These panels are made with solar cells composed of a single crystal of silicon. This technology results in high-purity cells with an ordered crystal structure, which results in higher solar energy conversion efficiency than other technologies. Due to the monocrystalline structure, these panels have higher efficiency in converting sunlight into electricity. These panels are able to maintain good efficiency even at high temperatures, making them suitable for hot climates or direct sun exposure situations.
PERC MODULES
Monocrystalline PV modules made with Passivated Emitter and Rear Cell (PERC) technology are an advanced version of traditional monocrystalline modules. PERC technology was introduced to increase solar energy conversion efficiency and improve the performance of solar panels. With PERC technology, monocrystalline modules can achieve higher efficiencies than conventional monocrystalline modules. PERC technology reduces recombination losses, which are the charge losses that occur when electrons and gaps generated by sunlight recombine instead of being captured and converted into electricity. This helps to improve the overall efficiency of the module.
SHINGLED MODULES
Shingled modules use a solar cell assembly technique of partially overlapping cells, like roof tiles. This reduces interconnection zones and allows for a larger conversion area, increasing efficiency and reducing energy losses. Because of this cell arrangement, shingled modules can be more flexible in design, allowing greater adaptability to different PV system configurations. In addition, the shingled design can be considered more aesthetically pleasing than conventional modules, especially when the installation is visible.
TOPCON MODULES
PV modules with TOPCon (Tunnel Oxide Passivated Contact) technology are one of the latest innovations in solar energy. This technology was developed to increase solar energy conversion efficiency and improve the performance of solar panels. TOPCon modules use a thin layer of Silicon Oxide (SiO2), an advanced contact passivation technology, which allows better electron movement. This reduces recombination losses and enables high solar energy conversion efficiency. This technology has been shown to maintain good efficiency even at high temperatures, which makes these modules suitable for hot climates or situations where the panel may be exposed to high temperatures.
HJT MODULES
HJT (Heterojunction with Intrinsic Thin layer) photovoltaic modules are another innovative technology in the field of solar panels. These modules combine several features of existing technologies to improve overall efficiency and performance. HJT technology combines elements of amorphous and crystalline type solar cells. The HJT cell has an intrinsic thin layer that helps reduce recombination losses, enabling higher solar energy conversion efficiency. HJT modules can achieve very high efficiency.