7ć14, Select the type of pid algorithm – Rockwell Automation 1771-QDC, D17716.5.85(Passport) MNL. PLASTIC MOLDING MODULE User Manual

Load Initial Configuration Values

Chapter 7

7-14

Type of PID Algorithm

(

INC02, PKC02, HDC02, and PLC02)

When executing pressure or screw RPM versus position or time profiles,
the QDC module can use one of two types of PID algorithms: dependent
gains (ISA) or independent gains (Allen-Bradley).

If B07(B03) = :

Then it uses:

0

Dependent Gains (ISA)

1

Independent Gains (AĆB)

Dependent gains (ISA):

Output = Kc[(E) + 1/Ti

o

∫

t

(E)dt + Td*d(E)/dt]

Independent gains (AB):

Output = Kp(E) + Ki

o

∫

t

(E)dt + Kd*d(E)/dt

Comparison of Gain Constants

Compare dependent and independent gains constants as follows:

Dependent Gains Constants:

Independent Gains Constants:

Controller Gain Kc (dimensionless)

Proportional Gain Kp (dimensionless)

Reset Term 1/Ti (minutes per repeat)

Integral Gain Ki (inverse seconds)

Rate Term Td (minutes)

Derivative Term Kd (seconds)

Other variables used in any algorithm choice include:

Output

= Percentage of full scale

E

= Error (scaled) SP-PV (Setpoint-Process Variable)

PV

= Process Variable (scaled)

Convert from dependent to independent gain constants by substituting
controller gain (Kc), reset (1/Ti), and rate (Td) values in these formulas:

Kp = Kc unitless

Ki = Kc

60 Ti

inverse seconds

Kd = Kc(Td)60 seconds

We recorded bit B07 (B03) = 1 for A-B independent gains on all
corresponding worksheets.

Select the Type of

PID Algorithm