Manuals:BXFbl:Setupmenu overview: Difference between revisions

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{{DISPLAYTITLE:SETUP MENU overview|noerror}}
{{DISPLAYTITLE:SETUP MENU overview|noerror}}
{{TOC_BXFbl|Manuals:BXFbl:Setupmenu_intro/en|Manuals:BXFbl:Setupmenu_A/en|SETUPMENU|}}
{{TOC_BXFbl|Manuals:BXFbl:Setupmenu_intro/en|Manuals:BXFbl:Setupmenu_A/en|SETUPMENU|}}
 
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'''SETUP MENU overview'''
'''SETUP MENU overview'''
{| class="wikitable" id="overview" style="text-align: center; background-color: #F9DDCC; border: solid #F18308 2px;"
{| class="wikitable" id="overview" style="text-align: center; background-color: #F9DDCC; border: solid #999999 2px;"
! Menu
! style="color:white; text-align: left; background-color: #F18308 ;" | Menu
! style="text-align: left;" | Description
! style="color:white; background-color: #F18308 ;" | Description
! off
! style="color:white; background-color:black;" | off
! purple flashing
! style="color:white; background: linear-gradient(to right, #CC66CC, black, #CC66CC);" | purple flashing
! purple
! style="color:white; background-color:#CC66CC;" | purple
! red flashing
! style="color:white; background: linear-gradient(to right, #FF3300, black, #FF3300);" | red flashing
! red
! style="color:white; background-color:#FF3300;" | red
! blue flashing
! style="color:white; background: linear-gradient(to right, #0066FF, black, #0066FF);" | blue flashing
! blue
! style="color:white; background-color:#0066FF;" | blue
! red/blue alternating
! style="color:white; background: linear-gradient(to right, #FF3300, black, #0066FF);" | red/blue alternating
|- style="font-size: 80%;"  
|- style="font-size: 80%;"  
| style="font-size: 125%;" | A || style="font-size: 125%;" | Device orientation || horizontal, pins to front || vertical, pins to front || hor. inv., pins to front || vert. inv., pins to front || horizontal, pins to back || vertical, pins to back || hor. inv., pins to back || vert. inv., pins to back
| style="font-size: 125%;" | '''A''' || style="font-size: 125%;" | [[#A_-_Device_orientation|Device orientation]] || horizontal<br />pins to front || vertical<br />pins to front || hor. inv.<br />pins to front || vert. inv.<br />pins to front || horizontal<br />pins to back || vertical<br />pins to back || hor. inv.<br />pins to back || vert. inv.<br />pins to back
|-
|-
| B || Swashplate servos || custom || style = "background-color: #EAECF0;" | || 50 Hz || 65 Hz || 120 Hz || 165 Hz || 200 Hz || style = "background-color: #EAECF0;" |
| '''B''' || [[#B_-_Swashplate_servos|Swashplate servos]] || custom || style = "background-color: #EAECF0;" | || 50 Hz || 65 Hz || 120 Hz || 165 Hz || 200 Hz || style = "background-color: #EAECF0;" |
|-
|-
| C || Rudder pulse width || custom || style = "background-color: #EAECF0;" | || 760 µs || style = "background-color: #EAECF0;" | || 960 µs || style = "background-color: #EAECF0;" | || 1520 µs || style = "background-color: #EAECF0;" |
| '''C''' || [[#C_-_Rudder_pulse_width|Rudder pulse width]] || custom || style = "background-color: #EAECF0;" | || 760 µs || style = "background-color: #EAECF0;" | || 960 µs || style = "background-color: #EAECF0;" | || 1520 µs || style = "background-color: #EAECF0;" |
|-
|-
| D || Rudder frequency || custom || style = "background-color: #EAECF0;" | || 50 Hz || 165 Hz || 270 Hz || 333 Hz || 560 Hz || style = "background-color: #EAECF0;" |
| '''D''' || [[#D_-_Rudder_frequency|Rudder frequency]] || custom || style = "background-color: #EAECF0;" | || 50 Hz || 165 Hz || 270 Hz || 333 Hz || 560 Hz || style = "background-color: #EAECF0;" |
|-
|-
| E || Rudder limit || colspan = "4" style = "background-color: #EAECF0;" |  || limit left || style = "background-color: #EAECF0;" | || limit right || style = "background-color: #EAECF0;" |
| '''E''' || [[#E_-_Rudder_limit | Rudder limit]] || colspan = "4" style = "background-color: #EAECF0;" |  || limit left || style = "background-color: #EAECF0;" | || limit right || style = "background-color: #EAECF0;" |
|-
|-
| F || Rudder direction || colspan = "4" style = "background-color: #EAECF0;" |  || left || style = "background-color: #EAECF0;" | || right || style = "background-color: #EAECF0;" |
| '''F''' || [[#F_-_Rudder_direction | Rudder direction]] || colspan = "4" style = "background-color: #EAECF0;" |  || left || style = "background-color: #EAECF0;" | || right || style = "background-color: #EAECF0;" |
|-
|-
| G || Swash mixing || custom || style = "background-color: #EAECF0;" | || no mixing || 90°(3/4 servos) || 120° || 140° || 135°/140°(1:1) || style = "background-color: #EAECF0;" |
| '''G''' || [[#G_-_Swash_mixing | Swash mixing]] || custom || style = "background-color: #EAECF0;" | || no mixing || 90°(3/4 servos) || 120° || 140° || 135°/140°(1:1) || style = "background-color: #EAECF0;" |
|-
|-
| H || Servo directions ||  colspan = "2" style = "background-color: #EAECF0;" | || Servo 1 || style = "background-color: #EAECF0;" | || Servo 2 || style = "background-color: #EAECF0;" | || Servo 3 || (Servo 4)
| '''H''' || [[#H_-_Servo_directions | Servo directions]] ||  colspan = "2" style = "background-color: #EAECF0;" | || Servo 1 || style = "background-color: #EAECF0;" | || Servo 2 || style = "background-color: #EAECF0;" | || Servo 3 || (Servo 4)
|-
|-
| I || Cyclic directions || colspan = "4" style = "background-color: #EAECF0;" |  || left/back || style = "background-color: #EAECF0;" | || right/forward || style = "background-color: #EAECF0;" |
| '''I''' || [[#I_-_Cyclic_directions | Cyclic directions]] || colspan = "4" style = "background-color: #EAECF0;" |  || left/back || style = "background-color: #EAECF0;" | || right/forward || style = "background-color: #EAECF0;" |
|-
|-
| J || Servo trim ||  neutral || style = "background-color: #EAECF0;" | || Servo 1 || style = "background-color: #EAECF0;" | || Servo 2 || style = "background-color: #EAECF0;" | || Servo 3 || (Servo 4)
| '''J''' || [[#J_-_Servo_trim | Servo trim]] ||  neutral || style = "background-color: #EAECF0;" | || Servo 1 || style = "background-color: #EAECF0;" | || Servo 2 || style = "background-color: #EAECF0;" | || Servo 3 || (Servo 4)
|-
|-
| K || Cyclic throw || neutral || style = "background-color: #EAECF0;" | || too little || style = "background-color: #EAECF0;" | || OK || style = "background-color: #EAECF0;" | || perfect! || style = "background-color: #EAECF0;" |
| '''K''' || [[#K_-_Cyclic_throw | Cyclic throw]] || neutral || style = "background-color: #EAECF0;" | || too little || style = "background-color: #EAECF0;" | || OK || style = "background-color: #EAECF0;" | || perfect! || style = "background-color: #EAECF0;" |
|-
|-
| L || Collective pitch || colspan = "4" style = "background-color: #EAECF0;" |  || min || style = "background-color: #EAECF0;" | || MAX || style = "background-color: #EAECF0;" |
| '''L''' || [[#L_-_Collective_pitch | Collective pitch]] || colspan = "4" style = "background-color: #EAECF0;" |  || min || style = "background-color: #EAECF0;" | || MAX || style = "background-color: #EAECF0;" |
|-
|-
| M || Servo limit || colspan="2" style = "background-color: #EAECF0;" | || too much || style = "background-color: #EAECF0;" | || OK || style = "background-color: #EAECF0;" | || perfect! || style = "background-color: #EAECF0;" |
| '''M''' || [[#M_-_Servo_limit | Servo limit]] || colspan="2" style = "background-color: #EAECF0;" | || too much || style = "background-color: #EAECF0;" | || OK || style = "background-color: #EAECF0;" | || perfect! || style = "background-color: #EAECF0;" |
|-
|-
| N || Governor || off || colspan = "3" style = "background-color: #EAECF0;" | || electric heli || style = "background-color: #EAECF0;" | || nitro heli || style = "background-color: #EAECF0;" |
| '''N''' || [[#N_-_Governor | Governor]] || off || style = "background-color: #EAECF0;" | || off (no throttle lock) || style = "background-color: #EAECF0;" | || electric heli || style = "background-color: #EAECF0;" | || nitro heli || style = "background-color: #EAECF0;" |
|}
|}
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= A - Device orientation = <!--T:8-->
<!--T:8-->
= A - Device orientation =
Tap rudder stick to select device orientation (change LED color). Please be very careful when choosing the orientation. A wrong orientation will cause the system to move the heli in the wrong direction!<br />
Tap rudder stick to select device orientation (change LED color). Please be very careful when choosing the orientation. A wrong orientation will cause the system to move the heli in the wrong direction!<br />
<br />
<br />


= B - Swashplate servos = <!--T:9-->
<!--T:9-->
= B - Swashplate servos =
Tap rudder stick to select frequency (change LED color). Most digital servos can be used with 200Hz.<br />
Tap rudder stick to select frequency (change LED color). Most digital servos can be used with 200Hz.<br />
<br />
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= C - Rudder pulse width = <!--T:10-->
<!--T:10-->
= C - Rudder pulse width =
Tap rudder stick to select pulse width (change LED color). Most servos run at 1520µs (or 1500µs which is nearly the same!). Special gyro servos use 760µs pulse. Usually this will be printed on the servo.<br />
Tap rudder stick to select pulse width (change LED color). Most servos run at 1520µs (or 1500µs which is nearly the same!). Special gyro servos use 760µs pulse. Usually this will be printed on the servo.<br />
<br />
<br />


= D - Rudder frequency = <!--T:11-->
<!--T:11-->
= D - Rudder frequency =
Tap rudder stick to select frequency (change LED color). Most digital rudder servos can be used with 333Hz. Special gyro servos with 760µs pulse can go even higher.<br />
Tap rudder stick to select frequency (change LED color). Most digital rudder servos can be used with 333Hz. Special gyro servos with 760µs pulse can go even higher.<br />
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= E - Rudder limit = <!--T:12-->
<!--T:12-->
= E - Rudder limit =
Use rudder stick (hold or tap) to move servo to one endpoint. Wait until LED flashes, then move all the way to the other endpoint. Wait again until LED flashes. If stick direction is inverted, use servo reverse function on radio to reverse direction.<br />
Use rudder stick (hold or tap) to move servo to one endpoint. Wait until LED flashes, then move all the way to the other endpoint. Wait again until LED flashes. If stick direction is inverted, use servo reverse function on radio to reverse direction.<br />
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= F - Rudder direction = <!--T:13-->
<!--T:13-->
= F - Rudder direction =
1. Move rudder left/right. Servo should move tail left/right accordingly. If stick direction is inverted, use servo reverse function on radio to reverse direction.<br />
1. Move rudder left/right. Servo should move tail left/right accordingly. If stick direction is inverted, use servo reverse function on radio to reverse direction.<br />
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= G - Swash mixing = <!--T:14-->
<!--T:14-->
= G - Swash mixing =
Tap rudder stick to select swash plate type and swash mixing (change LED color). Most R/C helis use 120° eCCPM mixing. Check your heli's manual for more details.<br />
Tap rudder stick to select swash plate type and swash mixing (change LED color). Most R/C helis use 120° eCCPM mixing. Check your heli's manual for more details.<br />
<br />
<br />


= H - Servo directions = <!--T:15-->
<!--T:15-->
= H - Servo directions =
Tap rudder stick to select one servo after another. Move collective pitch on the radio and check servo directions. All servos must move the swash plate vertically together. If necessary, tap the roll/aileron stick once to reverse the direction of the selected servo. Repeat this for all servos.<br />
Tap rudder stick to select one servo after another. Move collective pitch on the radio and check servo directions. All servos must move the swash plate vertically together. If necessary, tap the roll/aileron stick once to reverse the direction of the selected servo. Repeat this for all servos.<br />
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= I - Cyclic directions = <!--T:16-->
<!--T:16-->
= I - Cyclic directions =
1. Move roll/aileron to the right and push pitch/elevator forwards. Check cyclic swashplate movement. The swash should move forwards and right as well. If direction is wrong, use servo reverse function on the radio and reverse roll or pitch channel as needed.<br />
1. Move roll/aileron to the right and push pitch/elevator forwards. Check cyclic swashplate movement. The swash should move forwards and right as well. If direction is wrong, use servo reverse function on the radio and reverse roll or pitch channel as needed.<br />
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= J - Servo trim = <!--T:17-->
<!--T:17-->
= J - Servo trim =
Tap rudder stick to select one servo after another. If necessary, tap/hold the roll/aileron stick to adjust the servo center position. All servos should form a 90 degrees angle to the linkages. The swashplate must be perfectly level. Repeat this for all servos.<br />
Tap rudder stick to select one servo after another. If necessary, tap/hold the roll/aileron stick to adjust the servo center position. All servos should form a 90 degrees angle to the linkages. The swashplate must be perfectly level. Repeat this for all servos.<br />
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= K - Cyclic throw = <!--T:18-->
<!--T:18-->
= K - Cyclic throw =
Status LED off: Make sure blade pitch is 0.0° and swashplate is level.<br />
Status LED off: Make sure blade pitch is 0.0° and swashplate is level.<br />
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= L - Collective pitch = <!--T:19-->
<!--T:19-->
= L - Collective pitch =
1. Move thrust/collective stick and check directions. If servos are moving the swashplate in wrong direction, use servo reverse function on radio to invert thrust/colelctive channel.<br />
1. Move thrust/collective stick and check directions. If servos are moving the swashplate in wrong direction, use servo reverse function on radio to invert thrust/colelctive channel.<br />
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= M - Servo limit = <!--T:20-->
<!--T:20-->
= M - Servo limit =
Move thrust/collective stick on the radio to highest position. Carefully push cyclics (roll/aileron and pitch/elevator) to end positions. Check if servos or linkages are binding. If needed, tap or hold rudder stick to adjust limit.<br />
Move thrust/collective stick on the radio to highest position. Carefully push cyclics (roll/aileron and pitch/elevator) to end positions. Check if servos or linkages are binding. If needed, tap or hold rudder stick to adjust limit.<br />
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= N - Governor = <!--T:21-->
<!--T:21-->
Tap rudder stick to select governor mode (change LED color). When not using the internal governor feature (Status LED off), setup will end here. When using electric or nitro governor, next menu step will be step A of GOVERNOR MENU.<br />
= N - Governor =
Tap rudder stick to select governor mode (change LED color). When not using the internal governor feature (Status LED off or purple), setup will end here. When using electric or nitro governor, next menu step will be step A of GOVERNOR MENU.<br />
<br />
<br />



Latest revision as of 18:32, 12 August 2024


Here is an overview and a short description of the setup procedure. You will get more details about each menu step in the following sections.

On MICROBEAST PLUS / ULTRA the current menu step is indicated by the LED letters. In SETUP MENU the menu LED must light constantly. If it's flashing, you're in the wrong menu!

With NANOBEAST the current menu step is indicated by number of flashes of the Status LED. In Setup Menu the Status LED will flash in blue color. Steps A to G are indicated by 1 to 7 flashes. From steps H to M onwards again there will be 1 to 7 flashes to indicate the current menu step. But here the first flash will be long.


SETUP MENU overview

Menu Description off purple flashing purple red flashing red blue flashing blue red/blue alternating
A Device orientation horizontal
pins to front
vertical
pins to front
hor. inv.
pins to front
vert. inv.
pins to front
horizontal
pins to back
vertical
pins to back
hor. inv.
pins to back
vert. inv.
pins to back
B Swashplate servos custom 50 Hz 65 Hz 120 Hz 165 Hz 200 Hz
C Rudder pulse width custom 760 µs 960 µs 1520 µs
D Rudder frequency custom 50 Hz 165 Hz 270 Hz 333 Hz 560 Hz
E Rudder limit limit left limit right
F Rudder direction left right
G Swash mixing custom no mixing 90°(3/4 servos) 120° 140° 135°/140°(1:1)
H Servo directions Servo 1 Servo 2 Servo 3 (Servo 4)
I Cyclic directions left/back right/forward
J Servo trim neutral Servo 1 Servo 2 Servo 3 (Servo 4)
K Cyclic throw neutral too little OK perfect!
L Collective pitch min MAX
M Servo limit too much OK perfect!
N Governor off off (no throttle lock) electric heli nitro heli




A - Device orientation

Tap rudder stick to select device orientation (change LED color). Please be very careful when choosing the orientation. A wrong orientation will cause the system to move the heli in the wrong direction!

B - Swashplate servos

Tap rudder stick to select frequency (change LED color). Most digital servos can be used with 200Hz.

Warning: If frequency is too high you can burn the servo!

C - Rudder pulse width

Tap rudder stick to select pulse width (change LED color). Most servos run at 1520µs (or 1500µs which is nearly the same!). Special gyro servos use 760µs pulse. Usually this will be printed on the servo.

D - Rudder frequency

Tap rudder stick to select frequency (change LED color). Most digital rudder servos can be used with 333Hz. Special gyro servos with 760µs pulse can go even higher.

Warning: If frequency is too high you can burn the servo!

E - Rudder limit

Use rudder stick (hold or tap) to move servo to one endpoint. Wait until LED flashes, then move all the way to the other endpoint. Wait again until LED flashes. If stick direction is inverted, use servo reverse function on radio to reverse direction.

Helicopters with tail motor

When using the firmware with tail motor support, here you can set stop position of the tail motor. Tap or hold rudder stick to adjust output signal for tail motor ESC.

Turn on the main throttle on the radio to start the tail motor. Now you can adjust the lowest possible running position for the tail motor using the rudder stick again. Set the motor speed to a low idle position just before the motor will quit. Then turn off main throttle and proceed to next step.


F - Rudder direction

1. Move rudder left/right. Servo should move tail left/right accordingly. If stick direction is inverted, use servo reverse function on radio to reverse direction.

2. Check LED color: right = blue and left = red. If LED color is incorrect, tap aileron/roll stick once to reverse LED color. Don't use reverse function on radio to change LED color!

Helicopters with tail motor

1. Move rudder left/right and check LED color: right = blue and left = red. If LED color is incorrect, tap aileron/roll stick once to reverse LED color. Don't use reverse function on radio to change LED color!

2. Turn on the main throttle on the radio to start the tail motor. Now you can adjust the start and hovering position for the tail motor. Tap or hold the the rudder stick and set the motor to a medium speed that will give a little push to the right, but not too much so the heli won't turn on the ground. Then turn off main throttle and proceed to next step.


G - Swash mixing

Tap rudder stick to select swash plate type and swash mixing (change LED color). Most R/C helis use 120° eCCPM mixing. Check your heli's manual for more details.

H - Servo directions

Tap rudder stick to select one servo after another. Move collective pitch on the radio and check servo directions. All servos must move the swash plate vertically together. If necessary, tap the roll/aileron stick once to reverse the direction of the selected servo. Repeat this for all servos.

Note: When the heli uses mechanical mixing (mCCPM) menu step H is not accessible and will be skipped.

I - Cyclic directions

1. Move roll/aileron to the right and push pitch/elevator forwards. Check cyclic swashplate movement. The swash should move forwards and right as well. If direction is wrong, use servo reverse function on the radio and reverse roll or pitch channel as needed.

2. Check LED color: Pushing the sticks forward and right, Status LED must light blue. Backwards and left is must be red. If LED color is incorrect, tap rudder stick once to reverse LED color. There are 4 possible options, only one can be correct. Don't use reverse function on radio to change LED color!

J - Servo trim

Tap rudder stick to select one servo after another. If necessary, tap/hold the roll/aileron stick to adjust the servo center position. All servos should form a 90 degrees angle to the linkages. The swashplate must be perfectly level. Repeat this for all servos.

Note: When the Status LED is off, all servos are in their true center position (1520µs pulse width).

K - Cyclic throw

Status LED off: Make sure blade pitch is 0.0° and swashplate is level.

Tap rudder stick to switch to adjustment position. Here tap or hold aileron/roll stick to adjust cyclic pitch to exact 6.0°.

L - Collective pitch

1. Move thrust/collective stick and check directions. If servos are moving the swashplate in wrong direction, use servo reverse function on radio to invert thrust/colelctive channel.

2. Check LED color: Positive pitch = blue, negative pitch = red. Tap rudder stick once to inverse color if needed.

3. Move thrust/collective stick on the radio to lowest position. Here tap or hold aileron/roll stick to adjust pitch as needed, i.e. -12.0 degrees.

4. Move thrust/collective stick on the radio to highest position. Here tap or hold aileron/roll stick to adjust pitch as needed, i.e. +12.0 degrees.

M - Servo limit

Move thrust/collective stick on the radio to highest position. Carefully push cyclics (roll/aileron and pitch/elevator) to end positions. Check if servos or linkages are binding. If needed, tap or hold rudder stick to adjust limit.

Move thrust/collective stick on the radio to lowest position. Carefully push cyclics (roll/aileron and pitch/elevator) to end positions. Check if servos or linkages are binding. If needed, tap or hold rudder stick to adjust limit.

Again check all possible swashplate positions if there is still any binding and adjust as needed. Please note that limit value will affect all positions. So you must find the position where binding happens first and adjust limit there.

N - Governor

Tap rudder stick to select governor mode (change LED color). When not using the internal governor feature (Status LED off or purple), setup will end here. When using electric or nitro governor, next menu step will be step A of GOVERNOR MENU.

Note: Governor feature is only available for MICROBEAST PLUS / ULTRA at the moment.