Fiber-optic drones for military use
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15 km Fiber-Optic Drone Thermal JOHNNY OPTO 10
65 650 грн.
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20 km Fiber-Optic Drone Thermal JOHNNY OPTO 10
68 900 грн.
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Fiber-Optic Drone 15 km Thermal JOHNNY OPTO 15
98 800 грн.
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Fiber-Optic Drone 20 km Thermal JOHNNY OPTO 15
101 400 грн.
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Drone 15" Optix 15 (km) General Cherry
83 897 грн.
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-228x228.jpg "FPV Drone 10")
-228x228.jpg "FPV Drone 10")
Predator REBOFF 13 20KM
0 грн.
Predator REBOFF 13 15KM
0 грн.
Predator REBOFF 13 10KM
0 грн.
Frequently asked questions about products in this category Fiber-optic drones for military use
An FPV drone on fiber optics is an unmanned platform where signal transmission occurs via a fiber-optic cable instead of the standard radio channel. This operating principle ensures stable communication, high-quality data transmission, and reduced susceptibility to radio interference. During flight, the drone maintains a physical connection to the control point via a cable that gradually unwinds as it moves.
The main advantage is a stable communication channel without the typical dependence on radio interference. This solution ensures precise command transmission, high-quality video signal, and a lower probability of losing control in a complex environment. An additional advantage is the reduced impact of external factors that can degrade the performance of traditional wireless systems.
The size of an FPV drone on fiber optics depends on the platform's purpose and the equipment installed. Compact models are usually more maneuverable, lighter, and more convenient for operating in confined spaces, while larger designs may offer better stability and higher payload capacity. Dimensions also affect flight duration, speed, energy efficiency, and the ability to install additional components.
The average flight range of fiber-optic FPV drones is determined by cable length, energy reserve, and platform technical parameters. In most cases, the operating radius is limited by the connection line rather than signal quality, as in radio-controlled systems. The actual range also depends on terrain, weather conditions, equipment weight, and flight mode.
The flight time of fiber-optic FPV drones depends on battery capacity, total structural weight, and load intensity during operation. Lighter models typically stay airborne longer, while heavier platforms consume more power. Autonomy is also affected by flight speed, weather conditions, maneuvering, and additional equipment installed.
The maximum speed of fiber-optic FPV drones typically ranges from 60 to 120 km/h, depending on frame size, motor power, and cable weight. Compact models often exhibit higher dynamics, while larger platforms are focused on flight stability. Actual performance may vary due to weather conditions, payload, and power system configuration.
The payload capacity of FPV drones typically ranges from 0.5 to 3 kg, depending on the frame size, motor power, and battery type. In reinforced configurations, this figure can be higher, but increased load often reduces flight speed and autonomy.
FPV drones with fiber optics typically feature analog, digital, or low-latency HD cameras, depending on the platform's purpose. Modules with resolutions from 720p to 1080p, a wide field of view, and improved low-light performance are most commonly used. The specific camera choice depends on requirements for image detail, signal latency, and operating conditions.
Fiber-optic FPV drones are made from carbon fiber, aircraft-grade aluminum, composite materials, and impact-resistant plastic. Carbon fiber frames are popular due to their low weight and high rigidity, while metal elements are used to reinforce high-stress components. Materials may vary depending on the drone class, operating conditions, and structural strength requirements.