This is a parameter to smooth rudder movements. It also helps to stabilize the rudder – it is a kind of electronic damping. The faster the servo is, the lower the tail delay should be. For analog servos it is recommended to set this value to around 20-25. For usual digital servos it is mostly between 10 – 15. For very fast servos (~0.04s/60°) the value is 5. In case of a brushless servos it is recommended to set a value of 0 - 2.
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This is parameter to smooth out a rudder movements. It also helps to stabilize the rudder – it is a kind of electronic damping, similar to a derivative term of regulation. The faster the servo is, the lower the ''Rudder delay'' should be. For analog servos it is recommended to set this value to around 20 - 25. For slower digital servos it is mostly between 10 - 15. For fast servos (~0.04s/60°) the value is around 5. In case of a brushless servos it is recommended to set the value of 0 - 2.
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If the value is too high, the rudder could start to oscillate or wag or could cause a slow rudder stop.
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If the value is too high, the rudder could start to oscillate, wag or it could cause too smooth rudder stopping.
Revision as of 23:59, 2 February 2017
This is parameter to smooth out a rudder movements. It also helps to stabilize the rudder – it is a kind of electronic damping, similar to a derivative term of regulation. The faster the servo is, the lower the Rudder delay should be. For analog servos it is recommended to set this value to around 20 - 25. For slower digital servos it is mostly between 10 - 15. For fast servos (~0.04s/60°) the value is around 5. In case of a brushless servos it is recommended to set the value of 0 - 2.
If the value is too high, the rudder could start to oscillate, wag or it could cause too smooth rudder stopping.
