The story begins in the 1970s, when a chemist named M. Stanley Whittingham accidentally discovered a new type of battery material in the laboratory. This material not only has high energy density, but also has a long cycle life. This is the prototype of lithium batteries. However, the technical limitations at the time made the commercialization of lithium batteries full of ups and downs. It was not until 1991 that Sony first commercialized lithium batteries, opening the "energy journey" of lithium batteries.

"The Birth of the Green Giant The birth of Lithium Iron Phosphate (LFP) battery can be traced back to 1996. At that time, scientists, like alchemists, combined iron, phosphorus, oxygen and other elements to create this battery with a long life and high safety. Not only can it store a lot of energy, but it can also go through thousands of charging and discharging cycles like the Fountain of Youth and still remain viable.

In remote mountainous areas, unstable power supply has always been a problem for local residents due to insufficient grid coverage. However, with the application of energy storage technology, distributed energy storage systems have been established. These small energy storage devices are able to store energy when there is sufficient power and provide residents with stable power when the grid is down, allowing mountain residents to stop worrying about frequent power cuts. Important public institutions such as schools and hospitals are also able to continue to operate, ensuring that the basic needs of residents and public services are carried out properly.

Unstable power - Imagine a stormy night when the grid is overloaded and the power goes out, but your home stays warm and bright with the 215KWH Energy Storage Cabinet. It stores enough power to ensure that your home enjoys an uninterrupted supply of electricity even in the harshest weather conditions.

Space constraints -- Traditional energy storage systems often require a lot of space to accommodate various components, which is an insurmountable obstacle for many households. However, the integrated design of the 215KWH Energy Storage Cabinet allows all the necessary components to be compactly integrated into a container-sized space, making it easy to accommodate this ‘super housekeeper’ in even the most compact of home environments.

In this era of rapid development, energy storage technology is undergoing a revolutionary change. Breakthroughs in new battery technologies are making our mobile phones, electric cars and home energy systems more efficient and convenient.

Energy storage products can store electricity when there is a surplus of energy and release it when it is needed to provide stable power support to the grid. This not only helps to balance the intermittency of renewable energy sources and improve the efficiency of energy utilisation, but also enhances the stability and reliability of the power grid.

In recent years, the market demand for integrated PV modules + energy storage systems has been growing. According to MarketsandMarkets, the global market for integrated PV modules + energy storage systems will reach USD 10 billion in 2025.

The principle of solar power is the photovoltaic effect. When sunlight hits a semiconductor material, it creates electrons and holes on the surface of the material. These electrons and holes flow in response to an electric field, which creates an electric current.