Multi pile ring network charging refers to the power allocation between standard charging piles through the ring connection of the output bus, achieving inter pile scheduling and distribution of charging gun output power. The charging modules are shared among each pile, and the output power of the charging gun is intelligently and automatically adjusted to meet the requirements of different time periods and scenarios for the number of effective charging guns and the maximum output power of the charging gun.
The solar energy storage and charging system utilizes lithium batteries as energy storage devices, and through local and EMS management systems, achieves the balance and optimization of energy supply and demand between photovoltaic, power grid, batteries, and electric vehicles. It brings application value in peak and valley electricity consumption, grid capacity expansion, and spontaneous self use. Simultaneously, it can seamlessly achieve V2G and energy storage functions, serving as a core node to achieve the integration of the smart grid.
V2G/V2H refers to the bidirectional flow of electrical energy between the power grid, vehicle power batteries, and household power systems. Electric vehicles can serve as flexible loads on the user side, providing household energy storage and emergency power supply for users. They can also serve as distributed power equipment to help regulate the power grid's electricity load, reduce peak and valley loads, absorb renewable energy, and provide auxiliary services such as frequency regulation and backup for the power grid.
The liquid cooling charging system adopts a liquid cooling electric energy conversion module, which has the characteristics of high heat dissipation efficiency, high reliability, low noise, and long service life.
Multi pile ring network charging refers to the power allocation between standard charging piles through the ring connection of the output bus, achieving inter pile scheduling and distribution of charging gun output power. The charging modules are shared among each pile, and the output power of the charging gun is intelligently and automatically adjusted to meet the requirements of different time periods and scenarios for the number of effective charging guns and the maximum output power of the charging gun.