CubePilot
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  • Service Bulletins and Critical Notices
    • Safety/Service Bulletins
      • SB_0000001 Critical service bulletin for Beta Cube 2.1 (2016)
      • SB_0000002 Critical service bulletin for Cubes Purchased between JAN 2019 to JUL 2019. DO NOT FLY
      • SB_0000003 Flight with arming checks set anything other than 1 prohibited
      • SB_0000004 Limited power capacity of the RCIN power rail on Pixhawk Autopilots
      • SB_0000005 I2C Storm can cause inflight reboots, Chibios ONLY, not Nuttx (all cube and Pixhawk hardw
      • SB_0000006 time to Go Orange
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      • Powering Telemetry radios externally
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    • Here 3 Manual
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    • Here 4 Manual
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    • HerePro Manual
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    • Cube Red
      • Specifications
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    • The Cube Module Overview
    • The Cube User Manual V1.0
    • The Cube - Firmware Installation & Connection Troubleshooting
      • Installing Mission Planner
      • Installing Ardupilot
      • Installing Secure Firmware
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    • The Cube FAQ
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    • Cube Red Standard Carrier Board Pinout
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      • Airbot Systems Mini Carrier Board Set User Guide
    • EDU450 Carrier Board
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    • Carrier Boards FAQ
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    • Cube ID
  • CubeNode
    • Specifications
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      • Specifications
      • Setting Up the Physical Connection between the Cube, CubeNode, and laptop/PC
    • Soldering a CubeNode onto a PCB
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  • SOLO
    • Open Solo Installation
    • Open Solo
  • CubePilot Ecosystem
    • CubePilot Ecosystem Autopilot Wiring Diagram (Multilingual)
    • OEM Carrier Board
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    • CubePilot Ecosystem Edu450 Reference Design (Multilingual)
    • CubePilot Ecosystem MissionGO
    • CubePilot Ecosystem Doosan Hydrogen Zero Emission Vehicle
    • CubePilot Ecosystem Ardubee multipurpose platform
    • Silent Arrow
    • CubePilot Ecosystem Herelink
    • Acecore NOA, Cubepilot Ecosystem, and George Herelink, the right combination
    • CubePilot Ecosystem Inspired Flight IF1200A
    • CubePilot Ecosystem Here4
    • 2023 CubePilot Ecosystem Autopilot Wiring Diagram
    • CubePilot Ecosystem Cube ID
    • CubePilot Ecosystem Mission Planner
    • CubePilot Ecosystem BZB UAS ekoSKY
    • CubePilot Ecosystem 10th Anniversary of The Cube
    • CubePilot Ecosystem HerePro V2
    • CubePilot Ecosystem Mistral-Qualcomm MRD5165
    • CubePilot Ecosystem Precision Landing Air Test Operation (PLATO)
    • CubePilot Ecosystem Hionos
    • CubePilot Partners
      • SpektreWorks
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      • Mauch
      • T-MOTOR
      • APD
      • JAR Aerospace
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      • Kraus Hamdani Aerospace
      • Union Robotics
        • Meadowhawk 2
          • Meadowhawk 2 User Guide
            • TABLE OF CONTENTS
              • 1. GENERAL
              • 2. OPERATING LIMITATIONS
              • 3. EMERGENCY PROCEDURE
              • 4. NORMAL OPERATING PROCEDURES
              • 5. PERFORMANCE
              • 6. WEIGHT AND BALANCE EQUIPMENT LIST
              • 7. DESCRIPTION OF THE sUAS AND SYSTEMS
              • 8. HANDLING, CARE, AND MAINTENANCE
              • 9. SUPPLEMENTS
              • DISCLAIMER AND WARNING
              • LIMITATION OF LIABILITY
        • HereLink Blue
          • HereLink Blue User Guide
            • Air Unit
              • Air Unit Specifications
              • Air Unit LEDs
              • Air Unit Interface & Installation
            • Ground Station
              • Ground Station Specifications
              • Ground Station Buttons & LED
              • Ground Station Charging
          • UR/Solex TX App
          • Pairing & Calibration
          • Configure Buttons
          • Share Video Stream
          • Connecting to Mission Planner
          • Installing a Custom App
            • Installing QGC
          • Important Notes & Warnings
          • Update Firmware
          • Bug Report
          • HereLink Blue FAQs
      • Yates Electrospace Corporation
      • CubePilot Frames
        • Multirotor Frames
          • EDU-450
          • EDU-650
          • TD-900
          • TD-1100
  • Remote ID
    • France
  • 3D Printing
    • CubePilot product 3D model
    • Printable Camera Quad (Foldable)
    • Here 3 Istand
    • HerePro Istand
    • Kore Multi-Rotor Carrier Board Case
    • CubePilot Multirotor Frame
  • Product Media
    • CubePilot Logos
    • Product Media Cloud Drive
  • OEM Carrier Board
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  1. CubePilot Ecosystem
  2. CubePilot Partners
  3. Union Robotics
  4. Meadowhawk 2
  5. Meadowhawk 2 User Guide
  6. TABLE OF CONTENTS

DISCLAIMER AND WARNING

IMPORTANT - Please read this disclaimer and warning carefully and review the Meadowhawk Aircraft Remote Vehicle Flight Manual (RVFM) prior to flight. If you have any questions, please contact us at 1-888-864-6680 or support@union-robotics.com prior to using the Meadowhawk.

By using the Meadowhawk, you acknowledge that you have read, understand and agree to this disclaimer. You agree that you are solely responsible for your conduct while using the Meadowhawk, and for any direct or indirect consequences that may result from its use. You agree to only use the Meadowhawk for proper purposes that are in accordance with local and airspace rules and regulations.

  • Meadowhawk is not a toy and should be operated with extreme care, as improper operation can cause damage to property, serious personal injury or death.

  • As with any multi-rotor aircraft, Meadowhawk is a complex and technical machine. Novice pilots should invest sufficient time on a flight simulator and seek training from an experienced pilot prior to operation. The Meadowhawk Aircraft Flight Manual and a flight simulator are no substitute for training with an experienced pilot, particularly when it comes to learning how to safely operate the Meadowhawk. Novice pilots should never fly without the supervision of an experienced pilot.

  • Always check the Meadowhawk and its components prior to operation.

  • Ensure that all parts are in good condition before each flight. DO NOT fly with worn or damaged parts.

  • Always maintain a safe distance from the Meadowhawk when in use.

  • Never attempt to touch the Meadowhawk when the propellers are moving.

  • Ensure that the propellers are installed correctly before each flight.

  • When testing the motor direction, always test the Meadowhawk with the propellers removed.

  • Maintain a safe distance from people, buildings, high voltage power lines, tall trees, water, and other hazards when flying the aircraft.

  • Never fly with any propellers that have visible imperfections or damage.

  • Always keep children and animals a safe distance away from the Meadowhawk when in use and when changing configurations.

  • Only use compatible Union Robotics® parts.

  • Always remove the propellers when making a change to the configuration of the Meadowhawk to prevent propeller strikes in the event of unintentional motor starts.

  • It is your responsibility to perform a full system check of the Meadowhawk prior to every flight.

  • It is your responsibility to learn how to safely operate the Meadowhawk and to adhere to all applicable rules and regulations.

  • Fly at your own risk.

  • The Meadowhawk is a tuned system with custom components selected for each application. Modification to, removal, or substitution of the Meadowhawk components will void the warranty and can lead to unsafe operating conditions.

  • The aircraft is not waterproof. DO NOT fly in rainy or snowy weather.

  • Ensure that all cables are connected correctly and firmly before each flight.

  • Only use Union Robotics® Flight Batteries as the power supply.

  • DO NOT overload the system.

  • DO NOT go near or touch the motors or propellers when they are spinning, as this can cause serious injury.

Last updated 3 years ago

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