Shingled solar panels introduce a transformative approach to solar energy capture, showcasing a distinct layout reminiscent of interconnected puzzle pieces. Departing from the traditional uniformity, these panels feature overlapping solar cells akin to a puzzle arrangement, optimizing space utilization on the module surface. This unique design enhances overall energy efficiency by minimizing inactive spaces and mitigating electrical losses, resulting in superior power density and performance.
Brand:
SunEvoPower Range:
420~445WMax. Efficiency:
21.4%Number of Cells:
320 (64 × 5)Dimensions of Module L*W*H:
1899 × 1096 × 30mmWeight:
21.8kgFront Side Glass:
Tempered glass, 3.2mmBacksheet:
EVAFrame:
Anodized aluminum alloyJunction Box:
IP68, two diodesCable:
4mm2 ,+300mm/-1000mm(Vertical), +220mm/-180mm(Horizontal)Wind/Snow Load:
4500paConnector:
MC4SunEvo Ultra Black Shingled Monocrystalline PV Solar Module Profile
|
Maximum Power: Pmax [W]
|
445 | 440 | 435 | 430 | 425 | 420 |
|
Open Circuit Voltage: Voc [V]
|
43.8 | 43.7 | 43.6 | 43.5 | 43.4 | 43.3 |
|
Short Circuit Current: Isc [A]
|
13.01 | 12.90 | 12.79 | 12.68 | 12.56 | 12.46 |
|
Voltage at Maximum Power: Vmp [V]
|
36.4 | 36.3 | 36.2 | 36.1 | 36.0 | 35.9 |
|
Current at Maximum Power: Imp [A]
|
12.23 | 12.13 | 12.02 | 11.92 | 11.81 | 11.71 |
|
Module Efficiency: η [%]
|
21.4 | 21.1 | 20.9 | 20.7 | 20.4 | 20.2 |
Product Pictures
Feature
Shingled components are more resistant to hot spot effects. The "hot spot effect" of photovoltaic modules is one of the most important factors affecting the power generation of the modules. When the "hot spot effect" reaches a certain level, the continuous local high temperature will burn out the components, causing the glass to break, the cells to burn, and the backplane to burn through. Even if the modules are not burned out, hot spots will directly shorten the service life of photovoltaic modules by 30%, which will cause photovoltaic module failure in the long run.
FAQ
Different from traditional modules, SunEvo shingled modules arrange photovoltaic cells closely in a series-parallel structure and require almost no soldering ribbons. In the same size, more than 13% more cells can be placed than conventional modules. Therefore, the laminated module has the advantages of high output power, low internal loss, and a small reverse current hot spot effect. Our minimum order quantity is 1 pallet.
Shingled modules are an innovative solar photovoltaic technology that uses laser slicing technology and conductive adhesive connections to realize stacked connection packaging of solar cells, creating a superior circuit connection effect with zero spacing between solar cells. It has significant advantages such as optimal circuit connection effect, higher energy density, and higher power generation performance. By reducing line losses and BOS investment costs for system-side owners, shingled modules become more competitive in the photovoltaic industry.
Shingled solar panels are an advanced solar photovoltaic technology designed to enhance energy efficiency and power output. These panels feature overlapping solar cells, resembling roof shingles, which maximize the utilization of available space on the module. By reducing inactive areas and minimizing electrical losses, shingled solar panels offer improved performance and higher power density.
Shingled solar panels revolutionize traditional solar technology with their distinctive design, resembling a mosaic of interconnected solar cells. Unlike conventional panels, shingled modules overlap like roof shingles, creating a visually unique and highly efficient solar array. This innovative architecture minimizes energy loss and maximizes the use of available space, resulting in heightened power output and increased overall performance. Shingled solar panels not only provide an aesthetic appeal but also deliver a sustainable and cost-effective solution for harnessing solar energy.
Shingled solar panels stand out as a groundbreaking innovation in the realm of solar technology, featuring a configuration that resembles the intricate arrangement of solar cells like a jigsaw puzzle. In a departure from traditional designs, these panels overlap similar to shingles on a roof, presenting a visually striking and highly efficient pattern. This distinctive layout not only optimizes the use of available space but also minimizes energy loss, leading to heightened power output and superior performance. Shingled solar panels redefine the aesthetics of solar installations, marrying functionality with a visually captivating mosaic. Choosing shingled solar technology signifies a move towards cutting-edge design, efficiency, and a sustainable future in the field of solar energy.
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IPv6 network supported
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