Lithium iron phosphate batteries have a longer life span, improved discharge and charge efficiency, no effective maintenance, and are incredibly safe and lightweight. Lithium iron phosphate batteries live up to 5000 cycles at eighty % depth of discharge, without decreasing in performance. The typical lifetime of lead acid batteries is only two years.
Never second guess your portable power source once again with this reliable battery for many of your needs. With this battery, you will get reliable starts as well as deep cycle power to remain comfortable even in remote locations.
Many automotive batteries consist of six electrochemical cells, each producing 2.1 volts by way of a chemical reaction. Two lead plates are in each cell, a good and a negative. Electrons travelling from the good plate to the negative plate generate electricity. In a conventional battery, that chemical reaction happens in sulphuric acid inside the cells. The issue for some users is this acid can leak when subjected to vibration, creating a mess in the engine bay of yours. Vibrations also can result in the lead plates to break loose, short-circuiting that cell. LFP batteries are lithium-ion phosphate, which happens to be a very stable but slightly less energy-dense battery composition. What this simply means is that an LFP battery of an equivalent size is going to hold slightly less power than an additional battery. This is why there an industry-wide push towards LFP Batteries.
Are they safe?
To achieve high safety with the batteries many only use the best technology we have today: lithium iron phosphate. In conjunction with a Battery Management System, these batteries ensure safety and reliability. Battery boxes are designed to hold your battery securely no matter the type of mounting angle. Although the threat of any lithium battery catching on fire is unusual, LFP batteries have a substantially higher threshold for heat.
Are they expensive to purchase?
If you compared the costs of energy storage systems you would discover that the cost per kWh of Lithium batteries was approximately 6% below other types. LFP cells can last approximately 67 % more (more cycles). Due to differences between the cell‘s characteristics, the pricing of various parts for the storage system may be higher but overall it still remains cheaper per kWh. Budgets play a substantial part in deciding which battery to get. But what causes this particular difference?
Lithium batteries remain cheaper because the materials used to produce them are affordable and widely accessible. Lithium batteries are usually recommended to simply be discharged to 50 % of their capacity to take full advantage of the cycle life. This limited depth of discharge (DOD) of 50 % means that more batteries are needed to attain the desired capacity. This sometimes means more upfront costs, and more space needed to keep them. However, overall this investment will return from the productivity of Lithium Iron Phosphate batteries.
Overall Thoughts
Lithium iron phosphate batteries live up to 5000 cycles at 80 % depth of discharge, without decreasing in performance. The typical lifetime of lead acid batteries is only two years. With the use of this new technology, you can take advantage of the benefits of storage and enjoy the savings of energy.
