Blade 200 SR X RTF BLH2000 Datenbogen
Produktcode
BLH2000
Blade® 200 SR X Advanced Settings and Setup Guide
These procedures are only necessary in special circumstances, such as after a crash or if a servo or
linkage was replaced. All of the settings are stored in the receiver and are maintained each time you
initialize the model.
Trim Flight
Perform this procedure if the model is not performing well or has been recently rebuilt from a crash.
The trim flight procedure was performed during the factory test flight and only needs to be performed if
you notice the model is not returning to level consistently or if the model does not remain still during
stationary pirouettes. The trim flight is used to determine the optimal SAFE™ settings during flight. The
trim flight must be performed in calm conditions.
Entering Trim Flight Mode
These procedures are only necessary in special circumstances, such as after a crash or if a servo or
linkage was replaced. All of the settings are stored in the receiver and are maintained each time you
initialize the model.
Trim Flight
Perform this procedure if the model is not performing well or has been recently rebuilt from a crash.
The trim flight procedure was performed during the factory test flight and only needs to be performed if
you notice the model is not returning to level consistently or if the model does not remain still during
stationary pirouettes. The trim flight is used to determine the optimal SAFE™ settings during flight. The
trim flight must be performed in calm conditions.
Entering Trim Flight Mode
1. Lower the throttle stick to the lowest position. If your transmitter utilizes mechanical trims (like the
included RTF transmitter), set the throttle trim to the highest position. Set all other trims to the
center position.
center position.
2. Power ON the transmitter.
3. Install the flight battery on the helicopter. Secure the flight battery with the hook and loop strap.
4. Connect the battery connector to the ESC.
5. Place the helicopter on a flat surface and leave it still until the motor beeps twice and the blue
3. Install the flight battery on the helicopter. Secure the flight battery with the hook and loop strap.
4. Connect the battery connector to the ESC.
5. Place the helicopter on a flat surface and leave it still until the motor beeps twice and the blue
ESC LED glows solid, indicating initialization is complete.
6. Place the helicopter where you are going to take off.
7. Move and hold the left stick to the bottom left corner and the right stick to the top left corner. See
7. Move and hold the left stick to the bottom left corner and the right stick to the top left corner. See
illustration.
8. Press and hold the bind/panic switch until the swashplate smoothly rotates around once.
9. Release the sticks and bind/panic switch.
10. The model is ready for the trim flight.
9. Release the sticks and bind/panic switch.
10. The model is ready for the trim flight.
Trim Flight
1. Slowly increase the throttle to lift the model into a stationary hover and make corrections as
necessary to keep the model still. Evaluation does not begin until the throttle stick is over 50%
and the sticks are centered. Making corrections will not affect the result but a longer flight may be
necessary.
and the sticks are centered. Making corrections will not affect the result but a longer flight may be
necessary.
2. Try to keep the model stationary in a hover for a total of 30 seconds. Sliding and slow movements
are okay. The main goal is to keep the rotor disk level.
3. Once you are satisfied with the trim flight, land the model.
Exiting Trim Flight Mode
1. Lower the throttle stick to the lowest position.
2. Press and hold the bind/panic switch for 2 seconds or until the swashplate twitches, indicating the
2. Press and hold the bind/panic switch for 2 seconds or until the swashplate twitches, indicating the
servo positions and attitude values have been recorded and trim flight mode has been exited.
Test Flight
After performing the trim flight, test-fly the model to evaluate the leveling characteristics. The model
should return to within 1° of level consistently. During takeoff, the model should lift off with minimal
corrections. During a hover, small corrections are acceptable, but the control stick should remain close to