BlueNova RacPower Lithium Iron Phosphate 52V-100Ah-5.2k DU Battery

The BlueNova RacPower 52V-100Ah-5.2k DU Battery developed to support your businesses or home, a single 5.2k Daily Use unit can supply a sustained 2000W for a typical 2.5-hour load-shedding cycle.

R44,995.00 Incl VAT

SKU BN-52V-100Ah-5.2k DU Category Tag
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BlueNova RacPower Lithium Iron Phosphate 52V-100Ah-5.2k DU Battery

The RacPower batteries are 48V system-compatible & have been designed for installation in 19” server cabinets. Developed specifically to support business and telecommunications industries, a single 5.2k Daily Use unit can supply a sustained 2000W for a typical 2.5-hour load-shedding cycle.

Up to 6 x, BN52V-100-5.2k BP units (31kWh) & up to 9 x BN52V-100-5.2k DU units (46kWh) can be connected in parallel. The Daily Use model also includes serial communication (CAN / RS485) functionality. 

Features

  • Ultra-reliable Lithium Iron Phosphate Technology.
  • High Performance:
    o Power output = 5.2kW (continuous)
    o Fully rechargeable in 2 hours.
  • Robust & Durable:
    o Can be discharged to 100% DoD.
    o Minimum cycle life > 2500 cycles.
  • Safe & Secure:
    o Over-charge, over-discharge & short-circuit protection.
    o Non-combustible & 100% Recyclable.

What’s Included In The Box?

  • BlueNova RacPower Lithium Iron Phosphate 52V-100Ah-5.2k DU Battery

About Brand

Utilizing the latest Lithium Iron Phosphate technologies, our energy storage products are the leading technology in energy storage for the modern world. Renowned for their reliability and durability, our products allow for high cycling and longevity, so you don’t have to compromise.

What are Lithium Ion Batteries?

At BlueNova we manufacture Lithium Ion Batteries. In essence, Lithium Ion Batteries exist because of the discovery of lithium cobalt oxide (LiCoO2). When you pair a lithium cobalt oxide cathode with a graphite anode (in most cases), intercalation of lithium ions between layers of graphene takes place. This takes place in the spaces that occupy the enclosed site between single hexagonal rings of carbon atoms.

When you charge a lithium-ion battery, the lithium ions move from the positive electrode, or the cathode, through a solid/liquid electrolyte to the negative electrode, or the graphite anode. While the battery runs down this process occurs in reverse. Lithium iron phosphate is one of the chemistries found in the lithium-ion family.