TY  - GEN
AB  - The proportional-integral-derivative (PID) controller is the heart of every control system in the process industry. Given the proper setup and tuning, the PID has proven to have the capability and flexibility needed to meet nearly all of industry's basic control requirements. However, the information to support the best use of these features has fallen behind the progress of improved functionality. Additionally, there is considerable disagreement on the tuning rules that largely stems from a misunderstanding of how tuning rules have evolved and the lack of recognition of the effect of automation system dynamics and the incredible spectrum of process responses, disturbances, and performance objectives. This book provides the knowledge to eliminate the misunderstandings, realize the difference between theoretical and industrial application of PID control, address practical difficulties, improve field automation system design, use the latest PID features, and ultimately get the best tuning settings that enables the PID to achieve its full potential.
AU  - McMillan, Gregory K.,
CN  - TS156.8
DO  - doi
ET  - Fourth edition.
ID  - 841658
KW  - Process control.
KW  - Feedback control systems.
KW  - adaptive control
KW  - advanced regulatory control
KW  - analyzer response
KW  - auto tuner
KW  - automation system
KW  - batch optimization
KW  - bioreactor control
KW  - cascade control
KW  - compressor control
KW  - control loop performance
KW  - control valve response
KW  - external reset feedback
KW  - feedforward control
KW  - inverse response
KW  - lambda tuning
KW  - level control
KW  - measurement response
KW  - pH control
KW  - PID control
KW  - PID execution rate
KW  - PID filter
KW  - PID form
KW  - PID structure
KW  - PID tuning
KW  - pressure control
KW  - process control
KW  - process disturbances
KW  - process dynamics
KW  - process interaction
KW  - process metrics
KW  - process nonlinearity
KW  - process performance
KW  - process response
KW  - proportional-integral-derivative controller
KW  - reactor control
KW  - runaway reaction
KW  - temperature control
KW  - valve deadband
KW  - valve position control
KW  - valve resolution
KW  - variable frequency drive response
KW  - wireless control
KW  - wireless response
LK  - https://univsouthin.idm.oclc.org/login?url=https://ebookcentral.proquest.com/lib/usiricelib-ebooks/detail.action?docID=1911737
N2  - The proportional-integral-derivative (PID) controller is the heart of every control system in the process industry. Given the proper setup and tuning, the PID has proven to have the capability and flexibility needed to meet nearly all of industry's basic control requirements. However, the information to support the best use of these features has fallen behind the progress of improved functionality. Additionally, there is considerable disagreement on the tuning rules that largely stems from a misunderstanding of how tuning rules have evolved and the lack of recognition of the effect of automation system dynamics and the incredible spectrum of process responses, disturbances, and performance objectives. This book provides the knowledge to eliminate the misunderstandings, realize the difference between theoretical and industrial application of PID control, address practical difficulties, improve field automation system design, use the latest PID features, and ultimately get the best tuning settings that enables the PID to achieve its full potential.
SN  - 9781606501719
T1  - Tuning and control loop performance /
TI  - Tuning and control loop performance /
UR  - https://univsouthin.idm.oclc.org/login?url=https://ebookcentral.proquest.com/lib/usiricelib-ebooks/detail.action?docID=1911737
ER  -