RC functions of the helicopter
The following functions are controlled with the two
remote control levers of the portable transmitter.
For every control function there is a trim slider on
the remote control transmitter which permits minor
corrections of the neutral position, as well as a
reverse-switch you can use to invert the reaction
direction of the control lever.
Pitch function
(ascend / descend)
The pitch function controls the flying height of this model
helicopter over a common variation in speed of the two
rotors. The control takes place with the left control
lever. To do this, move it forwards and backwards in a
continuously variable fashion. Contrary to the other control functions this lever does not spring back into the middle position.
If the control lever is totally drawn towards the back, then the motors are off and the rotors stand still. If the control lever is
pushed forward then the motor starts running and the rotors run with increasing speed depending on the lever position.
In the middle position of the control lever, the helicopter should hover at a fixed height.
Tail function
(Rudder function)
The tail function causes a rotation of the model around the vertical axis. Since the helicopter has two opposed rotors, no
torque ensues around the vertical axis at the same speed of the rotors (rotor shaft). The helicopter also therefore requires no
tail rotor for stabilization. In order for the model to be able to rotate around the vertical axis (rotor shaft), the rotors must run
at slightly different speeds. The resulting torque introduces the rotation.
At less speed of the steering rotor compared to the bearing rotor, the torque of the bearing rotor is greater, the helicopter
turns around the vertical axis in the direction of rotation of the steering rotor. At higher speed of the steering rotor, the torque
of the bearing rotor is less than that of the steering rotor and the helicopter turns in the direction of the bearing rotor.
The tail function is controlled with the right control lever. If the lever is moved to the left, the tip of the fuselage turns to the
left. If you move the lever to the right, the tip of the fuselage likewise turns to the right.
Roll function
(Aileron function)
The roll function causes the lateral flight of the helicopter by the lateral lifting and dropping of the wobble plate.
The control takes place with the right control lever.
If the lever is moved to the left, then the model hovers laterally to the left. Moving the lever to the right makes the model
move laterally to the right.
Nick function
(Elevator function)
The nick function causes forwards and backwards flight of the helicopter by raising and lowering the wobble plate. The lower
rotor rotation tips slightly downwards and the model tilts around the transverse axis. When the nose drops downwards, a
part of the lift is transferred into forwards thrust.
If conversely the nose is raised, then the model flies backward. the control takes place with the right control lever.
Press the lever forward to introduce forwards flight, pull back to have the model fly backwards.
Technical data
Principal rotor diameter
Total length
Flying weight
Battery charger with plug adapter
Scope of delivery
- Model built ready-to-fly
- Cabin hood, already mounted
- 4-channel remote control transmitter 40 MHz FM
- Lipo battery 7.4V/ 1000 mAh
- Lipo balance charger
- 2 servos, already installed
- Gyro, integrated into the receiver
8
CARSON Apache 4CH 507000
345 mm
360 mm
about 252 g
Input: 100-240 V / AC, 50-60 Hz
Output: 8.4V/1A
- 4 piece replacement rotor blades
- Operating Manual
WWW.C ARS ON -MOD E LS P OR T.C OM