• Maxeon Solar Cells Poly 156x156mm with High Conversion Efficiencies System 1
Maxeon Solar Cells Poly 156x156mm with High Conversion Efficiencies

Maxeon Solar Cells Poly 156x156mm with High Conversion Efficiencies

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Loading Port:
Tianjin
Payment Terms:
TT or LC
Min Order Qty:
10 watt
Supply Capability:
10000 watt/month

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our cells special 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.For 156P poly cells with high efficiency in photovoltaic conversion 16.3%-17.5%.

6.Low inverse current, high shunt resistance and high dependability.

7. Our poly cells efficiency include: 17%-18%.

 

 

 

Conversion of different solar materials

Solar photovoltaic power generation more important seats in the world's energy consumption in the near future, not only to replace part of conventional energy, are more likely to become the main body of the world's energy supply.
Solar cell is a light energy into electrical energy components. Low-cost high-efficiency solar cell photovoltaic technology long chase the target, it is hard to compete for each enterprise technology territory.
Solar cells market applications more wide-ranging and diversified to meet the various needs of photovoltaic products are constantly available, in addition to large-scale grid-connected PV power plant outside, combined with the construction of photovoltaic systems, small-scale PV systems, off-grid PV systems, also fast rise. The cost of solar cells and photovoltaic systems continued to decline and approximate cost of conventional power generation, is still the subject of photovoltaic industry development, and solar cells will continue to walk in high-efficiency, low-cost way.
We are familiar with crystalline silicon cells into single crystal and polycrystalline, except that the silicon wafers. Monocrystalline wafers made of polysilicon raw material crystal pullers pull into a bar and then sliced into monocrystalline, polycrystalline silicon film is made of polysilicon through ingot casting furnaces made of polysilicon ingots and then sliced. However, polycrystalline silicon photovoltaic cells still dominant the market currently.
The basic structure of a solar cell is to use a P-type and N-type semiconductors are joined together. The most important parameter is the photoelectric conversion efficiency. In the single-crystal battery, the current level of industrialization of developed N-type monocrystalline cells in about 21% -24%, the level of domestic industry P-type monocrystalline cells is about 18.7% -19.2%, 19.2% in overseas -20% or so. Polycrystalline battery’s industrialization level is the 17% - 17.5%. Here are edited from the N-type monocrystalline cells, P-type monocrystalline cells, polycrystalline cells are three types of contrast, certified technological frontier representatives listed below.

 

 

Q: How do solar cells impact greenhouse gas emissions?
Solar cells have a positive impact on greenhouse gas emissions as they generate electricity from renewable and clean energy sources, such as sunlight. By utilizing solar cells to generate power, we reduce the reliance on fossil fuels, which are major contributors to greenhouse gas emissions. Therefore, solar cells help to mitigate climate change by reducing the overall carbon footprint and promoting a more sustainable and eco-friendly energy system.
Q: How long is the long cycle solar cell life?
A look at the application of the environment, if the ambient temperature is high, then in general, to 25 degrees as a benchmark, each increased by 10 degrees, life-span reduced by half;
Q: What is the impact of hailstorms on solar cells?
Hailstorms can have a detrimental impact on solar cells. The physical force of hailstones can cause damage to the surface of the solar panels, leading to cracks, scratches, or even complete destruction. This damage can impair the performance and efficiency of the solar cells, resulting in reduced energy production. Additionally, if the hailstones are large enough, they can break or dislodge the cells from their mounting structure. Therefore, it is crucial to protect solar panels from hailstorms through the use of appropriate shielding or protective measures to ensure their longevity and optimal functioning.
Q: How do solar cells perform in areas with limited space for installation?
Solar cells can still perform effectively in areas with limited space for installation by utilizing innovative technologies such as rooftop solar panels, vertical solar panels, or solar panels integrated into building materials. These compact and space-efficient designs allow for the generation of solar energy even in tight spaces, making it possible to harness the benefits of solar power without requiring vast expanses of land.
Q: How do solar cells perform in extreme weather conditions?
Solar cells generally perform well in extreme weather conditions, but their efficiency can be affected to some extent. In extremely hot conditions, solar cells may experience a decrease in efficiency due to increased thermal losses and a decrease in voltage output. Similarly, in extremely cold conditions, solar cells may also experience reduced efficiency due to decreased sunlight absorption and increased resistance. However, modern solar cell technologies are designed to withstand a wide range of weather conditions and have protective coatings to ensure their durability. Overall, while extreme weather conditions can have some impact on solar cell performance, they still remain a viable and reliable source of renewable energy.
Q: Can solar cells be used to power refrigeration systems?
Yes, solar cells can be used to power refrigeration systems. Solar cells convert sunlight into electricity, which can be used to power various appliances including refrigeration systems. This allows for a sustainable and environmentally friendly way to operate refrigeration systems without relying on traditional electricity sources.
Q: How to explain to students how the solar cells are made?
Purifying the silicon is the first step to make solar cells.
Q: How do solar cells perform in areas with high levels of air humidity?
Solar cells generally perform less efficiently in areas with high levels of air humidity. The moisture in the air can lead to the formation of a thin layer of water droplets on the surface of the solar cells, which can block sunlight and reduce their ability to generate electricity. Additionally, high humidity can accelerate the degradation of the materials used in solar cells, potentially shortening their lifespan. Therefore, it is important to take these factors into consideration when installing solar panels in humid areas.
Q: How do solar cells handle power fluctuations?
Solar cells handle power fluctuations by using a device called an inverter. The inverter converts the direct current (DC) produced by the solar cells into alternating current (AC) that is suitable for use in homes and businesses. It also helps to regulate and stabilize the power output, ensuring a consistent and steady flow of electricity despite any fluctuations in sunlight intensity or changes in load demand.
Q: Are solar cells affected by shade?
Yes, solar cells are affected by shade. Shade can significantly reduce the efficiency and output of solar cells. When solar cells are shaded, they receive less sunlight, which reduces the amount of energy they can convert into electricity. Therefore, it is important to ensure that solar panels are installed in a location where they receive maximum sunlight exposure throughout the day for optimal performance.

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