Comprehensive EU certification, offering a 15-year warranty, and the product lifespan can last up to 30 years.
2.The King of Absolute Cost Performance
The quality at a lower price is far inferior to ours, and the quality at a higher price is even worse than ours.
3.Multiple Type Options
The power of solar panels ranges from 460W to 750W, including single-sided, double-glass, all-black, black frame, color, flexible series, etc. We also provide customizable services for solar panels, making it suitable for various scenarios.
Hot-sale Solar Panels
2GW Fully Automated Production Line, 15+ Years of Solar Industry Experience
1. Cover Glass Layer with Anti-Reflective Coating (ARC)
Materials: High-transparency tempered glass with an anti-reflective coating (ARC) typically made of silicon dioxide (SiO₂) or silicon nitride (Si₃N₄). Function: The cover glass layer provides protection against environmental damage (such as rain, dust, and wind) while allowing maximum sunlight transmission. The anti-reflective coating reduces light reflection, enhancing light absorption and overall photovoltaic efficiency.
2. Encapsulant (EVA/EPE/POE)
Material: Ethylene-vinyl acetate (EVA). Function: Encapsulates and protects the silicon wafers, preventing moisture, dust, and mechanical damage while maintaining high light transmission.
3. N-Type Solar Cell Layer
Material: High efficiency monocrystalline silicon N-type solar cells. Function: The function of a solar cell is to convert sunlight into electricity. When sunlight hits the solar cell, it excites electrons, generating a flow of electricity. This is the basic principle of how a solar cell produces electrical energy.
4. Encapsulant (EVA/EPE/POE)
Material: Ethylene-vinyl acetate (EVA). Function: Encapsulates and protects the silicon wafers, preventing moisture, dust, and mechanical damage while maintaining high light transmission.
5. Backsheet
Material: Typically a polymer material, such as Transparent Back Sheet / Back Glass Function: Provides electrical insulation and physical protection, preventing moisture and environmental damage to the cells.
The continuously developing advanced materials have a high photoelectric conversion efficiency.
High conversion efficiency
By adopting N-Topcon technology, higher efficiency is achieved and more electricity is generated.
High Stability
Strong protection level, capable of stable output even in some extreme weather conditions.
Why Do We Adopt The N-Topcon Technology?
High conversion efficiency
The conversion efficiency of N-type TOPCon cells generally exceeds 25%
Double-sided power generation capability
The total power generation is 10%-30% higher than that of single-sided components
Longer lifespan
N-type silicon wafers have fewer electrons as minority carriers, and their lifespan is much longer than that of hole minority carriers in P-type silicon wafers.
Decrease in levelized cost of energy (LCOE)
Due to increased power generation and low degradation rate, the LCOE can be reduced by 10%-15% throughout the entire life cycle.
Lower photoluminescence-induced degradation (LID)
Suppressing carrier recombination, further reducing the risk of photoluminescence-induced degradation
Good technical compatibility
Compatible with thin silicon wafers and lamination processes, and can be combined with perovskite stacks for efficiency improvement in the future.
