Table 8-3. cs3 ratio controller datapoints – Micromod Micro-DCI: 53MC5000 Multi-Loop Process Controller Instruction Manual User Manual

Table 8-3. CS3 Ratio Controller Datapoints

Data-

point

Table

Module

Title and Function

De-

fault

AI0 - Process Variable

C256

5-4

AI0

Engineering Span - Enter a value, that when added to the
Engineering Zero value, will produce an upper range value in
engineering units that represents the PV transducer upper
range signal value.

100

C276

5-4

AI0

Engineering Zero - Enter a value that represents in
engineering units the PV transducer lower range signal value.

0

B269

5-4

AI0

Digital Filter Index - This is a first order filter that can be
applied to the PV transducer signal. See Table 5-4 for input
values.

3

L416

5-4

AI0

0-5 V Input - Enter a value that matches the signal voltage
range of the PV transducer. 1 = 0 - 5 V range; 0 = 1 - 5 V
range.

0

L440

5-4

AI0

Square Root Signal - It is used if the PV transducer is a
nonlinear differential pressure (DP) cell that provides a
squared signal value. 0 = input is already linear; 1 = square
root to restore linearization.

0

AI1 - Wild Variable

C257

5-4

AI1

Engineering Span - This value is set to 100 by CS3;
however, it can be changed. Enter a value, that when
added to the Engineering Zero value, will produce an upper
range value in engineering units that represents the Wild
Variable transducer upper range signal value.

0

C277

5-4

AI1

Engineering Zero - Enter a value that represents in
engineering units the Wild Variable transducer lower range
signal value.

0

B270

5-4

AI1

Digital Filter Index - This is a first order filter that can be
applied to the Wild Variable signal. See Table 5-4 for input
values.

3

L417

5-4

AI1

0-5 V Input - Enter a value that matches the signal voltage
range of the Wild Variable transducer. 1 = 0 - 5 V input
range; 0 = 1 - 5 V input range.

0

L441

5-4

AI1

Square Root Signal - It is used if the Wild Variable
transducer input is a squared signal value that must be
linearized. 0 = input is already linear; 1 = square root to
restore linearization.

0

AI2 - Additive Feed Forward

C258

5-4

AI2

Engineering Span - Enter a value, that when added to
Engineering Zero, will produce an upper range value in
engineering units that represents the Additive Feed Forward
upper range signal value.

0

C278

5-4

AI2

Engineering Zero - Enter a value that represents in
engineering units the Additive Feed Forward lower range
signal value.

0

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Section 8. CS3 - Ratio (PID) Controller

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