Many contemporary Advanced Air Mobility (AAM), and more specifically, urban air mobility (UAM) vehicle designers are attracted to variable rotor speed-controlled designs with multiple rotors because of the great potential for mass savings compared to more traditional, variable blade pitch-controlled vehicles. These designs are based on the assumption that the stability and control of recreation or basic utility-sized drones can be scaled to larger passenger-sized vehicles. Previous work had shown the challenges in stabilizing passenger-sized quadcopters. In this study, power constraints were made less restrictive and varied, allowing more control power. Motor parameters such as efficiency, nominal voltage and current operating point, and rise time of the rotor speed controller step response were studied. By fixing the efficiency of the motor to 95% and assuming a motor voltage to current ratio of 2.0 (previously, assumed to be 1.0), the authors were able to stabilize the quadcopter in the roll axis because this allowed the vehicle to achieve adequate rise times between 0.4 and 0.8 s. This motor optimization was extended to a hexacopter and octocopter designed to the same payload size and mission as the quadcopter. The three vehicle configurations and their motor speed controllers were compared. It was found that while hexacopter and octocopter required more mass and overall power; all three configurations had similar margins required for control. However, the hexacopter and octocopter were able to use this power margin to achieve lower rise times (i.e. the vehicle responded more quickly to pilot inputs) than the quadcopter, with the octocopter having the lowest rotor response rise time of the three vehicle configurations studied.


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    Title :

    Multirotor Configuration Trades Informed by Handling Qualities for Urban Air Mobility Application


    Contributors:

    Conference:

    Vertical Flight Society's 76th Annual Forum & Technology Display ; 2020 ; Virginia Beach, Virginia, US


    Type of media :

    Conference paper


    Type of material :

    No indication


    Language :

    English





    MULTIROTOR CONFIGURATION TRADES INFORMED BY HANDLING QUALITIES FOR URBAN AIR MOBILITY APPLICATION

    Withrow-Maser, S. / Malpica, C. / Nagami, K. | British Library Conference Proceedings | 2020



    IMPACT OF HANDLING QUALITIES ON MOTOR SIZING FOR MULTIROTOR AIRCRAFT WITH URBAN AIR MOBILITY MISSIONS

    Withrow-Maser, S. / Malpica, C. / Nagami, K. | British Library Conference Proceedings | 2021