V-TAC Storage Kit consisting of 7 stackable high voltage 5.12kWh modules with LiFePO4 technology and integrated BMS. This kit also includes base and control box, features a battery capacity of 35.84kWh (usable up to 28.67kWh) and operates at a nominal voltage of 358.4V with LiFePO4 (LFP) batteries, ideal for stackable installations on surfaces.
The system is designed to guarantee a reliable and stable energy supply, using modules of 5.12kWh each. Thanks to advanced LFP technology, it offers superior energy density and improves overall efficiency, with a modular design that optimizes space and facilitates future expandability. The dimensions of the set are 590x420xH1302mm with a weight of 343kg, and the system is monitored in real time for charge and discharge management, allowing online updates and maintenance for continuous operation without interruptions.
Certified according to the CEI 0-21 standard for connection to Italian electrical systems, it ensures a high level of safety and operational reliability with IP65 classification, offering total protection against dust and water jets, suitable for both internal and external installations in various conditions environmental.
The high voltage storage batteries of the V-TAC kit are compatible with the range of high voltage hybrid inverters from the Deye brand. These include:
- DEYE Deye Three-Phase Hybrid High Voltage Photovoltaic Inverter 10kW. SKU>12168
- DEYE Deye Three-Phase Hybrid High Voltage Photovoltaic Inverter 15kW. SKU>12169
- DEYE Deye Three-Phase Hybrid High Voltage Photovoltaic Inverter 20kW. SKU>12170
Battery set components include:
- V-TAC Control Box (1 piece): for the high voltage battery cluster. SKU>12151
- V-TAC Battery Modules (7 pieces): Each module has a nominal capacity of 5.12kWh. SKU>12002
- V-TAC Battery Base (1 piece): This is the base used for the battery module. SKU>12152
- V-TAC Standard 2 meter Communication and Power Cables.
These components are designed to work synergistically with Deye high voltage hybrid inverters, ensuring effective integration and optimal operation of the energy storage system.