Superiority of Our Panels
Our MonoCristaline panels, using highly modern, leading and efficient technologies, with 12 years of product, and 25 years of power generation warranties, possess advantages, which will present good reasons to choose us:
PID Resistant
All the PV systems degrade over time, however, some loose their output capacity in a lower pace than the others. Potential Induced performance Degradation (PID), is a leakage in current which is caused by the structure of the solar cell as well as the voltage of each PV module. However, our panels, utilizing the modern technology of gallium-doped silicon wafer, possess anti-degradation property, a high durability and stable and efficient generation of power.
Excellent low-light performance
Our panels, consisting the most advanced solar cells of the glass surface texturing technology, are designated for excellent efficiency even during the low-light conditions. Accordingly, they are best compatible to the Swedish climatic conditions of dark days which is very common during a year in the country.
High Reliability
Rigidly tested in PV labs and have been approved and authorized by CNAS , TUV/VDE
PERC technology
Passivated Emitter Rear Contact (PERC) solar modules are equipped with a Dielectric Layer on the back. The layer capturing and reflecting the un-absorbed irradiations to the panel, enables the panels to absorb it. So, the PERC technology corresponds to higher efficiency solar modules compared to the conventional ones which are unable to absorb all the sun irradiations. Hence, the PERC-equipped modules have a higher energy value per square meter, and an enhanced performance in low light condition and higher temperatures. This enables the designers to use fewer number of panels for a higher electricity output, resulting to more effective use of (roof) space.
MBB technology
In the Multi Buss Bar technology, the cells are divided into smaller sections of 12 or 16 busbars instead of 4,5 or 6 parts which were used in silicon cell-based PV modules. This has left the cells with:
-
2 - 2.5% more efficient and higher-performed solar cells.
-
Shorter transition path of current, and avoided series resistance losses
-
More durable to mechanical loads and resilient to weather conditions
-
Prevented micro cracks
-
The coincidence of half-cut and MBB technology, reduces shading losses, leading to more efficient modules in poor operating conditions.
image source: solar power
Half-cut (HC) technology
In Our modernized solar modules, the half-cut tech is utilized to make 144 cells. The technology corresponds to a higher performance compared to the conventional PV modules as it minimizes shading effect and power loss since:
- Shading results to a power loss for the arrays and modules, applying half-cut pv modules however, reduces power losses corresponding to partial shading by 50%.
Further, Half-cut solar cells transmit a greater Cell To Module (CTM) power. while the traditional ones generate 94.8% CTM power, the half-cut cells produce a 98.4% CTM power after the final factoring stage.
- Moreover, half-cut cells producing half (1/2) of the current, subsequently they turn the power loss to 1/4, it means they reduce the power loss by 25%. The function enhance the current and power output by 2-4%.
Image: Half-cut vs standard modules and shading, source: Solar Magazine
