Hightec Solar 220W-286W Bifacial Solar Panel
$235.00 $240.00
HighTec Solar 220W-286W Bifacial Solar Panel are a type of photovoltaic module that can capture sunlight from both the front and rear sides of the panel, increasing their overall energy generation. Bifacial solar panels have solar cells on both the front and rear sides, allowing them to capture sunlight that is reflected off surfaces like the ground or nearby structures. This can enhance the panel's overall efficiency and energy output.
- Power: 200-260 Watt
- 5 Busbar
- Cells: Bifacial
- Vmp: 19.61-26.605V
- Voc: 24.21-24.960V
- Imp: 10.38-13.00A
- Isc: 10.83-13.00A
- Maximum System Voltage: 1000V
- Module Efficiency: 17.3%-22.0%
- Temperature Coefficient of Isc: ±0.05%/°C
- Temperature Coefficient of Voc: -0.31%/°C
- Temperature Coefficient of Pmax: -0.29% °C
- Cable length: Standard MC4
- Height: 58.7 in.
- Width: 26.625 in.
- Shipping Weight: 1 Panel 35 LBS
- Warranty: 25 Year Warranty
*The efficiency of BSCs is usually determined by means of independent efficiency measurements of the front and rear sides under one sun. Sometimes also, the BSC is characterized using its equivalent efficiency defined as the efficiency of a monofacial cell able to render the same power per unit area as the bifacial cell at the same test conditions. Alternatively, the equivalent efficiency has been defined as the sum of the front and rear side efficiencies weighted by the relative amounts of irradiance on both sides.
Another related parameter is the Bifaciality Factor, defined as the ratio of the front and rear efficiencies when illuminated and measured independently.
![{\displaystyle {\text{Bifaciality factor }}(\%)=\left[{\frac {\eta _{\text{front}}}{\eta _{\text{rear}}}}\right]\times 100}](https://wikimedia.org/api/rest_v1/media/math/render/svg/a326a2239847d9b5e8a84cea1698e9e5c36a015e)
Also specific to BSCs is the Separation Rate , that intends to measure the Bifacial Illumination Effect predicted by McIntosh et al. in 1997 by which, the electrical output of BSCs operating under bifacial illumination would not necessarily equal the sum of the front-only and rear-only electrical output, i.e. it is not merely a linear combination of the monofacial characteristics:[46][47]
![{\displaystyle {\text{Separation rate }}(\%)=\left[{\frac {X_{\text{front+rear}}}{X_{\text{front}}+X_{\text{rear}}}}\right]\times 100}](https://wikimedia.org/api/rest_v1/media/math/render/svg/6d677b5f87bfdc69bec131063f9cbd10da0db8d1)
Typically X represents one of the cell characteristic parameters such as the short circuit current Jsc, the peak power Pmax or the efficiency η. Furthermore, to characterize BSC operation under simultaneous front and rear irradiation, the irradiance gain, g, defined as:
so that
and a bifacial 1.x Efficiency can be defined as the efficiency obtained under a simultaneous irradiance of a certain amount on the front face and x times this amount on the rear side of the BSC. Then the actual gain of a BSC with respect to a monofacial one can be expressed through the Gain-Efficiency Product, which is the product of the irradiance gain g and the bifacial 1.x Efficiency.
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