Chapter 5 Function parameter
155
This parameter is used to determine the baseline of the swing
0: relative to center frequency(F0.07 frequency source)
For the variable swing system. The swing varies with the change of center frequency
(the set frequency)
1: relative to maximum frequency(F0.19)
For the fixed swing system, the swing is fixed
Sudden jump
frequency range
The parameter is used to determine the value of swing and the value of sudden jump
frequency.
When the swing is set to Relative To Center frequency(E0.00=0), Swing (AW) =
frequency source (F0.07) × swing amplitude((E0.01). When the swing is set to Relative To
Maximum Frequency(E0.00=1), Swing (AW) = maximum frequency (F0.19) × swing
amplitude((E0.01).
If the sudden jump frequency range is selected for wobbulate operation, the frequency
percentage of sudden jump frequency range relative to swing, i.e.: Sudden jump frequency
= Swing(AW)×Sudden jump frequency range(E0.02). When the swing is set to Relative To
Center frequency(E0.00=0), the sudden jump frequency is the variable value. When the
swing is set to Relative To Middle Frequency(E0.00=1), the sudden jump frequency is the
fixed value.
The frequency of wobbulate operation is restricted by the upper and lower frequencies.
Triangle wave rise
time coefficient
Wobbulate cycle: the time of a complete wobbulate cycle.
Triangle wave rise time coefficient(E0.04), the time percentage of Riangle Wave Rise
Time relative to Wobbulate Cycle(E0.03) Triangle wave rise time = Wobbulate
cycle(E0.03) × Triangle wave rise time coefficient(E0.04), unit: second(s). Triangle wave
drop time = Wobbulate cycle(E0.03) × (1 - Triangle wave rise time coefficient(E0.04)), unit:
second(s).
The above function codes are used to fixed-length control.
The length information is sampled through the multi-function digital input terminal,
the pulse number sampled by terminal divides the pulse per meter(E0.07), so then the
Actual length(E0.06) can be computed out. When the Actual length is greater than the set
length (E0.05), the multi-functional digital DO will output "Length Arrival" ON signal.
During the fixed-length control, the multifunction DI terminal can be used to reset
length (DI function selects 28), please refer to F1.00 to F1.09 for details.
In some applications, the related input terminal function shall be set to "Length Count
Input"(function 27), when the pulse frequency is higher, DI5 port must be used .
To Next Page
Loading...
