It is the leading product in medium and small scale projects in Turkey with price, performance, locality and quality. Considering that imports are prohibited by law in Turkey, all products are domestic, and every material, including cell, is used the same by companies, it is the product with the highest price, cosmetics and accessibility.
The solar panel is A class, it is produced by the manufacturer without a box.
Even if you take precautions to prevent it from breaking during shipment, it is broken at a rate of 5% in the cargo. My advice is that it takes 3-5 days to get the product with payment at the door, but payment at the door and shipping by warehouse is the surest method.
When the panel is broken, not all shipping companies are strictly compensated. When the broken panel is legally given to the cargo by the seller, it is now the property of the buyer and the buyer is responsible for all the problems that may occur in the cargo. It is not possible to return the broken panels that will be taken without a report.
This product is sold as A- or Microcracked B. You can get this product with a minor visual defect for a 15% discount. It does not interfere with his work.
Unless you write otherwise, our company sends A Class products unless you request it.
The cargo of the panel costs about 10 USD, part of the cargo is covered by our company. If the product is requested to be returned while it is in cargo, without giving any reason, the cargo fee will be charged to the consumer. This product has been produced for use in high-cost and special works. It is a professional special-purpose product, not a device. It is not an end user product. Installation of the product requires technical knowledge.
If the outputs of the panel are short-circuited for a long time, the fuse diodes will be damaged and become inoperable.
The product is out of warranty.
There is absolutely no refund after the product has been assembled.
Pantec Watt Monocrsytalline Solar Module
High Efficenyc 5Busbar PERC Solar Cell
Horizantal shade performance %50
Better performance in shaded condition
Cost-Effective and High Efficient
Application back surface passivation layer
More Productive Slow Degradation
Better performance in shaded conditions
Reduced temperature coefficient
Power Out
PV DC Range
MPPT Current Range
-Pantec Elizler Microcrack resistant high performance backsheet structure enhance reliability, trible EL tested of high quality control
-Pantec Elizler Designed for high voltage systems of up 1000VDC, increase-ing the she string lenghth of solar systems and saving on case
-Pantec Elizler In the modules are stored and packaged by amperage, reduin mismatch losses and maximizing system output
-Pantec Elizler Mono PERC cell technology can reduce the internal owner loss and improve component overall power. Excellent heat diddipation avoids hot spot production
-Pantec Elizler 5BB The optimized number and width of main gate lines, Maximize the light receiving areas of components and Reduce omponents power concumption
Poly Crsytalline solar Module Advantage
Polycrystalline or multi crystalline solar panels are solar panels that consist of several crystals of silicon in a single PV cell. Several fragments of silicon are melted together to form the wafers of polycrystalline solar panels. In the case of polycrystalline solar cells, the vat of molten silicon used to produce the cells is allowed to cool on the panel itself. These solar panels have a surface that looks like a mosaic. They have a square shape and a shining blue hue as they are made up of several polycrystalline silicon. As there are multiple silicon crystals in each cell, polycrystalline panels allow little movement of electrons inside the cells. These solar panels absorb energy from the sun and convert it into electricity.
-Polycrystalline solar panels are more eco-friendly than monocrystalline solar panels as they do not require individual shaping and placement of each crystal and most of the silicon is utilized during production. So, very less waste is produced.
-The acceptable maximum temperature of polycrystalline solar panels is 85 °C while the acceptable minimum temperature is -40 °C.
-Polycrystalline solar panels have lower heat tolerance than monocrystalline panels. So, at higher tempera ..
The advantages of polycrystalline panels are as follows.
Polycrystalline solar panel price is more affordable than monocrystalline panels due to being easier to make and using multiple silicon cells.
The amount of waste is less on the polycrystalline panel because of the way the silicon wafers are applied to the panel.
They can be used with batteries and inverter technology.
The manufacturing process requires very few fossil fuels.
Here are some of the disadvantages of polycrystalline solar panels:
The efficiency of polycrystalline-based solar panels is less than monocrystalline solar panels because of the lower silicon purity.
-Although the difference is getting smaller all the time, you generally need to cover a slightly larger area to output the same electrical power with polycrystalline solar panels as you would with the best monocrystalline solar panels.
-They may not last as long.
-They damage easily when exposed to high temperatures.
-As the monocrystalline solar panel is constituted of a single crystal, it provides the electrons more space to move for a better electricity flow. This is the reason behind the higher efficiency of monocrystalline panels compared to polycrystalline panels.
-The efficiency of polycrystalline solar panels is somewhat lower, but the benefit for customers is that this option is more affordable.
-When you seek polycrystalline solar panels for sale, the sellers may highlight the blue hue of these panels compared to the monocrystalline panels’ black hue.
-As polycrystalline solar panel manufacturers melt multiple silicon fragments together to produce the wafers for these panels, the electrons in each cell will have less space to move. This makes the efficiency ratings of polycrystalline solar panels lower.
-Monocrystalline solar panel prices will be relatively more compared to polycrystalline solar panels.
-According to some industry experts, monocrystalline solar panel systems have been known to break down if they are even marginally covered in snow or dust or if a part of the panel becomes shaded. -Polycrystalline solar panels, on the other hand, are somewhat more resilient in these conditions.
-So, this is all you need to know about polycrystalline solar panels. If you enjoy this article, let us know what you think by leaving a comment in the comment section. We will be glad to have your viewpoint on the article. Is there any question we can help you with? Feel free to sign up on Linquip to get the most professional advice from our experts.
Excellent performance in low light situations
Mono PERC technology is excellent in low light situations. This is due to the design the increased number of cells feeds more power to the inverter.
Half-cell technology is more durable for long-life performance
PERC can stand for either Passivated Emitter and Rear Cell or Passivated Emitter and Rear Contact. At its core, a PERC solar cell is simply a more efficient solar cell, meaning that solar panels built with PERC cells can convert sunlight into usable electricity more easily. Solar Panels Brisbane made from PERC solar cells typically perform better than traditional panels in both low-light conditions and high temperatures. PERC technology boosts efficiency through the addition of a layer to the back of a traditional solar cell, which provides several benefits to the cell’s production
Performs better in high-heat conditions
A PERC solar cell is not much different in construction from a typical photovoltaic solar cell. Both types of solar technology use silicon wafers to generate a flow of electrons using incoming solar radiation, and the overall construction of the cell types is very similar. The main difference between PERC cells and typical monocrystalline photovoltaic cells is the integration of a back surface passivation layer, which is a layer of material on the back of the cells that provides three main benefits that boost cell efficiency.
How does a back surface passivation layer lead to gains in solar cell efficiency? Here are the three ways the passivation layer in a PERC solar cell increases overall efficiency:
Split junction boxes:
The addition of a back surface passivation layer reduces “electron recombination” in the solar cell. Simply put, electron recombination is the tendency of electrons to recombine, which causes a blockage in the free movement of electrons through the solar cell. This inhibition of free electron movement leads to less-than-optimal cell efficiencies. In a PERC solar cell, electron recombination is reduced in order to bump up efficiency.
These panels begin power generation in the early hours and perform till late evening thus producing more energy. This along with more efficient panels results in more power generation. In long-term usage, the overall degradation rating of mono PERC solar cells is low in comparison to traditional models. This means your solar module will be productive enough even after years of installation. There is much more to discover about mono PERC solar panels advantages and disadvantages
What is Mono PERC Solar Panel Disadvantages?
Despite their pros, mono PERC solar panels also have a couple of drawbacks. Here is a brief description of mono PERC solar panel disadvantages.
1. Fragile
Even though solar panels are made sturdy to withstand extreme weather conditions, they are still susceptible to damage.
2. High Purchasing Cost
In comparison to the purchasing costs of other solar panels, they are slightly costlier. It is because of the high initial cost because they comprise monocrystalline panels that are already expensive due to their high efficiency.
3. Performance
Solar panels tend to lose their efficiency with each passing year due to potential induced degradation and light-induced degradation. Mono PERC solar panels also lose efficiency. Their overall performance can decline with continuous exposure to high temperatures.
Less hot spots:The third benefit from a PERC solar cell is the reflection of certain wavelengths of light. A silicon wafer in a solar cell can only absorb light in wavelengths up to 1180 nanometers (nm), and higher-wavelength light waves pass through the silicon and are absorbed by the solar panel’s metal back sheet, creating heat. When solar cells are heated, they operate at lower efficiencies. The back surface passivation layer in PERC solar cells is specially designed to reflect light with a wavelength above 1180 nm, reducing the heat energy in the solar cell and consequently increasing efficiency.
PERC solar cell manufacturing
One of the biggest reasons why PERC technology can be so powerful is the minimal investment it takes to begin manufacturing PERC solar cells instead of standard monocrystalline solar cells. In order to produce a PERC cell,