Thanks to RV for all his help for setting up a SnapRoll and Rudder/Elevator Mixing Setup
on my VCT using the Buddy switch for the SnapRoll and Switch #5(Opt Switch 2) for the
rudder to elevator mixing.
Snap Roll Setup Using the Buddy Switch
This fuction is used to implement a snap roll switch for an acrobatic pattern aircraft.
This setup assumes that 2 aileron servos, 2 elevator servos, and 1 rudder servo is used.
The snap roll function uses MC27 through MC36 and assumes that the Buddy Switch is assigned to
VCT Switch #1.
For the left aileron servo(CH2), make it a channel cell with MC27/NN as the input.
Then make MC27/NN a Multiplexer cell, assigning Sw Budd as the selector, with MC28/NN as the
low input and FC Ail as the center and high inputs.
Then edit MC28/NN to make it a Fixed cell and use banks 1+2 and banks 3+4 to "dial" in the
directions and deflections of the left aileron servo as necessary.
For the right aileron servo(CH3), make it a channel cell with MC29/NN as the input.
Then make MC27/NN a Multiplexer cell, assigning Sw Budd as the selector, with MC30/NN as the
low input and FC Ail as the center and high inputs.
Then edit MC30/NN to make it a Fixed cell and use banks 1+2 and banks 3+4 to "dial" in the
directions and deflections of the right aileron servo as necessary.
For the left elevator servo(CH4), make it a channel cell with MC31/NN as the input.
Then make MC31/NN a Multiplexer cell, assigning Sw Budd as the selector, with MC32/NN as the
low input and FC Elev as the center and high inputs.
Then edit MC32/NN to make it a Fixed cell and use banks 1+2 and banks 3+4 to "dial" in the
directions and deflections of the left elevator servo as necessary.
For the right elevator servo(CH1), make it a channel cell with MC33/NN as the input.
Then make MC33/NN a Multiplexer cell, assigning Sw Budd as the selector, with MC34/NN as the
low input and FC Elev as the center and high inputs.
Then edit MC34/NN to make it a Fixed cell and use banks 1+2 and banks 3+4 to "dial" in the
directions and deflections of the right elevator servo as necessary.
For the rudder servo(CH5), make it a channel cell with MC35/NN as the input.
Then make MC35/NN a Multiplexer cell, assigning Sw Budd as the selector, with MC36/NN as the
low input and FC Elev as the center and high inputs.
Then edit MC36/NN to make it a Fixed cell and use banks 1+2 and banks 3+4 to "dial" in the
directions and deflections of the right elevator servo as necessary.
Rudder to Elevator Mixing Using Switch #5
This fuction is used to implement a rudder to elevator mixing function for an acrobatic pattern aircraft.
Such aircraft might exhibit a tendency to "pitch" towards the belly or canopy of the aircraft and the
mix function is used to eliminate this effect.
Edit macro-cell MC37/NN, making it a Multiplexer cell and assign SW Opt 2 as the Selector. Select
MC38 as the lower input, with FC Elev as the center and higher inputs.
Edit macro-cell MC38/NN, making it a Mixer cell and assign MC39 to input #1 with a value of 100.
Use the valus of the mixer curve, as follows, to adjust the amount of elevator deflection.
Edit macro-cell MC39/NN and make it a Curve cell. Assign FC tail with a value of 7 to the In/Pts values.
The 7-value will create a 7-Point curve in which to adjust the mixing curve as necessary.
I hope this explantion is of help to everyone.
Cheers