Vrabac Mini UAV

Vrabac
Role Remote controlled, UAV
Manufacturer Utva Aviation Industry
Designer Military Technical Institute Belgrade
Introduction 2008
Status active
Primary user Serbian Army
Produced 2008-present
Number built 50+


The Vrabac (Sparrow) is a mini drone intended for day/night reconnaissance and surveillance at shorter distances, as well as for target finding and designating, produced in Serbia by Utva.[1]

Design

The VRABAC is a high-wing monoplane made of composite materials. Its fuselage is aerodynamically shaped around the equipment. The nose part contains an 800W DC motor powered by a Li-pol battery while the space below and behind it is intended for electro-optical equipment. The airborne computer is in the central part. The UAV is hand launched and lands with a parachute and an airbag.

Role

The Vrabac drone is designed to survey and analyze major infrastructural facilities such as pipelines, major roads, bridges, forests, etc.

Performances and technical characteristics

Vrabac weighs 5.3 kg with a 2.80 meter wing span. It can carry a payload of maximum of 1.5 kg. It has a total of 1 hour flying time and has a maximum flight speed of 85km/h. The operational range of the Vrabac is 10 km+ and an it has an operative height of 300 to 500 meters.[2]

Engine: DC electric, 800 W
Propeller: Two blades, graphite composite
Battery: Li-Po 28V, 8000mAh
Wing span: 2.806 m
Wing area: 0.75 m2
Length: 1.94 m
Weight (without payload): 5.5 kg
Maximum payload weight: <1.5 kg
Max takeoff weight: 7 kg
Max speed: 120 km/h
Cruising speed: 61 km/h
Operational altitude (AGL): 300 - 500m
Flight duration: 1+ h 1+ h
Launching: Automatic, hand launch
Landing: Automatic, parachute and airbag, Optional: belly landing
Uplink: UHF, frequency-hopping spread spectrum
Downlink: S-band, digital, coded
Guiding: Fully autonomous way points tracking, holding, camera guiding, Emergency and return home mode

Gallery

Video promotion

See also

References

This article is issued from Wikipedia - version of the Tuesday, March 24, 2015. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.