9BB 166mm Solar Cell Monocrystalline Half Cell Solar Panels 370w High Efficiency Better Performance For off-gird & on-grid Solar Power System for residential or commercial usage.
Characteristics
■ Maximized efficiency
■ Strong in diffuse and low light
■ For small, medium and large projects
■ Power range up to 450 Wp
| Mechanical Characteristics | |
| Solar Cell | mono 166mm |
| No.of Cells | 120 |
| Dimensions | 1776*1052*35mm |
| Weight | 21kgs |
| Front | 3.2mm tempered glass |
| Frame | anodized aluminium alloy |
| Junction Box | IP67/IP68 (3 bypass diodes) |
| OutputCables | 4mm2 , symmetrical length (-)300mm and (+)300mm |
| Connectors | MC4 compatible |
| Mechanical load test | 5400Pa |
| Packing Configuration | ||
| Container | 20'GP | 40'GP |
| Pieces per pallet | 30 | 30&34 |
| Pallets per container | 12 | 26 |
| Pieces per container | 360 | 832 |
| Model Type | Power(W) | NO. of Cells | Dimensions(MM) | Weight(KG) | Vmp(V) | Imp(A) | Voc(V) | Isc(A) |
| ASSK-370M | 370 | 120 | 1776*1052*35 | 21 | 35.2 | 10.51 | 40.9 | 11.01 |
| Standard test conditions: measured values(atmosphiric mass AM.5, irradiance 1000W/m2, battery temperature 25℃) | ||||||||
| Temperature rating |
Limit parameter | |||||||
| Nominal Operating Cell Temperature(NOCT) |
45±2℃ | Operating Temperature | -40-+85℃ | |||||
| Temperature Coefficient of Pmax |
-0.4%/℃ | Maximum System Voltage | 1000/1500VDC | |||||
| Temperature Coefficient of Voc |
-0.29%/℃ | Maximum Series Fuse Rating | 20A | |||||
| Temperature Coefficient of Isc |
-0.05%/℃ | |||||||
Amso Solar Top-class Warranty for Solar Panels:
1: First year 97%-97.5% power output.
2: Ten years 90% power output.
3: 25 years 80.2%-80.7% power output.
4: 12 years product warranty.
Benefits:
1: This type of half cell solar panels use 9 bus bars high efficient 166mm solar cells, and with 120 half cells that are cutted by 60 full size cells.
2: Advanced half cell technique improves the power of solar panels to around 5-10w.
3: With the improvement in output efficiency, the installation area decreases by 3%, and the installation cost decreases by 6%.
4: Half cell technique minimizes the risks of the cells’ crack and the damage of bus bars, therefore increases the stability and reliability of solar array.
5: It helps reduce the heat of solar panel by 1.6, this is because of the deduction in the instinct current and potential loss which leads to the operating temperature cool down.