1. Large scale silicon wafers lead the innovation of photovoltaic technology
IBC solar cells use an interdigitated back electrode structure, which can make the current in the cell more evenly distributed, thereby improving the conversion efficiency of the cell. Ordinary solar cells use the traditional positive and negative electrode extraction method, that is, the positive and negative electrodes are made on both sides of the cell.
2. Deeply optimized version to improve power generation efficiency
Deyang Pu's photovoltaic products not only focus on improving the size of silicon wafers, but also put in great effort in optimizing component types. By deeply optimizing the component layout, the company successfully reduced the ineffective power generation area of the components, allowing each silicon wafer to fully unleash its power generation potential. This innovative design not only improves the power generation efficiency of components, but also reduces production costs, injecting new impetus into the sustainable development of the photovoltaic industry.
3. Selected auxiliary material combinations to improve light utilization efficiency
In order to improve the conversion efficiency of components, DeYangPu photovoltaic products have selected high-quality auxiliary materials such as high reflection grid film backboards for matching. These auxiliary materials can effectively improve the utilization of light, allowing more sunlight to be converted into electricity. Through careful material selection and scientific combination, DeYangPu photovoltaic products have successfully increased the component conversion efficiency to 23%, providing users with more reliable power generation guarantee.
4. High density packaging technology enhances component energy density
In addition to optimizing the size and pattern of silicon wafers, DeYangPu photovoltaic products also adopt high-density packaging technology. This technology can further enhance the energy density of modules, allowing them to accommodate more silicon wafers in the same space, thereby improving the power generation capacity of the entire photovoltaic system. The application of high-density packaging technology not only improves the performance of products, but also brings convenience to the installation and maintenance of photovoltaic systems.
5. Market Applications and Prospects
DeYangPu photovoltaic products have been widely used in domestic and foreign markets due to their innovative advantages such as large-sized silicon wafers, deeply optimized patterns, selected auxiliary material combinations, and high-density packaging technology. Whether it is a large-scale photovoltaic power plant or a distributed photovoltaic system, DeYangPu photovoltaic products have demonstrated excellent performance and stability. With the increasing global demand for renewable energy, DeYangPu photovoltaic products are expected to continue to lead the industry's development trend in the future, making greater contributions to promoting global energy transformation and addressing climate change.
Post time: Jun-04-2024