Secondly, the cell is encapsulated by two pieces of tempered glass to form a unique double-glass structure. The upper tempered glass mainly plays a protective role to prevent external factors from damaging the cell; the lower tempered glass serves as a backplane to allow light from the back to enter the cell for power generation. This design not only improves the durability of the module, but also realizes the function of double-sided power generation.
Third, EVA film or other packaging materials are usually used as adhesives between the cell and the tempered glass. EVA film has good adhesion and weather resistance, which can ensure the close bonding between the cell and the glass, while preventing the intrusion of moisture and dust.
Fourth, the double-sided double-glass module also includes components such as junction boxes and wires. The junction box is used to connect the cell and the external circuit to output the generated electrical energy; the wire is responsible for transmitting the current generated by the cell to the junction box.
Fifth, it is worth noting that the structural design of the double-sided double-glass N-type monocrystalline photovoltaic module also takes heat dissipation into consideration. Through reasonable layout and the use of heat dissipation materials, the module can effectively dissipate the generated heat and maintain a stable operating temperature.
Sixth, the structure of the double-sided double-glass module also has a certain degree of flexibility. Its frameless design makes the module more flexible and convenient when installed, and can adapt to a variety of installation methods and locations.
