User manual

Pitch function

Theightheightofaracecopterisaffectedbythepitch

function. The control is effected with the left control stick

(seegure14).Tothateffect,thecontrolstickcanbe

moved forward and backward. Unlike the other control

functions, the stick does not keep springing back to the

centre position.

Depending on the control stick position, the speeds of

the four propellers change. If the control lever has been

pulled all the way to the body, the motors are switched

off.

If you push the control stick from the bottom position

forward, the propellers start up and increase the speed

according to the position of the stick.

Once the control stick is in the centre position, the pro-

peller speeds should be high enough for the racecopter

to hover. If the control stick is pushed forward further, the

racecopter will rise. If the control stick is pulled back, the

racecopter drops.

Yaw Function

The two right-ward turning and the two left-ward turning

propellers balance out the torques acting on the model.

The racecopter hovers stably.

Ifthecontrolleverfortheyawfunction(seegure15)

is moved to the left, the electronics in the model will in-

crease the speed of the propellers turning to the right

(clockwise) and at the same time reduce the speed of

the propellers turning to the left (counter-clockwise).

This way, the entire lift force remains the same, but only

one torque acts on the model, which turns the racecop-

ter around its vertical axis to the left.

If the control stick is moved to the right, the speed

changes of the propellers are precisely the other way

around and the model turns to the right.

The racecopter can thus turn around its axis in place.

Figure 14

Figure 15