High energy density Rechargeable NCM/Si-C lithium-ion battery cell with 12.5Ah capacity and 360Wh/kg energy density, designed for lightweight UAV platforms requiring reliable power output and extended operation time. Stable performance for RC models and power devices.
Model: LP10948120N12.5
Battery Chemistry: NCM/Si-C Lithium-Ion
Nominal Capacity: 12.5Ah
Nominal Voltage: 3.60V
Maximum Charge Voltage: 4.25V
Energy: 45.0Wh
Energy Density: 360Wh/kg
Battery Type: High Energy Density Lithium-Ion Battery Cell
Cell Dimension: 10.9 × 48 × 120mm (T×W×L)
Average Weight: 125g
Maximum Continuous Discharge Current: 3~5C
Pulse Discharge Current: 10C (10s)
Maximum Charge Current: 1C
Cycle Life: ≥300 cycles (Capacity Retention ≥80%)
Application: UAV, Industrial Drone, Agricultural Drone
Features
High Energy Density Performance
With an energy density of up to 360Wh/kg, this NCM/Si-C lithium-ion battery cell provides an excellent balance between energy capacity and lightweight design, helping improve UAV endurance.
High Rate Discharge Capability
Supporting 3~5C continuous discharge and 10C pulse discharge, this battery cell delivers stable power output for UAV applications requiring efficient and reliable performance.
Balanced Capacity and Weight Design
With a 12.5Ah capacity and compact 125g lightweight design, this cell provides an optimized solution for applications requiring both energy efficiency and reduced system weight.
Advanced NCM/Si-C Battery Technology
The NCM/Si-C chemistry enhances energy density and power performance compared with conventional lithium-ion battery cells.
Flexible Battery Integration
The cell supports customized battery pack development, including capacity configuration, structural design and BMS integration according to different application requirements.
Applications
Designed for a wide range of high-performance applications, including:
✅ Industrial UAV Applications
✅ Professional Drone Systems
✅ Agricultural & Inspection Drones
✅ Robotics and Autonomous Platforms
✅ Electric Mobility Solutions
✅ Customized Battery Pack Development




