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24V 200Ah LiFePO4 Battery
HelithTech
Product Description
Specifications:
Voltage: 24V
Capacity: 200Ah
Chemistry: Lithium Iron Phosphate (LiFePO4)
Cycle Life: Long-lasting cycles
Efficiency: High charge and discharge efficiency
Safety: Enhanced safety features
Applications: Solar energy storage, electric vehicles, boats, backup power systems, etc.
Please note that these specifications provide a general overview of the product's capabilities. For more detailed technical information, it's recommended to refer to the manufacturer's documentation or contact a professional in the field.
Battery Cell
The biggest advantage of prismatic cells is its thin profile, lightweight, and the effective use of space. Due to the rectangle shape of these cells, it can facilitate better layering and increase flexibility in the products. With big capacity, less cell assembled together makes monitoring on each battery cell instead of cell string become possible. Changing defective battery cell is feasible too when there is cell failure.
Item | Parameter | Size |
A | Height | 240 mm |
B | Width | 215 mm |
C | Length | 523 mm |
D | Weight | 35 kg |
Intelligent factory design, high performance consistency;
Square aluminum shell, high-precision explosion-proof valve, high safety performance;
Low internal resistance, high discharge rate and stable discharge platform;
Long cycle life, the capacity retention ratio exceeds 70% after 4000 cycle @ 0.5C/1C
# | Item | Parameter | Remark | |
1 | Rated Capacity | 200Ah | Standard discharge(0.2 C5) After standard charge(0.2 C5) | |
2 | Minimal Rated Capacity | 198Ah | ||
3 | Nominal Voltage | 12V | working voltage | |
4 | Discharge cut-off voltage | ≥8V | 10.0V(recommended) | |
5 | Charging cut-off voltage | ≤15.6V | 14.6V (recommended) | |
6 | Standard charge | 0.2C constant current(CC) charge to 14.6V, then constant voltage (CV)14.6V charge till charge current decline to ≤0.05C | Charge time : Approx 6h | |
7 | Standard discharge | Constant current 0.2C Cut-off voltage 10.0V | ||
8 | Maximum Charge Current | 200A | ||
9 | Max Continuous Discharge Current | 200A | ||
| 10 | Peak current | 380A | ||
11 | Operation Conditions | Charge | 0~45℃ | 60±25%R.H. 23 ± 5°C(recommended) |
Discharge | -10~60℃ | |||
12 | Storage Conditions | Less than 1 year : 0~25℃ | 60±25%R.H. at the shipment state | |
Less than 3 months:-10~35℃ | ||||
Precautions
Charging Voltage: Ensure to use the recommended charging voltage for the 24V LiFePO4 battery to prevent overcharging or undercharging.
Temperature: Operate the battery within the specified temperature range for optimal performance and safety. Extreme temperatures can affect battery life and efficiency.
Discharge Rate: Avoid discharging the battery at extremely high rates, as it can impact both the battery's performance and lifespan.
Compatible Equipment: Use compatible charging and discharging equipment designed for LiFePO4 batteries to ensure safe and efficient operation.
Ventilation: Provide proper ventilation when using and charging the battery to dissipate heat and maintain safe operating temperatures.
Physical Handling: Handle the battery with care to prevent physical damage, such as dropping or puncturing, which can compromise safety and performance.
Storage: Store the battery in a cool, dry place with a partial charge if not in use for extended periods. Regularly check and maintain the battery's state of charge during storage.
Protection Circuitry: If the battery pack is not integrated with built-in protection circuitry, consider using an external Battery Management System (BMS) to monitor and manage the battery's charging and discharging processes.
Disposal: Dispose of old or damaged batteries according to local regulations. LiFePO4 batteries are recyclable and should be handled properly.
Consult Manufacturer: Always refer to the manufacturer's guidelines, recommendations, and instructions for the specific battery model you are using.
The 24V 200Ah lithium iron phosphate battery (LiFePO4) is suitable for various applications, including:
Solar Energy Storage: These batteries are ideal for storing energy generated by solar panels. They can store excess energy during the day and release it at night or during periods of low sunlight, providing a reliable power source.
Electric Vehicles: LiFePO4 batteries are commonly used in electric vehicles due to their long cycle life, high thermal stability, and safety features. They power the vehicle's electric motor and provide sufficient range on a single charge.
Backup Power Systems: In situations where a continuous power supply is critical, such as in data centers or medical facilities, these batteries can serve as backup power sources, ensuring uninterrupted operation during outages.
Marine and RV Applications: The batteries can be used in boats and recreational vehicles to provide power for lighting, appliances, and onboard electronics, allowing for extended trips without the need for external power sources.
Off-Grid Power: In remote locations or areas with unreliable grid connections, these batteries can serve as off-grid power solutions, providing electricity for various purposes.
Telecommunications: LiFePO4 batteries are used in telecom towers and equipment to ensure stable power supply in areas with intermittent electricity access.
Industrial Machinery: They can power various industrial equipment and machinery, especially in situations where consistent power delivery and safety are essential.
Renewable Energy Systems: These batteries can be integrated into wind energy systems to store excess energy generated during windy periods for use when the wind is not blowing.
Emergency Lighting: LiFePO4 batteries can provide emergency lighting during power failures in commercial buildings, public spaces, and residential complexes.
Microgrids: In microgrid setups, these batteries can play a role in balancing energy supply and demand, contributing to more efficient and sustainable energy distribution.
Remember that the suitability of the battery for a specific application depends on factors such as the required power output, capacity, available space, and budget. It's important to consult with experts to determine the best battery solution for your particular needs.
