• Poly 156x156mm2 Solar Cells for Home Use - Class AA Quality System 1
  • Poly 156x156mm2 Solar Cells for Home Use - Class AA Quality System 2
  • Poly 156x156mm2 Solar Cells for Home Use - Class AA Quality System 3
  • Poly 156x156mm2 Solar Cells for Home Use - Class AA Quality System 4
  • Poly 156x156mm2 Solar Cells for Home Use - Class AA Quality System 5
Poly 156x156mm2 Solar Cells for Home Use - Class AA Quality

Poly 156x156mm2 Solar Cells for Home Use - Class AA Quality

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Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
4600 watt
Supply Capability:
6000000 watt/month

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The operation of a photovoltaic (PV) cell requires 3 basic attributes:

 

The absorption of light, generating either electron-hole pairs or excitons.

The separation of charge carriers of opposite types.

The separate extraction of those carriers to an external circuit.

In contrast, a solar thermal collector supplies heat by absorbing sunlight, for the purpose of either direct heating or indirect electrical power generation from heat. A "photoelectrolytic cell" (photoelectrochemical cell), on the other hand, refers either to a type of photovoltaic cell (like that developed by Edmond Becquerel and modern dye-sensitized solar cells), or to a device that splits water directly into hydrogen and oxygen using only solar illumination.Characteristic of Mono 156X156MM2 Solar Cells

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Adaptive cells change their absorption/reflection characteristics depending to respond to environmental conditions. An adaptive material responds to the intensity and angle of incident light. At the part of the cell where the light is most intense, the cell surface changes from reflective to adaptive, allowing the light to penetrate the cell. The other parts of the cell remain reflective increasing the retention of the absorbed light within the cell.[67]

 

In 2014 a system that combined an adaptive surface with a glass substrate that redirect the absorbed to a light absorber on the edges of the sheet. The system also included an array of fixed lenses/mirrors to concentrate light onto the adaptive surface. As the day continues, the concentrated light moves along the surface of the cell. That surface switches from reflective to adaptive when the light is most concentrated and back to reflective after the light moves along

 

Mechanical data and design

Format

156mm x   156mm±0.5mm

Thickness

210μm±40μm

Front(-)

1.5mm   bus bar (silver),blue anti-reflection   coating (silicon nitride)

Back (+)

2.5mm   wide  soldering pads (sliver)   back surface field (aluminium)

Temperature Coefficient of Cells

Voc.   Temp.coef.%/K

-0.35%

Isc.   Temp.coef .%/K

+0.024%/K

Pm.Temp.coef.   %/K

-0.47%/K

 

Electrical Characteristic

Effiency(%)

Pmpp(W)

Umpp(V)

Impp(A)

Uoc(V)

Isc(A)

FF(%)

18.35

4.384

0.526

8.333

0.63

8.877

78.39%

18.20

4.349

0.526

8.263

0.63

8.789

78.54%

18.05

4.313

0.525

8.216

0.63

8.741

78.32%

17.90

4.277

0.524

8.161

0.625

8.713

78.04%

17.75

4.241

0.523

8.116

0.625

8.678

77.70%

17.60

4.206

0.521

8.073

0.625

8.657

77.36%

17.45

4.170

0.519

8.039

0.625

8.633

76.92%

17.30

4.134

0.517

8.004

0.625

8.622

76.59%

17.15

4.096

0.516

7.938

0.625

8.537

76.80%

17.00

4.062

0.512

7.933

0.625

8.531

76.18%

16.75

4.002

0.511

7.828

0.625

8.499

75.34%

16.50

3.940

0.510

7.731

0.625

8.484

74.36%

 

 

 

Poly 156X156mm2 Solar Cells Made in Class AA

Poly 156X156mm2 Solar Cells Made in Class AA

Poly 156X156mm2 Solar Cells Made in Class AA

Poly 156X156mm2 Solar Cells Made in Class AA

Poly 156X156mm2 Solar Cells Made in Class AAFAQ

Q: What price for each watt?

A: It depends on the quantity, delivery date and payment terms, generally Large Quantity and Low Price

Q: What is your size for each module? Can you tell me the Parameter of your module?

A: We have different series of panels in different output, both c-Si and a-Si. Please take the specification sheet for your reference.

Q: What is your size for each module? Can you tell me the Parameter of your module?

A: We have different series of panels in different output, both c-Si and a-Si. Please take the specification sheet for your reference.

 

 


Q: Can solar cells be used on mobile devices?
Yes, solar cells can be used on mobile devices. There are already various portable solar chargers available in the market that can be connected to mobile devices to generate and store energy from sunlight. Additionally, there are also some mobile devices that come with built-in solar panels to directly convert solar energy into power for charging.
Q: How do solar cells perform in areas with high levels of noise pollution?
Solar cells are not significantly affected by noise pollution as they primarily convert sunlight into electricity. Noise pollution does not have a direct impact on their performance.
Q: Can solar cells be used for powering wildlife tracking devices?
Yes, solar cells can be used for powering wildlife tracking devices. Solar cells convert sunlight into electrical energy, which can be stored in batteries and used to power various devices, including wildlife tracking devices. This allows for continuous and sustainable power supply, eliminating the need for frequent battery replacements or recharging.
Q: Can solar cells be installed on curved surfaces?
Yes, solar cells can be installed on curved surfaces. Flexible solar panels and technologies like thin-film solar cells allow for installation on various curved surfaces such as vehicles, buildings, and even clothing.
Q: Do solar cells work at night or in low light conditions?
No, solar cells do not work at night or in low light conditions because they require sunlight to generate electricity.
Q: How can I calculate the cost of using solar cells if I put a fully-functional solar system in my house?
Oh gosh, that would a lot, are you really ready to see your bill?
Q: What is the lifespan of a solar cell battery?
The lifespan of a solar cell battery can vary depending on various factors such as the quality of the battery, usage patterns, and environmental conditions. On average, a well-maintained solar cell battery can last anywhere from 5 to 15 years. However, advancements in technology are constantly improving the longevity and efficiency of solar cell batteries.
Q: Can solar cells be used in powering remote weather stations?
Yes, solar cells can be used to power remote weather stations. Solar cells convert sunlight directly into electricity, making them an ideal and sustainable power source for remote locations where access to the electrical grid may be limited or non-existent. The solar panels can be installed on the weather station's roof or nearby, providing a constant supply of renewable energy to run the station's sensors, data loggers, and communication systems.
Q: Can solar cells be used for air conditioning?
Yes, solar cells can be used for air conditioning. Solar-powered air conditioning systems utilize solar energy to power the cooling process, making them more energy-efficient and environmentally friendly compared to traditional AC systems.
Q: What is the impact of snowmelt on solar cell efficiency?
The impact of snowmelt on solar cell efficiency is generally positive. Snow on solar panels can reduce their efficiency by blocking sunlight and preventing the cells from generating electricity. However, when snow melts, it cleans the panels and allows them to receive more sunlight, thus increasing their efficiency.

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