Deye Battery System Expansion up to 600 kWh – Customised Quote for Engineering Design, Import and Supply
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Description
The Deye battery GE-F60 is a modular high-voltage commercial battery system for solar and hybrid applications. Each cabinet includes 12 battery modules (5.12 kWh each) for ~61.4 kWh total (55 kWh usable). Systems are scalable up to 10 racks (~600 kWh). With built-in EMS/BMS and CAN/RS485 communication, the GE-F60 supports flexible deployment across microgrids, solar farms, and backup systems. Designed for EPCs and electrical engineers, this system is ideal for energy storage projects that demand high performance, quick install, and easy expansion.
Deye Battery GE-F60
The Deye battery GE-F60 is a high-voltage, stackable battery system designed for scalable commercial and industrial energy storage. Each floor-mounted rack contains 12 CATL LFP battery modules (51.2 V, 100 Ah each), delivering ~61.4 kWh total (55 kWh usable). Up to 10 racks can be paralleled for ~600 kWh capacity, with multi-megawatt expansion possible.
The system features built-in BMS and EMS with CAN/RS485/Modbus support, enabling smart control and seamless integration with Deye hybrid inverters. Its rugged IP55 cabinet suits indoor or outdoor use, and built-in fire suppression, redundancy, and black-start capability ensure safe, uninterrupted operation.
Ideal for peak shaving, load shifting, and off-grid or grid-tied applications, the GE-F60 serves as a powerful and flexible solar battery solution for microgrids, backup systems, and large-scale commercial projects.
Key Features of Deye Battery GE-F60
- Rated power operation the maximum temperature of the battery is less than 40℃
- EMS,hybrid inverter and BMS integrated technology, power supply redundancy design, support black start function,Off grid operation,etc
- Suitable for high rate cyclic charging and discharging scenarios
- Lithium Iron Phosphate (LFP) Battery, The battery pack and system adopt an aerosol fire extinguishing solution
- Combustible gas, smoke and temperature detection, system active exhaust, and fire alarm
- Supports battery expansion, with a maximum capacity of 360KWh
Main Benefits
- Scalable architecture: Start with ~60 kWh and expand to 600 kWh to match project requirements. The modular approach lets you tailor the system sizing and add capacity as needs grow.
- Commercial-grade reliability: Industrial-grade design using CATL LFP cells and an intelligent BMS ensures high reliability and safety. You get >6000 cycles lifespan and a 10-year warranty for peace of mind.
- Ready for engineering projects: The GE-F60’s flexible configuration is ideal for EPC contractors. Its modular racks and standard interfaces provide design flexibility, easy transportation, and quick import/customs processing. Fast dispatch and local support enable streamlined project deployment.
- Peak shaving & backup: Provides robust backup power for critical loads and enables peak shaving to reduce energy costs in on-grid use. It’s perfect for microgrid backup systems and can even participate in energy trading or demand response programs thanks to its scalable, high-capacity storage.
- Seamless integration: Designed for plug-and-play integration with Deye’s large hybrid inverters (e.g. 50 kW and 100 kW models) and other compatible 3-phase PV + storage systems. This ensures minimal integration effort and optimal performance in combined solar-storage installations.
Caveat: The product description and datasheet on this page may not be the most updated version. Please refer to the user manual coming with products if there are conflicts.
Ningbo Deye Inverter Technology Co., Ltd
Deye is a world-leading manufacturer and solar supplier of renewable energy equipment, offering a complete range of photovoltaic and energy storage solutions. Deye’s product lineup features advanced battery and inverter systems for residential and commercial use – including solar battery storage systems and hybrid battery inverters that seamlessly integrate PV and backup power.
As the company behind the GE-F60, Deye emphasizes safety, innovation, and scalability in its designs. Their stackable battery module architecture (exemplified by the GE-F60 series) provides modular, commercial battery solutions that can scale from small installations to multi-megawatt projects, solidifying Deye’s reputation as a pioneer in flexible energy storage technology.
The GE-F60 is designed to work seamlessly with Deye’s own high-capacity hybrid inverters. For example, it is officially compatible with Deye three-phase hybrid inverter models in the ~30–50 kW range (such as the SUN-29.9K/30K/35K-SG01HP3 and SUN-40K/50K-SG01HP3 series). Deye also offers larger hybrid inverters (up to ~100 kW) that can pair with the GE-F60 for very large installations.
In addition, the GE-F60’s BMS supports communication via CAN 2.0 and RS485, so it can integrate with other brands of high-voltage battery inverters that use compatible protocols (e.g. Modbus over RS485). However, using a Deye inverter is recommended to ensure full integration of the EMS/BMS features and optimal performance.
Yes. The GE-F60 is suitable for both on-grid (grid-tied) and off-grid applications in commercial solar projects.
In on-grid mode, it can charge from solar or grid and discharge to perform peak shaving, load shifting, or to provide backup power during outages. It also supports completely off-grid operation – the integrated control system has a black start function to power up from zero and can run independently of the grid. This makes the GE-F60 effective for remote microgrids or backup systems, where it can store solar energy and supply critical loads when the grid is down.
In summary, the GE-F60 can seamlessly transition between grid-connected use and off-grid use as needed (when paired with an appropriate hybrid inverter).
The Deye GE-F60 comes with a number of internationally recognized certifications for safety and performance. It is CE certified and meets relevant IEC standards such as IEC 62619 (battery safety standard for Li-ion cells/modules) and IEC 62040 (safety and EMC for UPS and battery systems). The battery modules have passed UN38.3 transportation testing for safe shipping of lithium batteries. Additionally, the GE-F60 has a Clean Energy Council (CEC) approval for the Australian market, indicating it fulfills Australian safety and performance criteria for battery storage. These certifications attest to the system’s compliance with rigorous grid and safety standards in Australia and globally. (The GE-F60 also adheres to IEC 61000-series EMC standards and includes in-built fire safety systems, further ensuring it meets or exceeds required regulations).
The GE-F60’s CATL LFP (LiFePO₄) battery cells are rated for a long cycle life. Under standard conditions (25 °C temperature, 0.5 C charge/discharge rate), you can expect over 6000 charge-discharge cycles before the usable capacity drops to about 70% of the original. In practical terms, this typically means 15 or more years of daily cycling. These prismatic LFP cells also exhibit very high efficiency – their round-trip energy efficiency is on the order of 95–98%, meaning very little energy is lost during charging and discharging. This high efficiency is a result of the low internal resistance and excellent coulombic efficiency of CATL’s cells. Overall, the GE-F60 will store and return energy with minimal losses and can endure thousands of cycles with proper use (thanks to the robust cell chemistry and the BMS preserving cell health).
Yes, the GE-F60 is compliant with Australian standards for battery storage installations. It carries the necessary international certifications (CE, UN38.3, etc.) and key IEC standards that Australia adopts – for instance, IEC 62619 for cell safety and IEC 62040 for battery system safety/EMC are aligned with Australian requirements.
The system is also approved by the Clean Energy Council (CEC) in Australia, meaning it’s recognized for use in grid-connected applications under Australian guidelines. To install it in Australia, it must be integrated with inverters and protection devices that meet AS/NZS standards (e.g. using a CEC-approved inverter complying with AS/NZS 4777). The GE-F60’s built-in protections – like its fire suppression system and redundant safety controls – support compliance with relevant safety codes (such as AS/NZS 5139 for battery installations).
In summary, when installed according to local regulations, the GE-F60 meets all Australian grid connection and electrical safety requirements for commercial battery systems.
| Dimensions and Weights | |
|---|---|
| Weight | 1097 kg |
| Dimensions | 112 x 82 x 230 cm |
| Main Parameter | |||||||
| Cell Chemistry | LiFePO4 | ||||||
| Module Energy (kWh) | 5.12 | ||||||
| Module Nominal Voltage (V) | 51.2 | ||||||
| Model | GE-F60 | ||||||
| Main Parameter | |||||||
| Cell Chemistry | LiFePO4 | ||||||
| Module Energy (kWh) | 5.12 | ||||||
| Module Nominal Voltage (V) | 51.2 | ||||||
| Module Capacity (Ah) | 100 | ||||||
| Battery Module Qty In Series (Optional) | 12 | ||||||
| System Nominal Voltage (V) | 614.4 | ||||||
| System Operating Voltage (V) | 500~750 | ||||||
| System Energy (kWh) | 61.44 | ||||||
| System Usable Energy (kWh) [1] | 55.29 | ||||||
| Rated DC Power | 61.44 | ||||||
| Charge/Discharge Current (A) [2] | Recommend | 50 | |||||
| Nominal | 100 | ||||||
| Peak Discharge (2 mins, 25℃) | 125 | ||||||
| Working Temperature (°C) | Charge: 0~55/Discharge: -20~55 | ||||||
| Status Indicator | Yellow: Battery High Voltage Power On
Red: Battery System Alarm |
||||||
| Communication Port | CAN2.0/ RS485 | ||||||
| Humidity | 5%~85%RH | ||||||
| Altitude | ≤2000m | ||||||
| IP Rating of Enclosure | IP55 | ||||||
| Dimension (W/D/H,mm) | 735x1045x2235 | ||||||
| Weight Approximate (kg) | 1010 | ||||||
| Installation Location | Rack Mounting | ||||||
| Storage Temperature (°C) | 0~35 | ||||||
| Recommend Depth of Discharge | 90% | ||||||
| Cycle Life | 25±2°C,0.5C/0.5C, EOL70%≥6000 | ||||||
| Warranty [3] | 10 years | ||||||
| Certification | UL1973 /UL9540A/UN38.3 | ||||||
- DC Usable Energy, test conditions: 90% DOD, 0.3C charge & discharge at 25°C. System usable energy may vary due to system configuration parameters.
- The current is affected by temperature and SOC.
- The warranty is due whichever reached first of warranty period or life cycle power.
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