PERC
FACIAL MBB
HALF CELL
Solar Panel
LNE5M144-535
Module Efficiency
21.3%
Output
535W
LNE5M144-550
Module Efficiency
21.3%
Output
550W
Based on multi-busbar technology, 182mm large-size silicon wafers, allowing over 550/555watt power output and up to 21.3% module efficiency.
LNE high-efficiency solar panels are suitable for various harsh environments and are widely used around the world: from pastures to snowfields, from deserts to mountains, and from commercial buildings to residential buildings.
Applications of photovoltaic modules: LNE modules can be used for Solar street lights, garden lights and other lighting applications; Communication field; Utility Projects;Distributed photovoltaic power generation and building-integrated photovoltaic power generation system; Commercial Projects; Residentail Projects and remote areas without electricity.
Dimension and
Power Density
HALF-CELL+MBB
Applied Under
Strict Conditions
Enhanced
Mechanical Load
Water-proof
Performance
Excellent Fire-proof
Performance
PERC
FACIAL MBB
HALF CELL
Solar Panel
LNE5M108-400
Module Efficiency
21.3%
Output
400W
LNE5M108-415
Module Efficiency
21.3%
Output
415W
Based on multi-busbar technology, 182mm large-size silicon wafers, allowing over 410/415watt power output and up to 21.3% module efficiency.
LNE high-efficiency solar panels are suitable for various harsh environments and are widely used around the world: from pastures to snowfields, from deserts to mountains, and from commercial buildings to residential buildings.
Applications of photovoltaic modules: LNE modules can be used for Solar street lights, garden lights and other lighting applications; Communication field; Utility Projects;Distributed photovoltaic power generation and building-integrated photovoltaic power generation system; Commercial Projects; Residentail Projects and remote areas without electricity.
Dimension and
Power Density
HALF-CELL+MBB
Enhanced
Mechanical Load
Applied Under
Strict Conditions
Water-proof
Performance
Excellent Fire-proof
Performance
PERC Technology
PERC technology refers to the "Passivated Emitter and Rear Cell" technology.
Power density
21.3%
Yearly degradation
0.45%
Bifaciality reaches
65%-70%
Temperature coefficient of P-max
-0.35%/℃
The efficiency records of PERC cells have been continuously refreshed in recent years, making it the most cost-effective technology in the next three years. The advantages of PERC technology include:
High photoelectric conversion efficiency, which can significantly reduce the BOS cost of the system.
1Low attenuation, which can ensure the project's power generation.
2The mechanical performance is good, which can effectively reduce hidden cracks.
3Related Projects
Brazil
May 2022
Munich
October 2022
Netherlands
March 2021