Futaba 6XHS User Manual

2. Control throws

Fly the model and apply full
deflection of each control in
turn

Check the response of each control
• Aileron high-rate: 3 rolls in 4 seconds;
low-rate: 3 rolls/6 sec
• Elevator high-rate: to give a smooth
square corner; low-rate gives approx.
130 ft diameter loop
• Rudder: high-rate 30-35° for stall
turns; low rate maintains knife-edge

Change ATV (for high rates),
and Dual Rate settings (for
low rates) to achieve desired
responses.

3. Decalage

Power off vertical dive
(crosswind if any). Release
controls when model vertical
(elevator trim must be neutral)

A. Model continues straight down
B. Model starts to pull out (nose up)?
C. Model starts to tuck in (nose down)?

A. No adjustment
B. Reduce incidence
C. Increase incidence

4. Center of
Gravity

Method 1: Roll into near

vertically-banked turn.

Method 2: Roll model inverted

A1. Nose drops
B1. Tail drops
A2. Lots of forward stick (down

elevator) required to maintain level
flight

B2. No forward stick (down elevator)

required to maintain level flight, or
model climbs

A. Add weight to tail
B. Add weight to nose

5. Tip weight
(coarse
adjustment)

Fly model straight & level
upright. Check aileron trim
maintains level wings. Roll
model inverted, wings level.
Release aileron stick.

A. Model does not drop a wing.
B. Left wing drops.
C. Right wing drops.

A. No adjustment
B. Add weight to right tip.
C. Add weight to left tip.

6. Side Thrust &
Warped Wing

Fly model away from you into
any wind. Pull it into a
vertical climb, watch for
deviations as it slows down.

A. Model continues straight up.
B. Model veers left
C. Model veers right
D. Model rolls right

A. No adjustment
B. Add right thrust
C. Reduce right thrust
D. Put trim tab under left

wing tip *

7. Up/Down
Thrust

Fly the model on normal path
into any wind, parallel to strip,
at a distance of around 100
meters from you (elevator trim
should be neutral as per Test
3). Pull it into a vertical climb
& neutralize elevator

A. Model continues straight up
B. Model pitches up (goes toward top of

model)

C. Model pitches down (goes toward

bottom of model)

A. No adjustment
B. Add down thrust
C. Reduce down thrust

8. Tip weight
(fine adjustment)

Method 1: fly the model as per

Test 6 and pull into a
reasonably small diameter
loop (one loop only)

Method 2: fly the model as per

Test 6 and then push into an
outside loop (one only, fairly
tight)

A. Model comes out with wings level
B. Model comes out right wing low
C. Model comes out left wing low

A. No adjustment necessary
B. Add weight to left tip
C. Add weight to right tip

9. Aileron
differential

Method 1: fly model toward

you & pull into a vertical
climb before it reaches
you. Neutralize controls,
then half-roll the model.

Method 2: fly model on

normal pass and do three or
more rolls

Method 3: fly the model

straight and level and
gently rock the aileron
stick back and forth

A. No heading changes
B. Heading change opposite to roll

command (i.e. heading veers left
after right roll)

C. Heading change in direction of roll

command

A. Roll axis on model centerline
B. Roll axis off to same side of model

as roll command (i.e. right roll, roll
axis off right wing tip)

C. Roll axis off to opposite side of

model as roll command

A. Model flies straight ahead without

yawing

B. Model yaws away from roll

command (i.e. right roll, yaw left)

C. Model yaws towards roll command

(i.e. right roll, yaw right)

A. Differential settings OK
B. Increase differential
C. Decrease differential



A. Differential settings OK
B. Increase differential
C. Decrease differential



A. Differential settings OK
B. Increase differential
C. Decrease differential

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