A LiFeYPo4 battery gets its name from its cathode material, LiFePO4. These batteries are a significant improvement over traditional lithium-ion batteries. Also, they perform much better than lead-acid batteries.
When it comes to deep cycle batteries, LiFePO4 batteries are the top choice. However, to make the right choice, it is essential to know the different types of LifeO4 battery and their features.
In this post, we will tell you about the different types of LiFeO4 batteries. If you are planning to buy one, you might find this article helpful.
Based on shapes, there are three main types of LiFeO4 batteries. These include:
The cylinder cell is probably the safest of all options. Thanks to its round shape, it evenly distributes internal pressure and provides efficient heat dissipation.
A cylinder cell is relatively small and is commonly used in mobile devices, such as flashlights, drones, power banks, electronics, electric toys, portable power systems, and handheld tools.
It is worth noting that cylinder cells are not recommended for large battery systems. You can find quality LiFeO4 batteries at Thunder sky winston battery.
Prismatic cells are known for their square shape and high capacity. It’s easy to connect four cells in series and create a 12V battery pack.
Battery packs using prismatic LiFePO4 cells tend to be more stable because they contain fewer cells. These cells are commonly used in energy storage applications.
While LiFePO4’s energy density may not be as high as NMC cells, this is not a critical factor in stationary energy storage systems. Many companies use LiFePO4 battery cells for cleaning machines, AGVs, low-speed vehicles, and current electric vehicles (EVs).
Pouch cells use an aluminium-plastic shell, which is lighter and offers higher energy density compared to prismatic and cylindrical types. However, they are relatively less sturdy and have weaker impact resistance. When configuring them into a battery pack, good case protection is essential.
Pouch cells find applications in a wide range of devices, including drones, smartphones, wearable devices, military applications, and the automotive industry.
Understanding the different types of LiFeO4 battery cells is crucial for making informed decisions. Each type has its unique strengths and weaknesses. The right choice depends on the specific needs and requirements of the application at hand.