The Panasonic HIT Slim Series uses thin amorphous silicon layers and heterojunction technology to increase the energy output and reduce the loss of energy. These panels are highly efficient and have low temperatures coefficients. These panels can be used in all seasons and weather conditions. Their low temperature coefficient allows for them to keep power output high regardless of temperature.
Heterojunction technology
Panasonic employs heterojunction technology in order to improve the efficiency of solar panels. The panels use an amorphous silicon coating that has a low level of surface roughness. They can produce solar power from both sides of the panel. In addition, Panasonic has optimized the rear surface of the cells to increase light yield and module efficiency. These panels can also reduce light-induced degrading.
Heterojunction technology represents a major improvement in the efficiency of solar panels. 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.
Performance over the long-term
Panasonic solar panels are well-known for their reliability, durability, and long life expectancy. They are more efficient than other brands and have a lower degradation rate. The company has been in the solar business for more than 40 years. It has invested considerable resources in research, development, and production. Panasonic solar panels come with a warranty of 25 years for manufacturing defects and replacement. Panasonic's goal is for each panel to achieve more than 90% solar power.
Panasonic has recently launched a new series of residential heterojunction panels. This new series features a lithium ion storage solution. Each panel is composed of 66 cells. They have a power output range between 400 to 410 watts. The power conversion efficiency of these panels is twenty to twenty-two percent. Panasonic offers a 25 year product and power output warranty.
Low temperature coefficient
Panasonic's HIT solar panel technology is high-efficiency and low-temperature, resulting in greater electricity production. Panasonic's solar panels also have a pyramid-shaped shape that reduces reflection and directs more sunlight onto the cells. As a result, Panasonic solar panels boast the industry's highest conversion efficiency ratings.
Panasonic's HIT technology, which allows solar cells to retain more power in extreme temperatures, makes them a great choice for hotter climates. Panasonic's solar panel can withstand temperatures much higher than 77 degrees Fahrenheit. This is in contrast to most solar panels that lose efficiency as the temperature rises.
Cost
Cost is one of the most important factors. The first is the power consumption of the panel that you will be purchasing. The efficiency of the panel is the next thing to consider. The better the efficiency, You should also consider the degradation rate of the panel. A panel in the mid-range will still generate the nameplate power if it has a low decay rate. Panasonic panels are more efficient and have lower degradability rates. They'll also provide more stable energy output for many years to come.
The efficiency of a solar panel should be one of your top priorities. Panasonic solar panels are 26% more efficient than the industry average. You will also be able to recoup your installation cost faster by purchasing a high-wattage solar panel.