High Density 3.7V Semi Solid State Batteries 6000mAh For Vertical Take Off Drone Battery
3.7V High Density Semi-Solid State Batteries for Vertical Take-off Drone Battery
Features
- High Energy Density: The semi-solid state design contributes to a high energy-to-weight ratio, which is critical for maximizing drone flight time .
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Enhanced Safety Profile: The semi-solid electrolyte is less flammable than traditional liquid electrolytes, significantly improving resistance to leakage and thermal runaway .
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High Discharge Capability: Designed to deliver the high burst currents required for vertical take-off, hovering, and aggressive maneuvering .
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Long Cycle Life: The stable interface of semi-solid electrolytes can reduce electrode degradation, contributing to a longer service life compared to standard Li-Po batteries .
Specification
| Normal Capacity | 6000mAh |
| Normal Voltage | 3.7V |
| Charging Voltage | 4.2 V |
| Dimension | 9.0*48*145mm |
| Standard Charge Current | 0.5C - 1C |
| Peak Discharge Current | >25C |
| Discharge Cut-off Voltage | 3.0 V |
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Max. Continuous Discharge Current |
10C - 25C |
| Operation Teerature |
Charge:0°C to +45°C
Discharge:-20°C to +55°C |
| Weight | 150 g |
| Storage Temperature | 10°C to +25°C |
| Cycle Life | ≥ 1000 cycles |
Applications
- Vertical Take-off and Landing (VTOL) Drones: Provides the high power density needed for efficient lift-off and stable hovering.
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First-Person View (FPV) Racing Drones: Offers high burst discharge for rapid acceleration and maneuvering.
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Agricultural and Industrial Inspection Drones: Suitable for long-endurance missions requiring reliable power.
Warnings & Safety Instructions
Charging
- Use a Designated Charger: Always use a balanced charger specifically for 3.7V Li-ion/Li-Po batteries. Using an incorrect or faulty charger can lead to overcharging and fire .
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Never Leave Unattended: Do not charge the battery unattended. Charge in a well-ventilated area on a non-flammable surface.
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Set Correct Parameters: Ensure the charger is set to the correct voltage (4.2V) and current. Do not exceed the battery's maximum charge rate .
Discharging & Use
- Avoid Over-Discharging: Never discharge the battery below 3.0V. Land your drone immediately when the battery alarm indicates low voltage (recommended alarm setting: ~3.5V-3.7V per cell under load) to prevent irreversible damage and potential crash .
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Monitor Temperature: Allow the battery to cool down to ambient temperature after use before recharging. Do not use a battery that is hot to the touch .
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Inspect Before Use: Before each flight, check the battery for any signs of damage, such as swelling, punctures, or leaks. Do not use a damaged battery .
Storage & Transportation
- Storage Voltage is Critical: For any storage period longer than three days, discharge/charge the battery to its storage voltage (3.8V - 3.9V). Storing a battery at full charge or a low state of charge will permanently damage it .
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Store in a Cool, Dry Place: Ideal storage temperature is between 10°C and 25°C .
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Use Safe Containers: Store and transport batteries in a fireproof container or Li-Po safety bag to prevent short circuits .
Get in Touch
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