POOLA ENERGY: Your Partner for Powering Tomorrow
SPS is the only manufacturer in the world to provide cell-to-cell serviceable solar panels that meet quality standards and international norms. With our patented panel technology, we promise our clients comprehensive solar power solutions that are versatile and durable. SPS is equipped with state-of-the-art machinery capable of producing 100MW solar modules per annum. SPS R&D team indigenously developed the machinery to manufacture serviceable solar panels.
The most optimal Manufacturing process
Precision Manufacturing
Tabber & Stringer
This is the cell assembly process, which is done by soldering. It is crucial to maintain an accurate soldering time and soldering temperature that shall determine the durability of the cells.
Lamination process
In the hot press stage of the process, all 5 components of the PV panel are placed on top of each other like a sandwich. They are then heated to 150 degrees for 8 mins then will be pressed to one piece. Then, the same machine cools down the hot components so that it can be sent to the framing area. Emmvee is the first brand in Asia, to get a Multi-stack Laminator. This process is crucial in the performance of the PV modules, enabling us to provide 25 years of performance warranty.
Framing
After the lamination process, the excess parts of the compressed panels are cut out and taped on all four sides. The framing machine then fixes the frame for the modules on all four adjacent sides.
Flashing
The junction box is attached to the panel and then sent to the flashing section. The flasher measures the output produced by each panel; this is an in-line testing process that is done for 100% for-every single module. The qualified panels are then packed as per their grade and sent to the storage facility.
Testing
High voltage testing
The amount of leakage current in each of the module is measured in this high voltage testing process by applying 4,800 volts of current on the modules. The leakage current produced by the module should be less than 50 amps as per ISE regulations.
Insulation resistance testing
The electrical safety between the PV module and the external environment is examined in this process. Up to 1500 volts of current is applied on the modules for this process and as per the regulations, the resistance of the module should be above 40 megawatts.
Electroluminescence testing
The health of the module is identified through this test, which identifies micro-cracks that may be present in the modules and are not visible to the naked eye.
Mechanical load test
Checks the mechanical stability of the module that ensures that the modules are capable of withstanding harsh weather conditions. 5,400 pascals of the load is applied to the modules for one hour and then the power output degradation is tested. The module is considered reliable when its power degradation is less than 5%.
Wet leakage test
The performance of the modules in wet conditions is identified here. For this, the modules will be immersed in water and up to 1500 volts of current will be passed through the water to determine the power leakage in similar conditions.