Lithium iron phosphate offers superior lithium-ion battery chemistry for applications requiring high energy density in a portable form factor. As advanced lithium-ion chemistry, lithium iron phosphate provides both a high specific energy of 90-120 watt-hours per kilogram and an excellent lifespan exceeding 3,000 charge cycles on average.
This chemistry is uniquely suited for applications involving frequent deep discharge cycles, such as recreational vehicles, marine vessels, and off-grid electronics installations. Unlike other lithium-ion chemistries, lithium iron phosphate retains over 95% of its rated capacity even after thousands of full discharge-charge cycles. Its thermal stability also makes it far safer than alternative lithium-ion battery types.
Intelligent Battery Management System
A key advantage is the inclusion of an independent battery management system circuit board tailored to each battery\'s individual specifications. The BMS comprehensively monitors and balances every cell during both the charging and discharging stages.
Internal cell balancing and an integrated charging circuit work simultaneously to optimize performance.
The BMS also provides robust protections against over-charging, over-discharging, over-current draw, short circuits, excess heat, reverse polarity installation, and over-voltage. These safety features allow the battery to withstand tens of thousands of charge cycles over a decade of heavy use.
Enhanced Performance and Usability
Lithium iron phosphate\'s ability to be fully discharged and recharged without capacity loss is a major improvement over other battery technologies. The delivered capacity remains consistent with the rated capacity even after years of service. This allows the battery to reliably power equipment at its full rated capacity with each and every cycle.
When compared to lead-acid batteries, which typically only use 20-50% of their total capacity, lithium iron phosphate provides two to five times the usable energy per cycle. Combined with its long cycle life, this advanced chemistry delivers unparalleled energy density and value for applications that require deep discharge power sources.