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Power Output: 560W 565W 570W 575W 580W 585W 590W 595W 600W |
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Efficiency: 21.7-23.2% |
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Weight: 27.2 kg |
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Dimensions(L × l × H): 2278 x 1134 x 30 mm |
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Packaging: 36 pcs/pallet, 720 pcs/40'HQ |
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Warranty: 25-year product and performance warranty |
| Module Type | 560 | 565 | 570 | 575 | 580 | 585 | 590 | 595 | 600 | |||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Test Condition | STC | NOCT | STC | NOCT | STC | NOCT | STC | NOCT | STC | NOCT | STC | NOCT | STC | NOCT | STC | NOCT | STC | NOCT |
| Peak Power Watts-PMAX (Wp) | 560 | 420 | 565 | 421 | 570 | 427 | 575 | 429 | 580 | 434 | 585 | 437 | 590 | 441 | 595 | 445 | 600 | 448 |
| Maximum Power Voltage-VMPP (V) | 43.56 | 39.67 | 43.61 | 39.78 | 43.86 | 39.94 | 43.91 | 40.06 | 44.06 | 40.21 | 44.21 | 40.34 | 44.36 | 40.48 | 44.51 | 40.62 | 44.66 | 40.75 |
| Maximum Power Current-IMPP (A) | 12.92 | 10.60 | 12.98 | 10.58 | 13.05 | 10.70 | 13.11 | 10.71 | 13.18 | 10.80 | 13.24 | 10.84 | 13.31 | 10.90 | 13.37 | 10.97 | 13.44 | 11.00 |
| Open Circuit Voltage-VOC (V) | 51.61 | 48.46 | 51.86 | 48.60 | 51.91 | 48.74 | 52.06 | 48.88 | 52.21 | 49.02 | 52.36 | 49.16 | 52.51 | 49.30 | 52.66 | 49.44 | 52.81 | 49.58 |
| Short Circuit Current-ISC (A) | 13.97 | 11.27 | 14.03 | 11.32 | 14.09 | 11.37 | 14.15 | 11.42 | 14.21 | 11.47 | 14.27 | 11.52 | 14.33 | 11.57 | 14.40 | 11.63 | 14.46 | 11.68 |
| Module Efficiency ηm (%) | 21.7 | 21.9 | 22.1 | 22.3 | 22.5 | 22.6 | 22.8 | 23.0 | 23.2 | |||||||||
Innovative Backside Positive and Negative terminal Connection Technology
Efficient IBC Solar Modules
The front surface of the solar module features a busbar-free design, ensuring uninterrupted and stable current flow. Achieving an impressive 23.2% conversion efficiency, each module can produce up to 30W under comparable conditions. This high efficiency directly contributes to lowering the Levelized Cost of Electricity (LCOE), making it a cost-effective choice for solar energy solutions.
High Performance in Low-Light Conditions
No PV ribbon obstructing, maximizing light absorption
Boost your photovoltaic power station’s efficiency with an additional 2.01% power generation gain during morning and evening hours. This improvement enhances the return on investment for your rooftop system, reduces the payback period, and makes it an optimal solution for industrial and commercial rooftop and ground-mounted installations.
High-quality IBC solar modules
The preferred choice for European family homes
560-600W
Module Power
21.7-23.2%
Module Efficiency
25 Years
Warranty
Additional Advantages of IBC Solar Module:
- High reliability
- Low temperature coefficient
- Cutting-edge technology
- No hot spots in shaded areas
- No glare pollution
- High power generation efficiency
585W IBC Silver Frame
Country: Germany
Capacity: 21.06 kWp
Number of Modules: 36 pcs
585W IBC Silver Frame
Country: Germany
Capacity: 21.06 kWp
Number of Modules: 36 pcs
580W IBC Silver Frame
Country: Italy
Capacity: 9.86 kWp
Number of Modules: 17 pcs
580W IBC Silver Frame
Country: Italy
Capacity: 9.86 kWp
Number of Modules: 17 pcs
Frequently Asked Questions About IBC Solar Modules
Discover More Information About IBC Technology
IBC cells are designed without front-side busbars, maximizing the light-receiving area and boosting efficiency. Compared to TOPCon and PERC, they exhibit significantly lower degradation, with an average annual rate of just 0.4%, ensuring consistent power output over time. With a remarkable temperature coefficient of -0.29%/°C, IBC solar modules deliver superior performance even in high-temperature conditions. Additionally, their exceptional low-light performance enables power generation from early morning until late evening, effectively extending daily operational hours and enhancing overall energy production.
IBC solar modules eliminate PV ribbon shielding on the front side, enhancing their ability to absorb oblique light. This design significantly expands the cell’s light-receiving area, leading to a notable improvement in overall efficiency.
IBC solar panels are designed with high short-circuit current capabilities, enabling rapid startup and efficient operation even in low-light conditions. This advanced feature ensures superior performance during early mornings, cloudy days, and late evenings, effectively extending power generation hours for maximized energy output.
