Parameterization of the filter

This filter is parameterized with the parameter "Low pass filter frequency" (30). The filter time(s) (31) is calculated from the low pass filter frequency according to the following equation
"Filter time(s) [s] = 1 / (2*Pi*cut-off frequency [Hz])".

Determining the low pass filter frequency
The following test provides information about any interference frequencies that may be present: Run through the required operating velocity range and make a scope recording of the actual active current (IDN S-0-0084). A frequency analysis shows possibly existing resonance points.

Phase shift With this filter you have no influence on the damping and any resulting phase shift. If you are not sure whether a phase shift is permissible, please use the "Phase correction filter 1. order"

Click on the "Download" button (32) to conclude the parameterization. If you are online, these parameters are loaded directly into the AX5000 and activated. If you are offline they are only written into the start-up list.

Example:

With this example the frequency response of the PT1 filter has been illustrated for clarity. The Bode plot (logarithmic frequency curve) shows the amplitude over frequency in the upper area and the associated phase shift over frequency in the lower area. Seen together, it is recognizable that a phase shift results from the damping of the amplitude.

Parameter inputs in the TCDriveManager:

Low pass filter frequency = 6280 Hz
(filter time(s) = 0.025343)

"1st order low pass filter" – method – "step by step"

Expert hint! The software calculates the coefficients independently using the parameters entered. If you have sufficient experience in control technology you can also determine the coefficients yourself and thus affect the behavior of the filter.

The method is the same as in the "Notch filter classic method" – "step by step".