MR4112 Industrial Automation Laboratory Syllabus:

MR4112 Industrial Automation Laboratory Syllabus – Anna University PG Syllabus Regulation 2021

COURSE OBJECTIVES

1. To learn the basic operations in PLC.
2. To learn to integrate various sensors and actuators to PLC.
3. To apply the PLC controller to various systems through real-time applications.

LIST OF EXPERIMENTS

1. Experiments on Ladder Logic Program for Various Logic Gates AND, OR, NOT, NOR, NAND, EX-OR and EX-NOR.
2. Implement Various Mathematical Functions in PLC Using Ladder Diagram Programming Language.
3. Develop Ladder Diagram Programming to set Timer and Counter in PLC.
4. Experiments on Sensor and Actuator Interfacing and PLC to PLC Communication.
5. Experimental Verification of Speed Control Circuits in Pneumatic and Hydraulic Trainer.
6. Experimental Verification of Single and Double Acting Cylinder Circuits Using Different Directional Control Values.
7. Experimental Verification of Pneumatic Sequencing Circuits.
8. Experiments on Control of PLC Based Electro Pneumatic Sequencing Circuits.
9. Experiments on Control of PLC Based Electro Hydraulic Sequencing Circuits.
10. Develop PLC Program to Maintain the Pressure and Level in a Bottle Filling System.
11. Develop Ladder Diagram Program in PLC For Material Filling and Object Shorting.
12. Develop the Ladder Diagram Program in PLC for Material Handling, Delaying Conveyor, Pick and Place Operation.
Note : Any of the 10 experiments to be conducted

TOTAL: 30 PERIODS

LIST OF EQUIPMENT FOR A BATCH OF 30 STUDENTS:

 PLC Software -2 Users
 PLC Station with Communication Protocol, Sensors and Actuators – 2 No’s
 Electro Pneumatic Sequencing -1 Unit
 Electro Hydraulic Sequencing Circuits – 1 Unit
 PLC station with Pressure and Level in a Bottle Filling System – 1 Unit
 PLC station with Material Handling, Delaying Conveyor, Pick and Place Operation – 1 Unit.

COURSE OUTCOMES:

Upon completing this course Students able to
1. Understand and demonstrate PLC controller programming.
2. Analyse and Identify appropriate sensors and its integration with PLC for given applications.
3. Create a PLC controller system for given requirements

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