User Manual Owner's manual
Table Of Contents
- 1772-6.5.8, Mini-PLC-2/02, -2/16, -2/17 Processor, User Manual
- Important User Information
- Summary of Changes
- Table of Contents
- 1 - Using This Manual
- 2 - Fundamentals of a Programmable Controller
- 3 - Hardware Features
- 4 - Installing Your Programmable Controller
- 5 - Starting Your Processor
- 6 - Maintaining and Troubleshooting Your Processor
- 7 - Memory Organization
- 8 - Scan Theory
- 9 - Relay-Like Instructions
- 10 - Program Control Instructions
- 11 - Timers and Counters
- 12 - Data Manipulation and Compare Instructions
- 13 - Three-Digit Math Instructions
- 14 - EAF Math Instructions
- 15 - EAF Log, Trig, and FIFO Instructions
- 16 - EAF Process Control Instructions
- 17 - Jump Instructions and Subroutines
- 18 - Block Transfer
- 19 - Data Transfer Instructions
- 20 - Bit Shift Registers
- 21 - Sequencers
- 22 - Selectable Timer Interrupts
- 23 - Report Generation
- 24 - Program Editing
- 25 - Programming Techniques
- 26 - Program Troubleshooting
- A - Specifications
- B - Processor Comparison Chart
- C - Number Systems
- D - Glossary
- E - Quick Reference
- Index
- Back Cover
EAF
Process Control Instructions
Chapter 16
16-3
This is accomplished by evaluating the PID equation whose output goes to
a control device. An additional value may be added to the control output
either as a bias to decrease offset when using proportional control, or as a
feedforward control value. The result of the calculation tends to drive the
quantity that you are trying to control towards the desired value (set point).
The PID Equation = Proportional Term + Integral Term + Derivative Term + Bias Term
Select either of two equations: the Dependent Gains equation or the
Independent Gains equation. Select the equation with which you are most
familiar. There is no difference in the control capabilities; you can achieve
comparable control with either equation. In the Dependent Gains equation,
a change in the proportional term affects the integral and derivative terms.
In the Independent Gains equation, you adjust the proportional, integral
and the derivative terms independently.
Dependent Gains
The Dependent Gains equation is an interactive algorithm that contains
variables dependent upon the controller gain. When you adjust your
controller gain (K
C
), you also change your integral and derivative terms.
CO + K
C
E )
1
Ti
ŕ
Edt ) T
D
[PVPV(n1)]
dt
) Bias
CO + K
C
E )
1
Ti
ŕ
Edt ) T
D
[EE(n1)]
dt
) Bias
t
0
t
0
or, if derivation of PV is selected:
where: C = control output
K
C
= controller gain constant (unitless)
Ti = integral time constant (minutes)
T
D
= derivative time constant (minutes)
dt = time between samples (minutes)
Bias = feedforward or output bias
E = error equal to (PV – SP) or (SP – PV)
E(n-1) = error from last sample
PV = process variable
PV(n-1) = process variable from last sample