The Safe High-Voltage Lithium Battery for Reliable Home Energy
Specifically, the high-voltage lithium battery technology utilizing lithium iron phosphate materials delivers extremely high thermal stability, thereby ensuring that the system will not catch fire or explode and providing primary protection for home environmental safety.
Extremely Long Lifespan: A Hallmark of LVFU HV Lithium Battery
Furthermore, the high-voltage lithium battery system boasts an exceptional cycle life exceeding 6000 cycles. Consequently, based on daily charge and discharge cycles, this translates to over 15 years of use, far surpassing the lifespan of lead-acid and ternary lithium batteries.
High Cost-Effectiveness, Realized Through HV Lithium Battery
It is important to note that while the initial purchase cost of a HV lithium battery may be higher, its extremely long lifespan and low maintenance costs collectively result in a highly competitive total cost of ownership in the long run.
High Efficiency: A Core Advantage of High-Voltage Lithium Battery
More importantly, the HV lithium battery offers significant efficiency gains. It provides higher power output at the same current. Alternatively, for the same power output, it operates at a lower current, which leads to reduced line loss and higher system efficiency.
Cell Types of LVFU High-Voltage Battery
In terms of core components, the system employs square-shaped aluminum-cased lithium iron phosphate cells, chosen for their stable structure and high assembly efficiency.
Voltage Range of High-Voltage Lithium Battery
Regarding system configuration, as a high-voltage lithium battery solution, it connects cells in series, scaling from 51.2V to achieve 200-800V+ high-voltage platforms.
Wide inverter compatibility
For seamless integration, key parameter matching is crucial: the inverter’s DC voltage range must be compatible with the HV lithium battery pack’s operating voltage range, and simultaneously, the inverter’s rated power must meet the household’s maximum load requirements.
Important Notes
Finally, to ensure safe and optimal operation, full protocol compatibility between the high-voltage lithium battery’s BMS and the inverter must be verified.
