6 Parameter Description
Calculation formula for
Input
10~2V or 20~4mA
(corresponding to
0~100%)
(result confined to 0~100%)
"Zero-point threshold" and "zero-point hysteresis error" prevent the analog input signal fluctuating
around the zero point. For example, setting the former to 10.0% and the latter to 5.0% can bring the
hysteresis effect shown in the following diagram.
Increasing the filtering time slows down the response, but strengthens the immunity to the disturbance.
Reducing the filtering time speed up the response, but weakens the immunity.
Analog input is considered to be disconnected if it is lower than the disconnection threshold. The action
after the disconnection is determined by Fb-09.
F6-14
Setting
See the table of analog output functions below.
range
F6-15
Setting
0: 0~10V or 0~20mA
range
F6-16
Setting
0.0~1000.0%
range
F6-17
Setting
-99.99~99.99%(10V or 20mA=100%)
range
F6-18
F6-19
F6-20
F6-21
Setting
All settings for AO2 are the same as those for AO1.
range
Table of analog output functions:
90
output
Output=gain×[-5/4×
(input-bias)+125%]
After treatment
AO1 function
AO1 type
AO1 gain
AO1 bias
AO2 function
AO2 type
AO2 gain
AO2 bias
Basic curve
100%
2V/4mA
10V/20mA
Default
Default
1: 2~10V or 4~20mA
Default
Default
Default
Default
Default
Default
Bias=10.00%
Gain=200.0%
100%
2V/4mA
10V/20mA
2V/4mA
0
0
2: 5V or 10mA at the center
100.0%
0.00%
2
0
100.0%
0.00%
100%
10V/20mA
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