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GOVT.TOOL ROOM & TRAINING CENTRE SEMESTER: FIFTH
Course: DIPLOMA IN MECHATRONICS Syllabus -Theory and Practical Subjects
SL. CODE SUBJECTS Contact Hours/Week
Contact Hours/Semester
NO
1 DMCH VS 501
PROGRAMMABLE LOGIC CONTROLLER
4 64
2 DMCH VS 502
DESIGN OF MECHATRONICS SYSTEM
4 64
3 DMCH VS 503
INDUSTRIAL ENGG & MANAGEMENT
4 64
4 DMCH VS 504
CONTROL ENGG 4 64
Practicals
5 DMCH VS 505
PLC LAB 6 78
6 DMCH VS 506
INTERFACING LAB 6 78
7 DMCH VS 507
MATERIAL TESTING LAB 6 78
8 DMCH VS 508
PROFESSTIONAL PRACTICE LAB
6 78
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Scheme of Examination
Course: DIPLOMA IN MECHATRONICS
SI. No
Sub. Code
Subjects Contact Hours
per Week
Exam. Duration
Scheme of Examination
Total
Min marks
for passing
Exam Internal
Assessment
Theory Max Min Max Min
Marks Marks Marks Marks Marks
1 DMCH VS 501
PROGRAMMABLE LOGIC CONTROLLER
4 3 100 50 20 10 120 60
2 DMCH VS 502
DESIGN OF MECHATRONICS SYSTEM
4 3 100 50 20 10 120 60
3 DMCH VS 503
INDUSTRIAL ENGG & MANAGEMENT
4 3 100 50 20 10 120 60
DMCH VS 504
CONTROL ENGG 4 3 100 50 20 10 120 60
Practicals
5 DMCH VS 505
PLC LAB 6 3 100 50 20 10 120 60
6 DMCH VS 506
INTERFACING LAB
6 3 100 50 20 10 120 60
7
DMCH VS 507
MT LAB 6 3 100 50 20 10 120 60
8 DMCH VS 508
PP LAB 6 3 100 50 20 10 120 60
Total 40 24 800 400 160 80 960 480
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GOVT TOOL ROOM & TRAINING CENTRE DIPLOMA IN MECHATRONICS ENGINEERING
Programmable Logic Controller
Contact Hrs. /Week: 4 Contact Hrs. / Semester: 64 Subject Code: DMCH VS 501
Contents
Unit-I
Introduction and Architecture of PLC 12 Hours Introduction, Block diagram of PLC system, Classification of PLC, Relay Logic Control and PLC Logic Control, PLC advantages and disadvantages, Internal Architecture of PLC, I/O Modules (Interfaces), Memory organization.
Unit-II
Basic PLC Programming 10 Hours
Programming standards, PLC Input Instructions, Outputs: Coils, Indicators and others, Contact and Coil
Input/ Output Programming Examples, Relation of Digital Gate Logic to Contact/Coil Logic, Conversion
from word description to ladder diagram and vice-versa.
Unit-III PLC Arithmetic and Timer Functions 14 Hours PLC arithmetic functions (Addition, Subtraction, Multiplication & Division), Basic comparison function, Comparison functions in application process, Introduction to Timer functions, PLC timer functions, Applications of timing functions in process control -- On Delay Timer Function, Of-delay Timer Function, Limited on time Timer Function , Repeat cycling Timer (Pulsed Timer) Function, one shot Timer operation Function.
Unit-IV
PLC Counter Functions 12 Hours
Introduction, PLC counter functions, Applications of PLC counter function in process control -- Basic PLC Counter Operation , Dual Counter Operation ,Count and Time Program ,delay of the start of the Counting Process, Rate per Time Period Program Sequencer Function.
Unit-V
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Data Handling Functions and Shift Registers 12 Hours
Skip function, Master control relay function, Jump with non-return, Jump with return, MOVE function
and application, Block MOVE function and applications, FIFO Functions. Bit patters in a register,
changing a register big status, Shift Register functions, Shift Register applications -- Flashing Arrow
Patterns and Registers, Morse Code SR Patterns.
Unit-VI
Advanced PLC Operations 4 Hours
PID module, PLC and the Internet, SCADA system, Distributed Control System, Selection of PLC and its
Maintenance.
References.
1. “Programmable Logic Controllers Principles and Applications” by John W. Webb – Ronald A. Reis. , 5th
Edition, Published by PHI Publication.
2. “Introduction to PLC’s” by Gary Dunning, 3rd Edition, Thomson India Edition
3. “PLC’s” by W. Bolton, 4th edition.
4. Programmable Logic Controllers by Frank D Petruzella, 4th Edition, McGraw Hill Publications.
E-R eferences/ Urls
1) http://www.automazione.ingre.unimore.it/pages/corsi/materialedidattico/CMA1213meccatr
onica/IEC61131_1.pdf.
2) http://www.slideshare.net/indira_kundu/basics-of-automation-plc-and-scada. http://applicationofscada.blogspot.in/2012/05/introduction-of-power-plant.html
GOVT TOOL ROOM & TRAINING CENTRE DIPLOMA IN MECHATRONICS ENGINEERING
Design of Mechatronics System
Contact Hrs. /Week: 4 Contact Hrs. / Semester: 64 Subject Code: DMCH VS 502
Contents Unit-I INTRODUCTION TO MECHATRONICS SYSTEM DESIGN 10Hours Integrated design issues in Mechatronics, key elements: Information system, Mechanical system, Electrical system, Computer system, Sensors and Actuators, Real time interfacing, Mechatronics Design process, Advanced approaches in Mechatronics. Unit-II
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REAL TIME INTERFACING 6Hours Introduction, elements of Data Acquisition and Control System, overview of I/O process, Installation of I/O chard and software. Unit-III CASE STUDIES ON DATA ACQUISITION SYSTEMS 6Hours Testing of transportation bridge surface material, Transducer calibration systems for automotive application, Strain gauge weighing system, Solenoid displacement calibration systems and Rotary optical encoder. Unit-IV CASE STUDIES ON DATA ACQUISITION SYSTEMS AND CONTROL 6Hours Thermal cycle Fatigue of a Ceramic Plate, PH control system, De-Icing Temperature Control System, Skip control of CD player, speed control of a DC Motor and speed control of a Stepper Motor. Unit-V CASE STUDIES OF DESIGN OF MECHATRONICS PRODUCTS 12Hours Pick and Place robot, car park barrier system, Automatic Camera, car engine management system, Bar Code Reader, coin counter, automatic washing machine, automatic windscreen wiper in Car Systems, automatic room heating system, Intelligent Mechatronic Devices. Unit-VI ADVANCED APPLICATIONS 12Hours Sensors for condition monitoring, Mechatronic control in automated manufacturing, Artificial Intelligence in Mechatronics, Fuzzy logic applications in Mechatronics and Micro-Sensors in Mechatronics. References Books. 1. Devadas shetty,Richard A Kolk,”Mechatronics system design”, Thomson Learning Publishing
company,Vikas publishing house,2001 2. Bolton Mechatronics-Electronic control systems in Mechanical and Electrical engineering, Addison
Wesley Longman Ltd.,1999
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3. Brian Morris, Automated Manufacturing systems –Actuators, Controls, Sensors and Robotics, Mc Graw Hill International Edition 1995
4. Clarence de Silva_Mechatronics an Integrated Approach , click to download : http://een.iust.ac.ir/profs/Shamaghdari/Mechatronics/Resources/11- Silva_Mechatronics%20an%20Integrated%20Approach.pdf
e-References/ URLS http://www.allaboutcircuits.com/ http://www.allaboutcircuits.com/videos
GOVT TOOL ROOM & TRAINING CENTRE DIPLOMA IN MECHATRONICS ENGINEERING
Industrial Engg & Management Contact Hrs. /Week: 4 Contact Hrs. / Semester: 64 Subject Code: DMCH VS 503
Contents Unit-I Production Management 8 Hours Management- Functions of Management, Henry-Fayol’s principles of management, Functions of Manager, Organization- types of organization Production planning and Control (PPC) - Functions of PPC: planning, routing, scheduling, dispatching and Inspection , Productivity: factors to improve productivity Project Management - Market survey, Project planning, Project capacity, selection of site for project, Aids of project management-CPM (Critical path Method)- PERT (Program evaluation and review Technique). Cost analysis - Objectives of costing, Elements of costing, Material cost, Labor cost & Overheads,
Unit-II Material Management And Maintenance 8 Hours Material management- different methods of purchasing, Purchase procedure, Comparative statement, purchase order, Tender-Types of tender Inventory and Inventory control - Definition, Functions of inventory control, Steps involved in inventory control, ABC Analysis, Advantages of Inventory Control, Management Information System (MIS) - Objectives of MIS, Material Requirement Planning (MRP)-concept, applications. Enterprise resource planning (ERP) - concept, features and applications. Plant maintenance -Types of maintenance, Preventive maintenance, Break down Maintenance, Advantages and
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disadvantages, Total Productive Maintenance, benefits of TPM, Tools of TPM, planned maintenance and predictive maintenance.
Unit-III Total Quality Management 10 Hours
Quality Control - Factors affecting quality, Advantages of quality Control, Inspection, types of inspection, Total Quality Management -Principles of Total Quality Management, PDSA cycles, PDCA cycles, Quality Circles, Statistical Quality Control (SQC), - Acceptance sampling, Sampling inspection, TQM Tools- Control Charts, Histograms, Pareto Charts, Cause and effect diagram SIX SIGMA–Concepts, Benefits of Six Sigma, Quality Certification Systems- ISO 9000 series, (ISO 9000, ISO 9001, ISO9002, ISO9003 & ISO 9004,) ISO9000 quality certification procedure, Benefits of ISO Certification ISO-14000, Benefits of ISO-14000 Certification.
Unit-IV Modern Production Management Techniques 8 Hours
Lean Manufacturing- Objectives, types of wastes, Steps for lean Production, Benefits Just in Time-concepts and benefits, KANBAN production- concepts and benefits, Kaizen- concepts and benefits SAP (Systems Applications and Products) - concepts and benefits World class Manufacturing (WCM) - Basic concept-Principles of world class manufacturing Concurrent Engineering-Elements of Concurrent Engineering
Unit-V Industrial Relation And Labour Laws 8 Hours
Introduction to industrial relation -Objectives of industrial relation, International labour Organization (ILO), Objectives of ILO, The Indian Factories Act-1948-Important definitions, Health provisions, Safety provisions, Welfare provisions, working hour’s provisions.
The Payment of Wages Act 1936-Payment of wages, Deductions from salary, Imposition of Fine. The Minimum Wages Act 1948- Objectives, Provisions. The Apprentices Act 1961-Provisions under apprentice act The Workmen’s Compensation Act 1923- Important definitions, Provisions, Employers liability for compensation. The Employees State Insurance Act 1948- Objectives, Benefits to employees The Employees’ Provident Funds & Miscellaneous Provisions Act 1952- Salient features of the Act. The Payment of Gratuity Act 1972- Salient features of the act.
Unit-VI Occupational Health and Safety 10 Hours
Introduction to Occupational Safety, National safety council of India, Indian standard on OH& S management system, occupational health & safety management system (OHSAS), OHSAS 18001, How to use OHSAS 18001. Accident-causes for accident, Direct and indirect losses due to an accident, Steps to prevent accidents, Personal
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protective devices for Mechanical hazards, Role of safety officer in industry Fire safety-Fire prevention and Protection, Sources of Fire, Principles of fire extinguishing, A, B, C-Types of fire extinguishers. Electrical safety - Hazardous of Electricity, Safety precautions to prevent electrical shocks. Industrial Pollution- Air pollution, Water pollution, Noise pollution, Soil pollution, Sources, Effects and Prevention of above pollutions, Industrial wastes and their control. Environment - Climate change, Global warming, acid rain, Green house effect, ozone layer, depletion- Causes, effects and Preventive measures, National environmental Legislations
Sl.No. Title of Books Author Publication 1. Industrial Organization and
Engineering Economics
T.R.Banga & S C Sharma Khanna.Publishers
2. Production and operation
management-5th Edition
S N CHARY Mc Graw Hill
publication,
3. Industrial management and
organizational behavior
K.K.Ahuja -
4. Industrial management and
engineering economics
O.P.khanna Khannapublishers
5. Industrial Engineering and
Production management
M. MAHAJAN Dhanpat rai and co.
6. Production and operations
management
-Dr .K.Aswathappa and
Dr.Sreedhar Bhatt
Himalaya publishers
7. Safety Management in
Industry
Krishnan.N V Jaico Publishing
House, Bombay, 1997
8. Total Quality Management S Raja Ram, Shivashankar - 9. A hand book of Occupational
Safety and Industrial
Psychology
S.P.RANA, P.K.GOSWAMI,
Dr.INDU RATHEE
S. CHAND Publication
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References
e- References
1. https://www.youtube.com/watch?v=10S03_VkFmk 2. https://www.youtube.com/watch?v=yYIVumq6sVM 3. https://www.youtube.com/watch?v=XDrpfL1TkP0 4. https://www.youtube.com/watch?v=H58TPQNr2kM 5. https://www.youtube.com/watch?v=set2cb-TMA0 6. https://www.youtube.com/watch?v=uNNP60MEaYw 7. https://www.youtube.com/watch?v=mYq3tP7RArE 8. https://www.youtube.com/watch?v=CBFKBf1rOyo 9. https://www.youtube.com/watch?v=F7hk_sMings 10. https://www.youtube.com/watch?v=0Ld78M3hfjo&list=PLMiiHACprHh3AfvcbGoZSdF PLLciLcsCf 11. https://www.youtube.com/watch?v=DAQapF-F4Vw&list=PL678705AFF9E8064E
GOVT TOOL ROOM & TRAINING CENTRE DIPLOMA IN MECHATRONICS ENGINEERING
Control Engineering
Contact Hrs. /Week: 4 Contact Hrs. / Semester: 64 Subject Code: DMCH VS 504
Contents
Unit-I Introduction to Control Systems 4 Hours Introduction, Open loop control system,, Closed loop control system, Development of control systems,
Multivariable control system, Advantages of control systems
Unit-II Modeling of Physical Systems 8 Hours
Physical system, Physical model and Mathematical model, Differential equations: Mechanical translational
system, Mechanical rotational system, Thermal system, Liquid level system, Analogous systems (Force-Voltage
and Force-Current)
Unit-III Transfer functions, Block diagrams and Signal flow graphs 10 Hours
Introduction to Laplace transform, Definition of Laplace transform, Inverse of Laplace transform, Laplace
transform theorems, Laplace transform pairs, Transfer function, Procedure for deriving transfer functions, Block
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diagram algebra, Block diagram of a Single-input closed- loop system, Signal flow graphs: Signal flow graph of a
closed-loop system, Construction of signal flow graph, Mason’s Gain formula (only definition and equation)
Unit-IV Time response of feedback control systems 8 Hours
Transient response and Time response of control system, Standard test signals: Step signal, Ramp signal,
Parabolic signal, Impulse signal, Time response of first-order systems for step- signal, Time response
specifications, Performance indices for step response, Compensations in second and higher order systems (PD, PI
and PID controller), Lag-Lead Compensation
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Unit-V Stability – concepts and analysis and Root Locus Techniques 12 Hours
Concept of stability, Relative stability, Conditions for stability, methods determination of stability of linear
continuous data system (without involving root solving) of Routh-Hurwitz stability criterion, Introduction to Root
locus concept, Construction of Root loci, Construction rules, Breakaway points on real axis – analytical approach,
Breakaway points on real axis – graphical approach, Breakaway directions of Root locus branches, Determination
of roots from Root locus, Root contours
Unit-VI Frequency response and analysis 10 Hours
Introduction to Frequency response specifications, Polar plots, Bode plots, General procedure for constructing
Bode plots, All-pass and Minimum-phase systems, Log-magnitude versus phase plots
REFERENCE BOOKS:
1. I.J. Nagarath and M. Gopal, “Control Systems Engineering”, 5th edition, New Age International, New
Delhi,
2. Benjamin C. Kuo and Farid Golnaraghi, “Automatic Control Systems”, 8th edition, Wiley India, New
Delhi,
3. Katsuhiko Ogatta, “Modern Control Engineering”, 4th edition, Pearson Education, Bangalore,
4. Schaum’s Outline of Feedback and Control Systems
5.S N Verma, “Automatic Control System”, Khanna Publishers
e- Reference
1. http://www.site.uottawa.ca/~rhabash/ELG4152LN01.pdf
2. https://www.ent.mrt.ac.lk/~rohan/teaching/EN2142/Reading/DORFCH1.pdf
3. http://www.electrical4u.com/signal-flow-graph-of-control-system/
4. http://ocw.nctu.edu.tw/upload/classbfs1209114844102343.pdf
5. https://www.maplesoft.com/content/EngineeringFundamentals/11/MapleDocument_11/Blo
ck%20Diagrams,%20Feedback%20and%20Transient%20Response%20Specifications.pdf
6. http://lpsa.swarthmore.edu/Root_Locus/RLocusExamples.html
7. https://www.youtube.com/watch?v=CRvVDoQJjYI
8. http://www.me.ust.hk/~mech261/index/Lecture/Chapter_7.pdf
9. https://www.facstaff.bucknell.edu/mastascu/eControlHTML/Freq/Freq5.html
10. https://www.facstaff.bucknell.edu/mastascu/eControlHTML/Freq/Freq5.html
GOVT TOOL ROOM & TRAINING CENTRE DIPLOMA IN MECHATRONICS ENGINEERING
INTERFACING LAB
Contact Hrs. /Week: 6 Contact Hrs. / Semester: 78 Subject Code: DMCH VS 506
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Contents
List of Circuits to be build using Arduino or suitable Interfacing boards:
1. Blinking of an LED
2. Controlling the brightness of an LED Using a potentiometer
3. Create unique color combinations Using RGB LED
4. Create various lighting sequences by Connecting 8 LED
5. Giving an input using push buttons
6. Controlling the ON/OFF of an LED by Connecting photo resistor
7. Connecting temperature sensor and reading the output
8. Using PWM to control and rotate a servo
9. Using flex/force sensor to control and rotate a servo
10. Using soft potentiometer to control RGB LED
11. Switching ON/OFF a piezoelectric buzzer
12. Control spinning of motor
13. Control ON/OFF of a relay
14. Using a shift register to control eight LEDs
15. Using ultrasonic sensor module to activate buzzer
16. Using pressure sensor module to activate relay
17. Detecting vibration and knocks using sound and piezomodule
18. Build an Intelligent system Using accelerometer/gyroscope/ gsm/Bluetooth/IR
module/light sensor/LCD/keypad/camera/wifi……any other modules ( Any Two)
Scheme of valuation for SEE
Sl. No. Performance Max. Marks
1 Writing a Program for a given Task 30
2 Interfacing 40
3 Execution 30
Total 100
GOVT TOOL ROOM & TRAINING CENTRE
DIPLOMA IN MECHATRONICS ENGINEERING
MATERIAL TESTING LAB Contact Hrs. /Week: 6 Contact Hrs. / Semester: 78 Subject Code: DMCH VS 507 EXP-1 ROCKWELL HARDNESS TEST Objectives: To determine the Rockwell’s hardness number of the given specimen using
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“Rockwell Hardness Tester”. EXP-2 BRINNEL HARDNESS TEST Objectives: To determine Brinnel’s hardness number of given specimen using Brinnel Hardness Tester. EXP-3 VICKERS’S HARDNESS TEST Objectives: To determine the hardness of the given specimen using Vickers’s hardness test. EXP-4 IZOD IMPACT TEST Objectives: To determine the impact strength (Specific Impact Factor) through Izod test. EXP-5 CHARPY IMPACT TEST Objectives: To determine the impact strength (specific impact factor) through charpy test. EXP-6 TENSION TEST Objective: To study the behaviour of the given material under tensile load and to determine the following:- a) Percentage elongation in length.
b) Percentage reduction in area.
c) Working stress or permissible stress or safe stress.
d) Young’s Modulus
e) Yielding stress.
f) Ultimate stress or maximum tensile stress.
g) Breaking stress or failure stress.
EXP-7 COMPRESSION TEST Objective: To study the behaviour of given material under compressive load and to determine the following. a) Modules of elasticity.
b) Maximum Compressive strength or Ultimate Stress.
c) Percentage decrease in length.
d) Percentage increase in area.
EXP-8 BENDING TEST Objective: To Conduct Bending Test for the given specimen and to determine the following. a) Modules of elasticity.
b) Modulus of Rupture or Flexure modulus (Maximum bending stress at failure using bending
Equation).
c) Percentage decrease in length.
d) Percentage increase in area.
EXP-9 SHEAR TEST Objective: To determine the average and maximum shear strength of the given specimen when subjected to Double Shear.
EXP-10 TORSION TEST
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Objective: To Study the behaviour mild steel when subjected to a gradually increasing torque and to determine the rigidity modulus and modulus of rupture.
WEEKLY PLANS- MATERIAL TESTING LAB
EXP-Nos Week no Experiment description Remarks 1 1 - 2 Rockwell Hardness Test
2 3 - 4 Brinnel Hardness test
3 5 - 6 Vickers hardness test
4 7 - 8 IZOD impact test
5 9 - 10 Charpy Impact Test
6 11 - 12 Tensile test
7 13 - 14 Compression test
8 15 - 16 Bending Test
9 17 - 18 Shear Test
10 19 - 20 Torsion Test
GOVT TOOL ROOM & TRAINING CENTRE DIPLOMA IN MECHATRONICS ENGINEERING
PROFESSIONAL PRACTICE
Contact Hrs. /Week: 6 Contact Hrs. / Semester: 78 Subject Code: DMCH VS 508
Contents
Unit-I
Information Search and interpretation of Data Information search and interpretation of data should be done through manufacturer’s catalogue, websites,
magazines, books etc. and submit a report on any two topic.
Following topics are suggested (Any Similar topics may be considered):
• Engine lubricants & additives
• Automotive gaskets and sealants
• Engine coolants and additives
• Power steering
• Different drives/Transmission systems in vehicles
• Heat Exchangers
• Maintenance procedure for solar equipment
• 3G & 4G mobile communications
• E-waste disposal • Artificial Intelligence
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• Biometric Systems • PLC Applications • Microcontrollers and its application • Machine vision • Recycling of plastics and other waste material • Pneumatic tools and equipments
• Rain water harvesting • Nano technology • Traffic Control System
• Cloud computing Methodology
1. The student should individually select the topic, and search the information related to the topic. 2. The report is strictly hand written document to have knowledge of precise writing and report making
based on data interpretation 3. Carry out presentation using power point presentation.
Unit-II
Seminars
Seminar on any Two advanced technical topic should to be presented by individual student. Before the seminar
the student should submit a report of at least 10 pages and deliver a seminar by using power point
presentation(Presentation time – min10 minutes)
Methodology
1. The student should individually select the topic, and get it approved from Course coordinator 2. The student should prepare a report and get it corrected from Course coordinator before Presentation 3. Carry out presentation using power point presentation
Unit-III
Group Discussion The students should discuss in a group of six to eight and write a brief report on the same. Two topics for group
discussions may be selected by the faculty members.
Some of the suggested topics are (Any Similar topics may be considered):
• Sports
• Current news items
• Discipline and House Keeping
• Current topics related to Mechatronics engineering field.
• Solar Vehicles / Electric Vehicles.
• Auto Vehicles – Comparison.
• Recycling of plastics and other waste material
• Creativity and innovativeness
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• Energy conservation in institutes
• Value engineering
• Revolution in communication technology
• CNG versus LPG as a fuel.
• Load shading and remedial measures.
• Rain water harvesting.
• Disaster management.
• Safety in day to day life.
• Energy Saving in Institute.
• Nano technology.
• Polythene bags must be banned
• Do we really need smart cities • E – Books or Printed books
• Globalization and its impact on Indian Culture. • Analytically evaluate the solutions to traffic problems • Global warming is caused more by developed countries • Rain forests help in maintaining the earth’s ecosystem • How to deal with terrorism • Water resources should be nationalized • Nuclear power is a safe source of energy • Electronic media vs. print media • Privatization will lead to less corruption. • China market - a threat to Indian market • Smaller businesses and start-ups have more scope • Freedom of press should exist • India needs a strong dictator • Mobile phones - requirement of the day. • The medium of teaching in schools should be English • E-Learning is good for the education system and society
Methodology
1. The course coordinator should allot a topic for a group of six to eight students 2. The course coordinator should give an introductory talk on Ways and rules to carry out group discussion 3. The placement officer , any other senior faculty of the institute, HOD of other department should be
invited and they should act as observing members, apart from course coordinator 4. The course coordinator should fix up the time duration for conducting the activity
Unit-IV
Lectures by Professional / Industrial Expert The students should participate in Lectures by Professional / Industrial Expert and write a brief report on the same. (Minimum Two Lectures should be arranged in a semester) Some of the suggested topics are (Any Similar topics may be considered):
• Pollution control.
• Non destructive testing.
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• Acoustics.
• Illumination / Lighting system.
• Fire Fighting / Safety Precautions and First aids.
• Computer Networking and Security.
• Traffic Control System
• Communication in Industry
• Yoga and Meditation
• Aids awareness and health awareness
• micro processor based instrumentation in Automobiles
• Earth moving machines.
• Automated Guided Vehicles (AGV)
• Career opportunities in Service sector, Marketing, Surveyor, Insurance, R&D, call canters, CAD,
NDT, Railways, Defence, Aeronautics, Marine, Software development, Information Technology
etc
• Continuing education / Open university Programs
• Use of a plastics in automobiles
• Nonferrous Metals and alloys for engineering application
• Selection of electric motors for various applications.
• Computer aided drafting.
• Industrial hygiene.
• Composite Materials.
• Heat treatment processes
• Safety Engineering and Waste elimination
• Interview Techniques.
• Transducer application in automobiles.
• Vehicle aerodynamics & design.
• Biotechnology
• Nanotechnology
• Rapid prototyping
• Programmable logic controllers
• TQM
• MPFI
• Hybrid motor vehicles
• Packaging technology
• Cloud computing
• Safety awareness on driving
• Program on Personality development
• Computer Networking and Security Methodology
1. The course coordinator should fix up the date for guest lecture. 2. The HOD of the department should chair the event. 3. The students are allowed participating in the session. 4. Each students should prepare the brief hand written report on the guest lecture and submit to the
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course coordinator 5. Record of the guest lecture by using any smart devices.
Unit-V
Students Activities in a Team The students in a group of 3 to 4 should perform any Two activities and present a report as a part of term work:
Some of the suggested topics are (Any Similar topics may be considered):
• Collect and study IS code for Engineering Drawing.
• Collecting information from Market regarding Nomenclatures and specifications of engineering
materials.
• Draw orthographic projections of a given simple machine element using and CAD software
• Collect and study Failure data for automobile / machines / equipments.
• Study of Hydraulic system for any one application like – dumpers, Earth moving equipment,
Auto service station.
• Survey of oils used for hydraulic circuits – specifications, properties, costs, manufacturers
names etc.
• Study any one type of CNC machining center and prepare report on tooling and tool holding
devices
• For a given job write a sequence of operations performed by automated manufacturing
system. Draw a block diagram of control system to perform above operations
• Compare non traditional methods on the basis of working principles, accuracy , MRR,
Applications and limitations a) EBM b) PAM C)AJM d)WJM
• Collection of data regarding loan facilities or other facilities available through different
organizations / banks to budding entrepreneurs
• Survey and interviews of successful entrepreneurs in near by areas
• Survey of opportunities available in thrust areas identified by Government
• Measuring Screw thread parameters on floating carriage dial micrometer and select the
optimum diameter of wire.
• Survey of data regarding different types of pumps with specifications from manufacturers
catalogue, local markets, end users (any other engineering products may be considered for
survey
• Survey for local social problems such as mal nutrition, unemployment, cleanliness, illiteracy etc
Methodology
1. The student should individually select the topic, and get it approved from Course coordinator 2. The student should prepare a report on performance of an activity and get it corrected from Course
coordinator before Presentation 3. Carry out presentation using power point presentation
Scheme of Valuation for SEE
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Sl. No. Description Marks
1 Survey report on Information Search and Data Interpretation 20
2 Participation report on seminars 20
3 Recording of Group discussions made by any smart devices 20
4 Participation report on expert lecture and similar activities 20
5 Report on team work 20
TOTAL 100