System productization, integrated energy storage battery, PCS and power distribution, temperature control fire protection, water immersion door magnet and monitoring communication, fully control the system operation status and risks.
Patented outdoor cabinet protection design, optimized heat dissipation duct, protection against dust and rain; front and back doors for maintenance, convenient for multiple systems to be arranged side by side on site, reducing floor space.
Door-mounted embedded integrated air conditioner is used, which does not occupy cabinet space, increases the available cabinet space, has better top structural integrity and good waterproof effect.
Possessing patented technology of virtual synchronous machine characteristic function, it can realize multiple free parallel operation and grid-connected and off-grid switching functions without communication lines.
Standardized structural design, menu-based function configuration, optional photovoltaic charging module, grid-connected and off-grid switching module, power frequency transformer and other components for microgrid and other scenarios, integrated photovoltaic storage integrated system cabinet.
| Model | Power | Energy storage capacity | Cooling method | Application Scenario | Specifications and dimensions |
| HJ-G55-233L | 55KW | 233KWh | Liquid cooling | Mains power | 2130mm*1350mm*1373mm |
| HJ-G110-233L | 110KW | 233KWh | Liquid cooling | Mains power | 2130mm*1350mm*1373mm |
Note: Specifications are subject to change without prior notice for product improvement. Data Sheet / Get your free product catalog and the latest pricing!
The 233kWh system uses high-capacity battery modules built from 3.2V 280Ah LiFePO₄ cells, configured into high-voltage racks with integrated liquid cooling plates. It includes a battery management system (BMS), energy management system (EMS), heat exchanger, coolant circulation system, fire protection, and can be deployed in an indoor cabinet or modular outdoor enclosure.
Liquid cooling delivers superior thermal balance, reduces temperature variance between cells, supports faster charge/discharge cycles, and enhances battery lifespan. It is more efficient in dissipating heat, especially in high-density systems, and ensures system stability even under heavy loads or in hot environments.
This capacity is suitable for industrial facilities, commercial buildings, solar-storage hybrid systems, and data centers. It's also used in EV charging station buffering and peak shaving applications, where high performance and temperature control are crucial.
The system complies with global safety and performance standards including IEC 62619, CE, UL 9540A (optional), and UN38.3. Protection features include multi-layer BMS safeguards, coolant leakage detection, overtemperature alarms, smoke sensors, and fire suppression systems (e.g., aerosol, NOVEC, or FM200).
Remote and local monitoring is provided via EMS, with real-time visibility into temperature, SoC, SoH, coolant flow, and fault alarms. Maintenance includes coolant refills or replacements, circulation pump inspections, thermal performance checks, and scheduled firmware updates to ensure optimal system operation.
Improving power quality, load tracking, backup power supply, peak load reduction
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