834 HEIDENHAIN Technical Manual iTNC 530 HSCI
k
v
factor during
control with
following error
The control loop gain, known as the k
v
factor, defines the amplification of the
position control loop. You must find the optimum k
v
factor by trial and error.
If you choose a k
v
factor that is too large, the following error will become very
small. However, this can lead to oscillations.
If you choose too small a k
v
factor, the axis will move to a new position too
slowly.
For axes that are interpolated with each other, the k
v
factors must be equal to
prevent contour deviations.
In MP1810.x define a set of k
v
factors for operation with following error.
You can selectively increase the contour accuracy with a higher k
v
factor. This
k
v
factor is activated with the M function M105:
In MP1815.x define a second set of k
v
factors and activate them with M105.
M105 also influences compensation of reversal spikes during circular motion.
With M106 you can switch back to the original set of k
v
factors:
Enable the M functions M105/M106 with MP7440, bit 3.
Interrelation of k
v
factor, feed rate,
and following error
The following formula shows the interrelation of k
v
factor, feed rate, and
following error:
or
k
v
= loop gain [(m/min)/mm]
v
e
= rapid traverse [m/min]
s
a
= following error [mm]
MP1810.x k
v
factor for control with following error
Input: 0.100 to 20.000 [(m/min)/mm]
MP1815.x k
v
factor for control with following error effective after
M105
Input: 0.100 to 20.000 [(m/min)/mm]
MP7440 Output of M functions
Format: %xxxxx
Input: Bit 3 – Switching the k
v
factors with M105/M106
0: Function is not in effect
1: Function is effective
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