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{{TOC_AR7210V5|Manuals:AR7210FblV5:Setupmenu_C/en|Manuals:AR7210FblV5:Setupmenu_E/en|SETUPMENU}}
{{TOC_AR7210V5|Manuals:AR7210FblV5:Setupmenu_C/en|Manuals:AR7210FblV5:Setupmenu_E/en|SETUPMENU}}
{{DISPLAYTITLE:SETUP MENU D - Rudder servo frequency|noerror}}
{{DISPLAYTITLE:SETUP MENU D - Rudder servo frequency|noerror}}
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As with the swashplate servos at Menu Point B you can select the update frequency for the rudder servo here. For best tail gyro performance the rule is: the higher the better! A good rudder servo should be capable of running with at least 270Hz. With high update frequency the system will recalculate correctional movements more often and in consequence will send new commands to the servo with a higher frequency and allow for better positioning and more locked in feeling. Nevertheless, this will cause the rudder servo to make more position changes at a given timeframe. In case the servo is not built for this kind of application this can cause an unusual high power consumption of the receiver power supply and cause the servo getting very hot. When this happens, reduce frequency immediately to prevent your servo from getting damaged. Only go as high as recommended by the servo manufacturer, or even lower when the servo is not capable of handling such high frequency in field use.<br />
As with the swashplate servos at Menu Point B you can select the update frequency for the rudder servo here. For best tail gyro performance the rule is: the higher the better! A good rudder servo should be capable of running with at least 270Hz. With high update frequency the system will recalculate correctional movements more often and in consequence will send new commands to the servo with a higher frequency and allow for better positioning and more locked in feeling. Nevertheless, this will cause the rudder servo to make more position changes at a given timeframe. In case the servo is not built for this kind of application this can cause an unusual high power consumption of the receiver power supply and cause the servo getting very hot. When this happens, reduce frequency immediately to prevent your servo from getting damaged. Only go as high as recommended by the servo manufacturer, or even lower when the servo is not capable of handling such high frequency in field use.<br />
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=Adjustment on the device= <!--T:3-->
=Adjustment on the device=
To select the desired servo frequency, move the rudder stick repeatedly in one direction until the Status-LED lights in the correct color. Please note that depending on the rudder servo center pulse width chosen at Menu Point C, you may not be able to select a frequency higher than 333Hz!<br />
To select the desired servo frequency, move the rudder stick repeatedly in one direction until the Status-LED lights in the correct color. Please note that depending on the rudder servo center pulse width chosen at Menu Point C, you may not be able to select a frequency higher than 333Hz!<br />
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=Setup with StudioXm= <!--T:5-->
=Setup with StudioXm=
Choose a preset frequency by clicking one of the provided buttons for Menu Point D (Rudder frequency) or set a custom frequency by directly changing the value with the dial or buttons.<br />
Choose a preset frequency by clicking one of the provided buttons for Menu Point D (Rudder frequency) or set a custom frequency by directly changing the value with the dial or buttons.<br />
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