VD120 Series Inverter User Manual Parameter Description
-
127
-
+Aw
-Aw
Swing frequency ampli tude
Aw=Fs et*Pb-52
Jumpi ng
frequency=Aw*Pb-53
Output frequency(Hz)
Swing frequency
upper li mit
Center frequency Fset
Swing frequency
lower li mit
Runni ng frequency
Accel erat e according
to accel erat ion tim e
Swing frequency
cycle
Triangl e wave
rise time
Decel erat e according to
deceleration ti me
Fig 6-30 Schematic diagram of swing frequency function
Fb-54
Swing Frequency Cycle
0.1s~3000.0s
10.0s
○
Fb-55
Triangular Wave of Swing
Frequency Rise Time
0.1%~100.0%
50.0%
○
Swing frequency cycle: a complete time value of swing frequency cycle.
Triangle wave rise time coefficient Fb-55, is a triangular wave rise time relative the time percentage of
the swing frequency cycle Fb-54.
Triangle wave rise time=swing frequency cycle Fb-54 x triangle wave rise time coefficient Fb-55, and
the unit is the second.
Triangle wave fall time=swing frequency cycle Fb-54 x (1-triangle wave rise time coefficient Fb-55),
unit for seconds.
Fb-56
Set Length
0m~65535m
1000m
○
Fb-57
Actual Length
0m~65535m
0m
○
Fb-58
Number of Pulse per
Meter
0.1~6553.5
100.0
○
The above function code is used to fixed-length control.
Length information need to be cpllect by the multi-function digital input terminals, terminal sampling
pulse number and the number of pulses per meter Fb-58 division, can calculate the actual length
Fb-57. When the actual length is greater than the set length Fb-56, multi-function digital DO output
"length reached" ON signal.
In the process of the fixed length control, through the multi-function DI terminals, for the length of the
reset operation (DI function selection for 47), specific please refer to the F5-00~F5-06.
In the application, need to set the corresponding input terminals function to "length counting input"
(function 46), when the pulse frequency is higher, must use HDI1 port.
Fb-59
Set Count Value
1~65535
1000
○
Fb-60
Designated Count Value
1~65535
1000
○
Summary of Contents for VD120 Series
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