Thanks for all the tests. Could you also do a temperature drift test? Just heating it up to, say, 50C and check if the pointer moves any. Same for cooling. You could cool the servo in your freezer. Then take it out of the freezer and start testing by slowly heating it up to room temperature.
Yeah, absolutely, the thermal drift is a known problem with a lot of servos on the market. We might consider performing these tests in the future and will share the results afterward.
Occasionally, there it happens, but I've got reports that it can be fixed with programming. We are planning on using these servos in some of the Receiver-Ready gliders that we offer, and will make sure that we do program them to center as precise as possible.
Very fast on low voltages. The slight double centering may be a result of the taller gear train required to obtain such speeds?? I don't know, just a theory. Thanks for the great tests.
Thanks for all the tests. Could you also do a temperature drift test? Just heating it up to, say, 50C and check if the pointer moves any. Same for cooling. You could cool the servo in your freezer. Then take it out of the freezer and start testing by slowly heating it up to room temperature.
Yeah, absolutely, the thermal drift is a known problem with a lot of servos on the market.
We might consider performing these tests in the future and will share the results afterward.
Do other samples of the LV06 have the same slight double centering?
Occasionally, there it happens, but I've got reports that it can be fixed with programming.
We are planning on using these servos in some of the Receiver-Ready gliders that we offer, and will make sure that we do program them to center as precise as possible.
Very fast on low voltages. The slight double centering may be a result of the taller gear train required to obtain such speeds?? I don't know, just a theory. Thanks for the great tests.
A taller gear train makes a servo slower with higher torque (the motor is the fastest element in the gear train, so less gears = faster).
Thx
Always welcome!