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Energy Storage Battery Cabinet

Energy Storage Battery Cabinet

PV-Storage-Diesel Power Conversion System
Short Description

AEME's Energy Storage Battery Cabinet is a modular LiFePO4 (LFP) BESS solution engineered for commercial, industrial, and off-grid applications worldwide. With a capacity range of 80 kWh to 257 kWh per cabinet and support for multi-unit parallel expansion, it delivers scalable, reliable power storage without requiring large floor space.

The system integrates an intelligent Battery Management System (BMS), smart air-cooling thermal control, and aerosol fire suppression, ensuring safe and stable operation from -20°C to +55°C and at altitudes up to 4,000 meters.

Certified by internationally recognized authorities, the energy storage battery cabinet plays a key role in driving the global transition to a greener energy structure.

Product Description

Features of Energy Storage Battery Cabinet

  • Flexible Installation: Integrated design, supporting shoulder-to-shoulder installation

  • Advanced Protection: A multi-layer Battery Management System provides cell-level voltage, temperature, and SOC monitoring with <5% SOE estimation error. Automatic fault isolation protects against overcharge, over-discharge, and short circuits in real time.

  • High Energy Density: Dimensions of 1,150 × 1,100 × 2,400 mm house up to 257 kWh — ideal for factories, commercial buildings, and space-constrained installations. Energy density is maximized through a 1P256S LFP cell configuration using 314Ah prismatic cells.

  • 0.5P Charging and Discharging: Rated at 0.5C/P charge and discharge at 25°C with 90% depth of discharge (DOD), enabling full daily cycling for peak shaving and load shifting in time-of-use (TOU) energy management programs.

  • Enhanced Safety: LiFePO4 (LFP) cathode chemistry eliminates thermal runaway risk inherent in NMC-based batteries.

Specification of Energy Storage Battery Cabinet

Product Model ESS-SYS-DC-128/257-F ESS-SYS-DC-64/129-F ESS-SYS-DC-56/113-F ESS-SYS-DC-48/96-F ESS-SYS-DC-40/80-F
Battery type LiFePO4
Cycle life ≥   6000 cycles (100% DOD charge/discharge, 25 ± 2 °C, EOL 80%)
C/D-rate 0.5C/P@25℃
Discharge depth 90%DOD
Rated power 257.228kWh(0.5P,25±2℃) 129kWh(0.5P,25±2℃) 113kWh(0.5P,25±2℃) 96kWh(0.5P,25±2℃) 80kWh(0.5P,25±2℃)
Nominal voltage 819.2V 409.6V 358.4V 307.2V 256V
Voltage range 716.8-908.8V 358.4-454.4V 313.6-397.6V 268.8-340.8V 224-284V
Battery cell type LFP3.2V/314Ah
Battery connection mode 1P256S 1P128S 1P112S 1P96S 1P80S
PACK connection mode 1P16S
SOE estimation accuracy <5%
Max terminal temp difference 3.5℃
Comprehensive efficiency 95%
Noise <75dB
Protection level IP55
Environment temperature -20℃~+55℃
Operation humidity 0–95% (non-condensing)
Altitude 4000 m (derating above 2000 m)
Fire protection Aerosol
Temperature control system Intelligent air cooling
Dimensions 1150*1100*2400mm
Weight 2414kg 1522kg 1408kg 1294kg 1220kg
Anti-corrosion grade C3
Safety Design Explosion-proof design, explosion-relief design
Communication interface RS485、CAN、Ethernet
Communication   protocol CAN、Modbus RTU、Modbus TCP

 

 

Where Is the Energy Storage Battery Cabinet Used?

Commercial & Industrial Peak Shaving

Deploy the AEME battery cabinet to store energy during off-peak tariff hours and discharge during peak demand periods. Businesses typically reduce peak demand charges by 20–40%, generating ROI within 3–5 years depending on local electricity pricing.

Off-Grid & Remote Power Supply

When paired with AEME's PV-Storage-Diesel PCS, the battery cabinet forms a complete off-grid hybrid system capable of providing 24/7 stable power to remote sites, islands, telecom towers, and mining operations — without reliance on grid infrastructure.

Grid-Side Peak Shaving & Frequency Regulation

Utility operators and grid operators can deploy multiple cabinets in parallel for fast-response frequency regulation and load balancing. The system's RS485/CAN/Ethernet communication interfaces integrate with SCADA and EMS platforms out of the box.

Renewable Energy Integration

Smooth the intermittent output of solar and wind generation. The cabinet's fast charge/discharge response time supports renewable energy curtailment reduction and grid compliance requirements in markets with renewable portfolio standards (RPS).