166mm&182mm
Mono ALL BLACK
*Full Black Appearance for Aesthetic Effect
*Gallium-doped Technology
*Half Cut Cell Technology
*Anti-PID&Low-LID Performance
*Less Hot Spot Shading Effects
*Ideal for Residential&Commercial Application
166mm Series(STC) | |||
Model | LS166 360-375W HB | LS166 395-410W HB | LS166 435-450W HB |
Numbers of solar cells | 120(60*2) | 132(66*2) | 144(72*2) |
Power Tolerance | 0~+5W | ||
Maximum power range(Pmax) | 360W-375W | 395W-410W | 435W-450W |
Open Circuit Voltage (Voc) | 40.79V-41.37V | 45.56V-46.23V | 49.4V-49.98V |
Short Circuit Current (Isc) | 11.18A-11.42A | 11.19A-11.39A | 11.36A-11.54A |
Voltage at Maximum power (Vmpp) | 33.71V-34.34V | 36.93V-37.64V | 40.81V-41.4V |
Current Maximum Power (Impp) | 10.68A-10.92A | 10.70A-10.89A | 10.66A-10.87A |
MODULE EFFICIENCY (%) | 19.73-20.55 | 19.75-20.5 | 19.98-20.67 |
182mm Series(STC) | |||
Model | LS182 485-500W HB | LS182 530-545W HB | LS182 575-590W HB |
Numbers of solar cells | 132(66*2) | 144(72*2) | 156(78*2) |
Power Tolerance | 0~+5W | ||
Maximum power range(Pmax) | 485W-500W | 530W-545W | 575W-590W |
Open Circuit Voltage (Voc) | 48.34V-48.83V | 49.74V-50.18V | 50.45V-51.02V |
Short Circuit Current (Isc) | 12.99A-13.2A | 13.62A-13.83A | 14.41A-14.57A |
Voltage at Maximum power (Vmpp) | 40.08V-40.62V | 41.63V-42.12V | 43.04V-43.48V |
Current Maximum Power (Impp) | 12.10A-12.31A | 12.73A-12.94A | 13.36A-13.57A |
MODULE EFFICIENCY (%) | 20.42-21.06 | 20.51-21.09 | 20.57-21.11 |
STC: Irradiance 1000W/m², cell temperature 25ºC,AM1.5G
Temperature Ratings ( STC )
Temperature Coefficient of Isc +0.05%/C
Temperature Coefficient of Voc -0.28%/C
Temperature Coefficient of Pmax -0.36%/C
Mechanical Loading
Front Side Maximum Static Loading 5400Pa
Rear Side Maximum Static Loading 2400Pa
Operating Module Temperature -40ºC to + 85ºC
Our Technology : Half-Cut Cell + Twin Panel Technology
Half-cut cell + twin panel technology consists in cutting the solar cell in half by non destructive cutting infrared laser and splits the conventional layout of 3 cell-strings in 1 electric circuit into the innovative layout of 6 cell-strings + 2 electric circuits in a PV module.
This technology halves the electric current of the cell and reduces effectively the internal electric resistance on the cell ribbon and increases the module power by 2%. The twin panel design minimizes the power loss in shading conditions, hence improves the system mismatch and heightens the efficiency of the PV system.
Lower Hot Spot Temperature
By halving the electric current of both the cells and the cell-strings, the hot spot temperature can be reduced by 50%, which enhances the reliability of the PV module.
In comparison with the conventional 5 busbar design, the innovative multi-busbar design on the cell can shorten the current collection transverse path by 50% and thereby reduce remarkably the cell internal resistance, which contributes a 1% – 1.5% increase in the power output compared with 5 busbar design.
The MBB design can also mitigate the performance loss caused by blocked electrical pathways in case of cell microcracks and finger electrode erosion due to external factors.
Another advantage of the MBB design is the improved light absorption thanks to the round ribbon application. In comparison with the traditional flat ribbon of 5BB, the round ribbon can increase the light utilization by 1% – 1.5%.
EVA Sealed Film
*Top quality EVA sealed film in China *Resistance in both high and low temperatures
*Sealed adhesive durability more than 30 years
Laser Half Cut Cell
*Solid PID resistance ensured by solar cell *process optimization and careful module BOM selection
*Laser accurately cut* Both 6BB&9BB available
Junction Box
*Standard photovoltaic cable, dedicated photovoltaic MC4 connector
*Waterproof grade IP68
*Good heat dissipation performance, low loss, long service life
Black aluminum frame
Heavy thickness anodized aluminum alloy, passed the salt spay test, for long-term outside use.
Black backsheet
It protects and supports the solar cells, with reliable insulation, water resistance, and aging resistance
RAW MATERIAL MANAGEMENT
Stringent supplier management
Automatic material filtration and sorting
Manual standard sampling inspection by batch.
Constant temperature and humidity storage environment.
Supplier Quality Engineering
Incoming-material quality assurance
PRODUCTION MANAGEMENT
Quality monitoring of the whole production line
Multiple EL tests
Mobile sampling inspection
FACTORY INSPECTION
Test results are entered into the database in real time.
Simulating open-box testing
Spot check every feedstock batch