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| Home - Under Graduate Programs - Department Of Instrumentation and Control Engineering |
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| Department Of Instrumentation & Control Engineering |
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| B.Tech Courses -
Instrumentation & Control Engineering |
| Objective |
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Will prepare graduates with the technical and managerial skills necessary to enter careers in design, manufacturing, marketing, operations, and maintenance in the fields of measurement, control, robotics, and automation engineering technology. Graduates of associate degree programmes, as a result of extensive laboratory experience in component/device operation, calibration and interconnection, have strengths in their |
Cmde.Saseendran, Director,
Fluid Control Research Institute, Kerela with Chancellor
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Knowledge of operations, maintenance, and manufacturing. |
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Qualified to undertake the design and specification of control systems and for the subsequent management of their installation and operation. |
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| Outcomes |
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The field of instrumentation and control systems engineering technology is heavily dependent on the application of computers in the analysis, design, and operation of manufacturing and processing facilities. |
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ability to: |
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Apply concepts of automatic control, including measurement, feedback and feed forward regulation for the operation of continuous and discrete systems, |
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Design and implement systems utilizing analog and/or digital control devices, |
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Apply the concepts of chemistry, physics, and electricity/electronics to measurement and control systems, |
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Apply the concepts of digital and microprocessor systems and functionality of system |
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components/devices for the automation of processes, |
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Apply the concepts of measurements and sensor selection, and |
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Communicate the technical details of control systems using current techniques and graphical standards. |
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Demonstrate the ability to |
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Apply the concepts of mechanics, fluid mechanics, and heat transfer to the design of process control systems, and |
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Understand and utilize programmeable logic controllers (PLC), distributed control systems (DCS) and supervisory control systems for control of manufacturing and processing systems. |
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Demonstrate the ability to recognize and apply the fundamental concepts of economics and management to problems in automatic control systems, and |
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Demonstrate the ability to utilize modern and effective management skills for performing investigation, analysis, and synthesis in the implementation of automatic control systems. |
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| Prospects |
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This is all pervasive application and solution providing branch using software to systematize and automate processes will continue even after artificial intelligence moves in. The economic conditions will marginally impact but cannot marginalize the profession. |
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| List Of Courses: |
| Engineering Graphics |
Fundamentals of computing |
| Materials Science |
Engineering Mechanics |
| Electrical Engineering |
Electronics Engineering |
| Signals and Systems |
Circuit Theory |
| Electron Devices |
Digital Techniques |
| Numerical Methods |
Sensors and Transducers |
| Industrial Instrumentation-I |
Analog Electronic Circuits |
| Thermo Dynamics and Fluid Mechanics |
Electrical and Electronic Measurements |
| Process Control |
Principles of Communication Systems |
| Microprocessors and Microcontrollers |
Analog Integrated Circuits |
| Computer Networks |
Control Systems |
| Modern Control Theory |
Industrial Instrumentation-II |
| Product Design and Development (T) |
Analytical Instrumentation |
| Digital Signal Processing |
Logic and Distributed Control Systems |
| MEMS and Nanotechnology |
Industrial Economics |
| Biomedical Instrumentation |
VLSI Systems |
| System Identification |
Power Electronics |
| Data Structures and Algorithms |
Neural Networks and Fuzzy Logic Control |
| Embedded Systems |
Automotive Instrumentation and Control |
| Virtual Instrumentation |
Optimization Techniques |
| Digital Control Systems |
Robotics |
| Sensor Networks |
Micro System Design |
| Advanced Process Control |
Smart Materials and Systems |
| Nonlinear Control |
Image Processing |
| ARM System Architecture |
Principles of Cryptography |
| Power Plant Instrumentation and Control |
Fault Detection and Diagnosis |
| Piping and Instrumentation Diagrams |
Computational Techniques in Control Engineering |
| Uncertainty Analysis in Engineering |
Display Systems |
| Network Multimedia Systems |
Probability and Computing |
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| Laboratories : |
| Engineering Practices Lab |
Computer Practice I |
| Electronics Lab |
Instrumentation Lab |
| Computer Practice II |
Electronic Circuits Lab |
| Circuits and Devices Lab |
Sensors and Transducers Lab |
| Thermo Dynamics and Fluid Mechanics Lab |
Analog Integrated Circuits Lab |
| Microprocessor and Microcontrollers Lab |
Interfacing Lab |
| Control Engineering Lab |
Product Design and Development (P) |
| Process Control Lab |
Instrumentation Lab |
| Project Work |
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