Why choose lithium LiFePO4 battery for the solar application?

Why choose lithium LiFePO4 battery for the solar application?

The lithium iron phosphate (LiFePO4) battery, additionally called LFP battery (with “LFP” meaning “lithium ferrophosphate”), once contrasted with Assuming we think about lithium iron phosphate (LiFePO4) battery to lead corrosive batteries, offer critical benefits, including further developed release productivity, longer life expectancy and the capacity to profound cycle while keeping up with performance. To be sure they are many times more costly than lead corrosive batteries yet the insignificant support and inconsistent substitution makes lithium lifep04 solar battery a significant speculation and brilliant long haul arrangement. Lithium iron phosphate (LiFePO4) batteries are not new, but most recent turns of events and upgrades are going with this sort of battery regular decision for some applications, including solar industry. Underneath we will make reference to a few justifications for why we accept that lithium iron phosphate (LiFePO4) battery is the best answer for the solar application

Security

Lithium iron phosphate (LiFePO4) batteries are most popular for their solid security profile, the aftereffect of incredibly stable science. When exposed to dangerous occasions, for example, impact or shortcircuiting, they will not detonate or burst into flames, essentially diminishing any opportunity of damage. Useable limit in opposition to lead-corrosive batteries 100 percent of the ostensible limit of LiFePO4 batteries can be utilized. At the point when you take a 100Ah battery you can use between 30Ah to 50Ah with a Lead-Corrosive battery, went against to 100Ah with a LiFePO4 battery.

Performance

LiFePO4 batteries have significantly longer life expectancy than lead corrosive batteries and they can turn out impeccably for the time of 5-7 years and cycle life can depend on 2500 cycles. A more slow pace of limit misfortune contrasted with other formulations could balance the compromise somewhat. Following a year, a LiFePO4 cell commonly has roughly a similar energy thickness as a LiCoO2 lithium particle cell. Battery charging time is likewise impressively diminished, another helpful performance perk.

Environment opposition.

Both lead-corrosive batteries and LiFePO4 batteries lose limit in cool conditions. The deficiency of energy with LiFePO4 batteries is insignificant. It will in any case have 80% of limit at a temperature of – 20˚C, contrasted with 30% while utilizing an AGM battery. For some areas with outrageous cold or sweltering weather the LiFePO4 battery is the most ideal decision.

Light Weight

Contrasting with lead corrosive batteries, LiFePO4 batteries are right multiple times lighter. For instance, one 150ah lead corrosive battery is around 50kg/110lbs in weight, on the other side LiFePO4 battery is just 15kg/30lbs. For some solar applications this presents immense advantage that can bring down establishment cost and accelerate the venture execution.

Quick charging

LiFePO4 batteries can be charged quick to the full 100 %. A lead-corrosive battery should be accused of a retention stage to charge the last 20%.