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Turnigy DLG Butterfly/V-tail Multi-Mixer

Turnigy DLG Butterfly/V-tail Multi-Mixer

Discontinued Product

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SKU:
9419000006-0
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Discus launch gliders are a lot of fun, but if you have a basic transmitter you are missing out on an important feature, camber control. The Turnigy DLG Multi-Mixer does just that. This handy dandy little doo dad, allows you to have your aileron control, and use the throttle stick as camber control. Doing so allows you to change the ailerons from neutral, reflexed, or drooped depending on the lift conditions. Maybe the wind has died, you want to run a lot of camber to get the best lift, then the wind picks up, bring up the ailerons to clean up the airframe for better wind penetration. Additionally, if you need it for Rudder/Elevator ship, the Turnigy DLG Multi-Mixer has a built in V-tail mode to mix rudder and elevator inputs properly.

To install when using the camber mode, simply plug in your two aileron servos into the unit, then plug the unit into the aileron and throttle channels. After setting your servo reversing you should be ready to use the ailerons as flaps.

Features:
• Camber control and V-tail modes
• Simple setup
• Small and light weight

Specs:
Dimensions: 30x11x5.5mm (not including wires)
Weight: 3g

  • SKU 9419000006-0
  • Brand Turnigy
  • Kapacita ( mAh ) -
  • Hmotnost 18.0000
  • Délka 80.00
  • Packaging Width 10.00
  • Výška 50.00
  • Turnigy DLG Multi Mixer
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Great little gadget if you don't have a computer radio and want to adjust flaps/camber on your model

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Great little gadget if you don't have a computer radio and want to adjust flaps/camber on your model

This is a nifty little gadget. It gives you a hardware solution to mixing. You can use any two servo inputs regardless of your transmitter's programming.

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This is a nifty little gadget. It gives you a hardware solution to mixing. You can use any two servo inputs regardless of your transmitter's programming.

(continued) . . however, if this is done without a bit of forward stick to compensate, even at that relatively small change in flap angle, the glider over shoot 20 ft above ground (pulling the tug tail upwards) but the tug is still on the ground - Oops!

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(continued) . . however, if this is done without a bit of forward stick to compensate, even at that relatively small change in flap angle, the glider over shoot 20 ft above ground (pulling the tug tail upwards) but the tug is still on the ground - Oops!

I am basing the last point (above) on my Slingsby 17 metre Vega sailplane, which uses large flap angles for steep landing descents (these can be even steeper descents than normal scissor airbrakes if required - great for short field outlandings) . . you slide the flap sliding bar progressively out horizontally and backwards for max descent rate . . however, during flight it stays in and you twist and rotate the same bar/lever a to operate the flaps and ailerons coupled, acting as soaring/speed flaps . . surprisingly, about 4 deg down flap is enough to get it thermalling better than a two-seat trainer (ASK 14, etc) - and 4 deg negative (up) is good for batting along at 100 mph plus between thermals . . Intrestingly, the Vega goes up on the winch wire (using zero flap) almost hands off - but starting the slower aerotow ground run it is almost impossible to have adequate aileron control (always drops a wingtip on the grass and have to abort the tow) . . however, strangely, the trick is to start moving with the full negative (up) speed flap setting (about 8 deg) and you then have aileron control . . then, at high speed (just before the take off) you twist the flap lever to zero coupled-flap/aileron (or 3 deg positive helps the climb) . . however, if this is done without a bit of forward stick to compensate, even at that relatively small change in flap angle, the glider over shoot

verified_user Quality:
trending_up Value:
playlist_add_check Overall:

I am basing the last point (above) on my Slingsby 17 metre Vega sailplane, which uses large flap angles for steep landing descents (these can be even steeper descents than normal scissor airbrakes if required - great for short field outlandings) . . you slide the flap sliding bar progressively out horizontally and backwards for max descent rate . . however, during flight it stays in and you twist and rotate the same bar/lever a to operate the flaps and ailerons coupled, acting as soaring/speed flaps . . surprisingly, about 4 deg down flap is enough to get it thermalling better than a two-seat trainer (ASK 14, etc) - and 4 deg negative (up) is good for batting along at 100 mph plus between thermals . . Intrestingly, the Vega goes up on the winch wire (using zero flap) almost hands off - but starting the slower aerotow ground run it is almost impossible to have adequate aileron control (always drops a wingtip on the grass and have to abort the tow) . . however, strangely, the trick is to start moving with the full negative (up) speed flap setting (about 8 deg) and you then have aileron control . . then, at high speed (just before the take off) you twist the flap lever to zero coupled-flap/aileron (or 3 deg positive helps the climb) . . however, if this is done without a bit of forward stick to compensate, even at that relatively small change in flap angle, the glider over shoot

(continued) . . there is not so much drag created as down, but no risk of one wingtip stalling . . to create a a reflexed aerofoil (trailing edge up) for speed in strong winds, or posiitive aileron (down) for added soaring lift, it's surprising how little movement is required (my explanation is below) . .

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(continued) . . there is not so much drag created as down, but no risk of one wingtip stalling . . to create a a reflexed aerofoil (trailing edge up) for speed in strong winds, or posiitive aileron (down) for added soaring lift, it's surprising how little movement is required (my explanation is below) . .

Due to it's cheapness, size, and low weight, this little gizmo is well worth getting, if only for experimenting with . . because of size and weight my postal charge for two (for evaluation) was about $5.00 (to UK) . . the device is installed in-line, between the two appropriate Rx slots and the two relevant sevos (ie. channels 2 and 4 for vee-tail mode) . . (if the elevator stick gives rudder action just swap gizmo output plugs) the normally solid red light will flash if one of the servos is not plugged in properly . . therefore, obviously, the input voltage can of course only be whatever voltage you run your Rx and servos at (probably 4.8v to 6.0v) . . the two buttons are used to adjust the amount of channel mixing . . the single instruction sheet is unusually concise and very good English . . Channels 1 & 3 are used for the aerofoil camber changing mode (controlled by the ch3 throttle stick) and using the ailerons as soaring/speed flaps (but if you have only wing tip ailerons be wary about using positive aileron [down] on the landing approach - since the resulting negative wingtip washout will probably cause a wingtip to stall before the centre section (if approaching too slow) creating an incipient spin (that's probably why some models with independent airbrakes/flaps fully deployed on final approach mlx-in negative (up) aileron with the airbrakes/flaps . . there is not so

verified_user Quality:
trending_up Value:
playlist_add_check Overall:

Due to it's cheapness, size, and low weight, this little gizmo is well worth getting, if only for experimenting with . . because of size and weight my postal charge for two (for evaluation) was about $5.00 (to UK) . . the device is installed in-line, between the two appropriate Rx slots and the two relevant sevos (ie. channels 2 and 4 for vee-tail mode) . . (if the elevator stick gives rudder action just swap gizmo output plugs) the normally solid red light will flash if one of the servos is not plugged in properly . . therefore, obviously, the input voltage can of course only be whatever voltage you run your Rx and servos at (probably 4.8v to 6.0v) . . the two buttons are used to adjust the amount of channel mixing . . the single instruction sheet is unusually concise and very good English . . Channels 1 & 3 are used for the aerofoil camber changing mode (controlled by the ch3 throttle stick) and using the ailerons as soaring/speed flaps (but if you have only wing tip ailerons be wary about using positive aileron [down] on the landing approach - since the resulting negative wingtip washout will probably cause a wingtip to stall before the centre section (if approaching too slow) creating an incipient spin (that's probably why some models with independent airbrakes/flaps fully deployed on final approach mlx-in negative (up) aileron with the airbrakes/flaps . . there is not so

Just what I need to slow down the plane for landing using aileron as flaps. is working well with FrSky

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Just what I need to slow down the plane for landing using aileron as flaps. is working well with FrSky

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