changes, it needs more time to offset the
impact of continuous working and the
integration will change with the trend.
1: Stop integral adjustment when the
frequency reaches the upper and low limit. If
the integration keeps stable, and the trend
between the reference and the feedback
changes, the integration will change with the
trend quickly.
LED tens:
0:The same with the setting direction; if the
output of PID adjustment is different from the
current running direction, the internal will
output 0 forcedly.
1:Opposite to the setting direction
LED hundreds:
0: Limit to the maximum frequency
1: Limit to A frequency
LED thousands:
0:A+B frequency, buffer ACC/DEC is invalid for
the main reference A frequency source
1:A+B frequency, buffer ACC/DEC is valid for
the main reference A frequency source and the
ACC/DEC is determined by time 4 of P08.04
0: Stop after running once. The inverter has to
be commanded again after finishing a cycle.
1: Run at the final value after running once.
After finish a signal, the inverter will keep the
running frequency and direction of the last run.
2: Cycle running. The inverter will keep on
running until receiving a stop command and
then, the system will stop.
0:Power loss without memory
1:Power loss memory;PLC record the running
stage and frequency when power loss.
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General