Supports parallel device expansion, with a maximum of 4 units supported in parallel

One-button, automatic allocation of parallel IDs, for simple and convenient operation

Wall mounted or floor mounted, saving installation time and cost

Product Description

The SOFAR GTX5000-PRO is a cutting-edge Residential and C&I storage battery designed to meet the demanding energy storage needs of both residential, commercial and industrial applications. With its advanced technology and robust construction, this battery offers exceptional performance, efficiency, and reliability. It is specifically engineered to maximize energy storage capacity, allowing businesses to optimize their energy management and reduce their reliance on the grid.

Technical Specifications

Battery Type: Lithium-ion
Capacity: 5 kWh
Efficiency: 98%
Maximum Charge/Discharge Power: 5 kW
Cycle Life: 6000 cycles at 80% depth of discharge
Communication: RS485, CAN, Modbus

Product Features

High Energy Density

The SOFAR GTX5000-PRO features high energy density, allowing for efficient storage of a significant amount of energy in a compact size. This maximizes the available storage capacity while minimizing the physical footprint required.

Advanced Battery Management System (BMS)

Equipped with an advanced BMS, the SOFAR GTX5000-PRO ensures optimal performance and safeguards against overcharging, over-discharging, and overheating. The BMS actively monitors the battery's condition, balancing cell voltages and ensuring long-term reliability.

Flexible Installation Options

The modular design of the SOFAR GTX5000-PRO enables flexible installation configurations to suit various space requirements. It can be easily integrated into new or existing systems, providing versatility and adaptability to meet specific project needs.

Smart Energy Management

The SOFAR GTX5000-PRO is compatible with smart energy management systems, enabling seamless integration with renewable energy sources, demand response programs, and energy monitoring platforms. This allows businesses to optimize their energy usage, reduce costs, and maximize the utilization of clean energy.