Leapton Solar
Leap from Japan to the world
Contact
400-008-2915
中文 日本語 English Português
PV System
Home page>NEWS
Leapton Solar 1.5GW new plant 182 production line equipment has been implemented

Behind the choice of PV module size is a comprehensive consideration of product performance, customer risk and optimisation of cost of electricity, which is the objective result of rational analysis and scientific verification.


Why choose 182 series module


Why Leapton energy chose the 182 size as its main product, instead of the much hyped 210, is the result of a comprehensive consideration of product performance, customer risk and cost of electricity optimization. It is a direct reflection of the customer's perspective and "customer value".


As we all know, the development of PV modules has evolved over time. As the most important component of the power plant system, it relies on the co-evolution of silicon wafers, cells, glass and EVA at the front end of the industry chain, and also requires inverters, cables, brackets and other components to work together in synergy. Any adjustment to the module size is a major step forward in creating value for the customer, and cannot be achieved by a "big leap forward" in any one of these areas.


Each step in the evolution of wafer size and power increase is a "small step", and is based on the conditions of adapting to the current production line and optimising costs, such as the M2 wafer, which increases the diagonal angle by reducing the chamfer of the monocrystalline wafer, so that the module size can be increased by 2.2% without changing the size of the module. By reducing the chamfer of the single crystal wafers and increasing the diagonal angle, the module power is increased by one step (more than 5 Wp) and the module packaging efficiency is improved without changing the module size by 2.2% of the wafer area. At the same time, due to the small change in size of the M2, the equipment can be switched over and put into production in one year without the need for major size changes. The same applies to the change from M2 to M6 wafers. On the wafer side, M6 monocrystalline wafers are fully compatible with existing long crystal and slicing capacities; on the cell side, the 166 size is the limit allowed by mainstream cell production equipment (e.g. various tube furnaces), making the conversion cost low and easy to achieve, and significantly increasing the module output power. 182 modules are compatible with mainstream 1P and 2P racking systems, making the power plant The 182 module is compatible with mainstream 1P and 2P racking systems, making the system effective in reducing costs and increasing efficiency, providing an ideal solution for large and very large ground power stations and significantly increasing customer value.


Translated with www.DeepL.com/Translator (free version)

 

 

Leapton Solar 1.5GW new plant 182 production line equipment has been implemented

 

The evolution of any complex industry needs to follow certain objective laws. Looking back, Leapton energy has developed at a steady and reliable pace, always practicing "customer value-centric" with proven practical actions.


After more than a year of preparation, the construction of Leapton energy's new 1.5GW plant is nearing completion and 182 production lines have been installed. Following the pace of the times, grasping the pulse of the market, starting from the needs of end customers, combining market demand and technological development (high efficiency, high power, low cost) and other factors, Leapton energy through continuous cell technology innovation and module technology to improve module efficiency, ensure product reliability, adapt to more scenarios, to bring more value to customers.


Translated with www.DeepL.com/Translator (free version)