• Cheap Solar Cells China - Poly 3 Busbar Solar Cells Four Busbar B Grade Lower Price System 1
  • Cheap Solar Cells China - Poly 3 Busbar Solar Cells Four Busbar B Grade Lower Price System 2
Cheap Solar Cells China - Poly 3 Busbar Solar Cells Four Busbar B Grade Lower Price

Cheap Solar Cells China - Poly 3 Busbar Solar Cells Four Busbar B Grade Lower Price

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Shanghai
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Min Order Qty:
30000 pc
Supply Capability:
3000000 pc/month

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Product description

 

Poly Solar Cells 156*156mm B Grade Low Price

A solar cell, or photovoltaic cell, is an electrical device that converts the energy of light directly into electricity by the photovoltaic effect, which is a physical and chemical phenomenon.[1] It is a form of photoelectric cell, defined as a device whose electrical characteristics, such as current, voltage, or resistance, vary when exposed to light. Solar cells are the building blocks of photovoltaic modules, otherwise known as solar panels.

Solar cells are described as being photovoltaic irrespective of whether the source is sunlight or an artificial light. They are used as a photodetector (for example infrared detectors), detecting light or other electromagnetic radiation near the visible range, or measuring light intensity.

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.

 

Advantage Of Poly Solar Cell 156mm

 

1: High quality cell, Level A cell (14%—17.5%)

2.Dimensione:156*156mm Diagonal:200mm

3: Qualified certification: TUV,CE certification.

4: Warranty: five years for whole unit

  

Usage/Application Of Poly Solar Cell 156mm

 

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

2.The separation of charge carriers of opposite types.

3.The separate extraction of those carriers to an external circuit.

 

Product Images

Poly Solar Cells Four Busbar With Lower Price B Grade

Poly Solar Cells Four Busbar With Lower Price B Grade

Poly Solar Cells Four Busbar With Lower Price B Grade

 

Mechanical data and design

 

Format

156 mm × 156 mm ± 0.5 mm

Thickness

210 μm ± 40 μm

Front(-)

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

Back (+)

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

 

Temperature Coefficient of Cells

 

Voc. Temp .  coef.%/K

-0.351%/K

Isc . Temp .  coef.%/K

+0.035%/K

Pm. Temp.  coef.%/K

-0.47%/K

 

Electrical Characteristic

 

Efficiency (%)

Pmpp (W)

Umpp (V)

Impp (A)

Uoc (V)

Isc (A)

FF (%)

17.25

4.197

0.524

7.992

0.62

8.458

80.03%

17

4.137

0.524

7.876

0.619

8.353

80.01%

16.75

4.076

0.522

7.81

0.617

8.286

79.73%

16.5

4.015

0.518

7.746

0.613

8.215

79.73

16.25

3.955

0.515

7.683

0.61

8.144

79.61%

16

3.894

0.512

7.613

0.608

8.075

79.31%

15.75

3.833

0.51

7.534

0.605

8.058

78.62%

15.5

3.772

0.508

7.453

0.604

8.02

77.87%

15.25

3.771

0.505

7.35

0.604

9.997

76.83%

15

3.65

0.503

7.271

0.604

7.989

75.64%

14.5

3.529

0.499

7.067

0.604

7.988

73.14%

14

3.407

0.499

6.833

0.604

7.833

72.01%

 

Intensity Dependence

 

Intensity [W/m2]

Isc× [mA]

Voc× [mV]

1000

1.00

1.000

900

0.90

0.989

500

0.50

0.963

300

0.30

0.939

200

0.20

0.920

 

FAQ

Q:What price for each watt?

A:It depends on the quantity, delivery date and payment terms

Q:What is your warranty system?

A:Our Solar cells performance guarantees for 25 years

Q:How do you pack your products?

 

 

Brief introduction of 3 busbar solar cell

Solar cells, also known as "Solar chip" or "photovoltaic cell”, is a direct use of solar photovoltaic power generation semiconductor slice. As long as it is light that can be instantaneous output voltage and in the case of the circuit generates a current situation.

3 Busbar solar cell convert light into electrical energy through the photoelectric effect or photochemical effect directly. In the photoelectric effect of thin-film solar cells work for the mainstream, and to the implementation of the work photochemical effects of solar cells is still in its infancy.

Working principle of 3 busbar solar cell

Sun lights in the semiconductor p-n junction, forming a new hole - electron pairs in the p-n junction built-in electric field, the photo-generated holes flow to the p region, the photo-generated electrons flow into the n region, after turning circuit current. This is how the photovoltaic solar cell works.

There are two ways 3 busbar solar power working in, one is light - heat - electricity conversion mode, the other is light - electric direct conversion method.

Briefly, solar photovoltaic power generation principle is the use of solar cells to absorb 0.4μm ~ 1.1μm wavelength (for silicon) sunlight, light energy being converted into electric energy directly.

Since electricity generated by 3 busbar solar cells is DC, so if you provide electricity to all kinds of electrical appliances used in home or industrial need to install DC / AC converter, to change it into alternating current.

Most of the rechargeable solar cells apply in consumer products have charging problem. In the past general object takes charge NiMH or nickel cadmium batteries, nickel-metal hydride batteries but cannot withstand high temperatures and nickel-cadmium batteries have environmental pollution.

Super capacitor rapid development, large capacity, anti narrow area, coupled with low prices, it is part of the solar products began to shift to the super capacitor charging objects, thereby improving many of the problems of solar charging:

  1. Charge faster,

  2. The long life of more than 5 times,

  3. Charging a wide temperature range,

  4. Reduce the amount of solar cells (which can be low voltage charging).

 

 

Q: Can solar cells be used for off-grid power supply?
Yes, solar cells can be used for off-grid power supply. Solar cells, also known as photovoltaic cells, convert sunlight directly into electricity. This makes them an excellent choice for powering off-grid locations where access to traditional power sources may be limited or unavailable. Solar panels can be installed in remote areas to generate electricity, providing a sustainable and renewable energy solution for off-grid power supply.
Q: How much does a solar cell weigh?
The weight of a solar cell can vary depending on its size and design. On average, a standard solar cell weighs between 3 to 4 ounces (85 to 113 grams).
Q: How to make solar cells in a scientific way?
Follow the scientific instructions, then you will learn how to make it.
Q: How do solar cells perform in areas with high levels of insect activity?
Solar cells can still perform well in areas with high levels of insect activity. However, the efficiency of solar cells might be slightly affected if there is a significant accumulation of dust, debris, or insect droppings on the surface of the panels. Regular cleaning and maintenance can help mitigate any potential impact and ensure optimal performance.
Q: Can solar cells be combined with energy storage systems?
Yes, solar cells can be combined with energy storage systems. This integration allows for the excess energy generated by solar cells to be stored for later use, such as during periods of low sunlight or at night. Energy storage systems, such as batteries, enable a more reliable and efficient utilization of solar energy, making it a feasible and sustainable solution for meeting energy demands.
Q: Can solar cells be used for water heating applications?
Yes, solar cells can be used for water heating applications. Solar thermal panels, also known as solar water heaters, use solar energy to heat water directly. However, it's important to note that solar cells, which convert sunlight into electricity, are typically used to generate electricity rather than directly heating water.
Q: What is the solar cell?
The type of solar cells can be divided according to the materials used: silicon solar cells, solar cells and organic semiconductor system of solar cells.
Q: Can solar cells be used in large-scale power plants?
Yes, solar cells can be used in large-scale power plants. Large solar power plants, also known as solar farms or solar parks, employ thousands or even millions of solar panels or solar modules to convert sunlight into electricity. These power plants are capable of generating significant amounts of renewable energy, contributing to the overall energy grid and reducing dependence on fossil fuels.
Q: Can solar cells be used in marine applications?
Yes, solar cells can be used in marine applications. They can be integrated into boats, yachts, and other marine vessels to generate electricity from sunlight, which can be used to power various onboard systems and equipment. Additionally, solar cells can also be used to charge batteries, providing a reliable and sustainable source of energy for marine applications.
Q: How can I describe solar cells in a simple way?
The batteries used on the solar panel.

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