Nimbus 1800 VTOL Project

by MusaW in Circuits > Remote Control

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Nimbus 1800 VTOL Project

Vectored Tricopter VTOL Plane Log#3

VTOL or Vertical Takeoff or Landing aircraft is one of the best design of combining between copter and airplane.
it mean combining the flexibility of the copter and durability of the plane, VTOL drone can be the best solution for autonomous drone that's can reach further distance and longer flight time.

Using Nimbus 1800 plane and convert it to VTOL is the easy es way to have VTOL drone. why...?

  1. Flight time approx 1 hour (using 25C 16000 Lipo) if u want more we can combine

    6S 16000mAh Li-ion Battery for Fix wing mode and 6S 2200mAh Lipo Battery for VTOL mode

  2. Using Radio like Crossfire, the radio range up to 100km (depend on condition) full telemetry.
  3. Take-off Weight: 4.8kg Suggested Payload: 800g Total Weight: 2.85kg(no battery)

  4. Wingspan: 1800mm, Length: 1300mm Suggested

  5. Max. Flying Height: 3500m Max. Flying Speed: 35m/s Average Speed: 15m/s to 16m/s

  6. Max Range 15km
  7. Take off and land vertically

Raw Materials

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Front Motor Mount

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  1. Replace the original motor mount with 12mm OD x 10mm ID Carbon Fiber tube and SHF12 12mm linear rail shaft
  2. Cut a pair carbon tube 6 inch long and put SHF12 on it

Front Motor and Servo

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Using spacer and motor bolt mount the SunnySky X3520 720kv Brushless Motor to the servos

Wing Motor Placement

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place the tube to the original mount and bolt it
PS: bolt it hard enough

ESC Placement

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U can place the Xrotor 40 amp ESC beneath the wing and organize the wire properly
PS: this include additional servo wire, using 3 pin header mount it at the edge of the wing

Using Lock Nut

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i prefer using lock nut than the original nut from the motor to reduce the risk of prop loose during flight

Rear Motor Mount

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using my 3D component u can mount the rear SUNNYSKY X4112S 485 KV Brushless Motor and organize the Xrotor 40 amp ESC on the tail section

https://www.thingiverse.com/thing:3833139

Landing Gear

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usually this type of airplane is using for carrying big camera in the bottom, so u need a landing gear for it

Pixhawk Schema

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i use this configuration for my pixhawk 4

Air Sensor Installation

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this is important especially for autonomous flight, air sensor will get u an accurate air speen needed for lifting the air plane. so install it to the pitot right

Pixhawk 4 Setup

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PS: before u set all parameters please do this :

  1. Upgrade ths pixhawk to the latest stable version
  2. reset all to the default setting
  3. do all calibration including gyro, compass, GPS, motor calibration and radio calibration
  4. set the Q_ENABLE : 1 to activate the Quadruplane

Test Your Motor Direction

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  1. detach all the propeler
  2. Arm it and test the direction just like picture above

Test Your Servo Transition

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make sure when in plane mode all servo facing front and in quad mode facing up

PS: Test it on the ground

Test All the Tail and Aileron

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check all the direction of your aileron and tail is right :

  1. Roll to right -> left aileron down and right aileron up & both tail right
  2. Roll to left -> left aileron up and right aileron down & both tail left
  3. Pitch up -> both tail up
  4. Pitch down -> both tail down

Autonomous Flight

Vectored VTOL Flight Test Log #9 (Full auto flight test)

from here, autonomous flight seems so easy, but there is a lot of procedure has been done before flight. just like full size plane, there is a lot routine , check list and others.
Good luck and have a good flight... Remember, fail is a part of the lesson...:)