6025: Industrial Automation & Mechatronics KL Diploma Syllabus for Tool & Die 6th Sem 2015 Revision SITTTR

Industrial Automation & Mechatronics detailed syllabus for Tool & Die Engineering (Tool & Die) for 2015 revision curriculum has been taken from the SITTTRs official website and presented for the Tool & Die students. For course code, course name, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For Tool & Die Engineering 6th Sem scheme and its subjects, do visit Tool & Die 6th Sem 2015 revision scheme. The detailed syllabus of industrial automation & mechatronics is as follows.

Course Outcomes:

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SPECIFIC OUTCOME

MODULE I

1. Understand the Industrial Automation and its Applications
   1. Define automation
   2. Describe reasons for automation
   3. Explain the advantage and disadvantages of automation
   4. Explain fixed, programmable and integrated automation
   5. Describe basic elements of an automated system
   6. Describe future challenges of automation
2. Understand the mechatronic system, usage and advantages of mechatronics
   1. Define Mechatronics
   2. List the advantages and disadvantages of mechatronics
   3. Explain mechatronic products
   4. Explain mechatronics block diagram
   5. Describe the application of mechatronics in engineering
3. Comprehend the traditional Automation and mechatronic system
   1. Explain the traditional Automation system
   2. Explain mechatronic system
   3. Describe the measurement system
   4. Describe elements of measurement system
   5. Describe the elements of control system
4. Explain open loop and closed loop control system
   1. Describe the elements of closed loop control system
   2. Distinguish open loop and closed loop control system
5. Distinguish traditional and Mechatronics design
   1. Describe the elements of product design

MODULE II

1. Understand the principles of transducers and sensors
   1. Define sensors and transducers
   2. Explain static and dynamic characteristics
   3. Describe the performance terminology
2. Describe the displacement, position, proximity sensors
   1. Explain eddy current proximity sensors
   2. Explain inductive proximity (sensor . switch
   3. Explain optical encoders
   4. Explain incremental encoders
   5. Explain absolute encoders
   6. Explain tachogenerator
3. Describe the fluid pressure measurement devices
   1. Explain liquid flow sensors
   2. Explain liquid level sensors
   3. Explain temperature sensors
   4. Explain light sensors
   5. Explain the selection of sensors
4. Inputting data by switches – mechanical switches.
5. Explain debouncing of mechanical switches.

MODULE III

1. Comprehend the working of Control valves and actuators
   1. Describe the actuation system
   2. Describe hydraulic and pneumatic power supplies
   3. Explain control valves with their symbolic representation
   4. Explain directional, pressure and flow control valves
   5. Explain process control valve
   6. Explain pilot operated control valve
2. Explain linear actuators
   1. Describe the hydraulic and pneumatic cylinders
   2. Explain control of single acting and double acting cylinder
   3. Explain control valve operating a lift system
   4. Explain pressure sequence valve- A sequencing system
   5. Describe Sequencing of two double acting cylinder
   6. Describe rotary actuators
3. Explain electrical actuation systems
   1. Explain mechanical switches
   2. Explain solid state switches
   3. Explain basic principles of D C motors A C motors

MODULE IV

1. Understand the concepts of Programmable Logic Controllers
   1. Define the programmable logic controller
   2. Describe features of PLC
   3. Explain the basic components of PLC with block diagram
   4. Explain input – output processing
   5. List the programming language of PLC
   6. Explain ladder diagram
   7. Explain mnemonics
   8. Explain timers – internal relays and counters
   9. Explain working of shift register
   10. Explain master and jump controls
   11. Explain data handling
   12. Explain selection of PLC
   13. Explain microprocessor and micro controller with block diagram.
   14. Distinguish between microprocessor and micro controller.
2. Understand the techniques of Fault finding in mechatronic system
   1. Explain common fault detection techniques with measurement, control system and Data communication systems.
   2. Explain common hardware faults
   3. Describe the Fault detection techniques in microprocessor
3. Comprehend the mechatronic system approach with case study
   1. Explain the possible mechatronic design solutions
   2. Explain the principle of timed switch and bath room scale.

MODULE-I

For the complete syllabus, results, class timetable, and many other features kindly download the iStudy App
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MODULE- II

Sensors and Transducers: Sensors and Transducers – Performance terminology- range and span -error – accuracy -sensitivity – hysteresis error – non linearity error – reproducibility – stability – dead band -resolution and output impedance. Displacement, position and proximity sensors – eddy current proximity sensors, inductive proximity sensors -proximity switches -micro switch ,reed switch, photo sensitive switch and mechanical switch- optical encoders- incremental and absolute encoders- tachogenerator- fluid pressure measurement devices – diaphragm, bellows and tube pressure sensors – liquid flow sensors – orifice plate, turbine meters -float sensors-temperature sensors -bimetallic strips, resistance temperature detectors – thermistors -thermo couples- light sensors -photo diodes ,photo transistors and photo resistors – selection of sensors – inputting data by switches – mechanical switches – debouncing of mechanical switches

MODULE III

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MODULE IV

Programmable Logic Controller definition -block diagram- Input / Output processing – Programming – mnemonics – Timers, internal relays and Counters – shift register – Master and jump controls – Ladder logic circuit -Data handling- selection of PLC – Microprocessor and Microcontrollers – Applications. Mechatronics systems and Fault finding Fault finding – Fault detection techniques – common hardware faults. – Possible design solutions -Timed switch – bathroom scales. Course Content Describe Stepper Motor.

Text Books:

For the complete syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
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Reference Books:

1. Kushdeep Goyal & Deepak Bandari – Industrial Automation & Robotics-S.K.Kataria & sons K.P.Ramachandran – Mechatronics – wiley India Pvt Ltd – E.K.Vijayaraghavan-
2. Mechatronics in Manufacturing System- John wiley and sons R.Theagaraj- Microprocessor and Micro controller- Scitech Publications.
3. N. Shanmugam- Mechatronics- , Anuradha Publications
4. D. S. Kumar, Satya Prakasan & Tech India Pub.
5. Bolton – Mechatronics, Pearson Education Asia ThirdEdition –

For detailed syllabus of all other subjects of Tool & Die Engineering, 2015 revision curriculum do visit Tool & Die 6th Sem subject syllabuses for 2015 revision.

To see the syllabus of all other branches of diploma 2015 revision curriculum do visit all branches of SITTTR diploma 2015 revision.