Four Breakthroughs in Solar Cell Technology
Multi-cells(FP)Technology
Multi Cut Passivation(MCP)Technology
Metallization Enhancement (ME) Technology
Graphical Enhancement(MAX)Technology
Four Breakthroughs in Solar Cell Technology
Multi-cells(FP)Technology
Multi Cut Passivation(MCP)Technology
Metallization Enhancement (ME) Technology
Graphical Enhancement(MAX)Technology
FP Tech —— Multi-cells
1. Higher Power
Better current distribution Better efficiency—Reduce internal power loss of the module (less I²R losses)
Increasing module power by 10W.
2. Lower Shading Loss
3. Enhance Performance
Multi Cut Passivation (MCP) Tech
1. Enhanced Power
Prevent edge recombination of minority carriers
Module power increased by 5W+
2. Deep Passivation
Effective repair of cutting surfaces and defects
3. Enhanced Stability
Effective improvement of cell's electrical performance
Metallization Enhancement (ME) Technology
1. Cell Efficiency Improvement
Lower contact resistance
Up to 0.5% increase in cell eff.
2. Enhanced Cell Corrosion Resistance
New silver paste formula with reduced aluminum content significantly improves cell corrosion resistance.
3. Excellent Module Reliability
Passed the 3x IEC Reliability Test (TUV SUD) TC600、DH3000、UV90
4. Proven Outdoor Energy Generation
ME technology delivers significantly higher module power and superior reliability
MAX Tech —— Graphical Enhancement
1. Higher Power
Lower contact resistance and parasitic absorption, boosting short - circuit current and cell efficiency.
Increasing module power by 4 - 5W.
2. Enhance Reliability
Optimize film layer thickness, reduce environmental impact.
3. Better Bifaciallity
Optimized rear design, reduces irradiation loss, improves bifaciality rate, further increasing module power generation.