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8-inch FPV kamikaze drone
8-inch FPV Kamikaze Drone is a strike FPV platform built on an 8-inch frame, designed for missions at extended operational distances with increased payload capability compared to more compact platforms. The configuration combines strong flight range, stability, and sufficient maneuverability for operation under dynamic conditions.
The platform supports payloads from 1 to 2 kg and uses 6s2p 8400 or 10000 mAh Li-ion batteries. This configuration provides operational range up to 23 km and speeds up to 140 km/h. Thanks to the larger frame size, the drone delivers improved flight stability and more efficient operation with heavier payloads.
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The biggest advantage of the 8-inch platform is the strong balance between flight range, payload capacity, and stability. The drone operates comfortably at longer distances and handles heavier payloads more effectively than more compact FPV platforms. Flight stability at high speeds also performs especially well.
Specifications
| Parameter | Value |
|---|---|
| Platform type | FPV quadcopter |
| Frame size | 8" |
| Purpose | FPV kamikaze drone |
| Payload capacity | 1 – 2 kg |
| Battery | 6s2p 8400 / 10000 mAh Li-ion |
| Flight range | 18 – 23 km |
| Maximum speed | Up to 140 km/h |
| Power system type | Electric |
| Battery type | Li-ion |
| Country of manufacture | Ukraine |
Comment / comments
The 8-inch FPV Kamikaze Drone performs very well for missions requiring longer flight range and increased payload capacity while maintaining strong speed and maneuverability. The larger frame positively affects platform stability and efficiency when operating with heavier payloads. Li-ion batteries provide strong endurance and stable operation at extended distances. The platform also performs very well during dynamic scenarios and long-duration flights.
Who it is suitable for
Primarily for military users who require an FPV platform with extended operational range and increased payload capability. Strong stability and speed make the system highly effective under difficult operational conditions.
FPV operators and mobile crews receive a platform with a strong balance between operational range, speed, and payload capacity. The configuration performs very well during active deployment and medium- to long-range missions.
Aerial reconnaissance units and FPV teams can use the platform for operational scenarios involving increased payloads without major losses in speed or mobility.
Users of FPV systems who require a more stable and durable platform for long-range operation receive a strong balance between endurance, speed, and maneuverability.