details
Outstanding Optical Performance & Environmental Durability The CPCt1 backsheet's weather-resistant layer utilizes patented transparent fluorinated coating film technology with these key characteristics: - Excellent visible light transmittance to maximize rear-side power generation - Special UV-blocking formulation that effectively filters harmful UV wavelengths - Demonstrated long-term durability in damp heat conditions (85°C/85%RH) - Stable performance maintenance across extreme temperature environments
Reliable Adhesion & Thermal Stability
The adhesive layer also employs fluorinated coating film technology with multiple advantages:
- 1.Forms stable and reliable bonding interface with EVA encapsulant
2. Maintains long-term thermal stability within module operating temperatures
3. Specially formulated for outstanding hot-spot endurance
4. UV aging resistance exceeding 120 kWh/m², meeting stringent industry standards
Rigorous Quality Control & Performance Validation
Every batch of CPCt1 backsheets undergoes strict quality inspection:
- -High-precision coating equipment ensures uniform film application
- Batch-by-batch testing of critical performance parameters
- Comprehensive quality traceability system
- Certification through multiple international testing standards
Broad Application Prospects
The CPCt1 transparent backsheet is particularly suitable for:
- Bifacial modules in utility-scale solar farms
- Commercial & industrial distributed PV projects
- Agri-PV and fishery-PV hybrid projects
- Special climate zones with high irradiation or humidity
We warmly invite industry partners to collaborate on advancing bifacial module technology and applications.
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