Features of All-in-one energy storage system

1.Natural cooling, extremely quiet

2.Flexible and easy to expansion

3.Smart and easy operation

4.Intelligent charging and active balance

5.Elegant Modular and Unified Design Export Control and Time-of-use Shifting

6.Flexible Storage Capacity up to 25 kWh Maximized Self-consumption

The  All-in-one ESS combines a hybrid inverter and low-voltage batteries to help you reduce your electricity bills while maximize energy independence from the grid. It is packed with benefits such as greater energy harvest from PV modules, compact design saving your space, and its slim appearance fits your house aesthetics. In addition, plug&play and free online monitoring enable faster installations,quicker site mapping to the monitoring platform and easier maintenance with minimized efforts.

Maintenance of All-in-one energy storage system

Safety measures: Before performing repairs, ensure that the energy storage system is disconnected from the grid and take necessary safety measures, such as wearing personal protective equipment.

Fault diagnosis: Determine the location and cause of the fault through the system’s monitoring and diagnostic functions. Professional testing equipment and tools may be required to detect the status of key components such as batteries, inverters, charge and discharge controllers, etc.

System testing: After the repair is completed, system testing is performed to ensure that the repaired energy storage system is working properly. This may include test steps such as connecting to the grid and simulating actual loads to verify system performance and reliability.

Maintenance records: After the repair is completed, record key information during the repair process, including the cause of the failure, repair methods and materials used. These records are very important for future maintenance and troubleshooting

Communication Way Of the All-in-one ESS

Wired communication: Use standard wired network interfaces (such as Ethernet, Modbus, CAN, etc.) for communication. This method is usually used for communication within a local system or connection with an external monitoring system.

Wireless communication: Use wireless communication technologies, such as Wi-Fi, Bluetooth, ZigBee, etc., to realize data transmission and communication between devices. Wireless communication is more flexible and can realize remote control and monitoring between devices.

Internet communication: Communicate through the Internet to connect the energy storage system to the cloud platform or remote monitoring center. This method can realize remote monitoring, fault diagnosis and management of energy storage systems.