User Manual

Procedure, using the ailerons as an example:

• Move the cursor to the appropriate line, in this case “Ail”

for aileron.

• Press the SET button to activate the Channel field.

• Select the appropriate channel, and save the setting with

pressing the SET button again

• move the corresponding proportional control to alter the

factor (adjustment range 0 - 10; 0 means no gyro correction

for that axis).

• You can also adopt this factor directly by pressing the left button < or the right button >. This

frees up the channel previously occupied by the proportional control, so that it can be used for

some other purpose, e.g. for elevator or rudder.

• Move on to elevator and / or rudder, and select the channel and factor (you can either select

the same channel, in order to alter all the axes simultaneously, or different channels, allowing

you to program the axes individually).

• Move the cursor to the Factor line, where you can also change the P factor for aileron,

elevator and rudder with priority (adjustment range up to 200%).

• Move the cursor to the D factor line, where you can alter the D factor for aileron, elevator and

rudder with priority using a proportional control (adjustment range up to 200%; channel value

-100% equates to a factor of 0%, channel value 0% equates to 100%, and +100% equates to

200%). This makes it a very easy matter to match the gyro’s corrective effect to the model’s

airspeed. In particular, higher gyro gain can be used for the landing approach - without the

need to switch flight phases.

• Now test-fly your model and fine-tune the values one by one until your preferred stabilising

effect is achieved without the model oscillating.

• It may be sensible or easier to activate the gyro for one axis only at first, and then to

establish the optimum setting for that axis, rather than for several axes simultaneously.