Setupmenü

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I can't access menus or perform a factory reset by pushing the button

I am trying to access the menus but if I press the button after powering on the A light never goes solid or blinks. Also if I hold it for 10 seconds it doesn't appear to perform the factory reset. To enter one of the menus you have to wait until the device did perform the self test and did initialize completely: The Status LED must get blue or purple and the cycling LEDs A to G and H to N must have stopped.

Factory reset only can be performed when being in the SETUP MENU, not PARAMETER MENU, not RECEIVER MENU! So you have at least to get to SETUP MENU point A (or later), release the button and then push it and keep it pushed for at least 10 seconds. Note that factory reset will only revert all parameters of parameter menu and setup menu to default. If you can't get through initialization sequence either there is a problem with the sensors or some problem with the radio signal (device not bound to your radio, wrong model memory selected in the radio, ...). Doing a factory reset won't help here anyway because the factory reset does not affect radio or sensor settings!


Selection in the menus with the rudder control stick does not work.

Maybe there is not enough movement or any movement at all on the rudder channel.

  • Check servo throw and dual rate setting for the rudder channel in the transmitter and increase the throw.
  • Is the correct stick moved? Check stick mode of transmitter and have a look at the servo monitor.



Setup menu points B to D

What are frequency and neutral pulse for a specific servo?

Here you can see a list of collected data: The BEASTX servo list

This list is not intended to be complete or accurate! We can't know all servos on the market. Please ask the servos manufacturer about his recommendations regarding servo specs and usability in helicopters with flybarless or gyro systems.

  • Neutral impulse: The neutral impulse normally is 1500-1520µs on any servo. Only special high speed rudder servos use a different impulse and are normally fitted to a specific gyro (i.e. Futaba gyros 760µs, Logictec gyros 960µs). AR7200BX/AR7210BX/AR7300BX supports all types of different neutral impulses for the rudder servo. On cyclic you are not able to adjust the pulse.
  • Update frequency: The higher the frequency the faster the control loop will work and the more accurate the system will perform. But also the servos will be more burdened as they get more work to do and the current consumption will greatly increase.


If using a digital servo it definitely should be capable of more than 65Hz. Usually, if we have a unknown servo we carefully increase frame rate step by step by testing on the workbench and then fly shortly and check servo temperature very often. If there are no abnormalities like extreme heat production we again increase the frame rate and again test carefully.


This procedure can lead to damage and severe injury if not obtaining safety rules. If you want to be on the safe side go with 65Hz unless the manufacturer doesn't give you another classification. We cannot tell you the specs of a servo unless we don't have any data of this specific servo ourselves. Please ask the servos' manufacturer. We do not produce or sell any servos, we only give you the possibility to use those servos. Therefore we do not accept liability for incorrect setting.



My servos are not on the website's servo list. Can I use them anyway?

The servo list on the website only is a collection of some servos' data. It does not say that if a servo is not on the list that you must not use it. If a servo is not on the list we simply did not test it ourselves or we could not find any data about it. Also we can't know any servo on the market. In fact the BEASTX flybarless devices are compatible to nearly any servo on the market. As a rule of thumb servo torque in kg/cm should be at least 2-3 times the heli weight (in kilogram). Speed should be at least 0.1s/45° or even faster. In addition the servo should be very precise, have little backlash and a low deadband. And of course best would be if it is a digital servo and supports 200 Hz driving frequency. Also using special heli servos which are designed for maximum vibration resistance is a good choice.

Note that all the speed is useless if the torque is not enough. In doubt when two servos of a series are only slightly different in speed and torque, normaly the more powerful is in advantage. Anyhow ask the manufacturer of the servo if it can be used in combination with flybarless/gyro systems. Not all servos can handle the additional stress of getting control signals every few milliseconds. Also it must be said that not all servos can be used at maximum frequency even if so it is told on the servo's data sheet. Depending on air temperature, voltage level and heli size it is possible that servos can not be driven at their limit.


Setup menu point E - How to get servo horn to a 90 degrees angle?

I cannot get any servo horn arm to be mechanically 90° to the boom. The AR7200BX/AR7300BX does not have a tail "sub-trim" feature!? Is trimming in the transmitter allowed?

Do not trim the rudder servo by using the transmitter as this will apply a constant rotation command to the unit! When you can't get the servo horn exactly 90 degrees this has no significant effect. The "90 degrees rule" only should give some good basis for initial linkage adjustment. In flight the system will control the servo all the time anyway, so it is not an issue if the center position is slightly offset. It is more important, that the tail servo linkage is in general adjusted correctly, so that you get asymmetric tail pitch throw: 40 degrees against main rotor torque direction, approx. 6 degrees at center position and 20 degrees in main rotor torque direction.

When you've updated your AR7210BX to firmware version 5.x.x you can trim the rudder servo by software from the StudioXm App or on the device in Quick trim menu (PARMETER MENU point A). This can be useful when flying with the tail gyro set to "Rate-Mode" because here the gyro only dampens sudden movements but does not hold the tail in position all the time.


Setup menu point G - Trimming the servos does not work

I did adjust my swash plate with servos centered but when leaving point G the servos are not centered anymore.

At Setup menu point G make sure you adjust your mechanical setup while electric trimming is active (Status LED is lit up in some color)! You mustn't do any adjustment while the system shows "reference position" (Status LED off at step G). This is only for finding the servos' true center positions (i.e. for attaching the servo arms to the servos) but is not used in any other way. If your servo arms are perfectly aligned in this position check electrical trimming anyway and readjust if necessary. Only the servo positions you see in trim mode (when the Status LED is lit up in some color at Setup step G) show the center positions that are used later onwards during setup and in operation as trimming will always be added to the servo output!

Please note: using AR7210BX with firmware V5.x.x the trimming is done at SETUP POINT H. Here the option "Status LED off" will not be shown anymore when you've trimmed one or more servo. To reset the trim (i.e. when replacing the servos) push and hold the button at SETUP POINT H for at least 10 seconds and release.


Setup menu point J - Adjust left or right or both directions?

You only have to adjust one direction, whether it's left or right, it doesn't matter. Important is to exactly adjust 6° when the blades are aligned on the aileron axis as this teaches the unit the servo throw. Push the aileron stick to adjust the pitch and when the blade pitch is 6° simply push the button briefly and that's it.


Setup menu point J - I don't get blue color at 6 degrees

When getting the 6° too early this shows that you may not use full servo resolution (not using the full throw). This can be solved by using longer blade grip linkage arms, reducing the swashplate inner diameter (shorter linkage balls) or larger swashplate outer diameter (longer linkage balls). Or simply by screwing the linkage balls on the servo horns further in (but this will reduce both cyclic and collective - the cyclic/collective ratio will not change).

Anyhow, the color is not a fixed value that is a must to reach. If you get blue you have something similar to 80% usable servo throw. The further you can go the higher the value will be. So everything from blue upwards will give a good resolution and you won't feel any disadvantages. If using good, precise high class servos, strong and with fast speed you even can fly with only red LED without any noticeable difference. Also rotorblades (flybarless blades or not) can make a difference. On a 250 or 450 size heli you should try to get "dark blue" at exactly 6.0° as here servos normally are not so precise.