Maysun Solar 555W-600W IBC Solar Module with Silver Frame
Power: 555W 560W 565W 570W, 575W 580W 585W 590W 595W 600W
Efficiency: 21.5-23.2%
Dimensions (L × W × H): 2278 x 1134 x 30 mm
Weight: 27.5 kg
Packaging: 36 pcs/pallet, 720 pcs/40’HQ
Warranty: 25-year product and performance warranty
IBC——High-Quality IBC Solar Panels
No Hot Spots in the Shade
The unique All Back Contact ensures that positive and negative electrodes flow normally on the back, even when shaded, reducing damage from hot spots and the risk of power plant operation.
No Glare Pollution
The perfect treatment process without a front-side welding ribbon, eliminating reflective silver welding ribbon, with an average reflectivity of only 1.7%, significantly reduces the impact on the environment and light pollution for neighbors.
Low Temperature Coefficient
The outstanding temperature coefficient of -0.29%/°C results in better performance at high temperatures, increasing the overall electricity generation yield.
High Power Generation Efficiency
The positive and negative electrodes of IBC cells are located on the back, and the metal grid electrode on the front is unobstructed, enlarging the front surface area exposed to light by 2.5% and greatly improving power generation performance.
| Module Type | 555 | 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 | STC | NOCT |
| Peak Power Watts-PMAX (Wp) | 555 | 413 | 560 | 420 | 565 | 421 | 570 | 427 | 575 | 429 | 580 | 434 | 585 | 437 | 590 | 441 | 595 | 445 | 600 | 448 |
| Maximum Power Voltage-VMPP (V) | 43.31 | 39.5 | 43.56 | 39.67 | 43.61 | 39.78 | 43.96 | 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) | 12.85 | 10.45 | 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 | 10.9 | 13.37 | 10.97 | 13.44 | 11.00 |
| Open Circuit Voltage-VOC (V) | 51.56 | 48.32 | 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) | 13.91 | 11.25 | 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 (%) | 21.5 | 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 solar module’s front surface is devoid of metal busbars, guaranteeing stable current transmission. With a 23.2% conversion efficiency, it ensures that a single solar module can generate up to 30W under identical conditions, thereby reducing the Levelized Cost of Electricity (LCOE).
High Performance in Low-Light Conditions
Allow your photovoltaic power station to have an extra 2.01% power generation gain in the morning and evening, further improving the return on investment of your rooftop power station and shortening the payback period, making it the best choice for industrial and commercial rooftop and ground-mounted power stations.
FAQ About IBC Solar Modules
A: IBC cells feature no front-side busbar, offering a larger light-receiving area and enhanced efficiency. In comparison to TOPCON and PERC, degradation is significantly lower, with an average annual rate of just 0.4%, ensuring more stable power generation efficiency. Furthermore, the IBC solar module exhibits an impressively low temperature coefficient of -0.29%/°C, leading to improved power generation performance in high-temperature environments. Finally, the low-light performance of the IBC solar module is superior. It starts generating power early in the morning and continues late into the evening, effectively extending the power generation time.
A: IBC solar modules have no PV ribbon shielding on the front side, which enhances their oblique light absorption capacity, significantly increasing the cell’s light-receiving area, and consequently improving cell efficiency.
A: IBC solar panels feature high short-circuit current characteristics, ensuring their rapid startup in low-light conditions. This characteristic allows IBC solar panels to perform exceptionally well in low-light conditions, resulting in extended power generation durations.
IBC Technology Explanation
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Solar Panel Glare: Do I need to worry about glare from solar panels?
Table of Contents Perhaps you haven’t considered that solar panels may give rise to glare issues, despite their intended design of sunlight absorption rather than sunlight reflection. Solar panels can efficiently absorb vertically incident light, but they are prone to generating glare pollution when sunlight is at a low angle.
2023 Guide of IBC Solar Panels: Why Choose IBC Solar Panels?
Table of Contents In the dynamic landscape of solar energy, the Interdigitated Back Contact (IBC) solar cell emerges as a beacon of innovation and efficiency. As we delve into the realm of IBC solar panels, we uncover the groundbreaking principles that make them a compelling force in the pursuit of