LFP
A solid-state lithium iron phosphate battery is a new type of battery that replaces conventional liquid electrolytes with non-flammable solid electrolytes and uses lithium iron phosphate as the cathode material. It demonstrates significant advantages in three aspects: high safety, high energy density, and low cost. In terms of high safety, the solid electrolyte fundamentally eliminates the risk of fire and explosion, providing intrinsic safety. In terms of high energy density, the solid-state system simplifies packaging structures and can accommodate high-capacity anodes, significantly increasing the energy storage capacity per unit volume or weight, thereby laying the foundation for long endurance. In terms of low cost, its ultra-long cycle life and simplified assembly processes greatly reduce replacement and maintenance costs over the entire lifecycle. As the technology matures and scales up for mass production, the overall cost is expected to be further optimized.
Cell Capacity | 36-314Ah |
Voltage | 3.2V |
Cycle Life | 4000-8000 |
Charging Temperature Range | 0 to 55 °C |
Discharging Temperature Range | -20 to 55 °C |
Charging Rate | 0.5~4 C |
Discharging Rate | 0.5~6 C |
Lithium iron phosphate solid-state batteries offer sufficient safety, and they can be used across a wide range of industries.
Large-Scale Energy Storage Power Stations: High safety, long lifespan, meeting grid frequency regulation and peak-valley shaving demands.
Residential & Industrial/Commercial Energy Storage: Intrinsic safety, suitable for densely populated areas such as homes and industrial parks.
Electric Passenger Vehicles: Eliminates fire risk, improves low-temperature range.
Electric Commercial Vehicles & Special Vehicles: High safety, long cycle life, reduces operational costs.
Marine & Electric Aviation: High energy density and wide-temperature adaptability, meeting stringent safety requirements.
Industrial Equipment & Robotics: Reliable and durable, adapts to high and low temperature environments.
Data Centers & Communication Base Stations: Long-life backup power, reduces maintenance frequency.
Aerospace & Defense Equipment: High safety, wide-temperature adaptability, high energy density, meeting extreme operating conditions.
Portable Medical Devices: No fire risk, ensures personal safety.
Wearable Devices & Consumer Electronics: Compact structure, high safety, suitable for body-worn applications.
Banking: Eliminates fire risk, meets the highest safety standards of financial systems.
