allen_h: What exactly is happenning when you say "The parallel motors seem to build up tension even though they report being at the same position"?
The two X axes are physically 48" apart. We decided to have two independent motors (instead of a dead rail).
They are connected by a crossbar (the Y axis) which weighs about 110 pounds. The axis itself weighs about 80 pounds and the Z axis (which moves on the crossbar) weighs about 30 pounds. The Z axis is typically closer to X' than X. Home for the Y axis is on the X' side.
I turn off the X' axis and let it "relax" to a non-tension state and then set the stage position to match the X axis.
e.g. both motors say that they are at 5.000 inches (or the approprate counts). When I keep X enabled and kill X', X' moves to 4.997 inches.
I then tell X' that it is at 5.000 inches. I believe that this removes any mechanical tension.
If I then move the motor to position 50.000 inches (both axes show 50.000 inches) and perform the same "relax" technique, X' might move anywhere from 0.001 inches to 0.006 inches. It seems that if both motors are indicating the same position and that they were "relaxed" prior to the move they should stay "relaxed" (no tension) at the end.
I admit to being new to this motor stuff, but what am I missing?
