INSTRUMENTATION AND PROCESS CONTROL SYSTEM OF WATER LEVEL USING DISTRIBUTED CONTROL SYSTEM (DCS) HONEYWELL C300 ON PROCESS INSTRUMENTATION TRAINER (PIT) FEEDBACK PLANT
In Honeywell control system laboratory of electrical engineering program study in <br /> <br /> Institut Teknologi Bandung contained Distributed Control System (DCS) C300 <br /> <br /> Honeywell and Process Instrumentation Trainer (PIT) Feedback which has undeveloped <br /...
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id-itb.:307912018-06-26T14:40:29ZINSTRUMENTATION AND PROCESS CONTROL SYSTEM OF WATER LEVEL USING DISTRIBUTED CONTROL SYSTEM (DCS) HONEYWELL C300 ON PROCESS INSTRUMENTATION TRAINER (PIT) FEEDBACK PLANT ANDRIAN (NIM : 13213100), SAMUEL Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/30791 In Honeywell control system laboratory of electrical engineering program study in <br /> <br /> Institut Teknologi Bandung contained Distributed Control System (DCS) C300 <br /> <br /> Honeywell and Process Instrumentation Trainer (PIT) Feedback which has undeveloped <br /> <br /> yet to become closed loop control system. Using Distributed Control System (DCS) <br /> <br /> C300 Honeywell module and the Process Intrumentation Trainer (PIT) Feedback, can <br /> <br /> design four closed control system controls, one of which is a water level control system <br /> <br /> which is a single input output single (SISO) control system. The DCS acts as a PID <br /> <br /> controller that will also be connected to the computer as an interface between the <br /> <br /> operator and the control system. The DCS is also connected to sensors and actuators on <br /> <br /> the PIT. Specifications to be achieved in designing this level of control system is the <br /> <br /> maximum overshoot, settling time, steady state error and stability where for each control <br /> <br /> system has different specifications. An experiment and modeling of an open-loop control <br /> <br /> system was performed to obtain the transfer function of this control system. After getting <br /> <br /> the transfer function, simulation of controlling design using Matlab, where controller <br /> <br /> used in design of PID is root-locus, PID Tunner, IMC Tunning. When tested it will be <br /> <br /> seen how the response of closed loop control system and its comparison with the <br /> <br /> simulation result will be known. text |
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| description |
In Honeywell control system laboratory of electrical engineering program study in <br />
<br />
Institut Teknologi Bandung contained Distributed Control System (DCS) C300 <br />
<br />
Honeywell and Process Instrumentation Trainer (PIT) Feedback which has undeveloped <br />
<br />
yet to become closed loop control system. Using Distributed Control System (DCS) <br />
<br />
C300 Honeywell module and the Process Intrumentation Trainer (PIT) Feedback, can <br />
<br />
design four closed control system controls, one of which is a water level control system <br />
<br />
which is a single input output single (SISO) control system. The DCS acts as a PID <br />
<br />
controller that will also be connected to the computer as an interface between the <br />
<br />
operator and the control system. The DCS is also connected to sensors and actuators on <br />
<br />
the PIT. Specifications to be achieved in designing this level of control system is the <br />
<br />
maximum overshoot, settling time, steady state error and stability where for each control <br />
<br />
system has different specifications. An experiment and modeling of an open-loop control <br />
<br />
system was performed to obtain the transfer function of this control system. After getting <br />
<br />
the transfer function, simulation of controlling design using Matlab, where controller <br />
<br />
used in design of PID is root-locus, PID Tunner, IMC Tunning. When tested it will be <br />
<br />
seen how the response of closed loop control system and its comparison with the <br />
<br />
simulation result will be known. |
| format |
Final Project |
| author |
ANDRIAN (NIM : 13213100), SAMUEL |
| spellingShingle |
ANDRIAN (NIM : 13213100), SAMUEL INSTRUMENTATION AND PROCESS CONTROL SYSTEM OF WATER LEVEL USING DISTRIBUTED CONTROL SYSTEM (DCS) HONEYWELL C300 ON PROCESS INSTRUMENTATION TRAINER (PIT) FEEDBACK PLANT |
| author_facet |
ANDRIAN (NIM : 13213100), SAMUEL |
| author_sort |
ANDRIAN (NIM : 13213100), SAMUEL |
| title |
INSTRUMENTATION AND PROCESS CONTROL SYSTEM OF WATER LEVEL USING DISTRIBUTED CONTROL SYSTEM (DCS) HONEYWELL C300 ON PROCESS INSTRUMENTATION TRAINER (PIT) FEEDBACK PLANT |
| title_short |
INSTRUMENTATION AND PROCESS CONTROL SYSTEM OF WATER LEVEL USING DISTRIBUTED CONTROL SYSTEM (DCS) HONEYWELL C300 ON PROCESS INSTRUMENTATION TRAINER (PIT) FEEDBACK PLANT |
| title_full |
INSTRUMENTATION AND PROCESS CONTROL SYSTEM OF WATER LEVEL USING DISTRIBUTED CONTROL SYSTEM (DCS) HONEYWELL C300 ON PROCESS INSTRUMENTATION TRAINER (PIT) FEEDBACK PLANT |
| title_fullStr |
INSTRUMENTATION AND PROCESS CONTROL SYSTEM OF WATER LEVEL USING DISTRIBUTED CONTROL SYSTEM (DCS) HONEYWELL C300 ON PROCESS INSTRUMENTATION TRAINER (PIT) FEEDBACK PLANT |
| title_full_unstemmed |
INSTRUMENTATION AND PROCESS CONTROL SYSTEM OF WATER LEVEL USING DISTRIBUTED CONTROL SYSTEM (DCS) HONEYWELL C300 ON PROCESS INSTRUMENTATION TRAINER (PIT) FEEDBACK PLANT |
| title_sort |
instrumentation and process control system of water level using distributed control system (dcs) honeywell c300 on process instrumentation trainer (pit) feedback plant |
| url |
https://digilib.itb.ac.id/gdl/view/30791 |
| _version_ |
1822267566841659392 |