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3.2V 100Ah LiFePO4 Cells Specification:
Product name | 3.2V 100Ah Lifepo4 Battery Cell |
Nominal Voltage | 3.2V |
Max Charge Voltage | 3.65v |
Discharge Current | 1C/ 100Ah |
Cycle life | ≧3500 Times |
Type | Life4po Battery |
Anode Material | LFP |
Charging Temperature | -5-60°C |
Weight | 2.1kg |
OEM/ODM | Acceptable |
Application | Electric Power Systems,Home Applicances,Electric vehicles,Golf carts,electric scooter,electric bicycle,used cars and so on. |
LiFePO4 VS SLA Battery Cells Difference:
LiFePO4 (Lithium Iron Phosphate) and SLA (Sealed Lead-Acid) battery cells present distinct choices with notable differences.
LiFePO4 cells boast an impressive 10-year lifespan, enduring over 5000 cycles with a cost per cycle as low as 0.3 USD. These cells are lightweight, weighing only 1/3 of SLA batteries. Their extended lifespan and economical cost per cycle make them a cost-effective and reliable solution for long-term energy needs.
In contrast, SLA batteries offer a shorter lifespan of 3 years and approximately 200 cycles. The cost per cycle is higher at 0.7 USD, and these batteries are notably heavier, weighing three times more than LiFePO4 prismatic cells. While SLA batteries are commonly used, their higher cost per cycle and weight may impact their suitability for certain applications.
In summary, LiFePO4 prismatic battery cells provide a compelling choice with a longer lifespan, more cycles, lower cost per cycle, and lighter weight, making them ideal for applications requiring durability and efficiency. SLA batteries, while widely used, may be more suitable for applications where initial cost is prioritized over long-term performance and weight considerations.
LiFePO4 Cells Applications:
LiFePO4 (Lithium Iron Phosphate) cells find versatile applications across various industries, thanks to their exceptional characteristics. These cells are particularly well-suited for use in solar energy and wind power systems, where reliable and efficient energy storage is crucial for harnessing renewable sources.
Touring cars and sightseeing cars benefit from LiFePO4 cells due to their lightweight nature, long cycle life, and high energy density. These cells provide a reliable power source for electric vehicles, ensuring extended travel distances and reduced downtime for recharging.
In the realm of golf carts, LiFePO4 cells are becoming increasingly popular for their ability to deliver consistent and efficient power, contributing to enhanced performance on the golf course. Additionally, in the material handling industry, forklifts equipped with LiFePO4 cells benefit from prolonged operational hours and reduced charging frequency.
The medical equipment sector also relies on LiFePO4 cells for their reliability and safety features. These cells ensure a stable power supply for critical medical devices, contributing to the overall efficiency and dependability of healthcare systems.
Street lamps powered by LiFePO4 cells benefit from their long lifespan and low maintenance requirements. These cells provide a cost-effective and sustainable solution for outdoor lighting, especially in areas where reliable illumination is essential.
In summary, LiFePO4 cells find applications in a wide range of industries, including solar and wind power, electric vehicles, material handling, medical equipment, and outdoor lighting, owing to their longevity, reliability, and performance advantages.
WARNING:
Do NOT expose the battery to water
Do NOT expose the battery to fire & high temperature
Do NOT short circuit, crush or disassemble
Only use LiFePO4 charger
Store at 50% capacity, recharge every 3 months. The storage area should be clean, cool, dry and ventilated.
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