MCL334: Difference between revisions
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| credits = 4 | | credits = 4 | ||
| credit_structure = 3-0-2 | | credit_structure = 3-0-2 | ||
| pre_requisites = ELL101 and APL106 or MCL141 | | pre_requisites = [[ELL101]] and [[APL106]] or [[MCL141]] | ||
| overlaps = 5% with MEL312 | | overlaps = 5% with [[MEL312]] | ||
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== MCL334 : Industrial Automation == | == MCL334 : Industrial Automation == | ||
Introduction to Automation technologies, applications around us and in manufacturing. Types of systems - mechanical, electrical, electronics; Sensors, Factory Automation Sensors, Electrical sensors, Process Automation Sensors and their interfaces; Hydraulics & Pneumatic Systems and components; Circuit design approach and examples; Sequence operation of more than two cylinders and motors; Electro Pneumatic & Electro Hydraulic Systems, Relay Logic circuits, Feedback control systems; Programmable Logic Controllers, programming languages & instruction set, ladder logic, functional blocks, structured text, and applications. Human Machine Interface & SCADA; Motion controller, stepper & servo motors, multi axes coordinated motion, CNC control; RFID technology and its application; Machine vision and control applications. Laboratory work will be hands-on design and operation of automatic systems. | Introduction to Automation technologies, applications around us and in manufacturing. Types of systems - mechanical, electrical, electronics; Sensors, Factory Automation Sensors, Electrical sensors, Process Automation Sensors and their interfaces; Hydraulics & Pneumatic Systems and components; Circuit design approach and examples; Sequence operation of more than two cylinders and motors; Electro Pneumatic & Electro Hydraulic Systems, Relay Logic circuits, Feedback control systems; Programmable Logic Controllers, programming languages & instruction set, ladder logic, functional blocks, structured text, and applications. Human Machine Interface & SCADA; Motion controller, stepper & servo motors, multi axes coordinated motion, CNC control; RFID technology and its application; Machine vision and control applications. Laboratory work will be hands-on design and operation of automatic systems. | ||
Latest revision as of 16:38, 14 April 2026
| MCL334 | |
|---|---|
| Industrial Automation | |
| Credits | 4 |
| Structure | 3-0-2 |
| Pre-requisites | ELL101 and APL106 or MCL141 |
| Overlaps | 5% with MEL312 |
MCL334 : Industrial Automation
Introduction to Automation technologies, applications around us and in manufacturing. Types of systems - mechanical, electrical, electronics; Sensors, Factory Automation Sensors, Electrical sensors, Process Automation Sensors and their interfaces; Hydraulics & Pneumatic Systems and components; Circuit design approach and examples; Sequence operation of more than two cylinders and motors; Electro Pneumatic & Electro Hydraulic Systems, Relay Logic circuits, Feedback control systems; Programmable Logic Controllers, programming languages & instruction set, ladder logic, functional blocks, structured text, and applications. Human Machine Interface & SCADA; Motion controller, stepper & servo motors, multi axes coordinated motion, CNC control; RFID technology and its application; Machine vision and control applications. Laboratory work will be hands-on design and operation of automatic systems.