Difference between revisions of "TBS Discovery"

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* 1x DJI F450 Motor+Propellers+ESC+NAZA kit - from Flying-Hobby
* 1x DJI F450 Motor+Propellers+ESC+NAZA kit - from Flying-Hobby
* Alternatively:
* ''Alternatively:''
** 2x DJI F450 Flame Wheel black arm - from Flying-Hobby
** 2x DJI F450 Flame Wheel black arm - from Flying-Hobby
** 2x DJI F450 Flame Wheel white arm - from Flying-Hobby
** 2x DJI F450 Flame Wheel white arm - from Flying-Hobby

Revision as of 15:29, 11 July 2012

TBS Discovery flight.jpg
TBS Discovery flight2.jpg

The Team BlackSheep (TBS) Discovery is a purpose made FPV platform based on the DJI Flame Wheel F450 frame base. It has a asymmetric structure, incorporates traces on the central structure plates to minimize wiring, has space for both a flight camera and HD recording camera (GoPro) in the front and a protective cage for a high capacity LiPo battery in the back.

Researched only

Specifications

  • Released:
    • DJI Flame Wheel: November 2011
    • TBS Discovery: June 2012
  • Type: Spider quadrotor
  • Airframe: Caron fiber reinforced
  • Diameter: 450 mm - Flame Wheel, Discovery is a bit wider
  • Height: xx mm
  • Weight: 460 grams [1]
  • Takeoff weight: 800 grams to 1600 grams
  • Propellers: 10 × 4.5 in or 8 × 4.5 in
  • Battery: 3S-4S LiPo
  • Motor: 22×12 mm or 22×15 mm
  • ESC: 30A switched
  • Recommended flying area: 25x25 meters
  • Product pages:

Frame kit

The quad is build using separate base plates and frame arms. In other words, it is a purpose built kit using the DJI Flame Wheel arms for structural support and TBS Discovery plates for the central core and electronics installation.

  • 1x DJI F450 Motor+Propellers+ESC+NAZA kit - from Flying-Hobby
  • Alternatively:
    • 2x DJI F450 Flame Wheel black arm - from Flying-Hobby
    • 2x DJI F450 Flame Wheel white arm - from Flying-Hobby
  • 1x TBS Discovery top and bottom plate including screws and damping tape - from TBS
  • 1x TBS CORE video power distribution and OSD system - from TBS
  • 1x TBS 100A current sensor - from TBS
  • 1x TBS RF Tin Shield for TBS CORE - from TBS

My setup

Base setup

This is the basis for the quad and makes for a perfect platform to start testing equipment.

  • Motor: RCTimer 2830-14 750 Kv outrunner motor with 5.0 mm collet adaptor for 3.17 mm shaft [2]
  • Propellers: Graupner E-Prop 10x5 inch propeller set [3]
    • Alternate propellers: Gaui G-222800 10-inch propeller set (for GAUI 500X quad) [4]
  • ESC (4x): Hobby King F-30A Brushless Programmable ESC with bare leads - reprogrammed with RapidESC firmware
    • Alternate ESC: RCTimer 30A Brushless Programmable ESC with bare leads, internal oscillator (not optimal) - reprogrammed with RapidESC firmware
  • Flight Controller: DJI NAZA no-GPS flight controller
  • Receiver: FrSky D6FR 2.4 GHz ACCST 6 channel two-way receiver
  • Transmitter: Spektrum DX7 radio with FrSky DHT 2.4 GHz 60mW transmitter
  • Battery: Turnigy nano-tech 3300mah 35~70C 4SP1 14.8V Lithium-ion Polymer xx grams battery

Upgraded setup

  • Motor: RCTimer 2830-14 750 Kv outrunner motor [5]
  • Receiver: ImmersionRC EzUHF Lite 8 channel 433 MHz receiver with Sander Style UHF antennas
  • Transmitter: Spektrum DX7 radio with ImmersionRC EzUHF 433 MHz transmitter
  • Flight Controller: OpenPilot CopterControl flight control - limited availability

Motors

This is a list of verified setup from people who has built their Diso.

  • RCTimer 2830-14 750 Kv 185W outrunner motor
    • Suggested setup: Gaui 500X 10-inch set, Hobby King F-30A 30A ESC Simon flashed, Nano-tech 4S 2200mAh, OpenPilot CC [6] [7]
  • NTM 28-30A 750 Kv 140W prop drive series motor
    • Suggested setup: Gaui 500X 10-inch set, Turnigy Plush 25A ESC Simon flashed, Nano-tech 4S 1800mAh [8] [9]
    • Suggested setup: Graupner E-Prop 10x5 set, Nano-tech 4S 3300mAh, 1420g with GoPro, 14 min flight time [10]
  • NTM 28-26A 1200 Kv 250W prop drive series motor
    • Suggested setup: APC 8x3.8 propellers, Turnigy Plush 30A ESC, Nano-tech 4S 3300mAh, OpenPilot CC [11]
    • Suggested setup: APC 10x4.5 propellers, Hobby King F-30A 30A ESC Simon flashed [12]
    • Suggested setup: APC 10x4.75 propellers, Hobby King F-30A 30A ESC Simon flashed, 4S battery [13]
  • DJI 2212 920 Kv 144W brushless motor [14]
    • Suggested setup: Gaui 8-inch set, DJI OPTO 30A ESC [15]
    • Suggested setup: Graupner E-Prop 10x5 set, DJI NAZA controller [16]
  • Suppo 2810/12 1000kv 225W brushless motor
    • Suggested setup: Graupner E-Prop 10x5 set, DJI OPTO 30A ESCs, DJI NAZA controller [17]
  • Suppo 2814/8 1000 Kv 380W brushless motor
    • Suggested setup: Graupner E-Prop 9x5 set, DJI OPTO 30A ESCs, 4S 3000mAh+1800mAh, DJI NAZA controller [18]
  • Tiger MT-4006-13 740 Kv motor - no punch, vibration free
    • Suggested setup: 11-inch propellers, 4S battery, DJI NAZA controller [19] [20] [21]
  • Graupner Compact 300 9.6V - expensive
    • Suggested setup: Graupner ESC 18-SC, DJI NAZA controller, Nano-tech 4S 3300mAh [22]

Potential other candidates:

  • TorxPower MC2216 Pro 900 Kv 210W brushless motor [23]
  • NTM 28-26 1350 Kv 310W prop drive series motor [24]

Accessories

  • USBasp AVR Programming Device for Atmel controllers - Hobby King
  • 3M Double-sided tape pack - Hobby King

Tips and tricks

  • To get rid of vibrationse, use only good quality propellers, e.g. Graupner [25] [26]
  • For longer flight times, use low Kv motors and large propellers but watch the power usage
  • To avoid propellers in the GoPro view, use Wide setting for 8-inch propellers and Medium for 10-inch propellers
  • A 25A ESC is more than enough for this frame, max. 60A full throttle for all four controllers equals 15A per ESC, 10A margin [27]
  • To a clean ESC install, solder the 3.5 mm socket motor connectors directly on the controller board [28]
  • The standard DJI motor and propellers use a 8 mm shaft/bell, APC props are 6 mm and has to be adjusted, Graupner is 8 mm [29]
  • Program the ESCs to be set up with Break off, Battery type NiMh (to turn off LiPo voltage cut-off), Cut-off type: soft cut, Cut-off voltage low, Aircraft type airplane, Start mode normal, Timing/response mode high (400 Hz), Governor off and everything else off [30] [31]
  • Calibrate the throttle range for each ESC individually by setting the throttle stick high on power on and then low until a confirmation beep is heard
  • Consider upgrading the ESC firmware to SimonK version get the full refresh rate needed for multirotors, RapidESC database shows all capable controllers
  • Propeller thrust is only the amount a motor can carry/load, not at which speed, so therefore thrust determines the acceleration, kV determines the speed range [32]
  • Only connect one BEC 5V power supply from a single ESC, disconnect the red power lead from the other three ESCs [33]

Build logs

Tools

  •  eCalc - find the optimal propeller+motor combination

Shops

Video

This is the official Team BlackSheep video of the final production frame.

References