Ex1:
=(VI input), =(disabled)
Output frequency = Reference + Over-ride (VI input [Hz])
Ex2:
=(VI input), =(disabled)
Output frequency = Reference + Over-ride(VI input [Hz])
2) Multiplicative over-ride
In this mode, each output frequency is multiplied by an externally override frequency.
[Ex1: RR(reference), VI(over-ride frequency)] [Ex2: RX(reference), VI(over-ride frequency)]
Output frequency [Hz]
Over-ridden frequency
0
Ex1:
=(Disabled), =(VI input), =(RR input), =, =
RR input(=, =, =, =)
VI input(=, =, =, =)
Note) Setting of RR input: Refer to 7.3.1, Setting of VI input: Refer to 7.3.2
Output frequency = Reference × {1 + Over-ride(VI input [%] / 100)}
Ex2:
=(Disabled), =(VI input), =(RX input), =, =
RX input(=, =, =, =)
VI input(=, =, =, =)
Note) Setting of RX input: Refer to 7.3.1, Setting of VI input: Refer to 7.3.2
Output frequency = Reference × {1 + Over-ride(VI input [%] / 100)}
Ex3:
Title
Panel over-ride multiplication
gain
Output frequency = Reference × {1 + Over-ride( [%] / 100)}
Output frequency[Hz]
(
)
RR input
(reference)
10V
Function
∼ [%]
F-63
Over-ridden frequency
Forward
0
Reverse
Adjustment range
(
)
RR input
(reference)
10V
Default setting