Solar Panel Flexible, Solar Thin Film Panel, Amorphous Silicon Solar Panel manufacturer / supplier in China, offering 72 Watts Adhesive-Backed Flexible Amorphous Photovoltaic Solar Panel, 210W Amorphous Silicon Thin Film Flexible Solar Panel, 20W 14inch Solar Powered Attic Exhaust Fans (SN2013003) and so on.
|Purchase Qty. / Reference FOB Price|
|20-49 Pieces||US $192|
|50-99 Pieces||US $180|
|100-199 Pieces||US $176.4|
|200-499 Pieces||US $168|
|500+ Pieces||US $162|
|Payment Terms:||T/T, Western Union|
|Number of Cells:||11|
|Voltage at Pmax||17.60V|
|Current at Pmax||4.09A|
|Short circuit current||5.1A|
|Open circuit voltage||24.2V|
Flexible solar modules are produced utilizing a thin stainless steel substrate and flexible lamination polymers which equate to a thickness of ~1.5 mm. This allows our modules to be used for a wide variety of applications.
Flexible solar modules(~.5 lbs/sq. ft) are roughly three times lighter than rigid glass based PV modules, which means they can easily be installed on rooftops that may not be able to take the weight of glass modules and their support structures without the need for costly roof reinforcement modifications.
3. High Performance
Thin film amorphous silicon based PV modules offer better power performance in actual outdoor conditions vs. some other solar technologies that currently dominate the market.
Our solar modules are flexible and lightweight and do not utilize glass which make them very durable and resilient to most weatherconditions.
5. Easy to Install
Our products can be integrated into a building's roofing membrane or rolled on and adhered which allows for easy installation and also eliminates the need for roof penetrating racking structures.
Below is a comparison of a typical thin-film CdTe glass panel (~5 to ~6.8 mm thick) and our flexible, thin-film silicon module on stainless steel (~1 mm total thickness).
Roll-up thin film solar panels on stainless steel plates are manufactured by a roll-to-roll process.
Which allows the company to produce triple-junction thin-film silicon solar cells on rolls of thin stainless steel substrates, three feet wide and up to one mile long. The long stainless steel web is guided through a series of vacuum chambers for the deposition of nine semiconductor layers using a plasma enhanced chemical vapor deposition process, and back-reflector and top electrode layers using a sputtering process.
The combined thickness of the layers for the triple junction solar cell is approximately one hundredth of the thickness of a typical sheet of paper. Therefore, only a small amount of silicon is used.
We have made advancements to the manufacturing process that allows it to market these products at a very attractive price point. However, the basic technology used in the cells and packaging techniques used in the modules are well proven, predictable and have an operating history of over ten years in the field.
The core of thin film flex solar panel's technology are the semiconductor compositions called thin-film silicon (tf-Si) which are used to convert sunlight into electricity. These materials are ideal solar energy technologies for many applications for the following reasons:
1. Efficient absorption of sunlight with ~1 µm thick film (vs 180 µm Si wafer)
2. Low manufacturing cost
3. Produced at low temperatures with short energy payback time
4. Can be used with low-cost substrates such as plastic, glass, and metal
5. Proven manufacturing process and product durability
6. More energy output per rated Watt
7. No toxic substance in the product
8. No supply shortage
9. Multi-junction device structure for higher conversion efficiency
To produce tf-Si modules, we utilize its proprietary high-speed, low-cost roll-to-roll manufacturing process. This automated process allows us to transform a roll of steel 3 feet wide by a mile long into highly-efficient solar cells. As the metal foil is rolled, plasma-enhanced chemical vapor deposition systems and a magnetron sputter
deposition system apply a chemical compound creating high-quality thin-film silicon solar cells.
Once the solar cells are created, the mile-long roll then moves to the module manufacturing stage where the individual modules
are fabricated into finish product. During this significantly automated process, the solar cells are cut to specs, wired, encapsulated,and packaged, which ultimately results in durable, flexible, lightweight, and powerful solar modules.
Thin film flexible amorphous silicon solar panel offers solutions for
Flat, Corrugated and Standing Seam Metal Roofs
Single Ply TPO and EPDM Membrane Roofs
HDPE Landfill Covers