VLT
®
8000 AQUA
by means of a speed change. This function can be
disabled in parameter 421
PID anti windup.
Start-up conditions
In some applications, optimum setting of the process
regulator will mean that it takes an exces-sive time
for the required process state to be reached. In
such applications it might be an advantage to
fix an output frequency to which the AFD is to
bring the motor before the process regulator is
activated. This is done by programming a
PID
start-up frequency
in parameter 422.
Differentiator gain limit
If there are very quick variations in a given application
with respect to the reference/setpoint signal or the
feedback signal, the deviation between reference/
setpoint and the actual process state will quickly
change. The differentiator may thus become too
dominant. This is because it reacts to the deviation
between the reference/setpoint and the actual
process state. The quicker the deviation changes,
the stronger the resulting differentiator frequency
contribution. The differentiator frequency contribution
can thus be limited to allow the setting of a reasonable
differentiation time for slow changes and a suitable
frequency contribution for quick changes. This is done
in parameter 426,
PID Differentiator gain limit
.
Lowpass filter
If there are ripple currents/voltages on the
feedback signal, these can be dampened by
means of a built-in lowpass filter. Set a suitable
lowpass filter time constant. This time constant
represents the limit frequency of the ripples
occurring on the feedback signal.
If the lowpass filter has been set to 0.1s, the limit
frequency will be 10 RAD/sec., corresponding to (10/
2 x
π
) = 1.6 Hz. This means that all currents/voltages
that vary by more than 1.6 oscillations per second
will be removed by the filter.
In other words, regulation will only be carried out
on a feedback signal that varies by a frequency of
less than 1.6 Hz. Choose a suitable time constant
in parameter 427,
PID Lowpass filter time
.
Optimisation of the process regulator
The basic settings have now been made; all
that remains to be done is to optimize the
proportional gain, the integration time and the
differentiation time (parameters 423, 424 and
425). In most processes, this can be done by
following the guidelines given below.
1. Start the motor.
2. Set parameter 423
PID proportional gain
to 0.3
and increase it until the process shows that the
feedback signal is unstable. Then reduce the
value until the feedback signal has stabilised. Now
lower the proportional gain by 40-60%.
3. Set parameter 424
PID integration time
to 20 s
and reduce the value until the process shows
that the feedback signal is unstable. Increase the
integration time until the feedback signal stabilizes,
followed by an increase of 15-50%.
4. Parameter 425
PID differentiation time
is only used
in very fast-acting systems. The typical value is 1/4
of the value set in parameter 424
PID Integration
time
. The differentiator should only be used
when the setting of the proportional gain and the
integration time have been fully optimized.
NOTE
If necessary, start/stop can be activated a
number of times in order to provoke an
unstable feedback signal.
✭
= factory setting. () = display text [] = value for use in communication via serial communication port
MG.80.A7.22 - VLT is a registered Danfoss trademark
134
Rosewood STP ST42 General (Operation and Maintenance Manual - Part 4:
Section 6.3 Manufacturers Manuals 6.3.33 Danfoss VLT Aquadrive 8000) Vendor Manual
QP Id: VM207
Active: 03/09/2013
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