Mechanical Specifications |
External Dimensions |
1722x1134x30mm |
Weight |
20.5kg |
Solar Cells |
Mono crystalline 182mm (2x54pcs) |
Front Glass |
AR Coated 3.2 mm tempered glass |
Frame |
Anodized aluminum alloy |
Junction Box |
IP68 |
Output Cables |
4.0mm3, 50cm (t), 50cm (), length can be customized |
Connector |
MC4 EVO2 |
Mechanical Load |
Front Side Max. 5400Pa, Rear Side Max. 2400Pa |
Electrical Characteristics (STC/NOCT) |
Module Type |
JS385M10 |
JS390M10 |
JS395M10 |
JS400M10 |
JS405M10 |
JS410M10 |
|
STC |
NOCT |
STC |
NOCT |
STC |
NOCT |
STC |
NOCT |
STC |
NOCT |
STC |
NOCT |
Maximum Power- Pmax(W) |
385 |
290 |
390 |
294 |
395 |
298 |
400 |
302 |
405 |
306 |
410 |
310 |
Open Circuit Voltage - Voc(V) |
36.76 |
34.49 |
36.85 |
34.62 |
36.98 |
34.75 |
37.07 |
34.88 |
37.23 |
35.12 |
37.32 |
35.23 |
Short- Circuit Current - lsc(A) |
13.53 |
10.82 |
13.61 |
10.89 |
13.70 |
10.96 |
13.79 |
11.03 |
13.87 |
11.10 |
13.95 |
11.16 |
Voltage at Pmax -Vmp(V) |
30.44 |
28.66 |
30.64 |
28.87 |
30.84 |
29.08 |
31.01 |
29.26 |
31.21 |
29.47 |
31.45 |
29.72 |
Current at Pmax - lmp(A) |
12.65 |
10.18 |
12.73 |
10.18 |
12.81 |
10.25 |
12.9 |
10.32 |
12.98 |
10.38 |
13.04 |
10.43 |
Module Efficiency -nm(%) |
19.8 |
/ |
20.0 |
/ |
20.2 |
/ |
20.5 |
/ |
20.8 |
/ |
21 |
/ |
Power Tolerance(W) |
(0, +4.99W) |
Maximum System Voltage(V) |
1500Vdc (IEC ) |
Maximum Series Fuse Rating (A) |
25A |
STC : Irradiance 1000W/m 2, Cell Temperature 25 C , Air Mass 1.5NOCT : Irradiance 800W/m, Ambient Temperature 20 C , Air Mass 1.5, Wind Speed 1m/s |
What is BIPV ?
BIPV stands for Building-Integrated Photovoltaics. It refers to the incorporation of solar panels or photovoltaic materials directly into the building envelope, such as the roof, walls, or windows, rather than adding them as separate, traditional solar panels. BIPV systems allow buildings to generate their own electricity, reducing their reliance on external power sources and helping to promote sustainability and energy efficiency.
BIPV systems can take a variety of forms, such as thin-film solar cells integrated into glass windows, solar shingles that look like traditional roofing materials, or solar panels integrated into exterior walls or awnings. These systems are often designed to be aesthetically pleasing and blend seamlessly into the building's overall design. In addition to generating electricity, BIPV systems can also help reduce a building's energy consumption by shading windows and walls, reducing cooling loads, and providing insulation.
what does BIPV used for?
BIPV (Building-Integrated Photovoltaics) systems are used to generate electricity on-site in buildings while also serving as part of the building envelope. These systems can be integrated into roofs, facades, windows, skylights, canopies, or shading devices to provide both electrical power and other benefits such as thermal insulation, daylighting, and weather protection.
what's the advantage of BIPV compared with traditional solar panle ?
BIPV systems offer several advantages over traditional solar panels, including:
Aesthetics: BIPV systems can be designed to blend seamlessly with the building's architecture and can enhance its visual appeal.
Space efficiency: BIPV systems can save space by serving a dual function as both a building component and a power generator.
Sustainability: BIPV systems can reduce a building's carbon footprint by generating clean energy and reducing its reliance on external power sources.
Energy efficiency: BIPV systems can reduce a building's energy consumption by shading windows and walls, reducing cooling loads, and providing insulation.