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EM-006 Long endurance multi-rotor hybrid Drone

Introducing the EM-006 Oil-Powered Multi-Rotor UAV, the ultimate solution to the endurance challenges faced by drones in emergency rescue scenarios. In a world where most drones rely solely on battery-based power solutions, the limitations of endurance have hindered the potential of drones in critical industries such as earthquake rescue, forest fire response, and emergency situations where power and network connectivity are compromised.

    Product Introduction

    Our company has taken a pioneering step in addressing this issue with the development and production of the EM-006. This multi-rotor UAV is specifically designed to meet the demanding requirements of emergency rescue operations. Through rigorous testing and optimization, we have achieved a groundbreaking maximum endurance of over 6 hours, setting a new standard in the industry.
    The EM-003 Fuel Drone harnesses the power of gasoline, with a calorific value of 19,600 watts per kilogram, far surpassing the energy density of pure electricity. This enables the drone to achieve exceptional thermal efficiency, with gasoline engines boasting efficiency levels between 30% and 40%, significantly higher than that of electric motors.
    In the field of emergency rescue, where sustained aerial presence is crucial, the EM-006 stands as a game-changer. It empowers both man and machine to remain airborne for extended periods, ensuring continuous support and surveillance in critical situations. With its unmatched endurance, the EM-006 is poised to revolutionize the capabilities of drones in emergency response, setting new benchmarks for performance and reliability.
    The EM-006 Oil-Powered Multi-Rotor UAV represents a significant leap forward in the evolution of drone technology, offering a reliable and efficient solution to the endurance challenges faced in emergency rescue operations. With its exceptional capabilities, it is poised to make a lasting impact in the UAV industry, redefining the possibilities for aerial support in critical scenarios.

    Product images



    Flight control system

    Industry class flight control

    Symmetrical motor wheelbase


    Folding size


    Empty weight


    Maximum take-off weight


    Tank volume


    Protection class


    Flight parameter:

    Maximum thrust-to-weight ratio


    Hover accuracy

    (GNSS signal is good)

    Starting RTK

    horizontal ±10cm, vertical ±10cm

    Unactivated RTK

    horizontal ±0.6m, vertical ±0.3m

    Power battery

    aero engine +12s lithium battery

    Cruising speed


    Maximum flight speed


    Maximum flight altitude

    2000 meters

    Usage ceiling: Climb rate


    Sailing time

    > 3h (no load)

    Engine parameter:

    Engine type

    horizontally opposed twin cylinder water cooled

    Engine displacement


    Engine weight

    3.3kg (without accessories)

    Starting mode

    one-button start (remote start)

    Throttle control mode

    full power range automatic control

    Ignition mode

    12V CDI DC ignition

    Generator type

    three-phase permanent magnet generator

    Generator voltage


    Generator power

    ≤2.5KW(0 altitude)

    Sensing and Obstacle Avoidance system 


    Forward looking radar

    Type number


    Operating voltage


    Power rate



    millimeter wave

    Operating frequency


    Pitch beam width

    15°@6db (medium distance) /14°@6db (short distance)

    Azimuth beamwidth

    30°@6db (medium distance) /120°@6db (short distance)

    Distance accuracy


    Safe distance


    Obstacle avoidance direction

    in front of the drone

    Protection class


    Communication and operating systems

    Signal bandwidth


    Operating voltage


    Image transmission distance

     FCC20Km/CE/SRRC/MIC 12Km

    Image transmission delay

    minimum 110ms

    Image transmission pixels


    Transmission frequency

    2.4GHz ISM

    Acceptance sensitivity

    -99d Bm@20MHz B