Appendix C. Helicopter Cyclic Mode.
This is active in the X-Plane version of
the CL software only.
Helicopter cyclic mode is enabled by specifying an
additional button number on the pilot station joystick card to be
used for toggling cyclic trim on/off. In the Configuration
Manager go to Tab 5 and select Item 19 - click the
Update_Mode button. Then set the Heli Trim Button field and click
Save to save your settings.
In helicopter cyclic loading mode, whilst cyclic
trim is disengaged, the cyclic moves
freely without airspeed dependent loading (but with damping/friction
if set). When cyclic trim is engaged the CL system will lock the
cyclic at the position at which trim was engaged. The normal
"elevator-pitch" and "aileron-roll" axis trim buttons can then also
be used to provide position trim about the locked position. The cyclic
is held in position by an adjustable breakout force generated by the
CL system - the pilot can push out of this manually to move the cyclic
whilst trim is active if required.
Damping and friction components can be specified
to provide some tuneable resistance to cyclic movement -
particularly useful when cyclic trim is disengaged. Also a modest
fixed spring rate component can be set to give a light return to mid
if required when cyclic trim is disengaged. The normal engine vibration settings are active
in the mode.
Air-speed dependent spring and trim loading,
propwash, AoA and mass acceleration loading effects are all disabled
whilst in helicopter cyclic mode as these are specific to fixed wing
- CL_SPU_USB & BLDRV3 cards.
- CL software v2 and background process
v2 (or later) are required.
- BFF CL Setup V2 (or later) application is
Configuration Settings: Run the BFF Setup
- Use Tab 5 Item 19 to set the Heli Trim
Mode and Button to
specify the button on the pilot station joystick card to be used
to toggle cyclic trim on/off.
Then for BOTH elevator Tab 1 (pitch) and aileron Tab 2 (Roll) axes.....
- Set Items 28 & 29 to set the
breakout force level and rate to be used to lock the cyclic in
position when cyclic trim is engaged.
- Set Items 11 & 12 to set the damping
and/or friction levels to use - this will affect the feel of the
stick particularly when cyclic trim is disengaged and there is
no air-speed dependent loading on the cyclic.
- Use Item 5 to set the Min.
Spring Constant to set a fixed modest return to mid force if it
IMPORTANT: ALL other Aerodynamic loading settings should be disabled when helicopter trim mode is in use.
- Set Item 25 (Balanced tick box) is ticked to remove any fixed or variable
control surface weight effects.
- Tab 7 Item 8: Alt trim joystick no. -buts
can be set to specify
the joystick card used for the trim hat switch buttons used for
local trimming when cyclic trim is engaged. Items 9 to 12 are used
to specify the hat switch buttons on the card.
If pot based trim input is needed for the rudder (yaw pedals)
axis then Tab 7 Item 3 can be used for that axis - please read the
pop-up help tips for more information.
- Tab 5 Item 15: Button trim rate may need to
be adjusted to give the required local trim adjustment rate when
the hat switch is operated to give local cyclic position trim.
Reducing the value will slow down the speed of response of the
resulting trim movement.
- SAVE your new background process
If the above settings are not made correctly
then the helicopter cyclic mode and/or the breakout trim hold
function may not engage properly.
The helicopter cyclic mode is intended as a simple
simulation of the cyclic behaviour in helicopters with
"power-assisted" controls which use hydraulic systems to move the
rotors and which provide a cyclic trim function as part of the
flight control system.
It may not be representative of stick loading behaviour in non-power
assisted helicopter controls.
Auto-Pilot: If A/P is active
the system will move the cyclic to follow the pitch and bank A/P
control actions. These movements are read from custom XPUIPC offsets
0x66DA and 0x66DC as set in the XPUIPCOffsets.cfg file.
Note this is X-Plane specific.
Tab 4 Items 2 & 3 would usually be set = 1.0 to
apply the full A/P movement action to the cyclic.