Panasonic HIT Slim Series employs thin amorphous layers of silicon and heterojunction to increase energy production and reduce energy losses. These solar panels are also extremely efficient and have an extremely low temperature coefficient. They can be used for any season and in all weather conditions. They can maintain power output regardless the temperature thanks to their low temperature coefficient.
Heterojunction technology
Panasonic uses heterojunction technology to increase the efficiency of its solar panels. The panel's amorphous silicon layers have a low surface texture, allowing them both to produce solar power. In addition, Panasonic has optimized the rear surface of the cells to increase light yield and module efficiency. These panels improve light-induced decay.
Heterojunction technology was a major advance in solar panel efficiency. An amorphous cell has a 20% efficiency, while a monocrystalline cell can achieve a similar efficiency. However, the heterojunction panel's efficiency remains lower than that a conventional monocrystalline cell.
Long-term performance
Panasonic solar panel are known for their reliability. They are the most efficient and have the lowest degradation rate of any brand. The company has been in the solar business for more than 40 years. It has invested considerable resources in research, development, and production. Panasonic's solar panels come with a 25 year warranty for production defects. Every panel should be able to deliver more than 90% power from its initial rating.
Panasonic has recently launched a new series of residential heterojunction panels. The new series includes a lithium-ion storage option. Each panel contains 66 cells with a power output between 400 and 410 watts. These panels are efficient in power conversion at twenty-two percent to twenty two percent. Panasonic also offers a warranty of 25 years on both the product and the power output.
Low temperature coefficient
Panasonic's solar panels HIT technology offers high efficiency and a low temperature coefficient which leads to higher electricity production. Panasonic's solar panels also have a pyramid-shaped shape that reduces reflection and directs more sunlight onto the cells. Panasonic solar panels have the highest conversion efficiency ratings in the industry.
Panasonic's HIT Technology allows solar cells in hotter regions to retain more power, even at higher temperatures. Panasonic's solar cells can withstand temperatures above 77°F, which is the norm for solar panels.
Cost
Cost is one of the most important factors. The first factor is the wattage. Next, consider the panel's efficiency. The higher the efficiency, the better. You should also consider the degradation rate of the panel. A panel of mid-range power will still be able to produce the namedplate power over time if it has a low rate of degradation. Panasonic solar panels have higher efficiency and lower degradation rates. They'll also provide more stable energy output for many years to come.
Efficient is one of the most important qualities you should look at in a sunroof panel. Panasonic solar panels offer about 26% higher efficiency than industry averages. A high-wattage panel will allow you to recover your installation costs faster.