Filter Adjustments - Parker Gem6K Series Programmer's Manual

Filter Adjustments

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If the previous tuning procedures did not eliminate ringing or oscillations, then mechanical
resonances may be causing problems with your system's response.
Before trying the procedure below, we recommend that you check your mechanical system,
especially the mechanical stiffness and mounting rigidity of your system. Use bellows or disk
style couplers, not helical couplers. Once you have optimized your mechanical system, filters
may allow increased performance, without causing system instability.
Filters can improve response by reducing system gain over the same frequencies that contain
resonances. You can then increase the gain for frequencies outside this range, without exciting
the resonance and causing instability.
The first procedure below describes how to set the drive's two notch filters, to reduce
resonance and improve your system's response. The second and third procedures describe
how to set the drive's lead and lag filters.
These procedures cause the motor shaft to move. Make sure that shaft motion will not damage
Notch Filter Adjustment Procedure
1. Configure the analog monitor to show q-axis current (DMONAV19).
2. Configure the drive for position tuning mode (DMODE17).
3. Configure DMTLIM to approximately 1/3 of the default value for your Compumotor
motor.
4. Connect one channel of your oscilloscope to the drive's ANALOG MONITOR A (pin
21). Connect your oscilloscope's ground to the drive's ANALOG GROUND (pin 25).
5. From the oscilloscope display, observe the system's response to the tuning mode's step
input. Note the frequency of the oscillatory current waveform that is superimposed on
the 1 Hz step command signal.
6. Using the DNOTAF command, set the notch filter to the frequency noted in Step 5.
7. Using the DNOTAD command, slowly increase the depth of the notch filter from 0.0 to
1.0 until the ringing decreases.
8. Continue to observe the response to step command signal. Ringing should be reduced
or eliminated.
9. Adjust the Q of the filter (DNOTAQ command). Use the following guidelines:
• Set Q as low as possible. Resonances change with load; therefore, your system
will be more robust with a lower Q value. (Default = 1)
• If Q is too low, system stiffness will be reduced outside the resonant range.
• If Q is too high, the response peak may shift in frequency.
10. After reducing the resonance, you may notice a second resonance. Use the second
notch filter (DNOTBF, DNOTBD and DNOTBQ) to reduce the second resonance.
Follow the same procedure as outlined in steps 1 – 9 above.
11. If you are done adjusting filters, reconfigure DMTLIM to its default value.
Otherwise, proceed to the Lag Filter Adjustment procedure below.
WARNING
equipment or injure personnel.
Chapter 3. Basic Operation Setup 87