Semi Solid Drone Battery Pack
Semi-Solid Power for Long-Range, Heavy-Lift UAV Missions
High energy density and a steady output curve make this semi-solid drone battery pack ideal for long-haul flights, heavy lifting operations, and continuous mission cycles. Drones can perform consistently during climbs, hovers, and quick direction changes thanks to its semi-solid-state cell construction, which lessens thermal drift under stress.
For a variety of UAV platforms, including industrial inspection, logistics, mapping, and agricultural activities, voltage, capacity, and discharge settings can be customized. Systems that need real-time battery status for mission control and flight planning have communication alternatives.
It offers a power solution that enables longer routes, larger payloads, and more reliable operation across a variety of drone tasks for manufacturers and fleet operators.
Engineered Power for Long-Endurance & Heavy-Lift Drone Missions
When flight distance stretches beyond the horizon, and payload pushes against gravity, power is no longer a component — it becomes the limit.
This semi-solid-state UAV battery is designed to break that limit.
By combining semi-solid electrolyte technology, high-energy-density cells, and intelligent BMS integration, it delivers a power system built for real-world UAV operations — not lab conditions.
Key Specifications (Customizable Range)
| Parameter | Standard Configuration | Customizable Range | What It Means for You |
|---|---|---|---|
| Rated Voltage | 44.4V (12S) | 22.2V – 88.8V (6S–24S) | Compatible with multiple UAV platforms |
| Capacity | 22000mAh | 10Ah – 50Ah | Extends flight duration |
| Configuration | 12S1P | 6S–24S / Multi-parallel | Flexible pack design |
| Discharge Rate | 25C (250A) | 10C – 50C | Stable thrust under load |
| Energy Density | 285 Wh/kg | 250 – 320 Wh/kg | Higher flight efficiency |
| Weight | 6000g | 3kg – 12kg | Balance payload & endurance |
| Dimensions | 178 × 97 × 271 mm | Custom enclosure | Fits UAV structure |
| Communication | RS485 / CAN / UART / BLE | Customizable | Real-time monitoring |
| Connector | XT60 / XT90 / AS150 / QS | Optional | Fast integration |
Don’t Just Read the Numbers — Read the Capability
Most batteries look similar on paper.
The difference appears when your drone is under real stress:
- Lifting at maximum payload
- Flying extended missions
- Operating continuously
That is where weak systems collapse — and engineered systems hold.
Why Semi-Solid-State Technology
- Higher energy density → longer flight time
- Improved thermal stability → safer operation
- Lower degradation → longer lifecycle
- Better structural integrity → stable output
This is not an upgrade. It is a shift in battery architecture.
Typical UAV Application Matching
| Application | Configuration | Requirement | Benefit |
|---|---|---|---|
| Agricultural UAV | 12S–14S / 20–30Ah | Long endurance | Extended flight cycles |
| Heavy-Lift Drone | 12S–18S / 30–50Ah | High current | Stable thrust |
| Mapping UAV | 6S–12S / 15–25Ah | Lightweight | Long missions |
| Inspection UAV | 6S–12S / 15–30Ah | Stability | Reliable operation |
How to Choose the Right Configuration
- Endurance → Higher capacity
- Payload → Higher discharge rate
- Compatibility → Flexible configuration
FAQ
What is a semi-solid-state drone battery?
Hybrid system combining liquid and solid-state materials for stability and performance.
Advantages?
- Higher energy density
- Improved safety
- Longer cycle life
- Stable output
Difference vs Li-ion / LiPo
| Feature | Semi-Solid | Li-ion | LiPo |
|---|---|---|---|
| Energy Density | High | Medium | Medium |
| Safety | High | Medium | Lower |
| Cycle Life | Long | Medium | Short |