• Ic Grade Solar Silicon Wafer Supplier - 6 inch 3bb Monocrystalline Best Solar Cell Price 17.6% System 1
  • Ic Grade Solar Silicon Wafer Supplier - 6 inch 3bb Monocrystalline Best Solar Cell Price 17.6% System 2
  • Ic Grade Solar Silicon Wafer Supplier - 6 inch 3bb Monocrystalline Best Solar Cell Price 17.6% System 3
Ic Grade Solar Silicon Wafer Supplier - 6 inch 3bb Monocrystalline Best Solar Cell Price 17.6%

Ic Grade Solar Silicon Wafer Supplier - 6 inch 3bb Monocrystalline Best Solar Cell Price 17.6%

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Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
1000 pc
Supply Capability:
100000 pc/month

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Quick Details

Place of Origin:

China (Mainland)

Brand Name:

xrsolar

Model Number:

ERC-156M-3BB

Material:

Monocrystalline Silicon

Size:

6 inch

Number of Cells:

1

Max. Power:

4.3W

Material::

monocrystalline Silicon

Size::

156mmx156mm or 6 inch

Max. Power::

4.3 watts

efficiency::

16%-17.8%

busbar::

3

Color:

Dark Blue

Voltage::

0.508V-0.53V

Thickness::

190um±20um

Packaging & Delivery

Packaging Details:

100pcs in one box,1000pcs per carton, standard   export carton

Delivery Detail:

5-7 days after received the payment


Specifications

3BB Monocrystallin Best Solar Cell Price 
1.Size: 6*6 solar cell 
2. Efficiency:4.3WMonocrystallin Best Solar Cell Price

 

6 Inch 3BB Monocrystallin  Best Solar Cell Price 


 

 

Dimension:       156mm x 156mm

Diagonal:          200mm (round chamfers)

Front:               Anisotropically texturized surface and dark silicon nitride

                        anti-reflection coating

                       1.9mm silver busbars

Back:               Full-surface aluminum back-surface field

                       4.0mm (silver / aluminum) continuous soldering pads

 

Features

 

1.High conversion efficiencies resulting in superior power output performance.

2.Outstanding power output even in low light or high temperature conditions

3.Optimized design for ease of soldering and lamination

4.Long-term stability,reliability and performance 

5.Low breakage rate

6.Color uniformaity  

 

Packaging & Shipping

 

 

1. Item are only shipped after PAYMENT is received. 

2.Originally our solar cells are 100 pieces per box, 10 boxes per carton.
2. Please check out your ADDRESS carefully when processing order.
3. Please CONTACT us ASAP if you haven't received the parcel.


Shipping will be made via EMS, DHL, Fedex, UPS , TNT etc



FAQ:

FAQ:

1. Q: Do you have your own factory?

   A: Yes, we have. Our factory located in Jiangsu

2. Q: How can I visit your factory?
    A: Before you visit,please contact us.We will show you the route or arrange a car to pick you up.
3. Q: Do you provide free sample?
    A: Commenly we provide paid sample.

4. Q: Could you print our company LOGO on the nameplate and package?

   A: Yes, we accept it.And need an Authorization Letter from you.






6 Inch 3BB Monocrystallin Best Solar Cell Price 17.6%


6 Inch 3BB Monocrystallin Best Solar Cell Price 17.6%

6 Inch 3BB Monocrystallin Best Solar Cell Price 17.6%

6 Inch 3BB Monocrystallin Best Solar Cell Price 17.6%


Q: What are the advantages of using silicon for solar wafers?
There are several advantages of using silicon for solar wafers. Firstly, silicon is abundantly available and is one of the most common elements on Earth, making it cost-effective. Secondly, silicon has excellent electrical properties, such as its ability to convert sunlight into electricity efficiently. Additionally, silicon is highly stable and durable, ensuring a longer lifespan for solar panels. Lastly, silicon can be easily processed and fabricated into wafers, making it a versatile material for solar cell production.
Q: What is the typical warranty period for a solar silicon wafer?
The typical warranty period for a solar silicon wafer can vary depending on the manufacturer, but it is commonly around 25 to 30 years.
Q: How do impurities affect the performance of a solar silicon wafer?
Impurities can significantly impact the performance of a solar silicon wafer. They can introduce defects in the crystal lattice structure, which can reduce the efficiency of the wafer in converting sunlight into electricity. Impurities can also affect the electrical conductivity of the material, leading to increased resistivity and decreased power output. Additionally, certain impurities may act as recombination centers, facilitating the recombination of charge carriers and reducing the overall efficiency of the solar cell. Therefore, minimizing impurities in the silicon wafer is crucial for optimizing its performance in solar energy conversion.
Q: How has the technology for solar silicon wafers evolved over time?
The technology for solar silicon wafers has evolved significantly over time. Initially, the production of silicon wafers was a complex and expensive process, with low efficiency levels. However, advancements in manufacturing techniques and materials have led to the development of more efficient and cost-effective solar silicon wafers. These improvements include the introduction of thin-film solar cells, multicrystalline silicon wafers, and monocrystalline silicon wafers. Additionally, the size of the wafers has increased, allowing for larger solar cells and greater energy generation. Overall, the evolution of solar silicon wafer technology has resulted in increased efficiency, reduced costs, and widespread adoption of solar energy.
Q: Can solar silicon wafers be used in concentrated photovoltaics (CPV)?
Yes, solar silicon wafers can be used in concentrated photovoltaics (CPV). However, CPV systems typically use high-efficiency multi-junction solar cells that are specifically designed for concentrated sunlight, as they can handle the higher intensity of light.
Q: How long do solar silicon wafers last?
Solar silicon wafers have a typical lifespan of around 25 to 30 years.
Q: Can solar silicon wafers be customized for specific applications?
Yes, solar silicon wafers can indeed be customized for specific applications. The customization process involves altering the thickness, shape, and size of the wafers to meet the specific requirements of different solar applications. By tailoring the characteristics of the silicon wafers, such as the dopant concentration and crystal orientation, they can be optimized for various solar cell technologies, such as monocrystalline, polycrystalline, or thin-film solar cells. This customization enables the production of solar panels that are efficient and suitable for specific applications, ranging from residential rooftops to large-scale solar power plants.
Q: What is the role of interconnection on solar silicon wafers?
The role of interconnection on solar silicon wafers is to connect individual solar cells together, creating a larger, more efficient solar panel. Interconnections allow for the flow of electricity between cells, ensuring that the generated power is efficiently harnessed and transferred to the electrical system.
Q: What is the role of light trapping in solar silicon wafers?
The role of light trapping in solar silicon wafers is to increase the absorption of sunlight and enhance the efficiency of the solar cells. Light trapping techniques, such as texturing or adding anti-reflective coatings, help to reduce the reflection and scattering of light, allowing more photons to be absorbed by the silicon material. This allows the solar cells to convert a higher percentage of the incident light into usable electrical energy.
Q: Silicon wafer is not light mixed with heavy doping?That is not mixed with P type N type, then ask what is the meaning of SUBThere are light doped tablets with heavy doping in the semiconductor industry is how to express?
Whether it is N or P type, doping, resistivity is low, that is RE doped

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