Allen-Bradley LOGIX 5000 Reference Manual page 177
Controllers advanced process control and drives and equipment phase and sequence instructions
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Also See for LOGIX 5000:
- Programming manual (92 pages) ,
- Instruction manual (676 pages) ,
- Reference manual (172 pages)
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Process Control Instructions
CV2ROCLimitInv
BOOL
CV3ROCLimitInv
BOOL
CV1HandFBInv
BOOL
CV2HandFBInv
BOOL
CV3HandFBInv
BOOL
CV1ModelGainInv
BOOL
CV2ModelGainInv
BOOL
CV3ModelGainInv
BOOL
CV1ModelTCInv
BOOL
CV2ModelTCInv
BOOL
CV3ModelTCInv
BOOL
CV1ModelDTInv
BOOL
CV2ModelDTInv
BOOL
CV3ModelDTInv
BOOL
CV1RespTCInv
BOOL
CV2RespTCInv
BOOL
CV3RespTCInv
BOOL
CV1TargetInv
BOOL
CV2TargetInv
BOOL
CV3TargetInv
BOOL
Description
Coordinated Control is a flexible model-based algorithm that can be used in
various configurations, for example:
•
Three control variables are used to control one process variable
•
Heat-cool split range control
•
Feedforward control
•
Zone temperature control
•
Constraint control
Rockwell Automation Publication 1756-RM006K-EN-P - November 2018
CV2ROCLimit < 0, disables CV2 ROC
limiting.
CV3ROCLimit < 0, disables CV3 ROC
limiting.
CV1HandFB < 0 or > 100. Limit
value used for CV1.
CV2HandFB < 0 or > 100. Limit
value used for CV2.
CV3HandFB < 0 or > 100. Limit
value used for CV3.
CV1ModelGain is 1.#QNAN or -
1.#IND (Not A Number), or ± 1.$
(Infinity ∞ ).
CV2ModelGain is 1.#QNAN or -
1.#IND (Not A Number), or ± 1.$
(Infinity ∞ ).
CV3ModelGain is 1.#QNAN or -
1.#IND (Not A Number), or ± 1.$
(Infinity ∞ ).
CV1ModelTC < 0.
CV2ModelTC < 0.
CV3ModelTC < 0.
CV1ModelDT < 0.
CV2ModelDT < 0.
CV3ModelDT < 0.
CV1RespTC < 0.
CV2RespTC < 0.
CV3RespTC < 0.
CV1Target < 0. or > 100.
CV2Target < 0. or > 100.
CV3Target < 0. or > 100.
Chapter 1
177
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- Function Generator (Fgen)
- Enhanced Pid (Pide)
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