ELECTRONICS AND INSTRUMENTATION ENGINEERING ...

B.Tech. (Full Time) – ELECTRONICS AND INSTRUMENTATION ENGINEERING Curriculum & Syllabus 2007-08

Faculty of Engineering & Technology SRM University SRM Nagar, Kattankulathur – 603 203 SRM UNIVERSITY

B.Tech. ELECTRONICS AND INSTRUMENTATION (FULL TIME) 2007-08 CURRICULUM AND SYLLABUS SEMESTER I Code Category Theory LE0101 G MA0101 B PH0101 B CY0101 B GE0101 E Practical PD0101 G GE0107 G PH0103 B CY0103 B GE0105 B ME0120/ME0130 E Total Total Contact hours

SEMESTER II Code Theory GE0108 GE0102 GE0104 MA0102 PH0102 GE0106 EI0102 Practical PD0102 CS0140 ME0130/0120

Course

L

T

P

C

English Mathematics –I Physics Chemistry Basic Engineering –I

1 3 3 3 4

0 2 0 0 0

2 0 0 0 0

2 4 3 3 4

0 0 0 0 0 0/1 14/15

1 0 0 0 0 0 3 31/32

0 2 2 2 2 4 14

0 1 1 1 1 2/3 22/23

Course

L

T

P

C

G B B B B E P

Value Education Biology for Engineers Principles of Environmental Science Mathematics –II Materials Science Basic Engineering-II Electronic Devices

1 2 2 3 2 4 3

0 0 0 2 0 0 0

0 0 0 0 2 0 0

1 2 2 4 3 4 3

G B E

Personality Development - II * Computer Practice Engineering Graphics / Workshop Practice Devices Lab

0 1 1/0

0 0 0

2 2 4

0 2 3/2

0 19/18

0 2 34/33

3 13

1 25/24

Category

EI0110 Total Total Contact hours

P

Personality Development - I * NCC/NSS/ NSO /YOGA Physics Laboratory Chemistry Laboratory Computer Literacy Workshop practice/Engineering Graphics

G: General programme comprising language/communication skills, humanities and social sciences, economics and principles of management, and NSS/NCC/NSO/YOGA. B: Basic sciences comprising Computer Literacy with Numerical Analysis, Mathematics, Physics, and Chemistry. E: Engineering Sciences and Technical Arts comprising Engineering Graphics, Workshop Practice, Basic Engineering, etc. P: Professional subjects corresponding to the Branch of Studies, which will include core subjects, electives, and project work. *

Audit course

1

EI – 07-08 – SRM – E&T

SEMESTER III Code Theory LE0201/0203/0205 MA0211 CE0221 EI0201 EI0203 EI0205 EI0207 Practical PD0201 EI0213 EI0215 Total Total Contact hours

SEMESTER IV Code Theory LE0202/0204/0206

Category

Course

L

T

P

C

2

0

0

2

B E P P P P

German or Japanese or French Language Phase I Mathematics-III Engineering Mechanics Electrical Machines Digital Systems Electronic Circuits Electric Circuits and Networks

3 3 3 3 3 3

2 0 0 0 0 0

0 0 0 0 0 0

4 3 3 3 3 3

G P P

Personality Development - III Circuits Lab Electrical and Electronics Lab

0 0 0 20

0 0 0 2 30

2 3 3 8

1 1 1 24

Course

L

T

P

C

2

0

0

2

3 3 3 3 3

2 0 0 0 0

0 0 0 0 0

4 3 3 3 3

3

0

0

3

0 0 0 20

0 0 0 2 30

2 3 3 8

1 1 1 24

G

Category G

MA0212 ME0232 EI0202 EI0204 EI0206

B E P P P

EI0208 Practical PD0202 EI0212 EI0214 Total Total Contact hours

P

German or Japanese or French Language Phase II Probability And Queuing Theory Thermodynamics and Fluid Mechanics Linear Integrated Circuits Transducers Engineering Electrical and Electronics Measurements and Instrumentation Communication Engineering

G P P

Personality Development - IV Linear and Digital Integrated Circuits Lab Transducer Engineering Lab

*An industrial training of minimum two weeks has to be undergone by the student in the winter/summer vacation of the III/IV semester. SEMESTER V Code Theory MB0301 EI0303 EI0305 EI0307 EI0309 EI0311 Practical PD0301 EI0313 EI0315 EI0317

Category

Course

L

T

P

C

G P P P P P

Engineering Economics and Management Industrial Instrumentation Control Systems Microprocessors & Micro Controllers Analytical Instrumentation Digital Signal Processing

3 3 3 3 3 3

0 0 0 0 0 0

0 0 0 0 0 0

3 3 3 3 3 3

G P

Personality Development – V Microprocessors & Micro Controllers Lab Control Engineering Lab Computer skills/-

1 0

0 0

2 3

2 1

0 0

0 0

3 4/-

1 2/-

P P

2

EI – 07-08 – SRM – E&T

EI0319 P Comprehension-I 0 2 0 EI0321 P Industrial Training – I* 0 0 2 Total 19 2 14/10 Total Contact hours 35/31 *An industrial training of minimum two weeks has to be undergone by the student in the winter/summer vacation of the III/IV semester. SEMESTER VI Code Category Theory EI0302 P EI0352 P EI0304 P EI0306 P EI0308 P EI0XXX P Practical PD0302 G EI0312 P EI0314 P EI0316 P EI0318 P Total Total Contact hours SEMESTER VII Code Category Theory EI0401 P EI0403 P EI0405 P EI0XXX P EI0XXX P Practical EI0413 P EI0415 P EI0417 P Total Total Contact hours

1 1 26/24

Course

L

T

P

C

Power Electronics VLSI Design and Embedded Systems Digital System Design Process Control Industrial Drives and Control Elective – I

3 3 3 3 3 3

0 0 0 0 0 0

0 0 0 0 0 0

3 3 3 3 3 3

Personality Development - VI Electronic Design Project Lab Process Control Lab Computer skills Comprehension-II

1 0 0 0 0 19

0 0 0 0 2 2 29/33

2 3 3 -/4 0 8/12

2 1 1 -/2 1 23/25

Course

L

T

P

C

Virtual Instrumentation Computer Control of Processes PLC & DCS Elective-II Elective – III

3 3 3 3 3

0 0 0 0 0

0 0 0 0 0

3 3 3 3 3

Virtual Instrumentation Lab PLC Lab Industrial Training – II**

0 0 0 15

0 0 0 0 23

3 3 2 8

1 1 1 18

**An industrial training of minimum two weeks has to be undergone by the student in the winter/summer vacation of the V/VI semester. SEMESTER VIII Code Category Theory EI0XXX P EI0XXX P Practical EI0444 P Total Total Contact hours Summary Table Semester I II

Total G B E

22/23 3 13 6/7

25/24 1 13 7/6

Course

L

T

P

C

Elective – IV Elective – V

3 3

0 0

0 0

3 3

Project Work

0 6

0 0 18

12 12

8 14

III

IV

V

VI

VII

VIII

Total

%

24 3 4 3

24 3 4 3

26/24 5 0 0

23/25 2 0 0

18 0 0 0

14 0 0 0

176 17 34 19

100 9.65 19.1 10.79

3

EI – 07-08 – SRM – E&T

P

0

4

14

14

21/19

21/23

18

14

106

TOTAL CREDITS TO BE EARNED FOR THE AWARD OF THE DEGREE:

60.23 176

LIST OF ELECTIVES VI SEMESTER

Code

Course

EI0350 EI0352 EI0354 EI0356

Micro Controller Based System Design. Bio-Medical Instrumentation Modern Control Systems Signal Processing and Telemetry

EC0364

Digital Communication

EI0358 EI0360

Fiber Optics and Laser Instruments Computer Networks

L 3 3 3 3 3 3

T 0 0 0 0 0 0

P 0 0 0 0 0 0

C 3 3 3 3 3 3

3

0

0

3

0 0 0 0 0 0

P 0 0 0 0 0 0

C 3 3 3 3 3 3

0 0 0 0 0 0 0

P 0 0 0 0 0 0 0

C 3 3 3 3 3 3 3

VII SEMESTER

Code

Course

EI0451 EI0453 EI0457 EI0459 EI0461 EI0463

Robotics and Automation. Real-Time and Embedded Systems Instrumentation in Aerospace and Navigation. Power Plant Instrumentation. Neural Networks and Fuzzy Control. Instrumentation and Control in Paper Industry

L 3 3 3 3 3 3

T

L 3 3 3 3 3 3 3

T

VIII SEMESTER

Code

Course

EI0450 EC0464 EI0452 EI0454 EI0456 EI0458 EI0460

Artificial Intelligence and Expert Systems. Digital Image Processing. Advanced Control Theory. Automotive Electronics Personal Computer System. Instrumentation and Control in Petrochemical Industries. Instrumentation and Control in Iron & Steel Industries.

4

EI – 07-08 – SRM – E&T

SYLLABUS SEMESTER – I LE 0101

L 1

ENGLISH Prerequisite Nil

T 0

P 2

C 2

PURPOSE To provide an adequate mastery of communicative English Language training primarily - reading and writing skills, secondarily listening and speaking skills. INSTRUCTIONAL OBJECTIVES To provide language training to the engineering students which will enable them to understand and acquire knowledge in technical subjects. LISTENING Listening Practice – Hints on Listening – Listening Practice Note Taking: Note Taking Strategies SPEAKING Definitions: Expressing Opinions (agreement / disagreement )-Offering Suggestions – Technical Definitions – Describing Objects – speaking practice.Phonetics: Pronunciation-Phonetic Transcription-Stress-Intonation READING Comprehension: Skimming-scanning-close reading-Comprehension – Transferring Information – Exercise – An unseen passage should be given and questions may be asked in the form of True or False statements, MCQ, short answers. Transcoding : Interpreting tables, flow charts, piechart, bar diagram, tree diagram, graphs. WRITING Art of Writing : Writing Language – Rules for effective writing – Technical Essay Writing – Exercise Report Writing : Technical Writing – Lab Report – Exercise Letter Writing : Formal Letters – Letter to the Editor – Letter Inviting Dignitaries – Letter of Application Curriculum Vitae – Placing an Order. Dialogue Writing FOCUS ON AND COMMUNICATION AND “COMPUNICATION” Communication : Basic Concepts – Process – Kinds – Routes – Forms – Factors – Barriers – Triangles Communication (Communicate through Computers – Power Point & Tele Conference). INTERNAL ASSESSMENT Based on the submission of Assignments and test performance of the students marks will be awarded. TEXT BOOKS 1. Abraham Benjamin Samuel, Practical Communication Communicative English LSRW2000, SRMEC – June 2006 Revised Edition. 2. Staff of the Department of Humanities and Social Science, Anna University, English for Engineers / Technologist Vol.,. Orient Longman, 1990. REFERENCE BOOKS 1. Herbert. A. J, The structure of Technical English, Orient Longman 1995. 2. Pickett and Laster, Technical English, Writing, Reading and Speaking, New York Harper and Row Publications, 1997 Interactive course in phonetics and spoken English, published by Acoustics Engineers (ACEN) 2002. 3. Munter, Mary, Business Communication Strategy and Skill, Prentice Hall Inc., New Jersey, 1987.

5

EI – 07-08 – SRM – E&T

MA 0101

L 3

MATHEMATICS -I Prerequisite Nil

T 2

P 0

C 4

PURPOSE To impart analytical ability in solving mathematical problems as applied to the respective branches of Engineering. INSTRUCTIONAL OBJECTIVES At the end of the course, student should be able 1. 2. 3. 4. 5.

To apply advanced matrix knowledge to Engineering problems. To improve their ability in solving geometrical applications of differential calculus problems. To equip themselves familiar with the functions of several variables. To familiarize with the applications of differential equations. To expose to the concept of three dimensional analytical geometry.

MATRICES Characteristic equation – Eigen values and eigen vectors of a real matrix – Properties of eigen values – Caley – Hamilton theorem – Orthogonal reduction of a symmetric matrix to diagonal form – Orthogonal matrices – Reduction of quadratic form to canonical form by orthogonal transformations. GEOMETRICAL APPLICATIONS OF DIFFERENTIAL CALCULUS Curvature – Cartesian and polar coordinates – Circle of curvature – Involutes and Evolutes – Envelopes – Properties of envelopes. FUNCTIONS OF SEVERAL VARIABLES Function of two variables – Partial derivatives – Total differential – Taylor’s expansion – Maxima and Minima – Constrained Maxima and Minima by Lagrangean Multiplier method – Jacobians ORDINARY DIFFERENTIAL EQUATIONS Simultaneous first order linear equations with constant coefficients – Linear equations of second order with constant and variable coefficients – Homogeneous equation of Euler type – Equations reducible to homogeneous form. THREE DIMENSIONAL ANALYTICAL GEOMETRY Direction cosines and ratios – Angle between two lines – Equation of a plane – Equation of a straight line – Coplanar lines – Shortest distance between skew lines – Sphere – Tangent plane – Plane section of a sphere – Orthogonal spheres. TEXT BOOK 1. Grewal B.S, Higher Engg Maths, Khanna Publications, 38th Edition., Veerajan, T., Engineering Mathematics, Tata McGraw Hill Publishing Co., New Delhi,2000. 2. Dr.V.Ramamurthy & Dr. Sundarammal Kesavan,, Engineering Mathematics – Vol I & II, Anuradha Publications, Revised Edition 2006. REFERENCE BOOKS 1. Kreyszig.E, Advanced Engineering Mathematics, 8th edition, John Wiley & Sons. Singapore,2001. 2. Kandasamy Petal., Engineering Mathematics, Vol.I (4th revised edition), S.Chand &Co., New Delhi,2000. 3. Narayanan S., Manicavachagom Pillay T.K., Ramanaiah G., Advanced Mathematics for Engineering students, Volume I (2nd edition), S.Viswanathan Printers and Publishers, 1992. 4. Venkataraman M.K., Engineering Mathematics – First Year (2nd edition), National Publishing Co., Chennai,2000.

6

EI – 07-08 – SRM – E&T

PH 0101

L 3

PHYSICS Prerequisite Nil

T 0

P 0

C 3

PURPOSE The purpose of this course is to develop scientific temper and analytical capability through learning physical concepts and their applications in engineering and technology. Comprehension of some basic physical concepts will enable the students to logically solve engineering problems. INSTRUCTIONAL OBJECTIVES At the end of the course, the student will be able to: 1. Understand the general scientific concepts required for technology. 2. Apply the concepts in solving engineering problems. 3. Explain scientifically the new developments in engineering and technology. 4. Get familiarized with the concepts, theories, and models behind many technological applications. PROPERTIES OF MATTER AND SOUND Properties of Matter: Hooke’s law – Twisting couple on a cylinder – Shafts – Torsion pendulum – Bending of beams – Bending moment – Uniform bending and non-uniform bending – I shape girder. Sound: Shock waves – Mach number (simple problems) – Ultrasonic production (magnetostriction and piezoelectric methods) and application – Acoustics of buildings – Sources and impacts of noise – Sound level meter – Control of noise pollution. ELECTROMAGNETISM AND MICROWAVES Electromagnetism: Divergence, curl and gradient – Maxwell’s equations – Wave equation for electromagnetic waves – Propagation in free space – Poynting vector – Rectangular and circular wave guides. Microwaves: Properties and applications – Generation by magnetron and reflex klystron oscillator – Travelling wave tube – Biological effects. OPTICS Photometry: Principles and Lummer-Brodhun photometer. Lasers: Principles and characteristics – Types of lasers (CO2, excimer, NdYAG, GaAs, free electron) – Holographic mass storage. Optical Fiber: Principles – Physical structure and types – Optical fiber communication. Photoelasticity: Theory and applications. CRYSTAL PHYSICS AND CRYOGENICS Crystal Physics: Crystal directions – Planes and Miller indices – Basic symmetry elements – Translational symmetry elements – Reciprocal lattice – Diamond and HCP crystal structure – Imperfections in crystals. Cryogenics: Methods of liquefaction of gases (cascade process, Linde’s process, and adiabatic demagnetization process) – Measurement of cryogenic temperatures. ENERGY PHYSICS Introduction to non-conventional energy sources – Solar cells – Thermoelectric power generators – Thermionic power generator – Magneto hydrodynamic power generator – Fuel cells (H2O2) – Solid state batteries (Lithium) – Low voltage and high voltage nuclear cells – Thermocouple based nuclear cell – Ultra capacitors. TEXT BOOKS 1. Arumugam, M., Engineering Physics, 2nd edition, Anuradha Publishers, Kumbakonam, 2003. 2. Gaur and Gupta, Engineering Physics, 7th edition, Dhandapani and Sons, New Delhi, 1997. 3. Thiruvadigal, J. D., Ponnusamy, S., Vasuhi, P. S. and Kumar, C., Physics for Technologists, 5th edition, Vibrant Publication, Chennai, 2007. REFERENCE BOOKS 1. Vasudeva, A. S., Modern Engineering Physics, Revised edition, S. Chand and Company Ltd., New Delhi, 2004. 2. Vasudevan, D. N., Fundamentals of Magnetism and Electricity, 11th edition, S. Chand and Company Ltd., New Delhi, 1983. 3. Nair, K. P. R., Atoms, Molecules and Lasers, Narosa Publishing House, New Delhi, 2006.

7

EI – 07-08 – SRM – E&T

4. 5.

Pillai, S. O., Solid State Physics,5th edition, New Age International (P) Ltd., New Delhi, 2004. Khan, B. H., Non-Conventional Energy Resources, Mechanical Engineering Series, Tata McGraw Hill Publishing Company Ltd., New Delhi, 2006.

CY 0101

L 3

CHEMISTRY Prerequisite Nil

T 0

P 0

C 3

PURPOSE To impart a sound knowledge on the principles of chemistry involving the different application oriented topics required for all engineering branches. INSTRUCTIONAL OBJECTIVES The students should be conversant withThe role of applied chemistry the field of engineering.The knowledge of water quality parameters and the treatment of water.The principles involves in corrosion and its inhibitions.Important analytical techniques, instrumentation and the applications.Knowledge with respect to the phase equlibria of different systems. TECHNOLOGY OF WATER Water quality parameters: Physical, Chemical & Biological - Hardness of water – estimation of hardness (EDTA method & O. Hehner”s method), Alkalinity – determination – disadvantages of using hard water in boilers: Scale, sludge formation – disadvantages – prevention – treatment: Internal conditioning – phosphate, calgon and carbonate conditioning methods – External: Zeolite, ion exchange methods - desalination – reverse osmosis and electrodialysis - domestic water treatment. CORROSION AND ITS CONTROL Corrosion: Basic concepts – principles, mechanism of chemical, electrochemical corrosion – Pilling Bedworth rule – galvanic corrosion – differential aeration corrosion - pitting corrosion - stress corrosion - factors influencing corrosion.Corrosion control: cathodic protection – sacrificial anodic method – corrosion inhibitor. Protective coatings: surface preparation for metallic coatings - electro plating and electroless Plating - chemical conversion coatings – anodizing, phosphating & chromate coating. PHASE EQUILIBRIA Phase rule: Statement – explanation of the terms involved - one component system (water system only). Condensed phase rule - thermal analysis – two component systems: simple eutectic, Pb-Ag; Br, Cd - solid solution Cu-Ni and compound formation Mg-Zn - applications of eutectics. POLYMERS AND REINFORCED PLASTICS Classification of polymers – types of polymerization reactions – mechanism of addition polymerization: free radical, ionic and ziegler – Natta - effect of structure on the properties of polymers – strength, plastic deformation, plastics elasticity and physical nature –Preparation and properties of important resins:Polyethylene, PVC, PMMA, Polyester, Teflon Bakelite, Epoxy resins, compounding of plastics, moulding methods - injection, extrusion, compression and calendaring - reinforced plastics – FRP – Carbon, Graphite, Glass– applications. INSTRUMENTAL METHODS OF ANALYSIS Basic principles, instrumentation of potentiometry, flame photometry – applications. Elementary theory – principle – instrumentation of UV – visible spectroscopy and atomic absorption spectroscopy and infrared spectroscopy.

TEXT BOOKS 1. Jain.P.C and Monika Jain, Engineering Chemistry, Danpat Raj publishing company (P) Ltd, New Delhi – 2002. 2. Dara.S.S, Text book of Engineering Chemistry, S. Chand & Company Ltd, New Delhi 2003. 3 Willard H.A., Merit L.L and Dean J.A., Instrumental methods of analysis, 6th Edition Van Nostrand, 1986. REFERENCE BOOKS

8

EI – 07-08 – SRM – E&T

1.

Kuriacose J.C. and Rajaram J, Chemistry in Engineering and Technology, Volume II, Tata McGraw Hill p.b. Co., 1988. 2. Jeyalakshmi.R & Ramar. P, Engineering Chemistry, 1st Edition, Devi Publications, Chennai 2006. 3. Kamaraj.P & Arthanareeswari. M, Applied Chemistry, 2nd Edition, Sudhandhira Publications, 2003. 4. Arivalagan. K, Engineering Chemistry, 1st Edition, Mass publications, 2007. 5. P.Kamatchi, Applied Chemistry-I, Ponnuswamy publications, Chennai. Dr. Helen P Kavitha ,Engineering Chemistry - I ,ILA Publications, 2002 L T P C GE 0101 BASIC ENGINEERING - I 4 0 0 4 Prerequisite Nil PART A CIVIL ENGINEERING PURPOSE To get exposed to the glimpses of Civil Engineering topics that is essential for an Engineer. INSTRUCTIONAL OBJECTIVES To know about different materials and their properties. Engineering aspects related to buildings. To know about importance of Surveying. To know about the transportation systems. To get exposed to the rudiments of engineering related to Dams, Water Supply, Transportation system and Sewage Disposal. BUILDING MATERIALS AND THEIR PROPERTIES Introduction - Civil Engineering – Building Materials – Brick, Stone, Cement, Steel, Concrete, timber – Properties – Uses. Units – Stress, strain and three modulii of elasticity – factor of safety - Centre of Gravity and Moment of Inertia for rectangle and circular section – simple problems. BUILDINGS AND THEIR COMPONENTS Buildings – Classification - Components of buildings and their functions Foundations - functions – classification of foundations – Bearing capacity Floorings – functions - Types - Cement Concrete flooring – Mosaic flooring - Marble flooring Roofs - Types – Requirements – Madras Terrace roof. Tall structure – types of structural systems. UTILITY AND SERVICES Surveying - Objective – Principles – Classification – Instruments used for Surveying. Dams - Purpose – Selection of site – Classification – Gravity dam (cross-section details only) Transportation system Classification – Roadway - components – classification of roads - Railway – Cross-section of permanent waycomponents parts and functions. Docks and Harbour – classification – Terminology Bridges –components of a bridge - types of bridges.Water supply - Sources - Standards of drinking water (BIS) – elementary treatment methods – RO System Sewage disposal – Septic tank – function and components. TEXT BOOKS 1. Raju K.V.B., Ravichandran P.T., Basics of Civil Engineering, Ayyappa Publications, Chennai, 2000. 2. Ramesh Babu, Civil Engineering , VRB Publishers, Chennai, 2000. REFERENCE BOOKS 1. Rangwala,S.C., Engineering Materials, Charotar Publishing House, Anand, 1980. 2. National Building Code of India, Part V, Building Materials, 2005 3. Surendra Singh, Building Materials, Vikas Publishing Company, New Delhi, 1996 PART B MECHANICAL ENGINEERING PURPOSE To familiarize the students with the basics of Mechanical Engineering. INSTRUCTIONAL OBJECTIVES To familiarize with 1. The basic machine elements 2. The Sources of Energy and Power Generation 3. The various manufacturing processes

9

EI – 07-08 – SRM – E&T

MACHINE ELEMENTS Springs: Helical and leaf springs – Springs in series and parallel. Cams: Types of cams and followers – Cam profile. Power Transmission: Gears (terminology, spur, helical and bevel gears, gear trains). Belt drives (types). Chain drives. Simple Problems. ENERGY Sources: Renewable and non-renewable (various types, characteristics, advantages/disadvantages). Power Generation: External and internal combustion engines - Hydro and nuclear power plants (layouts, element/component description, advantages, disadvantages, applications). Simple Problems. MANUFACTURING PROCESSES Sheet Metal Work: Introduction – Equipments – Tools and accessories – Various processes (applications, advantages / disadvantages). Welding: Types – Equipments – Tools and accessories – Techniques employed (applications, advantages / disadvantages (gas and arc welding only)) – Gas cutting – Brazing and soldering. Lathe Practice: Types - Description of main components – Cutting tools – Work holding devices – Basic operations. Simple Problems. Drilling Practice: Introduction – Types – Description – Tools. Simple Problems. TEXT BOOKS 1. Kumar, T., Leenus Jesu Martin., and Murali, G., Basic Mechanical Engineering, Suma Publications, Chennai, 2007. 2. Prabhu, T. J., Jai Ganesh, V., Jebaraj, S., Basic Mechanical Engineering, Scitech Publications, Chennai, 2000. REFERENCE BOOKS 1. Hajra Choudhary, S.K. and Hajra Choudhary, A. K., Elements of Manufacturing Technology Vols. I & II, Media Publishers, 1986. 2. Nag, P.K., Power Plant Engineering, Tata McGraw-Hill, New Delhi, 2006. 3. Palanichamy, M.S., Basic Civil & Mechanical Engineering, Tata McGraw-Hill , New Delhi 1991. 4. Nagpal G. R., Power Plant Engineering, Khanna Publisher, Delhi,2004

PD 0101

PERSONALITY DEVELOPMENT - I Prerequisite Nil

L 0

T 0

P 2

C 0

PURPOSE The purpose of this course is to build confidence and inculcate various soft skills and to help Students to identify and achieve their personal potential INSTRUCTIONAL OBJECTIVES 1. To guide thought process. 2. To groom students' attitude. 3. To develop communication skill. 4. To build confidence. METHODOLOGY The entire program is designed in such a way that every student will participate in the class room activities. The activities are planned to bring out the skills and talents of the students which they will be employing during various occasions in their real life. 1. Group activities + individual activities. 2. Collaborative learning. 3. Interactive sessions. 4. Ensure Participation 5. Empirical Learning Self-analysis SWOT - Time management - Creative chain story telling Vocabulary games I – Attitude - Interpersonal skills

10

EI – 07-08 – SRM – E&T

Motivation I - Vocabulary games II - Article review Team building exercise - Critical Thinking - Event Management Business situation - Leadership Qualities - Review SCHEME OF INSTRUCTION Marks allocated for regular participation in all oral activities in class SCHEME OF EXAMINATION Complete Internal evaluation on a regular Basis GE0107

I.

L 0

NSS/NCC/NSO/YOGA Prerequisite Nil

T 0

P 2

C 1

YOGA SYLLABUS PRACTICE

LECTURE

I

Meditation – Agnai, Asanas, Kiriyas, Bandas, Muthras

Benefits of Agnai Meditation

II

Meditation Santhi Physical Exercises (I & II)

Benefits of santhi Meditation

III

Kayakalpa Yoga Asanas, Kiriyas, Bandas, Muthras

Lecture & Practice

IV

Meditation Santhi Physical Exercises III & IV

Analysis of Thought

V

Meditation Thuriyam Kayakalpa Asanas, Kiriyas, Bandas, Muthras

Benefits of Thuriyam

VI

Meditation Thuriyam Kayakalpa Asanas, Kiriyas, Bandas, Muthras

Attitude

VII

Meditation Thuriyam Kayakalpa Asanas, Kiriyas, Bandas, Muthras

Importance of Arutkappy & Blessings

VIII

Meditation Santhi Kayakalpa Asanas, Kiriyas, Bandas, Muthras

Benefits of Blessings Hours = 30

TEXT BOOKS: 1. Vedatri Maharshi , yoga for Modern Age 2. Vedatri Maharshi, Simplified Physical Exercises II NATIONAL SPORTS ORGANISATION (NSO) Each student must select two of the following games and practice for two hours per week. An attendance of 80% is compulsory to earn the credits specified in the curriculum. List of games: Basket Ball Football Volley Ball Ball Badminton Cricket Throwball III NATIONAL CADET CORE (NCC) Any student enrolling as a member of National Cadet Core (NCC) will have to attend sixteen parades out of twenty parades each of four periods over a span of academic year. Attending eight parades in first semester will qualify a student to earn the credits specified in the curriculum. IV. NATIONAL SERVICE SCHEME (NSS) A student enrolling as member of NSS will have to complete 60 hours of training / social service to be eligible to earn the credits specified in the curriculum.

11

EI – 07-08 – SRM – E&T

PH 0103

L 0

PHYSICS LABORATORY Prerequisite Nil

T 0

P 2

C 1

PURPOSE The purpose of this course is to develop scientific temper and analytical capability among the engineering students. INSTRUCTIONAL OBJECTIVES At the end of the course, the student will be able to:Understand scientific concepts in measurement of different physical variablesDevelop the skill in arranging and handling different measuring instruments and Get amiliarized with the errors in various measurements and planning / suggesting how these contributions may be made of the same order so as to make the error in the final result small. LIST OF EXPERIMENTS 1. Determination of Young’s Modulus of the material – Uniform bending 2. Determination of Rigidity Modulus of the material – Torsion Pendulum 3. Determination of velocity of Ultrasonic waves in liquids 4. Determination of dispersive power of a prism using spectrometer 5. Determination of laser parameter – Divergence and wavelength for a given laser source – laser grating 6. Particle size determination using laser 7. Study of attenuation and propagation characteristics of optical fiber cable 8. Calibration of voltmeter using potentiometer. 9. Calibration of ammeter using potentiometer. 10. Construction and study of regulation properties of a given power supply using IC REFERENCE BOOKS 1. Chattopadhyay, D., Rakshit, P. C. and Saha, B., An Advanced Course in Practical Physics, 2nd edition, Books & Allied Ltd., Calcutta, 1990. 2. Chauhan and Singh, Advanced Practical Physics, Revised edition, Pragati Prakashan, Meerut, 1985. 3. Thiruvadigal. J. D., Ponnusamy. S., Vasuhi. P. S. and Kumar. C, Hand Book of Practical Physics, 5th edition, Vibrant Publication, Chennai, 2007.

CY 0103

L 0

CHEMISTRY LABORATORY Prerequisite Nil

T 0

P 2

C 1

PURPOSE An integrated laboratory course consists of experiments from applied chemistry and is designed to illustrate the underlying principles of measurement techniques, synthesis, dynamics and chemical transformation. INSTRUCTIONAL OBJECTIVES Students should be able to understand the basic concept and its applications. LIST OF EXPERIMENTS 1. Preparation of standard solutions. 2. Estimation of total hardness, permanent and temporary hardness by EDTA method. 3. Conductometric titration – determination of strength of an acid. 4. Estimation of iron by potentiometer – titration. 5. Determination of molecular weight of polymer by viscosity average – method. 6. Determination of dissolved oxygen in a water sample by Winkler”s method 7. Determination of Na / K in water sample by Flame photometry. 8. Estimation of Copper in ore. 9. Estimation of nickel in steel. 10. Determination of total alkalinity and acidity of a water sample. REFERENCE 1. Chemistry department manual, Edition, 2003.

12

EI – 07-08 – SRM – E&T

GE0105

COMPUTER LITERACY Prerequisite Nil

L

T

P

C

0

0

2

1

PURPOSE This Lab Course will enable the students to understand the basics of computer and to know the basics of MSOffice. INSTRUCTIONAL OBJECTIVES To learn the basics of computer. To work on Ms-Word, Ms-Excel, Ms-Power Point and Ms-Access EXPERIMENTS TO IMPLEMENT 1. Study experiment on evolution of computer programming languages. 2. Suggest some of the Network Topologies that can be incorporated in your campus. Justify your choice. 3. Experiments to demonstrate directory creation and file creation. 4. Create a document with all formatting effects. 5. Create a document with tables. 6. Create labels in MS word. 7. Create a document to send mails using mail merge option. 8. Create an Excel File to analyze the student’s performance. Create a chart for the above data to depict it diagrammatically. 9. Create Excel sheet to use built-in-function. 10. Create Excel sheet to maintain employee information and use this data to send mails using mail merge. 11. Create a Power Point presentation for your personal profile with varying animation effects with timer. 12. Consider student information system which stores student personal data, mark information and non academic details. * Use MS Access to create Tables and execute SQL queries to do this following * Display all student records. * Display student details with respect to his identity. * Delete some records from the table. * Find total marks obtained by student in each list. TEXT BOOK 1. Introduction to Information Technology, ITL Education Solutions Ltd., Pearson 2nd Edition, 2006.

ME 0120

L 0

WORKSHOP PRACTICE Prerequisite Nil

T 0

P 4

C 2

PURPOSE To provide the students with hands on experience on different trades of engineering like fitting, carpentary, smithy, welding and sheet metal. INSTRUCTIONAL OBJECTIVES To familiarize with The basics of tools and equipments used in fitting, carpentry, sheet metal, welding and smithy. The production of simple models in the above trades. LIST OF EXPERIMENTS EMPHASIS TO BE LAID ON REAL LIFE APPLICATIONS WHEN FRAMING THE EXERCISES. FITTING Tools & Equipments – Practice in Filing and Drilling. Making Vee Joints, Square, dovetail joints, Key Making.

13

EI – 07-08 – SRM – E&T

CARPENTARY Tools and Equipments- Planning practice. Making Half Lap, dovetail, Mortise & Tenon joints, a mini model of a single door window frame. SHEET METAL Tools and equipments - Fabrication of a small cabinet, Rectangular Hopper, etc. WELDING Tools and equipments - Arc welding of butt joint, Lap Joint, Tee Fillet. Demonstration of Gas welding, TIG & MIG. SMITHY Tools and Equipments –Making simple parts like hexagonal headed bolt, chisel.

TEXT BOOKS 1. Gopal, T.V., Kumar, T., and Murali, G., A first course on workshop practice – Theory, practice and work book, Suma Publications, 2005. REFERENCE BOOKS 1. Kannaiah,P. & Narayanan,K.C, Manual on Workshop Practice, Scitech Publications, Chennai, 1999. 2. Venkatachalapathy, V.S, First year Engineering Workshop Practice, Ramalinga Publications, Madurai, 1999.

ME 0130

ENGINEERING GRAPHICS Prerequisite Nil (Only First Angle Projection is to be followed)

L 1

T 0

P 4

C 3

PURPOSE To draw and interpret various projections of 1D, 2D and 3D objects. To prepare and interpret the drawings of buildings. INSTRUCTIONAL OBJECTIVES To familiarise with The construction of geometrical figures The projection of 1D, 2D & 3D elements Sectioning of solids and development of surfaces Preparation and interpretation of building drawing FUNDAMENTALS OF ENGINEERING GRAPHICS Lettering, two dimensional geometrical constructions, conics, representation of three-dimensional objects – principles of projections – standard codes – projection of points. PROJECTION OF LINES AND SOLIDS Projection of straight lines, projection of solids – auxiliary projections SECTIONS AND DEVELOPMENTS Sections of solids and development of surfaces. PICTORIAL PROJECTIONS Conversion of projections: Orthographic projection, isometric projection of regular solids & combination of solids. BUILDING DRAWING Building Drawing – plan, elevation and section of single storied residential (or) office building with flat RCC roof and brick masonry walls having not more than 3 rooms (planning / designing is not expected in this course).

14

EI – 07-08 – SRM – E&T

TEXT BOOKS 1. Jeyapoovan, T., Engineering Drawing and Graphics using AutoCAD 2000, Vikas Publishing house Pvt Ltd, NewDelhi, 2005. 2. Narayanan, K.L & Kannaiah, P., Engineering Graphics, Scitech Publications, Chennai, 1999. REFERENCE BOOKS 1. Bhatt, N.D., Elementary Engineering Drawing (First Angle Projection), Charotar Publishing Co., Anand, 1999. 2. Venugopal, K., Engineering Drawing & Graphics, New Age international Pvt. Ltd., 2001. 3. Natarajan, K.V., Engineering Drawing & Graphics, Private Publication, Chennai, 1990. 4. Shah, M.B. and Rana, B.C., Engineering Drawing, Pearson Education (Singapore) Pvt. Ltd., Delhi – 110 092, 2005. SEMESTER – II

GE 0108

L 1

VALUE EDUCATION Prerequisite Nil

T 0

P 0

C 1

PURPOSE To provide guiding principles and tools for the development of the whole person, recognizing that the individual is comprised of Physical Intellectual, Emotional and Spiritual dimensions. INSTRUCTIONAL OBJECTIVES
To help individuals think about and reflect on different values.
To deepen understanding, motivation and responsibility with regard to making personal and social choices and the practical implications of expressing them in relation to themselves, others, the Community and the world at large.
To inspire individuals to choose their own personal, social, moral and spiritual values and be aware of practical methods for developing and deepening them. Value Education—Introduction – Definition of values – Why values? – Need for Inculcation of values – Object of Value Education – Sources of Values – Types Values: i) Personal values ii) Social values iii) Professional values iv) Moral and spiritual values v) Behavioral (common) values Personal values – Definition of person – Self confidence – Self discipline – Self Assessment – Self restraint – Self motivation – Determination – Ambition – Contentment – Humility and Simplicity - Sympathy and Compassion – Gratitude -Forgiveness – Honesty – Courtesy. Social values – Definition of Society – Units of Society - Individual, family, different groups – Community – Social consciousness – Equality and Brotherhood – Dialogue – Tolerance – Sharing – Responsibility – Cooperation Freedom – Repentance and Magnanimity. Professional values – Definition – Competence – Confidence – Devotion to duty –Efficiency – Accountablility – Respect for learning /learned – Willingness to learn-Open and balanced mind – Team spirit – Professional Ethic – Willingness for Discussion – Aims – Effort – Avoidance of Procrastination and slothfulness –Alertness. Behavioral values – Individual values and group values – Good manners at home and outside – Equality – Purity of thought, speech and action – Understanding the role of religion – Faith – Understanding the commonness of religions – respect for other faiths – unity in diversity – Living together – Tolerance – Nonviolence – Truthfulness – Common aim – Unified effort towards peace – Patriotism.

15

EI – 07-08 – SRM – E&T

REFERENCE BOOKS 1. Dr. S. Ignacimuthu S. J., Values for life, Better yourself Books, Bandra Mumbai-600 050 (1999). 2. Values(Collection of Essays)., Published by : Sri Ramakrishna Math., Chennai—4.,(1996) 3. Prof. R.P.Dhokalia., Eternal Human Values ,NCRT –Campus Sri Aurobindo Marg., New Delhi - 110 011. 4. Swami Vivekananda., Education., Sri Ramakrishna Math., Chennai-4(1957) 5. Tirukural (English Translation by Dr.G.U.Pope). 6. The Bible 7. The Kuran 8. The Bagavath Geetha

GE 0102

L 2

BIOLOGY FOR ENGINEERS Prerequisite Nil

T 0

P 0

C 2

PURPOSE To provide a basic understanding of biological mechanisms from the perspective of engineers. INSTRUCTIONAL OBJECTIVES To familiarize the students with the basic organization of organisms and subsequent building to a living being. With this knowledge, the student will be then imparted with an understanding about the machinery of the cell functions that is ultimately responsible for various daily activities. Nervous and immune systems will be taught as examples of this signaling machinery. FROM ATOMS TO ORGANISMS The Cell: the Basic Unit of Life - Molecular Components of Cells - Expression of Genetic Information - Protein Structure and Function- Cell Metabolism - Cells Maintain Their Internal Environments - Cells Respond to Their External Environments - Cells Grow and Reproduce - Cells Differentiate THE MOLECULAR DESIGN OF LIFE Biochemistry and the Genomic Revolution- . DNA Illustrates the Relation between Form and FunctionBiochemical Unity Underlies Biological Diversity-. Chemical Bonds in Biochemistry -. Biochemistry and Human Biology-. Protein Synthesis Requires the Translation of Nucleotide Sequences Into Amino Acid Sequences-.2. Aminoacyl-Transfer RNA Synthetases Read the Genetic Code- A Ribosome Is a Ribonucleoprotein Particle (70S) Made of a Small (30S) and a Large (50S) Subunit-Protein Factors Play Key Roles in Protein Synthesis-. Eukaryotic Protein Synthesis Differs from Prokaryotic Protein Synthesis Primarily in Translation Initiation CATALYTIC STRATEGIES Proteases: Facilitating a Difficult Reaction-. Making a Fast Reaction Faster: Carbonic Anhydrases-. Restriction Enzymes: Performing Highly Specific DNA-Cleavage Reactions- Nucleoside Monophosphate Kinases: Catalyzing Phosphoryl Group Exchange between Nucleotides Without Promoting Hydrolysis- metabolismanabolism and catabolism-photosynthesis and carbon fixation- biological energy production. MECHANOCHEMISTRY How Protein Motors Convert Chemical Energy into Mechanical Work- Brief Description of ATP Synthase Structure- The F1 Motor: A Power Stroke-A Pure Power Stroke- Coupling and Coordination of MotorsMeasures of Efficiency- F1-Motor of ATP synthase- The Bacterial Flagellar Motor- Motor Driven by H_ and Na_ Ion Flux- Proton Motive Force, Sodium-motive Force, Ion Flux- Molecular Motor Directionality- Chimeric Kinesin Motors- Backwards Myosins- Chimeric Myosin Motors- Bidirectional Dyneins? SENSORY AND IMMUNO SYSTEMS General Principles of Cell Signaling-Signaling via G-Protein-linked Cell-Surface Receptors-Signaling via Enzyme-linked Cell-Surface Receptors-Target-Cell Adaptation-The Logic of Intracellular Signaling: Lessons from Computer-based "Neural Networks"-The Cellular Basis of Immunity-The Functional Properties of Antibodies-The Fine Structure of Antibodies-The Generation of Antibody Diversity-T Cell Receptors and Subclasses-MHC Molecules and Antigen Presentation to T Cells-Cytotoxic T Cells-Helper T Cells and T Cell Activation-Selection of the T Cell Repertoire

16

EI – 07-08 – SRM – E&T

TEXT BOOK 1. J.M.Berg, J.L.Tymosczko and L.Sryer. Biochemistry,W.H. Freeman Publications. 2. STUDENT COMPANION to accompany Biochemistry, Fifth Edition -Richard I. Gumport 3. Frank H. Deis, Nancy Counts Gerber, Roger E. Koeppe, II Molecular motors REFERENCE BOOKS: 1. Alberts, 2003 ,Molecular Biology of the cell 2. Lodish, 2004 ,Molecular cell biology

GE 0104

L 2

PRINCIPLES OF ENVIRONMENTAL SCIENCE Prerequisite Nil

T 0

P 0

C 2

PURPOSE The course provides the comprehensive knowledge in environmental science, environmental issues and the management. INSTRUCTIONAL OBJECTIVES 1. The importance of environmental education, ecosystem and ethics. 2. Knowledge with respect to biodiversity and its conservation. 3. To create awareness on the various environmental pollution aspects and issues. 4. To educate the ways and means to protect the environment. 5. Important environmental issues and protection ENVIRONMENT AND ECOSYSTEMS Environmental education: definition - scope - objectives and importance. Concept of an ecosystem – types (terrestrial and aquatic ecosystems) – structure and function – ecological succession - food chains, food webs and ecological pyramids BIODIVERSITY Introduction: definition - genetic, species and ecosystem diversity - value of biodiversity: consumptive use, productive use, social, ethical, aesthetic and option values - threats to biodiversity: habitat loss, poaching of wildlife - endangered and endemic species of India, Conservation of biodiversity: in-situ and ex-situ conservations. POLLUTION AND WASTE MANAGEMENT Air and water pollution – classification of pollutants and their effects – control measures of air pollution. Waste water treatment (general) – primary, secondary & tertiary stages. Solid waste management: causes - effects of municipal waste, hazardous waste, bio medical waste - process of waste management. CURRENT ENVIRONMENTAL ISSUES Environmental ethics -issues and possible solutions- population explosion, climatic change, ozone layer depletion, global warming, acid rain and green house effect. Sustainable development: definition, objectives and environmental dimensions of sustainable development- environmental audit for sustainable development. ENVIRONMENTAL PROTECTION National and international concern for environment: Important environmental protection acts in India – water, air (prevention and control of pollution) act, wild life conservation and forest act – functions of central and state pollution control boards - international effort – key initiatives of Rio declaration, Vienna convention, Kyoto protocol and Johannesburg summit.

TEXT BOOKS 1. Sharma.B.K. and Kaur, Environmental Chemistry, Goel Publishing House, Meerut, 1994. 2. De.A.K., Environmental Chemistry, New Age International (p) lt., , New Delhi, 1996. 3. Kurian Joseph & R. Nagendran, Essential of Environmental Studies, Pearson Education, 2004.

17

EI – 07-08 – SRM – E&T

REFERENCE BOOKS 1. Dara S.S., A Text Book of Environmental Chemistry and pollution control, S.Chand & Company Ltd., New Delhi, 2004. 2. Jeyalakshmi.R, Principles of Environmental Science, 1st Edition, Devi Publications, Chennai 2006. 3. Kamaraj.P & Arthanareeswari.M, Environmental Science – Challenges and Changes, 1st Edition, Sudhandhira Publications, 2007. 4. Arivalagan.K, Ramar.P & Kamatchi.P, Principles of Environmental Science, 1st Edition, Suji Publications, 2007.

MA 0102

L T MATHEMATICS - II 3 2 Prerequisite MA0101 (Common to all Branches of Engineering except BT, BP, BI, BME, FPE, & GE)

PURPOSE To impart analytical ability in solving mathematical problems as Engineering.

P 0

C 4

applied to the respective branches of

INSTRUCTIONAL OBJECTIVES At the conclusion of the course, students should have understood Multiple Integrals , Laplace Transforms, Vector Calculus and Functions of a complex variable including contour integration and be able to apply to all their Engineering problems. MULTIPLE INTEGRALS Double integration in Cartesian and polar coordinates – Change of order of integration – Area as a double integral – Triple integration in Cartesian coordinates. LAPLACE TRANSFORMS Transforms of simple functions – Basic operational properties – Transforms of derivatives and integrals – Initial and final value theorems – Inverse transforms – Convolution theorem – periodic functions – Applications of Laplace transforms for solving linear ordinary differential equations up to second order with constant coefficients only. VECTOR CALCULUS Gradient, divergence, curl – Solenoidal and irrotational fields – Vector identities (without proof) – Directional derivatives – Line, surface and volume integrals – Statements of Green’s, Gauss divergence and Stroke’s theorems only – Verification and applications to cubes and parallelopipeds only. ANALYTIC FUNCTIONS Definition of Analytic Function – Cauchy Riemann equations – Properties of analytic functions - Determination of harmonic conjugate – Milne-Thomson’s method – Conformal mappings: 1/z, az az+b and bilinear transformation. COMPLEX INTEGRATION Line integral – Cauchy’s integral theorem (without proof ) – Cauchy’s integral formulae (with proof) – application of Cauchy’s integral formulae – Taylor’s and Laurent’s expansions (statements only) – Singularities – Poles and Residues – Cauchy’s residue theorem (with proof) - Evaluation of line integrals. TEXT BOOK 1. Grewal B.S, Higher Engg Maths, Khanna Publications, 38th Edition. 2. Veerajan, T., Engineering Mathematics, Tata McGraw Hill Publishing Co., New Delhi,2000. 3. Dr.V.Ramamurthy & Dr. Sundarammal Kesavan, Engineering Mathematics – Vol I & II ,Anuradha Publications, Revised Edition 2006. REFERENCE BOOKS 1. Kreyszig.E, Advanced Engineering Mathematics, 8th edition, John Wiley & Sons. Singapore,2001. 2. Kandasamy P etal, Engineering Mathematics, Vol.I (4th revised edition), S.Chand &Co., New Delhi,2000.

18

EI – 07-08 – SRM – E&T

3. 4.

Narayanan S., Manicavachagom Pillay T.K., Ramanaiah G., Advanced Mathematics for Engineering students, Volume I (2nd edition), S.Viswanathan Printers and Publishers, 1992. Venkataraman M.K., Engineering Mathematics – First Year (2nd edition), National Publishing Co., Chennai,2000.

PH 0102

L 2

MATERIALS SCIENCE Prerequisite Nil

T 0

P 2

C 3

PURPOSE The purpose of this course is to develop comprehension of the rapidly changing technological scenario and the requisite expertise for appropriate selection of materials for specific engineering applications. INSTRUCTIONAL OBJECTIVES At the end of the course, the student will be able to: 1. Understand electrical properties of materials, 2. Understand the properties and applications of semi conducting materials, 3. Understand general properties and applications of magnetic and dielectric materials, 4. Understand the behaviour of materials on exposure to light, 5. Understand general properties and application of modern engineering and bio materials, and 6. Get familiarized with the concepts of Nano Science and Technology. ELECTRONIC AND PHOTONIC MATERIALS Electronic materials: Importance of Classical and Quantum free electron theory of metals – Fermi energy and Fermi Dirac distribution function – Variation of Fermi level with temperature in intrinsic and extrinsic semiconductors – Hall effect – Dilute Magnetic Semiconductors (DMS) and their applications – High temperature Superconductivity. Photonic materials: LED and LCD materials – Photo conducting materials – Nonlinear optical materials (elementary ideas) and their applications. MAGNETIC, DIELECTRIC AND MODERN ENGINEERING MATERIALS Magnetic materials: Ferrites and garnets – Magnetic bubbles and their applications – Giant Magneto Resistance (GMR) – Colossal Magneto Resistance (CMR). Dielectric materials: Various polarization mechanisms in dielectrics (elementary ideas) and their frequency and temperature dependence – Dielectric loss – Piezo electric and ferro electric materials and their applications. Modern engineering materials: Shape memory alloys – Metallic glasses – Advanced ceramics and composites. BIO MATERIALS Classification of biomaterials – Comparison of properties of some common biomaterials – Effects of physiological fluid on the properties of biomaterials – Biological responses (extra and intra vascular system) – Metallic, Ceramic and Polymeric implant materials – Introduction to bio sensors and tissue engineering. NANO MATERIALS AND NANOTECHNOLOGY Basic concepts of Nano science and technology – Quantum wire – Quantum well – Quantum dot – Properties and technological advantages of Nano materials – Carbon Nanotubes and applications – Material processing by Sol – Gel method, Chemical Vapour deposition and Physical Vapour deposition – Microwave Synthesis of materials – Principles of SEM, TEM and AFM . MECHANICAL PROPERTIES OF MATERIALS Stress Strain diagram for different engineering materials – Engineering and true stress strain diagram – Ductile and brittle material – Tensile strength – Hardness – Impact strength – Fatigue – Creep – Fracture (Types and Ductile to brittle transition) – Factors affecting mechanical properties. PRACTICALS 1. Band gap determination using Post office box. 2. Dielectric constant measurement. 3. Photoconductivity measurement. 4. Resistivity determination for a semiconductor wafer using Four probe method. 5. Determination of Hall coefficient and carrier type for a semiconductor material.

19

EI – 07-08 – SRM – E&T

6. 7. 8. 9.

To trace the hysteresis loop for a magnetic material. Magnetic susceptibility – Quincke’s method. Determination of thermal conductivity – Lee’s Disc method Visit to Nano Technology Laboratory (optional)

TEXT BOOKS 1. S.O. Kasap, Principles of Electronic Materials and Devices, Tata McGraw Hill Edition, New Delhi, 2002. 2. Van Vlack, L.H., Material Science for Engineers, 6th edition, .Addision Wesley, 1985. 3. Thiruvadigal, J. D., Ponnusamy, S. and Vasuhi.P. S., Materials Science, 5th edition, Vibrant Publications, Chennai, 2007. REFERENCE BOOKS 1. Rolf E. Hummel, Electronic Properties of materials, Narosa Publishing House, New Delhi, 1994. 2. Raghavan.V., Materials Science & Engineering – A First Course, 5th edition, Prentice Hall of India, New Delhi,2005. 3. Khanna. O. P., A Text Book of Material Science & Metallurgy, Revised edition, Dhanpat Rai Publications, New Delhi,2006. 4. Sujata V. Bhat, Biomaterials, 2nd edition, Narosa Publishing House, New Delhi, 2006. 5. Mick Wilson, Kamali Kannangara, Michells Simmons and Burkhard Raguse, Nano Technology – Basic Science and Emerging Technologies, 1st edition, Overseas Press,New Delhi,2005.

GE 0106

L 4

BASIC ENGINEERING – II Prerequisite Nil

T 0

P 0

C 4

PURPOSE This course provides comprehensive idea about circuit analysis, working principles of machines and common measuring instruments. It also provides fundamentals of electronic devices, transducers and integrated circuits. INSTRUCTIONAL OBJECTIVES At the end of the course students will be able 1. To understand the basic concepts of magnetic, AC & DC circuits. 2. To explain the working principle, construction, applications of DC & AC machines & measuring instruments. 3. To gain knowledge about the fundamentals of electric components, devices, transducers & integrated circuits. PART A ELECTRICAL ENGINEERING ELECTRICAL MACHINES Definition of mmf, flux and reluctance, leakage flux, fringing, magnetic materials and B-H relationship. Problems involving simple magnetic circuits.Faraday’s laws, induced emfs and inductances, brief idea on Hysteresis and eddy currents. Working principle, construction and applications of DC machines and AC machines (1-phase transformers, 3-phase induction motors, single phase induction motors – split phase, capacitor start and capacitor start & run motors). AC & DC CIRCUITS Circuit parameters, Ohms law, Kirchhoff’s law. Average and RMS values, concept of phasor representation. RLC series circuits and series resonance, RLC parallel circuits (includes simple problems in DC & AC circuits) Introduction to three phase systems – types of connections, relationship between line and phase values. (qualitative treatment only) WIRING & LIGHTING Types of wiring, wiring accessories, staircase & corridor wiring, Working and characteristics of incandescent, fluorescent, SV & MV lamps. Basic principles of earthing, simple layout of generation, transmission & distribution of power. TEXT BOOKS 1. Kothari D P and Nagrath I J , Basic Electrical Engineering , Tata McGraw Hill,1991

20

EI – 07-08 – SRM – E&T

2.

Mehta V K ,Principles of Electronics, S Chand & Co,1980

REFERENCE BOOKS 1. Kothari D P and Nagrath I J ,Basic Electrical Engineering , Tata McGraw Hill,1991 2. Mithal G K , Electronic Devices and Circuits, Khanna Publications,1997 PART B ELECTRONICS ENGINEERING ELECTRONIC COMPONENTS AND DEVICES Passive components – Resistors, Inductors and Capacitors and their types. Semiconductor: Energy band diagram, Intrinsic and Extrinsic semiconductors, PN junction diodes and Zener diodes – characteristics. Transistors: PNP and NPN transistors – theory of operation – Transistor configurations – characteristics – comparison. Special semiconductor devices : FET – SCR – LED – V I characteristics – applications. Rectifiers: Half wave and full wave rectifier – capacitive filter – wave forms – ripple factor – regulation characteristics. TRANSDUCERS AND MEASURING INSTRUMENTS Transducers: General features and classification of transducers, Resistive Transducers – Potentiometer, Unbonded strain gauge-Bonded strain gauge-Load cell, Inductive transducers – Differential output transducers – LVDT, Flow transducers, Temperature Transducers – Thermistors, Thermocouple and pyrometers. Measuring Instruments: Basic principles and classification of instruments, Moving coil and moving iron instruments, CRO – Principle of operation. DIGITAL ELECTRONICS & LINEAR ICs Digital Fundamentals: Number systems – Boolean Theorems – DeMorgan’s Theorem - Logic gates – Implementation of Boolean Expression using Gates. Integrated Circuits: IC fabrication – Monolithic Technique, Function of Operational Amplifier. TEXT BOOKS 1. 2. 3.

Muthusubramanian.R, Salivahanan.S, Muraleedharan.K.A, Basic Electrical, Electronics and Computer Engineering, Tata McGraw - Hill ,1999. Metha V.K, Principles of Electronics ,S. Chand & Co.,1980. Kalsi H S, Electronics Instrumentation, ISTE publication,1995

REFERENCE BOOKS 1. 2.

Kothari D. P and Nagrath IJ, Basic Electrical Engineering, Tata McGraw- Hill, 1991. Thomas L.Floyd ,Electronic devices, Addison Wesley Longman (Singapore) Pvt . Ltd., 5th Edition.

EI0102

L 3

ELECTRONIC DEVICES Prerequisite Nil

T 0

P 0

C 3

PURPOSE The purpose of this course is to develop a strong foundation in the field of electronic devices. The subject may enhance the students to have a thorough knowledge about the characteristics of any electronic device and to analyse and design any real time application. INSTRUCTIONAL OBJECTIVES At the end of the course, student should be able to 1. Understand the fundamental concepts 2. Logically analyse any electronic circuit. 3. Apply the logic in any application.

SEMICONDUCTORS

21

EI – 07-08 – SRM – E&T

Semiconductor fundamentals – Fermi Level – Energy Band diagram –Generation and Recombination of carriers– Intrinsic and Extrinsic Semiconductors –Majority and Minority Charge carriers– Mobile Charge carriers and Immobile Ions– Drift and Diffusion currents CHARACTERISTICS OF DIODES Working and description of a PN diode- Diode Equation– Varactor Diode –Avalanche and Zener Breakdown – Zener diode – Tunnel Diode –PIN diode – Photo diode – Photo voltaic cell – Light emitting diode – Liquid crystal cell – seven segment display – Light dependant resistor- opto couplers and laser diode . TRANSISTORS Junction transistor – Transistor construction – Current Components – Cut off, Active and saturation regions of a transistor – Input and output characteristics of CE,CB and CC Configurations – Evaluation of H- parameters – Transistor hybrid model for CE configuration – Transistor as a switch – Power transistors– Use of a heat sink FIELD EFFECT TRANSISTORS Junction field effect transistor – theory of operation – volt-ampere characteristics – JFET small signal model – VVR operation of a FET –MOSFETS and their V-I Characteristics – Gate capacitance – MOS as a charge transferring Device – CCD , BBD -Power MOSFET- Unijunction transistor THYRISTORS AND IC FABRICATION Working, V-I characteristics and features of Silicon Controlled Rectifier, DIAC , TRIAC, GTO - Device Technology – Planar process –Diffusion – Ion Implantation – Vapour Deposition – NMOS , PMOS Fabrication – Twin Tub Process of CMOS – Thick film and thin film Technology. TEXT BOOKS 1. Millman and Halkias, Electronic devices and Circuits, Tata McGraw Hill International Edition, 1994. 2. G.K.Mithal, ,Electronic Devices and Circuits, Khanna Publishers, 1999. REFERENCE BOOKS 1. Street Man, Solid State Electronic Devices, Prentice Hall Of India, 1995. 2. David A.Bell, Electron Devices and Circuits, Prentice Hall Of India, 3rd Edition, 1995. 3. Mathur Kulshrestha and Chadha, Electron Devices Applications and Integrated Circuits, Umesh Publications, 1986. 4. Thomas L. Floyd , Electron Devices, Charles & Messil Publications, 1984

PD 0102

PERSONALITY DEVELOPMENT - II Prerequisite Nil

L 0

T 0

P 2

C 0

PURPOSE The purpose of this course is to build confidence and inculcate various soft skills and to help Students to identify and achieve their personal potential INSTRUCTIONAL OBJECTIVES 1. To guide thought process. 2. To groom students' attitude. 3. To develop communication skill. 4. To build confidence. METHODOLOGY The entire program is designed in such a way that every student will participate in the class room activities. The activities are planned to bring out the skills and talents of the students which they will be employing during various occasions in their real life. 1. Group activities + individual activities. 2. Collaborative learning. 3. Interactive sessions. 4. Ensure Participation.

22

EI – 07-08 – SRM – E&T

5. Empirical Learning Puzzles I - Poster design/Caption/Slogan writing (Social issues) - Bone of contention I – debate Bone of contention II - Puzzle II - Survey and Reporting (favorite channel, music, food) Interpretation of Visuals of I & II - Vocabulary games III Book Review - Quiz I - Presentation Skills I Presentation Skills II - Analytical Thinking - Review EVALUATION 1. Activities assessed by both group and individual participation 2. Continuous assessment based on daily participation SCHEME OF INSTRUCTION Marks allocated for regular participation in all oral activities in class SCHEME OF EXAMINATION Complete Internal evaluation on a regular Basis

CS0140

L 1

COMPUTER PRACTICE Prerequisite Nil

T 0

P 2

C 2

PURPOSE : To introduce programming languages C and C++ as tools to solve problems and to provide hands on training. INSTRUCTIONAL OBJECTIVES: After completing the course, the students should be able to Understand the program development life cycle Design algorithms to solve simple problems using computers Convert algorithms into C and C++ programs and execute PROGRAMMING FUNDAMENTALS Computer Basics; Program Development Life Cycle: Flow Chart, Algorithm, Compilation and Execution; Introduction to C Language: program structure, variables, keywords, data types; Input / Output functions: scanf, printf; simple programs. DECISION AND LOOP CONTROL STRUCTURE Logical operators; Decision statements : if/else, switch/case statements; Loop control statements – for, while, do/while. ARRAYS AND FUNCTIONS Arrays: Introduction to arrays; one dimensional arrays: declaration , reading and printing array elememts, sorting and searching. Functions: Definition; declaration of functions; return statement; recursion. INTRODUCTION TO OOP CONCEPTS OOP concepts: data hiding, encapsulation, inheritance, overloading, polymorphism; classes and objects; constructor and destructor; simple program in C++. INHERITANCE AND OVERLOADING Inheritance – single, multiple, multilevel; Overloading – Function overloading, Operator overloading. LIST OF EXERCISES

23

EI – 07-08 – SRM – E&T

Note to the Instructors: Design exercise problems to demonstrate the use of C and C++ in the area of specialization. 1. Programs to demonstrate the use of scanf( ) and printf( ) functions 2. Programs to evaluate arithmetic expressions 3. Programs using conditional statements 4. Programs using for,while , do…while 5. Programs on arrays 6. Programs to perform matrix addition and multiplication 7. Programs to implement functions 8. Programs to illustrate recursion 9. Program to create classes and objects using C++ 10. Program to implement Constructor and Destructor in C++ 11. Program to implement single inheritance in C++ 12. Program to implement Function overloading in C++ 13. Program to implement Operator overloading in C++ REFERENCE BOOKS 1. Computer Practice Laboratory Manual, SRM University 2. Kanetkar P.Yashwant ,Let us C, BPB publications, 2002. 3. Ashok N.Kamthane, Programming with ANSI and Turbo C, Pearson Education, 2006. 4. Herbert Schildt, The Complete Reference C++, TataMcGrawHill, 2001, 3rd Edition. 5. Robert Lafore, Object Oriented Programming in Microsoft C++, The Waite Group, Galgotia Publications Pvt. Ltd., 2002.

ME 0130

ENGINEERING GRAPHICS Prerequisite Nil (Only First Angle Projection is to be followed)

L 1

T 0

P 4

C 3

PURPOSE 1. To draw and interpret various projections of 1D, 2D and 3D objects. 2. To prepare and interpret the drawings of buildings. INSTRUCTIONAL OBJECTIVES To familiarise with 1. The construction of geometrical figures 2. The projection of 1D, 2D & 3D elements 3. Sectioning of solids and development of surfaces 4. Preparation and interpretation of building drawing FUNDAMENTALS OF ENGINEERING GRAPHICS Lettering, two dimensional geometrical constructions, conics, representation of three-dimensional objects – principles of projections – standard codes – projection of points. PROJECTION OF LINES AND SOLIDS Projection of straight lines, projection of solids – auxiliary projections SECTIONS AND DEVELOPMENTS Sections of solids and development of surfaces. PICTORIAL PROJECTIONS Conversion of projections: Orthographic projection, isometric projection of regular solids & combination of solids. BUILDING DRAWING Building Drawing – plan, elevation and section of single storied residential (or) office building with flat RCC roof and brick masonry walls having not more than 3 rooms (planning / designing is not expected in this course).

24

EI – 07-08 – SRM – E&T

TEXT BOOKS 1. Jeyapoovan, T., Engineering Drawing and Graphics using AutoCAD 2000, Vikas Publishing house Pvt Ltd, NewDelhi, 2005. 2. Narayanan, K.L & Kannaiah, P., Engineering Graphics, Scitech Publications, Chennai, 1999. REFERENCE BOOKS 1. Bhatt, N.D., Elementary Engineering Drawing (First Angle Projection), Charotar Publishing Co., Anand, 1999. 2. Venugopal, K. ,Engineering Drawing & Graphics, New Age international Pvt. Ltd., 2001. 3. Natarajan, K.V., Engineering Drawing & Graphics, Private Publication, Chennai, 1990. 4. Shah, M.B. and Rana, B.C., Engineering Drawing, Pearson Education (Singapore) Pvt. Ltd., Delhi – 110 092, 2005.

ME 0120

L 0

WORKSHOP PRACTICE Prerequisite Nil

T 0

P 4

C 2

PURPOSE To provide the students with hands on experience on different trades of engineering like fitting, carpentry, smithy, welding and sheet metal. INSTRUCTIONAL OBJECTIVES To familiarize with The basics of tools and equipments used in fitting, carpentry, sheet metal, welding and smithy. The production of simple models in the above trades. LIST OF EXPERIMENTS EMPHASIS TO BE LAID ON REAL LIFE APPLICATIONS WHEN FRAMING THE EXERCISES. FITTING Tools & Equipments – Practice in Filing and Drilling. Making Vee Joints, Square, dovetail joints, Key making. CARPENTRY Tools and Equipments- Planning practice. Making Half Lap, dovetail, Mortise & Tenon joints, a mini model of a single door window frame. SHEET METAL Tools and equipments - Fabrication of a small cabinet, Rectangular Hopper, etc. WELDING Tools and equipments - Arc welding of butt joint, Lap Joint, Tee Fillet. Demonstration of Gas welding, TIG & MIG. SMITHY Tools and Equipments –Making simple parts like hexagonal headed bolt, chisel. TEXT BOOKS 1. Gopal, T.V., Kumar, T., and Murali, G., A first course on workshop practice – Theory, practice and work book, Suma Publications, 2005. REFERENCE BOOKS 1. Kannaiah,P. & Narayanan,K.C. ,Manual on Workshop Practice, Scitech Publications, Chennai, 1999. 2. Venkatachalapathy, V.S. ,First year Engineering Workshop Practice, Ramalinga Publications, Madurai, 1999. EI0110

L 0

DEVICES LAB Prerequisite Nil

25

T 0

P 3

C 1

EI – 07-08 – SRM – E&T

PURPOSE To gain practical knowledge about basic electrical circuits, useful theorems in circuit analysis and fundamental characteristics of electronic devices.

INSTRUCTIONAL OBJECTIVES At the end of the course the students will be able to 1. Determine the characteristics of any basic electronic device in a circuit ELECTRON DEVICES LAB 1. Characteristics of semiconductor Diode 2. Characteristics of Zener Diode. 3. Characteristics of Transistor under Common Emitter configuration. 4. Characteristics of Transistor under Common Base Configuration. 5. Characteristics of Transistor under Common collector configuration. 6. Characteristics of UJT 7. Characteristics of FET. 8. Characteristics of SCR 9. Characteristics of DIAC 10. Characteristics of TRIAC. 11. Characteristics of LDR 12. Characteristics of PHOTO DIODE REFERENCES 1. Devices Laboratory Manual

SEMESTER III LE0201

L 2

GERMAN LANGUAGE PHASE I Prerequisite Nil

T 0

P 0

C 2

PURPOSE Enabling the Engineering Students to one more Foreign Language, especially German, which is scientific and technical language. This may be useful in the field of employment opportunities as well as helping them to develop projects on browsing German websites. INSTRUCTIONAL OBJECTIVES Developing pronunciation so that they can read the text and e-mail during their employment, instructing them to write their own C V and developing a fundamental conversation with any German national. INTRODUCTION German Language, Alphabets and Pronunciation. THEMEN Name, Land, Leute, Beruf, Familie geschwister, Einkaufen, Reisen, Zahlen, Haus, Freunden, Essen and Stadium, Fest, Zeit. LISTENING Listening to the cassette and pay special attention to the meaning and sounds. Listening Comprehension – Announcements / Airport / Station / General.

READING Listening to the cassette and reading it aloud. READING COMPRENSION BASICS / STATION / NEWS / NOTICE BOARDS. GLOSSARY

26

EI – 07-08 – SRM – E&T

Technical Words Lesson (1-5) TEXT BOOK WITH CASSETTES 1. Grundkurs Deutsch 2. Momentmal (Max Mueller Bhavan – Goethe Institute, Germany). SCHEME OF EVALUATION Internal 50 = Listening – 10 Marks, Speaking – 20 Marks, Reading – 10 Marks and Writing = 10 Marks External 50 – 3 hours final written exam

LE0203

JAPANESE LANGUAGE PHASE I Prerequisite Nil

L 2

T 0

P 0

C 2

PURPOSE 1. In view of globalization, learning Foreign Language by Engineering graduates enhances their employment opportunities. 2. Get awareness of understanding of International culture. 3. Widening the Linguistic Skills of the Students. INSTRUCTIONAL OBJECTIVES To learn the scripts of Japanese Languages namely Hiragana, Katakana and Kanji, Vocabularies etc. To learn basic grammar and acquire basic communication skills. To understand Japanese culture.

Alphabets (Hiragana ), Self Introduction, Greetings, Classroom expressions, Numbers, Conversation. Alphabets Hiragana (continued),Vocabularies. Counters .Time expression. Conversation

Katakana and related vocabulary. Kanjis –introduction. conversation.

Lesson-1 Watashiwa Nihonjin desu. Grammar,Marume &Sentence pattern.Marume. Conversation. TEXT BOOKS 1. Nihongo Shoho I main Text sold in India by the Japanese Language Teachers Association Pune. 2. Hiragana and Katakana Work Book published by AOTS Japan 3. Grammar and Kotoba ( Work Book ) 4. Japanese for Dummies.(Conversation) CD. SCHEME OF EVALUATION Internal 50 = Listening – 10 Marks, Speaking – 20 Marks, Reading – 10 Marks and Writing = 10 Marks External 50 – 3 hours final written exam

LE0205

L 2

FRENCH LANGUAGE PHASE I Prerequisite Nil

27

T 0

P 0

C 2

EI – 07-08 – SRM – E&T

PURPOSE 1. As language skills are as valuable as technical skills a knowledge of French enables the engineering graduates in career orientation. 2. As a second international global Lang after English there is a wider choice of job opportunities in the inter national employment market and also multinationals in India and an understanding of French culture thro language. INSTRUCTIONAL OBJECTIVE Characterised by the Roman script, grammar, vocabulary and colloquial expressions are taught which enables them to communicate effectively with any native speaker. INTRODUCTION AND PRONUNCIATION Introduction of the French Language, Alphabets and Pronunciation, Greetings (Wishing, Thanking and Bidding good bye), Introducing oneself & someone Presenter quelqu’un et se presenter - conversational French sentences based on the topics discussed above. VOCABULARY Numbers and Dates, Days, Months and Seasons, Time, Nouns, Professions and Nationalities. C;onversational sentences on weather, time, and professions. GRAMMAR Basic Verbs (Avoir, Etre, Aller, Faire) – Conjugation – Present tense, Affirmative, Negative, Interrogative, Adjectives (Qualitative), Subject Pronouns and Disjunctive Pronouns. CONVERSATION AND LISTENING Conversational sentences on physical description and expressions with verbs like avoir, etre and faire GRAMMAR Prepositions ( a, de,dans, en, sur,sous, pour….),Contracted Articles, Question Tag

(Qui, Quel, Ou, ……etc) TEXT BOOKS: 1. Panorama – Goyal Publishers 2. Apprenons le Francais I, Sarawathy publication. SCHEME OF EVALUATION Internal 50 = Listening – 10 Marks, Speaking – 20 Marks, Reading – 10 Marks and Writing = 10 Marks External 50 – 3 hours final written exam

MA0211

L 3

MATHEMATICS – III Prerequisite

T 2

P 0

C 4

(Common for EEE , ECE, IT, CSE, ICE & EIE) PURPOSE To enable the students understand Fourier series, partial determine equations and their application and also to provide in depth knowledge in Fourier transforms and work heat questions. INSTRUCTIONAL OBJECTIVES At the end of this course The students will be fully equipped with 1. Through knowledge on Fourier series 2. Sound knowledge in P.D.E & its application to vibration of strings and temperature equation. 3. To be familiar with its and its application. FOURIER SERIES Dirichlet’s conditions – General Fourier series – Half range Sine and Cosine series – Parseval’s identity – Harmonic Analysis.

28

EI – 07-08 – SRM – E&T

PARTIAL DIFFERENTIAL EQUATIONS Formation – Solution of standard types of first order equations – Lagrange’s equation – Linear homogeneous partial differential equations of second and higher order with constant coefficients - Classification of second order linear partial differential equations. ONE DIMENSIONAL WAVE & HEAT EQUATION Boundary and initial value problems - Transverse vibrations of elastic string with fixed ends – Fourier series solutions – One dimensional heat equation - Steady and transient states – problems. TWO DIMENSIONAL HEAT EQUATION Two dimensional heat equation – Steady state heat flow equation – Laplace Equation Cartesian form – Laplace equation in polar form – heat flow in circular plates including annulus - Fourier series solution. FOURIER TRANSFORMS Statement of Fourier integral theorem – Fourier transform pairs – Fourier Sine and Cosine transforms – Properties – Transforms of simple functions – Convolution theorem – Parseval’s identity. TEXT BOOKS 1. Grewal B.S., Higher Engineering Mathematics, 36th edition, Khanna Publishers, 2002. (UNIT 1 – Chapter 10 Section 10.2 – 10.7, 10.9, 10.11 UNIT 1I – Chapter 17 Section 17.2, 17.5, 17.6, 17.8 – 17.10, Chapter 28 Section 28.2, UNIT 1II – Chapter 18 section 18.4 (2), 18.5(2), UNIT 1V – Chapter 18 Section 18.7, 18.8(1) Unit V – Chapter 22 section 22.3 – 22.7). REFERENCE BOOKS 1. Kreyszig.E, Advanced Engineering Mathematics, 8th edition, John Wiley & Sons, Singapore, 2000. 2. Kandasamy P etal. Engineering Mathematics, Vol. II & Vol. III (4th revised edition), S.Chand & Co., New Delhi, 2000. 3. Narayanan S., Manicavachagom Pillay T.K., Ramanaiah G., Advanced Mathematics for Engineering students, Volume II & III (2nd edition), S.Viswanathan Printers and Publishers, 1992. 4. Venkataraman M.K., Engineering Mathematics – Vol.III – A & B (13th edition), National Publishing Co., Chennai, 1998.

CE0221

L 3

ENGINEERING MECHANICS Prerequisite Nil (Common to ICE)

T 0

P 0

C 3

PURPOSE To familiarise the students with the fundamentals of Engineering Mechanics and Principles. INSTRUCTIONAL OBJECTIVES The students will be able to understand the basics of Static and Dynamics of particles and rigid bodies. BASICS AND STATICS OF PARTICLES Introduction – Basic concepts of mechanics – fundamental principles – units and dimensions – vectorselementary vector operations – vectorial representation of forces and moments. Coplanar forces – resolution and composition of forces – resultant of concurrent forces – free body diagram – equilibrium of a particle Forces in space – equilibrium of particle in space.

STATICS AND RIGID BODIES AND FRICTION Introduction – Moment of a force – Varignons theorem – moment of a couple – equivalent system of forces – resultant of coplanar non-concurrent forces – equilibrium of rigid bodies in Two dimension- Three dimensions. Friction –laws of dry friction – simple contact friction – screw friction – belt friction. CENTRE OF GRAVITY AND MOMENT OF INERTIA

29

EI – 07-08 – SRM – E&T

Centroid of simple plane areas – integration method – centroid of composite areas – theorems of Pappus and Guldinus – centroid of simple volumes by method of integration. Second moment of areas – radius of gyration – parallel axis theorem – perpendicular – axis theorem – moment of inertia of plane areas by integrating –moment of inertia of composite sections – mass moment of inertia of thin plates and simple solids. KINEMATICS AND KINETICS OF PARTICLES Displacement , velocity and acceleration – rectilinear and curvilinear motion of particles with uniform acceleration – relative motion of two particles – free falling objects and project tiles. Newtons second law – equations of rectilinear motion – dynamic equilibrium – D Alemberts principles – Work energy and Impulse – Momentum principle. KINEMATICS AND KINETICS OF RIGID BODIES Translation and Rotation of rigid bodies – general plane motion – absolute and relative velocity in plane motion – instantaneous centre of rotation – absolute and relative acceleration. Equations of translational and rotational motion D-Alembert’s principle – kinetic energy of a rigid body – principles of work energy – moment of momentum equation TEXT BOOKS 1. Beer and Johnson ,Mechanics for Engineers Vol –I Statics and Vol II Dynamics, Mc Graw Hill Book Company, 1987. 2. B.Rajasekharan and Sankarasubramaniyam ,Engineering Mechanics (Statics and Dynamics), Vikey Publishing House Pvt. Ltd.,1999. REFERENCES 1. Irving Shames H.,Engineering Mechanics (Statics and Dynamics), Printice Hall of India Pvt. Ltd, 1963. 2. Kumar K.L. ,Engineering Mechanics, Tata Mc Graw Hill publishing company Ltd.,1990. 3. Bhaviktti S.S. ,Engineering Mechanics, New Age international Pvt. Ltd.,1994. 4. Meriam ,Engineering Mechanics (Statics & Dynamics ),Wiley international Ltd. 2002.

EI0201

L 3

ELECTRICAL MACHINES Prerequisite Nil

T 0

P 0

C 3

PURPOSE To enable the students to understand the fundamentals of d.c. machines, transformers, a.c. machines. The students are exposed to the constructional details, classifications, performance equations, phasor diagrams of all the machines. INSTRUCTIONAL OBJECTIVES The students will be able to Identify the need for various types of machines Gain constructional details and operating principles of all machines Predict the performance of all the machines by drawing different characteristics of the machines Understand the concepts of special machines. DC MACHINES Review of constructional details - working principle of DC generator - E.M.F equation - classification & performance equations - No load & load characteristics - working principle of DC motor - Back e.m.f equations for torque, power & speed - characteristics of shunt, series & compound motors - Need for starters - 3 point starter - Power stages & efficiency - speed control (qualitative treatment only) SINGLE PHASE TRANSFORMER Construction - working principle - e.m.f equation - transformer operation on no load & load - phase diagram approximate equivalent circuit - voltage regulation & efficiency calculations - predetermination from OC & SC test - direct loading- 3-phase transformer (qualitative treatment only)-Constructional details of 3-phase

30

EI – 07-08 – SRM – E&T

transformer - connection of banks of 1-phase transformer for different operations such as star-star, delta-delta, star-delta, delta -star. SYNCHRONOUS MACHINES General constructional features - types - synchronous generators - e.m.f. equation - brief idea of armature reaction - voltage regulation calculation by approximate formula - phasor diagram - Synchronous MotorOperation at constant load, variable excitation - constant excitation, variable load - phasor diagrams - starting methods (qualitative treatment only). INDUCTION MACHINES Types - construction features of 3-phase induction motor - Torque equation - slip torque characteristics- power stages & efficiency- starting & speed control methods (qualitative treatment only). SINGLE PHASE INDUCTION MOTOR & SPECIAL MACHINES Principle of operation of single phase induction motor - split phase - capacitor start & run motors - servo motor stepper motor - linear induction motor - reluctance, Universal motor. TEXT BOOKS 1. Theraja B.L. & Theraja .A.K., A Text Book of Electrical Technology, Vol.II, AC & DC machines, S.Chand & Co. Ltd., 1990. 2. Bhattacharya.S.K., Electrical Machines, Tata McGraw Hill Publishing Company Ltd., New Delhi, 1994. REFERENCE BOOKS 1. Edward Hughes, Electrical Technology, English Language book society / longman, 1987. 2. Rajput R.K., A text book of Electrical Machines, Lakshmi publications, 1991. 3. Sen. S.K. , Electrical Machinery, Khanna Publishers, 1989. 4. Gupta J.B., Theory & performance of Electrical Machines, Katson publishers House (Regd) 1994.

EI0203

L 3

DIGITAL SYSTEMS Prerequisite Nil

T 0

P 0

C 3

PURPOSE The purpose of this course is to develop a strong foundation in the field of Digital Electronics. The subject gives the students an in-depth knowledge about Digital logic families, Combinational circuits and enables them to analyze and design any sequential circuits. INSTRUCTIONAL OBJECTIVES At the end of the course, student should be able to Understand the fundamentals of Digital concepts. Logically explain the Implementation of combinational and sequential circuits. Design any synchronous and asynchronous sequential circuit. NUMBER SYSTEM AND BOOLEAN ALGEBRA Review of number systems :Types and Code Conversions, Binary Arithmetic, Signed binary-Codes – BCD, ASCII, EBCDIC, Execss-3 codes, Gray codes, Error detecting code (Hamming code)- Parity Generation and detection. Boolean Algebra –Demorgans Therom- Minimization of Boolean functions using Karnaugh maps & Quine – Mclusky Methods. DIGITAL INTEGRATED CIRCUITS RTL, DTL, HTL, TTL, ECL, MOS & CMOS families. Circuit diagram and analysis characteristics and specifications, Tri-State Logic-Specification and Transfer characteristics of Basic TTL interfaces–interfacing of CMOS to TTL and Interfacing of TTL to CMOS. COMBINATIONAL CIRCUITS Half Adder, Full Adder, Decimal Adder, Subtractor, Code converters, encoders, Decoders, Multiplexers and De Multiplexers, Comparators, Function realization using gates &Multiplexer.

31

EI – 07-08 – SRM – E&T

SEQUENTIAL CIRCUITS Flip flops – SR, JK, T, D, Master slave FF, Truth table and Excitation table, Synchronous and Asynchronous counters, Up-Down counter, Modulo Counter, Ring counter, Shift register, Analysis of clocked sequential circuits – their design, State Diagram, State minimization, State assignment. SEMICONDUCTOR MEMORIES Memories: ROM, RAM, EPROM, Memory expansion– PAL and PLA. TEXT BOOKS 1.Morris Mono, Digital Design, Prentice Hall of India, 1991. 2.Ronald J. Tocci, Digital System Principles and Applications, PHI, 6th Edition, 1997. 3.CharlesH.Roth, Fundamentals Logic Degisn, Jaico Publishing,IV Edition,2002 REFERENCE BOOKS 1. Floyd, Digital Fundamentals, Universal Book stall, New Delhi, 1986. 2. Morris Mono, Digital Logic and Design, Prentice Hall of India, 1979. 3. R. P. Jain, Modern Digital Electronics, Tata McGraw Hill, 3rd edition, 1997. 4. Malvino.A.P. and Donald.P.Leach, Digital Principal and Applications, 4th Edition, Tata McGraw Hill, 1999.

EI0205

L 3

ELECTRONIC CIRCUITS Prerequisite Nil

T 0

P 0

C 3

PURPOSE To enable the students to have a fair knowledge about the h-parameters and r-parameters in the transistors, amplifiers, basic concepts of feedback, oscillators, power supply. INSTRUCTIONAL OBJECTIVES 1. To get an exposure about various transistor configurations and analysis of FET amplifiers 2. To have an idea about the frequency response of amplifiers and different types of feedback 3. To have a clear understanding of operation of oscillators and power supplies AMPLIFIERS Small signal models for transistors – Two port devices and network. h parameters, hybrid pi models, r parameters, r-parameter equivalent circuits, Analysis of CE, CB and CC amplifiers, small signal FET amplifier, operation of JFET amplifier. DIFFERENTIAL & TUNED AMPLIFIERS Classification of amplifiers, Distortion in amplifiers, frequency response of an amplifier, cascade and Darlington connections, operation and analysis of class A Power amplifier, push-pull amplifier, Class B amplifier, class C amplifiers, complementary symmetry power amplifier, operation of emitter–coupled differential amplifier, single tuned and double tuned amplifier, stagger tuned amplifier. FEEDBACK AMPLIFIERS & WAVE SHAPING CIRCUITS Basic concepts of feedback, four types of negative feedback – Effect of feedback on input resistance, output resistance, voltage gain and current gain, advantages of negative feedback. RC wave shaping circuits, diode clippers and clampers, voltage multipliers. OSCILLATORS & MULTIVIBRATORS Classification of oscillators – Barkhausen criterion- operation and analysis of RC phase shift, Wienbridge, Hartely, Colpitts and crystal oscillators. Multivibrators – astable, monostable and bistable – Analysis of performance parameters of multivibrators using Schmitt Trigger – Blocking oscillators. RECTIFIERS & POWER SUPPLIES

32

EI – 07-08 – SRM – E&T

Single phase half-wave and full-wave rectifiers – Bridge rectifiers – Ripple factor, rectification efficiency, Transformer utilisation factor and regulation – Performance characteristics of rectifiers with filters – Regulated power supply – series and shunt type voltage regulators – switched mode power supplies. TEXT BOOKS 1. Millman and C.Halkias, Electronic Devices and Circuits, Tata McGraw Hill.,2001 2. Mathur.S.P., KulshreshthaD.C. & Chanda.P.R., Electronic Devices – Applications and Integrated circuits, Umesh , Publications.,1999. REFERENCE BOOKS 1. Malvino, Electronic Principles, Tata McGraw Hill, 6th edition,2000. 2. Boylestad & Nashelsky, Electronic Devices & Circuit Theory, Eighth edition, Prentice Hall Of India (P) Ltd., 2003. 3. Sedha.R.S., A Text Book of Applied Electronics, Sultan chand Publishers,1999. 4. Allen Mottershed, Electronic Devices & Circuits, An Introduction, Prentice Hall Of India (P) Ltd,1999.

EI0207

ELECTRIC CIRCUITS AND NETWORKS Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To enable the students to acquire knowledge about the basics of circuit analysis, network theorems, AC circuits, and transient analysis. INSTRUCTIONAL OBJECTIVES The students will be able to 1. Understand about analysis of complex circuits using mesh current & nodal voltage method and theorems 2. Understand about analysis of complex circuits using netwok theorems. 3. Get an insight into solution of RLC circuits, analysis of coupled circuits. 4. Understand the concept of complex frequency & free and forced responses of RL, RC & RLC circuits. 5. Understand the different parameters of two port networks. BASICS OF CIRCUIT ANALYSIS Ideal sources – Dependent and Independent sources – KCL and KVL - Formation of matrix equations and analysis of complex circuits using mesh current and nodal voltage methods-Super mesh analysis_ Super node analysis_ Star _Delta transformation - application to DC circuits. NETWORK THEOREMS Thevenin’s Theorem, Norton’s Theorem, Superposition theorem, Maximum power transfer theorem, compensation Theorem, Reciprocity theorem, Millman’s theorem, Tellegen’s theorem – Statement, illustration & application to DC circuits. AC CIRCUITS- STEADY STATE ANALYSIS Voltage, Current relationship of R, L, C, RL, RC & RLC circuits – power& power factor– series resonance, parallel resonance – Q factor – Bandwidth. Self Inductance– Mutual Inductance – Coefficient of coupling –dot rule- effective inductance of coupled coils in series & in parallel. TRANSIENT ANALYSIS oncept of complex frequency – Network functions- Poles and Zeros _Representation of network elements in time domain & frequency domain – Free & forced responses of RL, RC, and RLC circuits with DC and sinusoidal excitation.

TWO PORT NETWORKS Definitions of driving point and transfer immittance function of two port networks -of network functions- Two port Parameters: z, y, h, inverse-h, ABCD parameters and transmission parameters- Relationship between the different parameters.

33

EI – 07-08 – SRM – E&T

TEXT BOOKS 1. Hayt & Kemmerley, Engineering circuit Analysis, Tata McGraw Hill.1993. 2. Sudhakar, A. And Shyam Mohan.S.P, Circuits and Networks Analysis and Synthesis, Tata McGraw Hill Publishing Co. Ltd. New Delhi 1994. 3. Soni &Gupta, A course in Electrical circuits Analysis, Dhanpat rai & Sons,1992. REFERENCE BOOKS 1. Arumugam & Premkumar, Electric Circuit Theory, Khanna Publishers.2002. 2. Edminister J.A. , Theory and Problems of Electric Circuits, Schavms outline series McGraw Hill Book Company, 5th edition.1994 3. Aatre .V.K, Network Theory and Filter Design, Wiley Eastern ,1985.

PD 0201

L 0

PERSONALITY DEVELOPMENT -III Prerequisite Nil

T 0

P 2

C 1

PURPOSE The purpose of this course is to build confidence and inculcate various soft skills and to help Students to identify and achieve their personal potential. INSTRUCTIONAL OBJECTIVES 1. To guide thought process. 2. To groom students' attitude. 3. To develop communication skill. 4. To build confidence. METHODOLOGY The entire program is designed in such a way that every student will participate in the class room activities. The activities are planned to bring out the skills and talents of the students which they will be employing during various occasions in their real life. 1. Group activities + individual activities. 2. Collaborative learning. 3. Interactive sessions. 4. Ensure Participation. 5. Empirical Learning Goal Setting - Problem Solving - Emotional Quotient Assertiveness - Stress Management - Quiz II Lateral Thinking (Situational) - Team Work (Role Plays) Impromptu - Text Analysis Business plan presentation I - Business plan presentation II - Chinese Whisper Picture Perfect - Case Studies - Review SCHEME OF INSTRUCTION Marks allocated for regular participation in all oral activities in class SCHEME OF EXAMINATION Complete internal evaluation on a regular Basis

EI0213

L 0

CIRCUITS LAB Prerequisite

34

T 0

P 3

C 1

EI – 07-08 – SRM – E&T

Nil PURPOSE To gain practical knowledge about basic electrical circuits, useful theorems in circuit analysis and fundamental characteristics of electronic devices.

INSTRUCTIONAL OBJECTIVES At the end of the course the students will be able to Design circuits for verifying theorems in circuit analysis Understand transient analysis of AC circuits LIST OF EXPERIMENTS 1. Verification of Kirchoff’s Laws 2. Verification of Thevenin’s and Norton’ Theorem 3. Verification of Superposition and Reciprocity Theorem 4. Verification of Maximum power transfer and compensation theorem 5. Series and Parallel Resonance Circuits. 6. Transients in RLC Circuits. 7. Series and Parallel AC Circuits and Phasor Diagram. 8. Coupled Circuits and Tuned Circuits. REFERENCE Circuits & Devices Laboratory Manual.

EI0215

ELECTRICAL & ELECTRONICS LAB Prerequisite Nil

L 0

T 0

P 3

C 1

PURPOSE To gain practical knowledge in Electrical Machines and few applications of basic electronic components. INSTRUCTIONAL OBJECTIVES Students will learn 1. OC and SC test on single phase transformer 2. Characteristics of shunt motor 3. Speed control of series and shunt motor 4. Analyse the response of amplifier 5. Working of Multi vibrators and Voltage regulators LIST OF EXPERIMENTS 1. Load characteristics of Shunt Generator 2. Speed control of Series motor 3. Speed control of Shunt motor 4. OC & SC test on single phase transformer 5. Load test on single phase transformer 6. Load test on single phase capacitor motor & (Universal motor) 7. Frequency response of CE and CC amplifier 8. Class B Power Amplifier 9. Differential Amplifier 10. Wein bridge Oscillator & RC Phase shift Oscillator 11. Astable Multivibrator 12. Transistor Series Voltage Regulator REFERENCE Electrical and Electronics Laboratory Manual.

SEMESTER IV 35

EI – 07-08 – SRM – E&T

LE0202

L 2

GERMAN LANGUAGE PHASE - II Prerequisite GERMAN LANGUAGE PHASE - I

T 0

P 0

C 2

PURPOSE Enabling the Engineering Students to one more Foreign Language, especially German, which is scientific and technical language. This may be useful in the field of employment opportunities as well as helping them to develop projects on browsing German websites. INSTRUCTIONAL OBJECTIVES Developing pronunciation so that they can read the text and e-mail during their employment, instructing them to write their own C V and developing a fundamental conversation with any German national SPEAKING; Dialogue – Questioning / Basic queries / Conversational with practical exposure. GRAMMATIK (WRITING) Verben, Wortstellung, Nomen, Pronomen, Artikel, Nominitativ, Akkusativ, Dativ, Adjective, Prasens, Perfect and Neben Satze. GLOSSARY Technical words. Lesson (6-10) TEXT BOOK WITH CASSETTES 1. Grundkurs Deutsch 2. Momentmal (Prescribed by Max Mueller Bhavan – Goethe Institute, Germany). SCHEME OF EVALUATION Internal 50 = Listening – 10 Marks, Speaking – 20 Marks, Reading – 10 Marks and Writing = 10 Marks External 50 – 3 hours final written exam

LE0204

JAPANESE LANGUAGE PHASE II Prerequisite JAPANESE LANGUAGE PHASE I

L 2

T 0

P 0

C 2

PURPOSE 1. In view of globalization, learning Foreign Language by Engineering graduates enhances their employment opportunities. 2. Get awareness of understanding of International culture. 3. Widening the Linguistic Skills of the Students. INSTRUCTIONAL OBJECTIVES To learn the scripts of Japanese Languages namely Hiragana, Katakana and Kanji, Vocabularies etc. To learn basic grammar and acquire basic communication skills. To understand Japanese culture. Lesson 2-{Korewa Tsukue desu } – Grammar, Sentence pattern, Marume .Conversation Lesson 3 – [Kokoni denwa ga arimasu] - Grammar, Sentence pattern, Marume .Conversation Lesson 4– {Asokoni hito ga imasu} - Grammar, Sentence pattern, Marume . Lesson 5– {Akairingo wa ikutsu arimasu ka}-Grammar, Sentence pattern, Marume . Conversation. Lesson 6– {Barano hana wa ippon ikura desu ka}- Grammar, Sentence pattern.Marume.Conversation

TEXT BOOKS 1. Nihongo Shoho Imain Text sold in India by the Japanese Language Teachers Association Pune.

36

EI – 07-08 – SRM – E&T

2. 3. 4.

Hiragana and Katakana Work Book published by AOTS Japan Grammar and Kotoba ( Work Book ) Japanese for Dummies.(Conversation) CD.

SCHEME OF EVALUATION Internal 50 = Listening – 10 Marks, Speaking – 20 Marks, Reading – 10 Marks and Writing = 10 Marks External 50 – 3 hours final written exam

LE0206

FRENCH LANGUAGE PHASE II Prerequisite FRENCH LANGUAGE PHASE I

L 2

T 0

P 0

C 2

PURPOSE 1. As language skills are as valuable as technical skills a knowledge of French enables the engineering graduates in career orientation. 2. As a second international global Lang after English there is a wider choice of job opportunities in the inter national employment market and also multinationals in India and an understanding of French culture thro language. INSTRUCTIONAL OBJECTIVE Characterised by the Roman script, grammar, vocabulary and colloquial expressions are taught which enables them to communicate effectively with any native speaker. Sports (Ski, natation, tennis, Tour de France), Cuisine (French dishes),Cinema (Review of a film) – Articles on these topics and group discussion will be followed. GRAMMAR Possessive Adjectives, Demonstrative Adjectives, Past tense – Passé Compose( Verbe Auxiliare:.Etre et Avoir) Culture and Civilization French Monuments (Tres celebres), French History (Jeanne d’ Arc, Louis XIV, Prise de la Bastille), Culture and Civilisation (vin, fromage, mode, parfums) Transport system, government and media in France – articles on these topics. Comprehension and Grammar Comprehension passages and conversational sentences in different situations (at the restaurant, at the super market) TEXT BOOK: 1. Panorama – Goyal Publishers 2. Apprenons le Francais II, Sarawathy Publications SCHEME OF EVALUATION Internal 50 = Listening – 10 Marks, Speaking – 20 Marks, Reading – 10 Marks and Writing = 10 Marks External 50 – 3 hours final written exam

MA0212

PROBABILITY AND QUEUING THEORY Prerequisite Nil

37

L 3

T 2

P 0

C 4

EI – 07-08 – SRM – E&T

PURPOSE To make the student familiar with probability, random variables and distribution and their characteristics and also principles of Queuing theory. OBJECTIVES

At the end of this course. The students with get exposed to 1. Probability and Random principles. 2. Be familiar with theoretical distribution and their application. 3. To have a knowledge of testing of hypothesis. 4. Be through with the knowledge of queuing theory. PROBABILITY AND RANDOM VARIABLES Probability concepts − Random Variable – Characteristics of random variables: Expectation, Variance, Covariance, Moments; Moment generating function – Function of random variable – Chebychev’s inequality. THEORETICAL DISTRIBUTIONS Discrete : Binomial, Poisson, Geometric, Negative Binomial; Continuous : Exponential and Normal Distributions. TESTING OF HYPOTHESES Large sample tests based on Normal Distribution – Small sample tests based on t, F distributions – Chi square tests for goodness of fit and independence of attributes. PRINCIPLES OF QUEUEING THEORY Introduction to Markovian queueing models – Single server model with finite and infinite system capacity – Characteristics of the model; Applications of queueing theory to computer science and engineering. MARKOV CHAINS Introduction to Markov process – Markov chains – transition probabilities – Limiting distribution TEXT BOOKS 1. Veerarajan T., Probability, Statistics and Random Processes, Tata McGraw Hill,1st Reprint 2004. (UNIT 1 – Chapter 1 Pages 1.1-1.20, Chapter 2 Pages 2.1 – 2.3, Chapter 3 Pages 3.1, Chapter 4 Pages 4.36 UNIT 1I – Chapter 5 Pages 5.1 – 5.8, 5.38, 5.39,5.44 – 5.53, UNIT 1V – Chapter 8 Pages 8.1-8.10,8.15, Unit V–Chapter 6 Pages 6.1– 6.3, Chapter 7 Pages 7.45 – 7.49) 2. S.C. Gupta and V.K. Kapoor, Fundamentals of Mathematical Statistics, 9th extensively revised edition, Sultan Chand & Sons, 1999. (UNIT 1II – Chapter 12 Section 12.1, 12.3,12.4,12.6-12.42, Chapter 13 Section 13.5, 13.39, 13.49, Chapter 14 Section 14.16- 14.24, 14.57). REFERENCE BOOKS 1.

Trivedi K S, Probability and Statistics with reliability, Queueing and Computer Science Applications ,Prentice Hall of India,New Delhi, 1984

2.

Gross.D and Harris.C.M. ,Fundementals of Queuing theory, John Wiley and Sons, 1985.

3.

Allen.A.O., Probability Statistics and Queuing theory,Academic Press, 1981.

ME0232

THERMODYNAMICS AND FUILD MECHANICS Prerequisite Nil

38

L 3

T 0

P 0

C 3

EI – 07-08 – SRM – E&T

PURPOSE To enable the students to develop understanding of Mechanical Engineering concepts and principles and apply these to solve the practical problems encountered in their profession. INSTRUCTIONAL OBJECTIVES The students will be able to 1. Understand the basic thermodynamic principles and concepts. 2. Understand the principles of working of various Mechanical Engineering systems and their operating characteristics. 3. Understand the principles of Fluid Mechanics and the Measurement Techniques of Fluid properties. BASICS OF THERMODYNAMICS Systems, Zeroth Law, First Law - Concept of Internal Energy and Enthalpy, Applications to closed and open systems - Second Law - Concept of Enthalpy - Clausius Inequality. CYCLES AND SYSTEMS Otto, Diesel and Brayton cycles, IC engines - 4 stroke and 2 stroke engines - Brake power - Efficiencies - Heat Balance - Simple problems only. Properties of steam - Use of steam tables and mollier diagram -Rankine cycle - Simple problems. REFRIGERATION AND AIR CONDITIONING SYSTEMS Vapour compression refrigeration systems - COP - Simple problems - Basics of air conditioning systems, Reciprocating compressors - Volumetric efficiency - Power required - Rotary compressors - Heat transfer Modes of heat transfer - Simple problems on conduction, convection and radiation. BASICS OF FLUID MECHANICS Introduction - Properties of fluid - Density, viscosity, pressure and velocity - Types of fluid flow - Continuity equation - Energy / Head of fluid - Euler's equation - Bernoulli's equation, flow through pipes - Hagen Poiseulli's law - major and minor losses. FLUID MEASUREMENTS 1. Flow Measurements - Orifice meter, Venturi meter, Rota meter and Elbow meter. 2. Pressure Measurement -Total and static pressure measurements using pitot tube, manometer, mechanical gauges. 3. Velocity Measurements - Anemometers - Cup and Vane types, Hot wire anemometers, Laser anemometers. TEXT BOOKS 1. Sarkar B.K., Thermal Engineering, Tata McGraw Hill Co. Ltd., India, 1999. 2. Rajput.R.K Fluid Mechanics and Hydraulic Machines , S.Chand & Co., India 1998. REFERENCE BOOKS 1. Rayner & Joel, Basic Engineering Thermodynamics , Addison Wesley Publishing Company Ltd., 5th Edition, 1996. 2. Nag.P.K., Engineering Thermo Dynamics, Tata McGraw Hill Co. Ltd., India, 1995. 3. Rajput R.K.,Thermal Engineering, Laxmi Publications (P) Ltd., NewDelhi, Edition. 2001. 4. Shames.I.H, Koga Kusha ,Mechanics of Fluids, Tokyo, 1998. 5. D.S.Kumar, Fluid Mechanics and Fluid Power Engineering, S.K.Kataria & Sons Publishers, India, 6th Edition, 2003.

EI0202

LINEAR INTEGRATED CIRCUITS Prerequisite Nil

39

L 3

T 0

P 0

C 3

EI – 07-08 – SRM – E&T

PURPOSE To enable the students to understand the fundamentals of Integrated circuits and designing electronic circuits using it. INSTRUCTIONAL OBJECTIVES To design simple circuits like amplifiers using Op-Amps. To design waveform generating circuits . To design simple filter circuits for particular application. To gain knowledge in designing stable voltage regulators. CHARACTERISTICS OF OPAMP AND ITS APPLICATIONS Ideal Op-amp characteristic, DC characteristics, AC characteristics, and analysis of data sheet of IC 741. Linear application – Basic Op-amp applications, Instrumentation amplifier, AC amplifier, Summer, Integrator, Differentiator, V to I and I to V converter. Non linear application –rectifiers, clipper, clamper, sample and hold, log & antilog amplifiers, multiplier, divider and programmable transconductance amplifier. COMPARATOR AND WAVEFORM GENERATORS Introduction, basic comparator operation, regenerative comparator, monostable multivibrator, astable multivibrator (square wave generator), triangular wave generator, sawtooth wave generator, sine wave generator – Wein bridge and phase shift oscillator. ACTIVE FILTERS & PLL RC active filter – Low pass, High pass, Band pass, Band reject and notch filter, Butterworth & state variable filter. PLL – Description and application – frequency multiplier, frequency divider, AM detector and FM demodulator. ANALOG / DIGITAL, DIGITAL / ANALOG CONVERTERS Digital / Analog – Basic concepts, Analog switches, Types - weighted resistor, R-2R ladder and inverted R-2R ladder DAC. Analog / Digital – Basic Concepts, Types- Flash, Counter, Successive approximation and Dual slope ADC. General ADC and DAC specifications. VOLTAGE REGULATORS & TIMER Op-amp voltage regulator-Series, shunt and switching regulators, three terminal voltage regulator, 723 generalpurpose voltage regulator. Timer (IC555) – Timer functional diagram, Monostable operation, Astable operation, Schmitt trigger and their applications. TEXT BOOKS 1.Roy Choudhury and ShailJain, Linear Integrated circuits, Wiley Eastern Ltd., 1995. 2.Coughlin & Driscull, Operational Amplifiers & Linear Integrated Circuits, 6th ed., Prentice Hall Of India, 2003. REFERENCE BOOKS 1. Gayakwad A.R. , Op-Amp and Linear Integrated circuits,4th ed. Prentice Hall of India, 2003. 2. Sergio Franco,, Design with operational amplifier and analog integrated circuits, McGraw Hill, 1997.

EI0204

TRANSDUCERS ENGINEERING Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE

40

EI – 07-08 – SRM – E&T

To enable the students to select and design suitable instruments to meet the requirements of industrial applications. INSTRUCTIONAL OBJECTIVES: 1. It deals with various types of Sensors & Transducers and their working principle. 2. It deals with Resistive, Capacitive and Inductive transducers. 3. It deals with some of the miscellaneous transducers also. INTRODUCTION Sensors – Transducer-Classification of Transducer– Basic requirements of a transducer. Generalised scheme for measurement system – Basic method of measurement – Static characteristics–Errors in measurement – Types of errors – Statistical analysis of measurement data – Mean, Standard Deviation, Probability errors. RESISTIVE TRANSDUCERS Potentiometer – Loading effect – Application - Strain gauge - Theory, Types, Temperature compensationApplications – Torque measurement, Proving Ring, Load Cell – Resistance thermometer – Thermistors materials - Constructions, Characteristics – Hot wire anemometer –LDR INDUCTIVE TRANSDUCERS Self inductive transducer – Mutual inductive transducers – Reluctance pick up – Linear Variable Differential Transformer – LVDT Accelerometer - RVDT – Synchros - Proximity sensors - Microsyn – Induction Potentiometer – Variable Reluctance Accelerometer – Magnetostrictive Transducers-Applications(thickness & level measurement). CAPACITIVE TRANSDUCERS Capacitive transducer- Variable Area Type – Variable Air Gap type – Variable Permittivity typeApplications(Measurement of level,pressure,thickness,sound) – Signal Conditioning Circuit – Frequency response. MISCELLEANEOUS TRANSDUCERS Piezoelectric Transducer – Piezoelectric Crystals – Accelerometer – Charge Amplifier – Hall Effect transducersApplications-Shaft Encoder – IC sensors for Temperature and Pressure – Intelligent Sensors.

TEXT BOOKS 1. Deoblin E.O., Measurement System Application and Deisgn, McGraw Hill, 1990. 2. Patranabis D., Principle of Industrial Instrumentation, Tata McGraw Hill,1986. REFERENCE BOOKS 1. Considine D.M., Process Instruments and Control Hand Book, McGraw Hill, 1985. 2. Fribance A.E., Industrial Instrumentation Fundamentals, Mc Graw Hill 1975. 3. Anderson N.A., Instrumentation for Process Measurement and Control, Chilton company, 1980. 4. Neubert ,HKP, Instrument Transducers, Oxford University Press, 1999. 5. Sawhney A. K., A Course in Electrical and Electronics Measurements and Instrumentation, Dhanpat Rai and Sons, New Delhi, 1995.

EI0206

ELECTRICAL AND ELCTRONICS MEASUREMENTS AND INSTRUMENTATION Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE

41

EI – 07-08 – SRM – E&T

To enable the students to learn in detail about the various instruments available for monitoring/measuring electrical parameters encountered in domestic / industrial applications. INSTRUCTIONAL OBJECTIIVES The students will be able to 1. Understand and learn the different principles and instruments adopted for measurement of current, voltage, power, energy etc. 2. Study different methods available for measurement of passive elements like resistance, inductance & capacitance 3. Solve problems in the topics mentioned above. 4. Construction of power supplies 5. Analyzing signals using cathode ray oscilloscope 6. Storage of digital signal and analyzers for analyzing digital signal to provide with meaning full information. MEASUREMENT OF CURRENT AND VOLTAGE Introduction to electrical measurements – classification of analog instruments – Galvanometers – vibration, tangent and d’Arsonval type. Principle of operation, construction, sources of errors and compensations in PMMC, moving iron, dynamometer and induction type instruments. Extension of ranges and calibration of ammeters & voltmeters. MEASUREMENT OF POWER AND ENERGY Power measurement – Voltmeter ammeter method, electrodynamic wattmeter – Theory, errors and compensation methods, low power factor wattmeter – power measurement in poly-phase systems-Energy measurement – single phase and poly phase induction type energy meter – theory and adjustments – D.C.energy meter – testing of energy meters-Calibration of wattmeter and energy meter. MEASUREMENT OF RESISTANCE AND IMPEDANCE Low Resistance : Kelvin’s double bridge and Ductor Ohmmeter method-Medium Resistance: Voltmeter Ammeter method, Substitution method, Wheatstone bridge method – High Resistance: Megger, Direct deflection method, Megohm bridge method.-Earth resistance measurement. Introduction to A.C. bridges – Sources and Detectors in A.C. bridges. Measurement of Self Inductance : Maxwell’s bridge, Hay’s bridge, and Anderson’s bridge. Measurement of Mutual Inductance : Heaviside M.I. bridge, Measurement of Capacitance : Schering’s bridge, De- Sauty’s bridge Measurement of frequency using Wien’s bridge. POWER SUPPLIES Fixed and variables power supplies - positive and negative voltage regulators - functional block diagram of voltage regulator IC's. OSCILLOSCOPES & SIGNAL GENERATORS CRO-general purpose and advanced type -sampling and storage scopes - Signal and function generators - noise generators - pulse and square wave generator - sweep generator - wobbluscope - pattern generator RECORDING DEVICES AND WAVE ANALYSERS Bar graph display - seven segment and dot matrix displays - signal recorders - x-y recorder - magnetic tape recorders - digital recording and data loggers -basic wave analyzer - frequency selective and heterodyne spectrum analyzer - fundamental type harmonic distortion analyzers - distortion factor meter - Q meter Distortion analyzers using resonance bridge, Wien bridge, bridge -T Method - Impedance measurement TEXT BOOKS 1. Sawhney A. K., A Course in Electrical and Electronics Measurements and Instrumentation, Dhanpat Rai and Sons, New Delhi, 1995. 2. Golding E. W. and Widdis F. E, Electrical Measurements and Measuring Instruments, Sir Issac Pitman and Sons Pvt. Ltd., 1985. 3. Kalsi.H.S., Electronic Instrumentation, 2002. 4. Cooper W.D & Hlefrick A.D., Electronic Instrumentation & Measurement Technique, III Edition, Prentice Hall of India – 1991. REFERENCE BOOKS 1. Stout .M. B., Basic Electrical Measurements, Prentice Hall of India, New Delhi, 1990.

42

EI – 07-08 – SRM – E&T

2. 3.

Rajendraprasad, Electrical Measurements and Measuring Instruments, Khanna Publishers, New Delhi, 1999. Gupta J.B, Electrical Measurements and Measuring Instruments, S.K. Kataria & Sons, New Delhi, 1993.

4. 5. 6.

B.M. Oliver and J.M.Gage, Electronic Measurements and Instrumentation, McGraw Hill 1977. George .C.Barney , Intelligent Instrumentation, Prentice Hall of India, 1988. Bouwens .A.J., Digital Instrumentation, McGraw Hill 1986.

EI0208

COMMUNICATION ENGINEERING

L 3

T 0

P 0

C 3

Prerequisite Nil PURPOSE To know about the basics of communication engineering such as Analog modulation (AM,FM, Transmission, Reception), and pulse modulation methods. . INSTURCTIONAL OBJECTIVES 1. AM Modulation and Demodulation – DSB-FC, DSB-SC, SSB, VSB. 2. FM Modulation and Demodulation 3. PAM, PPM, PWM, PCM, TDM AND FDM. 4. Fundamentals of TV, satellite and fiber optic communication. AMPLITUDE MODULATION Need for Modulation_ Amplitude Modulation – Generation of AM waves (DSB-FC) - Suppressed carrier systems (DSB-SC) – Single side band modulation(SSB) – Vestigial side band modulation (VSM) - comparison of various AM systems - Source of noise – Internal and external – Types – Demodulation of AM waves – Envelope Detectors TRANSMITTERS AND RECEIVERS AM Transmitters - Low level and High level transmitters – AM Receivers – TRF receiver, super heterodyne receiver – Frequency Division Multiplexing. FREQUENCY MODULATION AND DEMODULATION Introduction to angle modulation systems – Definitions for FM & PM – Narrow band FM – Wide band FM – FM Modulators - Direct method – FM Transmitters - FM Demodulators – Slope detector - Frequency discriminator – PLL - FM Receivers - Comparison between AM & FM. PULSE MODULATION Introduction to Pulse modulation systems – Pulse amplitude modulation – Pulse Time modulation – Pulse code modulation – Inter symbol Interference - Eye Pattern – Equalization - companding – time division multiplexing – synchronous and asynchronous - Bandwidth of PCM – noise in PCM – delta modulation – comparison between PCM and DM. COMMUNICATION SERVICES ( Elementary Treatment Only) Television: Picture elements – Transmission and reception of picture information – Motion picture – Horizontal and vertical scanning frequencies – TV transmitters– TV channels. Satellite communication: Orbit – Satellite altitude – Transmission path – loss – Satellite system. Fiber optical communication: Need – Principles of light transmission in a fiber – optical fiber communication system – optical fiber – Light sources – Photo detectors – Advantages. TEXT BOOKS 1. Singh.R.P. Sapre.S.D, Communication Systems, Analog and Digital, McGraw Hill Pub. 5th Reprint 2000. 2. Deshpande,N.D , Communication Electronics, Tata McGraw Hill Pub.1989. REFERENCE BOOKS

43

EI – 07-08 – SRM – E&T

1. 2. 3.

Kennedy, “Electronics of Communication Systems, McGraw Hill – 5th reprint – 2000. Roddy D. and Coolen J., Electronic communications, Prentice Hall of India P. Ltd. 1987. Anokh Singh, “Principles of communication Engineering” – S.Chand & Co. 1991.

PD 0202

L 0

PERSONALITY DEVELOPMENT - IV Prerequisite Nil

T 0

P 2

C 1

PURPOSE The purpose of this course is to build confidence and inculcate various soft skills and to help Students to identify and achieve their personal potential INSTRUCTIONAL OBJECTIVES 1. To guide thought process. 2. To groom students' attitude. 3. To develop communication skill. 4. To build confidence. METHODOLOGY The entire program is designed in such a way that every student will participate in the class room activities. The activities are planned to bring out the skills and talents of the students which they will be employing during various occasions in their real life. 1. Group activities + individual activities. 2. Collaborative learning. 3. Interactive sessions. 4. Ensure Participation. 5. Empirical Learning Motivation II - Interpretation of Visuals of I & II Humor in real life - Body language - Collage and poster designing and slogan writing Brain Teasers – JAM - Current News Update I Current News Update II - Enactment (SKIT –I) - Enactment (SKIT – II) Survey and Reporting (heroes, sports persons etc.) - Quiz III - Review EVALUATION: 1. Activities assessed by both group and individual participation 2. Continuous assessment based on daily participation SCHEME OF INSTRUCTION Marks allocated for regular participation in all oral activities in class SCHEME OF EXAMINATION Complete Internal evaluation on a regular Basis

EI0 212

LINEAR AND DIGITAL INTEGRATED CIRCUITS LAB Prerequisite Nil

L 0

T 0

P 3

C 1

PURPOSE To study various Digital &Linear Integrated Circuits used in Simple System Configuration. INSTRUCTIONAL OBJECTIVES

44

EI – 07-08 – SRM – E&T

To study the Operational amplifier characteristics To know about the design of counters using flip flops To understand the various types of code converters LIST OF EXPERIMENTS 1. 2. 3. 4.

OP-AMP Characteristics and OP-AMP Applications Active filters using OPAMP A/D and D/A converter. Oscillators and Wave generators 5. Study of Basic Digital IC” s (Verification of Truth table for logic gates and flip flops) 6. Implementation of Boolean Functions, Adder and Subtractor Circuits 7. Implementation and testing of code converters 8. Implementation and testing of multiplexers& demultiplexer. 9. Implementation of 4- Bit shift registers using flip flops 10. Implementation and testing of counters using flip flops. 11. Design ADC and DAC , Op-amp voltage regulator-Series, shunt and switching regulators, three terminal voltage regulator, 723 general-purpose voltage regulator., Timer (IC555) circuit . REFERENCE Linear and Digital Integrated Circuits Laboratory Manual

EI0214

TRANSDUCERS ENGINEERING LAB

L 0

T 0

P 3

C 1

Prerequisite Nil PURPOSE To enable the students to know about transducers and about the types of transducers and various transducers used for the measurement of various physical quantities. INSTRUCTIONAL OBJECTIVES 1. To learn about resistive, capacitive and inductive transducers. 2. To know practically about the transducers used for the measurement of temperature, speed of a fan, and load. 3. To know practically the loading effect of potentiometer. LIST OF EXPERIMENTS 1. LDR characteristics 2. Characteristics of RTD & Thermistor 3. Strain gauge characteristics & Load cell characteristics 4. Transfer function of thermocouple 5. Characteristics of Synchros 6. Loading effect of Potentiometer 7. Characteristics of Stroboscope & Characteristics of AD590 8. Characteristics of LVDT & Characteristics of Piezo-electric transducer 9. Characteristics of Hall-effect transducer 10. Calibration of Pressure gauge & vacuum gauge 11. Flow and level measurement 12. Design capacitance level measuring device, proximity sensor, shaft encoder REFERENCE Transducer Engineering Laboratory Manual

SEMESTER V MB0301

ENGINEERING ECONOMICS AND MANAGEMENT Prerequisite

45

L 3

T 0

P 0

C 3

EI – 07-08 – SRM – E&T

Nil (Common to ICE & BME) PURPOSE To provide engineering students with the management skills to enable them to assess, evaluate and take key management decisions by the application of management concepts. INSTRUCTIONAL OBJECTIVES At the end of the course, the students are expected to: Understand the various key concepts of micro economics Demonstrate the effect of time value of money and depreciation Apply the various project management techniques Understand the various issues related to industrial safety Role and Importance of Economics for Engineers, Law of demand and supply, Break-even analysis, pricing Policies Cost determination, Balance Sheet, Cost benefit analysis, Time Value of Money, Methods of Depreciation, Long Term and short term financing, Financial Institutions. Management – Nature and functions, Project Management – Phases and Techniques, CPM, PERT, Human Aspects of Project Management – Issues and Problems, Managing-vs-leading a project. Marketing Concepts, Marketing MIX, product life cycle, Plant layout, Plant location, Material Handling, Productivity, Plant Maintenance and Industrial Safety. Current Trends in financing, Role of Industrial Engineer and Applications of Industrial Engineering, Process of Project Management and the Future, Ethics and Project Management, E-Marketing – Ethical and legal issues. TEXT BOOKS 1. R. Pannerselvam, Engineering Economics, PHI, 2001. 2. O.P. Khanna, Industrial Engineering and Management, Dhanapat Rai and sons, 1992. REFERENCE BOOKS 1. Kotler, Marketing Management, PHI. 2. Prasanna Chandra, Finance Sense for non-finance executives, TMH

EI0303

INDUSTRIAL INSTRUMENTATION Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To provide details on basic process parameters that are applied in most processing industries for both measurement and control applications. For better focusing the basics of such parameters, the entire set has been divided into three parts of which this one is the first one. INSTRUCTIONAL OBJECTIVES To enable the students to Review the basics of measurements and different parameters used in industry Appreciate the need for the measurements covered in this part and Relate such measurements in real time application TEMPERATURE MEASUREMENT Temperature measurement using physical parameter-Electrical type temperature sensor-RTD-ThermistorThermocouples-law of thermocouple-fabrication of industrial thermocouples-signal conditioning -cold junction compensation-special techniques for measuring high temperature using thermocouples-Radiation methods of temperature measurement PRESSURE MEASUREMENT

46

EI – 07-08 – SRM – E&T

Units of pressure-manometers-different types-elastic type pressure gauges-Bourdan tube bellows-diaphragmsBell Gauge – Measurement of pressure using Electrical transducer as secondary transducer- vacuum pressure measurement-Mcleod gauge-thermal conductivity gauges-Ionization gauge cold cathode and hot cathode typesDifferential pressure measurement-flapper-nozzle assembly. FLOW MEASUREMENT Variable head type flowmeters- variable area flowmeters- EM flowmeter -turbine flowmeter- Ultrasonic flowmeter- Vortex flowmeter-Dall tube - Mass flowmeter: Direct and Indirect methods-open-channel & soild flow measurement. LEVEL MEASUREMENT Electrical methods-Resistive,Inductive & Capacitive-Measurement of Level using Gamma rays-Ultrasonic Methods-Measurement of Liquid level using Float type-Displacer type-Soild Level measurement-Hydrostatic types. MEASUREMENT OF TORQUE, VELOCITY, HUMIDITY, DENSITY Measurement of torque using strain gauge-Inductive priniciple-Digital methods and Magneto-stricitive transducer-Measurement of velocity using electromagnetic transducer-moving magnet type-moving coil typeelectromagnetic tachogenetor-stroboscope-Measurement of humidity using dry and wet bulb psychometers-dew cell-hygrometer-Measurement of density using pressure type-float type – bridge type densitometer TEXT BOOKS 1. D.Patranabis, Principles of Industrial Instrumentation, Tata McGraw-Hill Publishing Co., New Delhi, 1999 2. A.K.Sawhney, A course in Electrical and Electronic Measurement and Instrumentation – Dhanpat Raj and Sons, New Delhi, 1999. REFERENCE BOOKS 1. Ernest O.Doebelin, Measurement systems application and design international student 4th Edition, Tata McGraw Hill Publishing Co., New Delhi, 1999. 2. R.K.Jain, Mechanical and Industrial Measurements, Khanna Publishers, Delhi 1999. 3. Eckman D.P.M ,Industrial Instrumentation – Wiley Eastern Limited, 1990. 4. Liptak B.G.,Instrument Engineers Handbook (Measurement), Chilton Book Co., 1994.

EI0305

L 3

CONTROL SYSTEMS Prerequisite Nil

T 0

P 0

C 3

PURPOSE To give an introduction to the analysis of linear control systems. This will permit an engineer to exploit time domain and frequency domain tools to design and study linear control systems. INSTRUCTIONAL OBJECTIVES At the conclusion of this course, the students will be able to: Describe what feedback control is and basic components of control systems. Describe the various time domain and frequency domain tools for analysis and design of linear control systems. Describe the methods to analyze the stability of systems from transfer function forms. TRANSFER FUNCTIONS Introduction and classification of control systems-linear, nonlinear, time varying, time in-variant, continuous, discrete, SISO and MIMO systems – definitions. Transfer function – Mathematical modeling of mechanical (translation and rotational), Electrical systems- mechanical-electrical analogies– Block Diagram reduction technique and Signal flow graphs. CONTROL SYSTEM COMPONENTS Transfer function of potentiometers, armature controlled and field controlled dc motor. –tachogenerators -gear trains- controllers (On – Off, P, PI,PD, PID)

47

EI – 07-08 – SRM – E&T

TRANSIENT AND STEADY STATE ANALYSIS Transient and steady state response-definitions-mathematical expression for standard test signals-type and order of systems-step, ramp and impulse response of first order and second order under damped systems - Step response of second order critically damped and over damped systems - Time domain specifications of second order under damped systems - Steady state error analysis. STABILITY ANALYSIS Stability analysis – characteristic equation – location of roots in S-plane for stability -Routh’s stability criterionrelative stability analysis-root locus technique-construction of root loci for negative feed back systems. FREQUENCY DOMAIN ANALYSIS Frequency response analysis-frequency domain specifications of second order systems-Bode plots and stability (gain and phase) margins- Need for compensation -Introduction to lead, lag, lead-lag compensating networks, minimum phase& non-minimum phase systems - polar plots-constant M and N circles-Nichols chart - Nyquist stability criterion TEXT BOOKS 1. Katsuhiko Ogata, Modern Control Engineering- second edition, Prentice Hall of India Private Ltd, New Delhi, 1995. 2. Nagrath I J and Gopal .M., Control Systems Engineering, I edition,Wiley and sons, 1985. REFERENCE BOOKS 1. Benjamin C Kuo, Automatic Control System, 7th edition, Prentice Hall of India Private Ltd, New Delhi, 1993. 2. Gajic Z., Lelic M., Modern Control System Engineering, Prentice Hall of India Private Ltd, New Delhi, 1996. 3. Richard .C. Dorf and Robert.H.Bishop, Modern Control System Engineering, Addison Wesley , 1999.

EI0307

MICROPROCESSORS & MICROCONTROLLERS Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To enable the students to understand different types of microprocessors and micro controllers and to use microprocessor and microcontroller for different applications. INSTRUCTIONAL OBJECTIVES During the course the student will be able To learn the concepts of basic microprocessors. To get knowledge in interfacing devices. To know the concepts of microcontroller and its applications. To develop skill in simple program writing. INTEL 8085 MICROCPROCESSOR Evolution of microprocessors– 8085-microprocessor architecture –addressing modes- Instruction set – Memory interfacing –Basic timing diagram- interrupts – Software Interrupts - Data transfer schemes simple programs . PERIPHERAL INTERFACING Programmable Peripheral Interface 8255 – Programmable Communication Interface 8251 USART – Programmable Interrupt Controller 8259A - Programmable Interval Timer 8253 – Keyboard/Display Controller 8279 – DMA Controller 8237 – Floppy Disk Controller 8272- CRT Controller 8275. INTEL 8086/8088 MICROPROCESSOR Architecture of 8086/8088-Register organization – Signal Description of 8086 – Minimum mode – Maximum mode and timings –8086 Instruction set – Addressing modes – Assembler Directives and operators- simple programs. 8031/8051 MICROCONTROLLER

48

EI – 07-08 – SRM – E&T

Single chip microcontroller – Introduction to 8 bit microcontroller – architecture of 8031/8051- Signal descriptions of 8051- Register set of 8051 operational features of 8051- Memory and I/O Interfacing-Interrupts –Instruction set – addressing mode –simple programs INTERFACING Microprocessor based process control system – microcomputer based scale – interfacing alphanumeric displayskeyboard interface-speed control of stepper motor – high power devices interfacing - A/D and D/A interfacing. TEXTBOOKS 1. Ramesh S.Gaonkar ,Microprocessor architecture, programming and its application with 8085, Penram Int. Pub. (India) IV edition. 2. A.K Roy, K.M Bhurchandi, Intel Microprocessors Architecture, Programming and Interfacing, McGraw Hill International Edition – 20001 3. Muhammad Ali Mazidi and Janica Gilli Mazidi, The 8051 microcontroller and embedded systems, Pearson Education, 5th Indian reprint, 2003 REFERENCE BOOKS 1. Rafiquzzaman M. – Microprocessors – Theory and Applications Intel and Motorola, PHI Pvt. Ltd. , New Delhi 2001. 2. Douglas V.Hall – Microprocessors and Interfacing programming and hardware, Tata McGraw Hill Edition 1997. 3. Myke Predko, Programming and customizing the 8051 Microcontroller, Tata McGraw Hill, New Delhi – Second Edition, 2001.

EI0309

L 3

ANALYTICAL INSTRUMENTATION Prerequisite Nil

T 0

P 0

C 3

PURPOSE The purpose of this course is to introduce students to the basis of electrodes, analysis and chromatography. The main objective of this to help to study the spectrophotometers and nuclear magnetic resonance techniques. INSTRUCTIONAL OBJECTIVES At the end of this course. The students will be able to understood and design Various types’ electrodes, analyzer and spectrometers PH CONDUCTIVITY & DISSOLVED COMPONENT ANALYSER Sampling systems – ion selective electrodes – conductivity meters – pH meters - dissolved oxygen analyser – sodium analyser – silica analyser – moisture measurement.

GAS ANALYSER Oxygen analyser – CO monitor – Nox analyser – H2S analyser – dust and smoke measurement- thermal conductivity type – thermal analyser – industrial analysers. CHROMATOGRAPHY Gas chromatography – liquid chromatography – principles, types and applications – high-pressure liquid chromatography – detectors. SPECTRO PHOTOMETERS Spectral methods of analysis – Beer’s law UV – visible spectrophotometers – single beam and double beam instruments – source and detectors – IR spectrophotometers – sources and detectors – FTIR spectrometers – atomic absorption spectrophotometer – flame emission spectrophotometers – sources of flame photometry – applications. NUCLEAR MAGNETIC RESONANCE AND RADIATION TECHNIQUES

49

EI – 07-08 – SRM – E&T

NMR – basic principle – NMR spectrometers – applications – introduction to mass spectrophotometers – nuclear radiation detectors – GM counter – proportional counter – solid state detectors – introduction – to x-ray spectroscopy. TEXT BOOKS 1. Willard, H.H., Merrit L.L., Dean J.A Seattle F.L., Instrumental Methods of Analysis, CBS Publishing and Distribution, 1995 2. Robert D.Braun, Introduction to Instrumental Analysis, McGraw–Hill, Singapore, 1987. REFERENCES 1. Skoog, D.A. and West D.M., Principles of Instrumental Analysis, Holt Sounder Publication, Philadelphia, 1985 2. Ewing G.W., Instrumental Methods of Analysis, McGraw Hill, 1992 3. Mann C.K. Vickers, T.J. and Guillick W.H Instrumental Analysis, Harper and Row Publishers, New York, 1974. 4. Liptak, B.G, Process Measurement and Analysis, Chilton Book Company, 1995 Frank A.Settle, 5. Handbook of Instrumental Techniques for Analytical Chemistry, Prentice Hall, New Jersey, 1997

EI0311

DIGITAL SIGNAL PROCESSING Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE The purpose of this course is to introduce students to the basics of Signals and Systems, Digital Signal Processing and to DSP processor. The main objective of this subject is to help students to design the digital filters and Implementation of digital filters using various structures. INSTRUCTIONAL OBJECTIVES At the end of this course, the students will be able to design and implement digital IIR and FIR filters, understand about the architecture of the DSP processor. REPRESENTATION OF SIGNALS Continuous and discrete time signals: Classification of Signals – Periodic aperiodic even – odd – energy and power signals – Deterministic and random signals – complex exponential and sinusoidal signals – periodicity – properties of discrete time complex exponential UNIT 1mpulse – unit step impulse functions – Transformation in independent variable of signals: time scaling, time shifting

Basic properties of continuous time systems: Linearity, Causality, time invariance, stability, magnitude and Phase representations of frequency response of LTI systems -Analysis and characterization of LTI systems using Laplace transform Z transform – Inverse Z transform and its application to system analysis and characterization of discrete time systems – DFT, its properties and applications – FFT, its properties and applications. DESIGN AND IMPLEMENTATION OF DIGITAL FIR FILTERS Basic elements of Digital Signal Processing. LTI system as Frequency selective filters. Design of digital FIR filters using – Frequency sampling method- Fourier series method – using window techniques. DESIGN AND IMPLEMENTATION OF DIGITAL IIR FILTERS Review of analog filters using Butterworth and Chebyshev approximations – Frequency transformations Design of digital IIR filters using – Bilinear transformation method – Impulse Invariant transformation method. FILTER IMPLEMENTATION Implementation of discrete time systems, Structures for the realization of discrete time systems – Structures for IIR and FIR filters – Representation of numbers – Quantization of filter coefficients – Round – off effects in digital filters.

50

EI – 07-08 – SRM – E&T

TEXT BOOKS John G.Proakis and Dimitris C. Manolakis, Digital Signal Processing Principles, Algorithms and Applications, Prentice Hall of India Pvt. Ltd,1996. Mitra – Digital Signal Processing – A Computer Based Approach , McGraw Hill, 1998. REFERENCE BOOKS 1. Alan V. Oppenheim, Ronald Schaffer W., Discrete Time Signal Processing, PHI, 1989. 2. Rabiner .L.R. and Gold C.B., Theory and Applications of Digital signal Processing, Prentice Hall India, 1987. 3. Johny R. Johnson, Introduction to Digital Signal Processing, PHI. DSP Processor TMS320 Manual 1989.

PD 0301

L 1

PERSONALITY DEVELOPMENT - V Prerequisite Nil

T 0

P 2

C 2

PURPOSE The purpose of this course is to build confidence and inculcate various soft skills and to help Students to identify and achieve their personal potential INSTRUCTIONAL OBJECTIVES At the end of the course the students will be able to 1. Acquire the important soft skills for employment 2. Take part in group discussions and job interviews confidently 3. Appear for placement aptitude tests confidently 4. Gain self confidence to face the placement process METHODOLOGY The entire program is designed in such a way that every student will participate in the class room activities. The activities are planned to bring out the skills and talents of the students which they will be employing during various occasions in their real life. 1. Group activities + individual activities. 2. Collaborative learning. 3. Interactive sessions. 4. Ensure Participation. 5. Empirical Learning Syllogism - Binary Logic [cause & effect] - Assertive & Counter Argument - Simple Interest - Time & Work Time & Distance Upstream &Downstream Reasoning - Verbal Comprehension I - Verbal Comprehension II- Compound InterestLogarithms - Surds & Indices Verbal Reasoning I - Verbal Reasoning II - Verbal Reasoning III – Percentage – Test – Averages

Deductive Reasoning I - Deductive Reasoning II - Language Usage I - Decimal Fractions - Profit & Loss – Probability Language Usage II - Logic Games I - Logic Games II – Area - Pipes & Cisterns – Test SCHEME OF INSTRUCTION Marks allocated for regular participation in all oral activities in class SCHEME OF EXAMINATION Complete internal evaluation on a regular Basis L

51

T

P

C

EI – 07-08 – SRM – E&T

EI0313

MICROPROCESSOR & MICRO CONTROLLER LAB Prerequisite Nil

0

0

3

1

L 0

T 0

P 3

C 1

PURPOSE To enable the students to do basic programming in microprocessors and microcontrollers. INSTRUCTIONAL OBJECTIVES During this course the students will be able: To understand code conversion To carry out basic arithmetic and logical calculations To understand the applications of µp, µc based system LIST OF EXPERIMENTS 1. Addition and subtraction of 8 bit numbers 2. Addition and subtraction of 16 bit numbers 3. Multi byte subtraction 4. Multiplication of two 8 bit numbers 5. Division of two 8 bit numbers 6. Sorting numbers in ascending order and descending order 7. Block data transfer – forward and reverse order 8. Sum of series of N numbers 9. Code conversion Decimal to Hexadecimal and Hexadecimal to Decimal 10. Stepper motor control 11. Interfacing of Analog to digital converter (ADC) 12. Interfacing of Digital to Analog converter (DAC) 13. Interfacing of traffic light control systems 14. Keyboard/Display Interface Rolling display Flashing display The above experiments can be done using Intel 8085, 8086 and 8051 REFERENCE Lab manual

EI0315

CONTROL ENGINEERING LAB Prerequisite Nil

PURPOSE To familiarize the students with control system components in a practical approach. INSTRUCTIONAL OBJECTIVES To enable the students to understand Transfer function concepts Time response Frequency response PID controller LIST OF EXPERIMENTS Transfer function of separately Excited DC generator. Transfer function of armature controlled DC shunt motor. Transfer function of field controlled DC shunt motor. Simulation of standard test signals- step, ramp, parabolic and sinusoidal using ‘C’. Step response of P, PI, and PID controllers. Simulation of step and ramp responses of first order system using ‘C’ and MATLAB simulink. Identification of type of damping from the given characteristic equation of second order system. Simulation of step response of second order system using ‘C’ and MATLAB simulink. Determination of time domain specifications from the step response of second order under damped system using ‘C’ and MATLAB simulink. Root locus, Bode and Polar plots for a given transfer function using MATLAB. Frequency response of Lead and Lag networks.

52

EI – 07-08 – SRM – E&T

DC Motor speed control. REFERENCE Control Enginneering Lab manual

EI 0317

L 0

COMPUTER SKILLS Prerequisite Nil

T 0

P 4

C 2

PURPOSE To acquire knowledge to enable computer implementation for various engineering solutions. IMPLEMENTATION The students are expected to undergo atleast two computer courses from a list of courses provided from time to time by all the departments of engineering and technology. Resources for conducting the courses will be found from in-house talents and outside professionals with expertise in the particular course. Certification will be done by both the university and the bodies drafted for the purpose.

EI0319

COMPREHENSION I Prerequisite Should have studied Electronic and Instrumentation Engineering Subjects Prescribed upto IV SEMESTER

L 0

T 2

P 0

C 1

PURPOSE To provide a complete picture of Electronic and Instrumentation Engineering topics covered from I to IV semesters for comprehensive understanding of Instrumentation and Control Engineering is processed so that students are well prepared to face job interviews and subjects related to competitive examinations. INSTRUCTIONAL OBJECTIVES To provide overview of all the Electronic and Instrumentation Engineering topics covered I to IV semesters given below. To assess the overall knowledge level of Electronic and Instrumentation standards and guide them to take corrective measures where deficiencies are detected. COMPREHENSION A. Review of the following topics of Electronic and Instrumentation Engineering: Basis of Analog and Digital Electronics. Electric Circuits and Networks. Basis of Digital Systems, Linear Integrated Circuits. Analysis of Electrical and Electronics Measurements and Instrumentation. Overview of various transducers and smart sensors. Overview of various process parameters. B . Seminar/group discussion Students shall have seminar/group discussion sessions on the topics listed under A above under the guidance of staff. (Evaluation shall consist of a 3 hour duration end semester examination consisting of objective type as well as conventional questions )

EI0321

INDUSTRIAL TRAINING I Prerequisite Nil (Training to be undergone after IV Semester)

L

T

P

C

0

0

2

1

PURPOSE To provide hands-on experience at Process-Plant, PLC & DCS where Electronic and Instrumentation Engineering projects are executed.

53

EI – 07-08 – SRM – E&T

INSTRUCTIONAL OBJECTIVES To enable the students to gather a first hand experience on site. INDUSTRIAL TRAINING I Students have to undergo two weeks of Inplant training in project sites of Electronic and Instrumentation Engineering. At the end of the training they have to submit a report together with a certificate in the format prescribed and explanation should be given in a power point presentation which shall be evaluated. SEMESTER VI

EI0302

L 3

POWER ELECTRONICS Prerequisite Nil

T 0

P 0

C 3

PURPOSE To develop Analysis skills for Basic Power Electronics Circuit. INSTRUCTIONAL OBJECTIVES 1. To learn fundamentals of power Semi Conductor Devices, Communication Techniques. 2. To learn converters new to design, Inventor AC, DC Drives. POWER SEMICONDUCTOR DEVICES Power diodes – power transistor – characteristics of SCR, Triac, power MOSFET – IGBT – MCT – LASCR – SCR turn on, turn off characteristics – thyristor specifications – thyristor protection circuits. COMMUNICATION CIRCUITS Thyristor trigger circuits – R, RL, RC triggering – Single pulse and train of pulses – triggering with microprocessor – forced commutation – different techniques – series and parallel operation of SCRs. CONVERTERS Natural commutation – single phase – three phase – half controlled and fully controlled rectifiers – effect of source and load inductance – dual converters – cyclo converters. INVERTERS AND CHOPPERS Voltage source inverters – series, parallel and bridge inverters – current source inverters – PWM inverters – DC chopper – step up and step down chopper – AC chopper

TYPICAL APPLICATION Control of DC and AC drives – stepper and switched reluctance motor drive – AC voltage regulators – SMPS – uninterrupted power supply – induction heating.

TEXT BOOKS 1. P.S.Bimbhra, Power Electronics, Khanna Publishers, New Delhi, 2002 2. G.K.Dubey, Doradia, S.R. Joshi and R.M.Sinha, Thyristorised, Power Controllers, New Age International Publishers, New Delhi, 1996. REFERENCES 1. M.H.Rashid, Power Electronics – circuits, devices and applications, PHI, New Delhi, 1995. 2. Joseph Vithyathi, Power Electronics, McGraw-Hill, USA, 1995. 3. Mohan, Undeland and Robbins, Power Electronics, John Wiley and Sons, New York, 1995. 4. P.C.Sen, Modern Power Electronics, Wheeler Publishers, New Delhi, 1998.

54

EI – 07-08 – SRM – E&T

EC0352

L 3

VLSI AND EMBEDDED SYSTEMS Prerequisite Nil

T 0

P 0

C 3

PURPOSE The purpose of this course is to develop a basic idea about the VLSI technology for the engineering graduates by learning the concepts of Integrated Circuit design and testing. The knowledge of this cutting edge technology will enable the students to update themselves in their engineering carrier. INSTRUCTIONAL OBJECTIVES At the end of the course, students should be able to 1. To understand the basic idea of VLSI technology 2. To understand the clocking discipline 3. To rightly apply the concepts in real time applications. 4. To explain the recent developments in the present area. Digital systems and VLSI – Integrated circuit manufacturing – CMOS Technology – Integrated Circuit Design Techniques – Transistors and Layout – Introduction – Fabrication Process– Transistors- Design Rules – Layout Design and Tools. Logic Gates – Introduction – Combinational Logic Functions – Static Complementary Gates – Wires and Delays – Switch Logic – Alternative Gate Circuits – Combinational Logic Networks – Introduction – Layout Design Methods –Combinational Network Delay – Cross Talk – Power Optimization – Switch Logic Networks – Combinational Logic Testing. Sequential Machines – Introduction – Latches and Flipflops –Sequential system and Clocking discipline – Sequential System Design – Power Optimization – Design Validation – Sequential Testing – Subsystem design – Combinational Shifters -Adders- ALU – Multipliers – High Density Memory. Application Specific Integrated Circuits- Introduction – Types of ASIC – Design Flow of VLSI – Types of Simulation – Programmable ASIC- Floorplanning – Placement – Partitioning – Routing. Types of PLD, FPLA, FPGA Architecture, Fault Models – Stuck-at-Faults –Design for testability – Observability – Controllability- LFSR – Boundary Scan Techniques. TEXT BOOKS 1. Wayne Wolf, Modern VLSI Design (System on Silicon) , Prentice Hall PTR 2000. 2. Michael John Sabestian Smith, Application Specific Integrated circuits, 2002. REFERENCE BOOKS 1. Douglas Pucknell, Basic VLSI Design Systems and Circuits, Prentice Hall PTR 2000. 2. 3.

Neil Weste & Kamran Eshrangian, Principles of CMOS VLSI Design, Addison Wesley, 2nd edition 1998. Jacob Baker, Harry, David E.Boyce, CMOS Circuit Design , Layout and Simulation, Prentice Hall India 1998.

EI0304

L 3

DIGITAL SYSTEM DESIGN Prerequisite Nil

T 0

P 0

C 3

PURPOSE As the world is dependent on computers and it accepts digital data the subject digital system design gains importance. It helps us in gaining information from many areas like memory design, manufacturing chips etc. INSTRUCTIONAL OBJECTIVES 1. It helps us in understanding different characteristics of integrated circuit families. 2. It helps us to know various bus interface. 3. Helps us in understanding about memory design.

55

EI – 07-08 – SRM – E&T

4. 5.

Various technologies adopted in digital system design. Helps us to know about different digital system design examples

Circuit diagram of TTL, CMOS, NMOS, ECL, GaAs building blocks, operating conditions, interfacing between different families, interpreting datasheets of 74 series, CD4000 series ECL, 10000 series, power supply, grounding conditions for digital IC's, RS232, RS485, RS422, ISA, PCI and IIC bus characteristics, Bus interface in IC's. DESIGNING WITH PROGRAMMABLE LOGIC DEVICES AND N/WS FOR ARTHIMETIC OPERATORS Read only memory - PLA's - PAL's - other sequential programmable logic devices - design of key board manner serial adder with accumulator - state graphs - Binary multiplies - Multiplication of signed binary numbers Binary dividers. DESIGN WITH S.M. CHARTS State machine charts - derivation - realization - implementation of dice game - alternative realizations using micro programming - linked state machines. DESIGN WITH CPLD'S AND PGA XILINX 3000 series FPGA's - desinging with FPGA's XILINX 4000 series - one hot state assignment – Altera CPLA's - Alter FLEX 10K series CPLD's. DIGITAL MEMORIES Principles and design considerations of specific PROMS, EPROMS, SRAMS, and SDRAMS, dural ported memories, FIFO's etc.

DIGITAL SYSTEM DESIGN CASE STUDIES Multiphase clock generators, digital FIR design using TLL/CMOS IC's, PRBS generator, digital PLL's, DRAM controller design, LED/LCD display controller and other examples.

TEXT BOOKS 1. Charles H. Roth Jr.,Digital system design using VHDL, PWS Publishing Co., 1998. 2. Tietze.U.Schenk.Ch ,Electronic Circuits Design and Applications, Narosa Publishing House, 1992. REFERENCE BOOKS 1. Horowit Z.P., Art of Electronics, Cambridge University Press 1999. 2. Prince B. ,High Performance Memories, TMH 1996. 3. Roger C. Alford, Programmable Logic Devices ,Howard Sams and Co., 1996.

EI0306

L 3

PROCESS CONTROL Prerequisite Nil

T 0

P 0

C 3

PURPOSE To enable the students to learn the basic concepts of process control and to develop sufficient knowledge of the various control actions and controllers used to control any process. INSTRUCTIONAL OBJECTIVES The students will be able to 1. Understand the behavior of various physical systems and mathematically model them. 2. Learn the basic control actions and characteristics of different types of controllers. 3. Select and tune a controller to suit a particular process. 4. Study about the characteristics of final control elements 5. Learn about the control schemes applied to various processes.

56

EI – 07-08 – SRM – E&T

INTRODUCTION Process control – introduction – Need for process control – Hardware elements of a process control system – Degrees of freedom – Mathematical model of thermal, hydraulic and gaseous processes – Interacting and Noninteracting systems - Servo and Regulator Operation – Batch & Continuous Process – concept of selfregulation-Dead time CHARACTERISTICS OF CONTROLLERS Direct and Reverse action of a controller with suitable examples- Control modes - Characteristics of ON- OFF, Single speed floating, Proportional, Integral and derivative controllers - Characteristics of P+I, P+D and P+I+D controllers – Response of controllers to Step & Ramp input signals – Servo and Regulatory response of P and PI controllers – Reset Wind-up and prevention – Derivative and Proportional kick – Bumpless transfer – Pneumatic and Electronic realization of Controllers. Selection of a controller for a particular process. CONTROLLER TUNING Need for controller tuning – Evaluation criteria – Quarter Decay Ratio, IAE, ISE and ITAE - Types of controller tuning: Process reaction curve method, Continuous cycling method and Damped oscillation method. Procedure for tuning of a controller based on gain margin and phase margin. FINAL CONTROL ELEMENTS I/P, P/I converters – Final control elements – Pneumatic and electric actuators – Types of control valves – Valve positioner and its importance – Inherent and Installed characteristics of control valve – Control valve sizing - Cavitation and flashing. MULTILOOP CONTROL Cascade control – Feed forward control – Ratio Control – Inferential control – Split-range control. Examples from Distillation columns, Chemical Reactors, Heat Exchangers and Boiler. Introduction to adaptive control. TEXT BOOKS 1. Stephanopoulis, G, Chemical Process Control, Prentice Hall of India, New Delhi, 1990. 2. Eckman. D.P., Automatic Process Control, Wiley Eastern Ltd., New Delhi, 1993. 3. Johnson .C.D., Process Control Instrument Technology , Prentice Hall Inc. 1988. REFERENCE BOOKS 1. Harriott .P., Process Control, Tata McGraw Hill, 1984. 2. Anderson .N.A., Instrumentation for Process Measurement and Control, Chilton company 1980. 3. Pollard A. Process Control, Heinemann educational books, London, 1971. 4. Smith C.L and Corripio.A..B, Principles and Practice of Automatic Process Control, 2nd Edition, John Wiley and Sons, New York, 1985. 5. Shinskey, Process Control Systems, 4th Edition, McGraw Hill, Singapore, 1996.

EI0308

INDUSTRIAL DRIVES AND CONTROL Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To enable the students identify the need and choice for various drives. The students will be exposed to different speed control methods in d.c. and a.c motros using thyristors based control schemes. Microprocessor based drives are also introduced. INSTRUCTIONAL OBJECTIVES The students will be able to Select the drives for various industrial applications Gain knowledge about operation of d.c motor speed control using converters and choppers Get an insight into a.c. motor speed control using converters, inverters and choppers Identify the use for drives in industries using microprocessor ELECTION OF MOTORS Introduction, selection of drive, Rating of motors, speed – torque characteristics of various types of loads & drive motors, starting braking and reversing operations.

57

EI – 07-08 – SRM – E&T

DC DRIVES (QUALITATIVE TREATMENT ONLY) Speed control of DC motors – Thyristor converter fed DC drives : Single, two and four quadrant operations. Chopper Drives – control strategies, operation of step-up and step-down choppers, chopper configuration – operation of class A, B, C, D & E. THREE – PHASE INDUCTION MOTOR DRIVES Speed control of Induction motors – Stator control – stator voltage and frequency control, AC chopper, Inverter cycloconverter fed induction motor drives. Rotor control – Rotor resistance control and slip-power recovery schemes, static control of rotor resistance using DC chopper, static kramer and scherbius drives, cycloconverter fed drives. SYNCHRONOUS MOTOR DRIVES Speed control of 3-phase synchronous motors – VSI & CSI fed synchronous motors, cyclo converter fed synchronous motors. Effects of harmonics on the performance of AC motors PWM inverter fed synchronous motors construction, principle of operation and drive circuits of variable reluctance stepper motors. Microprocessors in the control of Electric drives – Applications of microprocessors on electrical variable speed drive – d.c. motor speed control, Induction motor speed control, synchronous motor speed control using a microprocessor. TEXT BOOKS 1. Dubey G.K. and Kasara .Bada Rao., Power Electronic and Drives, Narosa Publications, 1986. 2. Vedam Subramaniyam, Thyristor control of Electric drives, Tata McGraw Hill Publishing Ltd,1998.

REFERENCE BOOKS 1. Vedam Subramaniyam, Electric Drives, Tata McGraw Hill Ltd,1994. 2. Pillai S.K. , A First course on Electric Drives, Wiley Eastern Ltd,1989. 3. Singh M.D., Power Electronics, Tata McGraw Hill , N.D.,1998. 4. Dubey G.K. , Power Semiconductor controlled Drives, PHI, 1986.

PD0302

PERSONALITY DEVELOPMENT VI Prerequisite Nil

L 1

T 0

P 2

C 2

PURPOSE The purpose of this course is to build confidence and inculcate various soft skills and to help Students to identify and achieve their personal potential INSTRUCTIONAL OBJECTIVES At the end of the course the students will be able to 1. Acquire the important soft skills for employment 2. Take part in group discussions and job interviews confidently 3. Appear for placement aptitude tests confidently 4. Gain self confidence to face the placement process METHODOLOGY The entire program is designed in such a way that every student will participate in the class room activities. The activities are planned to bring out the skills and talents of the students which they will be employing during various occasions in their real life. 1. Group activities + individual activities. 2. Collaborative learning.

58

EI – 07-08 – SRM – E&T

3. Interactive sessions. 4. Ensure Participation. 5. Empirical Learning Self Introduction - Narration - Current News Update – Numbers - Height & Distance - Square & Cube Roots Current Tech Update - Verbal Aptitude Test I - GD –I - Odd man out series - Permutation & Combination Problems on ages GD –II - Resume Writing - Mock Interview I / reading comprehension - Problems on trains – Allegation of Mixtures - Test Mock Interview II / reading comprehension - Mock Interview III/ reading comprehension - GD – III - Ratio & Proportion - Clocks - H.C.F & L.C.M GD – IV - Verbal Aptitude Test II – Review – Partnership – Puzzles – Test SCHEME OF INSTRUCTION Marks allocated for regular participation in all oral activities in class SCHEME OF EXAMINATION Complete Internal evaluation on a regular Basis

EI 0312

ELECTRONIC DESIGN PROJECT LAB Prerequisite Nil

L 0

T 0

P 3

C 1

PURPOSE During this lab course students will acquire knowledge to design for instruments, to prepare a documentation of Instrumentation project and learn to operate MATLAB tool box. INSTRUCTIONAL OBJECTIVES It deals with design of compensators It deals with design of controllers It deals with design of various circuits related to instrumentation LIST OF EXPERIMENTS Design of Cascade lead compensator using MATLAB ( Root Locus approach) Design of Cascade lead compensator using MATLAB (frequency domain approach) Design of Cascade lag compensator using MATLAB ( Root Locus approach) Design of Cascade lag compensator using MATLAB ( frequency domain approach) Design PID Controllers for set point & gain adjustment. Design of RPS and Design of Instrumentation Amplifiers. PID diagram case study. Design and implementation of Active filters. Design and implementation of V/I and I/V converters. Design and implementation of cold-junction compensation circuit for thermocouple. Design of Orifice plate and Rota meter Design of Signal Conditioning circuit for Strain gauge & RTD Design of Control valve sizing & flow lift characteristics Piping and Instrumentation diagram- Case study Preparation of Documentation of Instrumentation project (process flow, instrument index Sheet and instrument specifications sheet) Preparation of project scheduling (job scheduling, installation procedure and safety regulations ) REFERENCE Electronic Design Project Lab manual

59

EI – 07-08 – SRM – E&T

EI 0314

L 0

PROCESS CONTROL LAB Prerequisite Nil

T 0

P 3

C 1

PURPOSE To enable the students to understand the fundamentals of process control, types of processes, characteristics of different types of controllers for controlling a process and process automation. INSTRUCTIONAL OBJECTIVES To understand Control of processes using PID and ON-OFF controllers Control of a process using personal computer Automation of process using PLC and DCS LIST OF EXPERIMENTS Characteristics of I/P and P/I converters Step and Impulse response of Interacting and Non-interacting systems Piping and Instrumentation diagram of plant Characteristics of control valve with and without positioner Study of Level controller and level transmitter Study of flow controller and flow transmitter Control of level process using analog controller and PC as a controller Control of flow process using analog controller and PC as a controller Control of pressure process using analog controller. Control of temperature process using analog controller and PC as a controller Study of Supervisory control and Data Acquisition System (SCADA) Study of DCS REFERENCE Process Control Lab manual

EI0316

L 0

COMPUTER SKILLS Prerequisite Nil

T 0

P -/4

C -/2

PURPOSE To acquire knowledge to enable computer implementation for various engineering solutions. IMPLEMENTATION The students are expected to undergo atleast two computer courses from a list of courses provided from time to time by all the departments of engineering and technology. Resources for conducting the courses will be found from in-house talents and outside professionals with expertise in the particular course. Certification will be done by both the university and the bodies drafted for the purpose.

EI0318

COMPREHENSION II Prerequisite Should have studied the studied Electronic and Instrumentation Engineering Subjects prescribed / opted for upto VI SEMESTER

L 0

T 2

P 0

C 1

PURPOSE To provide a complete picture of all the Electronic and Instrumentation Engineering topics covered in I to IV semesters including the related topics covered in I to IV semesters so that a comprehensive understanding of

60

EI – 07-08 – SRM – E&T

Electronic and Instrumentation Engineering is achieved so that students are well prepared to face job interviews and subjects related competitive examinations INSTRUCTIONAL OBJECTIVES To provide overview of all the studied Electronic and Instrumentation Engineering topics covered in V and VI semesters including the related topics covered in I to IV semesters as given below. To assess the overall knowledge level of studied Electronic and Instrumentation Engineering standards and guide them to take corrective measures where deficiencies are detected. COMPREHENSION A. Review of the following topics of Electronic and Instrumentation Engineering: Brief description of Control Systems, Industrial Instrumentation. Analysis of Microprocessors and Microcontrollers. Overview of Signal Processing. Overview of Process Control, Modern Control System, Computer Control of Processes. Overview of Virtual Instrumentation, PLC & DCS. B. Seminar/group discussion Students shall have seminar/group discussion sessions on the topics listed under A above under the guidance of staff. (Evaluation shall consist of a 3 hour duration end semester examination consisting of objective type as well as conventional questions) SEMESTER VII EI0401

VIRTUAL INSTRUMENTATION Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE Enable students to under stand basics, programming techniques, data acquisition and interfacing techniques of virtual instrumentation and to use VI for different applications.

INSTRUCTIONAL OBJECTIVES The students will be able to 1. Familiarize the basics and interfacing of VI 2. Write programs for different applications. REVIEW OF VIRTUAL INSTRUMENTATION Historical perspective, Need of VI, Advantages of VI, Define VI, block diagram & architecture of VI, data flow techniques, graphical programming in data flow, comparison with conventional programming. PROGRAMMING TECHNIQUES VIS and sub-VIS, loops & charts, arrays, clusters, graphs, case & sequence structures, formula modes, local and global variable, string & file input. Graphical programming in data flow, comparison with conventional programming. DATA ACQUISITION BASICS ADC, DAC, DIO, Counters & timers, PC Hardware structure, timing, interrupts, DMA, Software and Hardware Installation. GPIB/IEEE 488 concepts, and embedded system buses - PCI, EISA, CPCI, and USB & VXI. A COMMON INSTRUMENT INTERFACES Current loop, RS 232C/RS 485, GPIB, System basics, interface basics: USB, PCMCIA, VXI, SCXI, PXI etc, networking basics for office & industrial application VISA & IVI, image acquisition & processing, Motion Control. ADC, DAC, DIO, DMM, waveform generator. USE OF ANALYSIS TOOLS AND APPLICATION OF VI

61

EI – 07-08 – SRM – E&T

Fourier transforms, Power spectrum, Correlation methods, windowing & flittering. Application in Process Control projects, Major equipments- Oscilloscope, Digital Multimeter, Pentium Computers, temperature data acquisition system, motion control employing stepper motor. TEXT BOOKS 1. Gary Johnson, LABVIEW Graphical Programming , 2nd Edition, McGraw Hill, 1997. 2. Lisa K. Wells and Jeffrey Travis, LABVIEW for Everyone , PHI, 1997. 3. Skolkoff, Basic concepts of LABVIEW 4 , PHI, 1998. REFERENCE BOOKS 1. S. Gupta, J.P. Gupta, PC Interfacing for Data Acquisition and Process Control, ISA, 2nd Edition, 1994. 2. Technical Manuals for DAS Modules of Advantech and National Instruments. 3. L.T. Amy, Automation System for Control and Data Acquisition, ISA, 1992.

EI0403

L 3

COMPUTER CONTROL OF PROCESSES Prerequisite Nil

T 0

P 0

C 3

PURPOSE To provide students with fundamentals and some special knowledge in computer based process control. Based on the fundamental the advancement of process automation can be understood. INSTRUCTIONAL OBJECTIVES To know about 1. The need of computer in process industry. 2. Modeling and Identification of processes. 3. Control algorithms and its implementation. 4. PLC & SCADA for process automation. Need of computer in a control system-Functional block diagram of a computer control system-Data loggersSupervisory computer control- Direct digital control-Digital control interfacing-SCADA. System modeling and identification - Mathematical model for processes - first order - second order processesWithout and with pure delay - higher order systems - pulse testing for process identification –linear least square algorithm. Implementation of digital controllers Digital temperature control system - digital position control system - stepping motors and their control. Design of control algorithms using Z transforms: dead beat algorithm - Dahlin’s method -Ringing - Kalman’s approach - discrete equivalent to an analog controller - design for load changes-PID algorithms -position and velocity forms-Tuning the algorithms- tuning techniques-Selection of a sampling time. Programming of PLC- Relay logic - ladder logic - functional blocks – timers and counters Requirement of communication networks for PLC- connecting PLC to computer - Interlocks and alarms. TEXT BOOKS 1. Deshpande P.B. and Ash R.H., Elements of Computer Process Control, Instrument society of America 1995. 2. Smith C.L., Digital Computer Process Control, Intext Educational Publishers , 1992. 3. Petrezeulla, Programmable Controllers, McGraw Hill , 1989 REFERENCE BOOKS 1. Houpis C.M., Lamont, G.B, Digital Control Systems – Theory, Hardwork, Software, Mc Graw Hill Book – 1985. 2. Hughes .T, Programmable Logic Controllers, ISA Press, 1989. 3. Stephanoupoulis, G., Chemical Process Control, Prentice Hall of India, New Delhi 1990.

EI0405

L 3

PLC & DCS

62

T 0

P 0

C 3

EI – 07-08 – SRM – E&T

Prerequisite Nil PURPOSE To provide students with fundamentals and some special knowledge in process automation in industries. INSTRUCTIONAL OBJECTIVES The objectives of this course are to help students: Understand the need for automation in process industries. Learn about the various technologies used in process automation. Learn programming of PLC. Understand DCS and communication in DCS. PROGRAMMABLE LOGIC CONTROLLER BASICS Definition – Overview of PLC systems – Input/Output modules – power supplies and isolators. Fundamentals of logic – AND, OR, NOT, EX-OR. PROGRAMMING OF PLC Programming of PLC- Relay logic- Ladder logic – functional blocks – requirement of communication networks for PLC- connecting PLC to computer – interlocks and alarms.

DISTRIBUTED CONTROL SYSTEMS Evolution – Different architectures – local control unit – Operator Interface – Displays – Engineering Interface APPLICATION OF DCS DCS Applications in power plants, Iron and steel plants, Chemical plants, Cement plants, paper and pulp industries.

9

HART AND FIELD BUS Introduction – evolution of signal standards – HART communication protocol – communication modes – HART networks – Control system interface – HART commands – HART field controller implementation – HART and OSI model – Field bus – Introduction – General field bus architecture – basic requirements of field bus standard – field bus topology – interoperability – interchangeability. TEXTBOOKS 1. Frank D. Petruzella, Programmable Logic Controllers, Glencoe McGraw Hill Second Edition, 2. Michael Lucas, Distributed Control Systems, Van Nostrand Reinhold Co.,1986 REFERENCES 1. Romily Bowden, HART application guide and the OSI communication foundation., 1999 2. G.K.McMillan, Process/ Industrial instrument and handbook, McGraw-Hill, New York, 1999 3. Popovic D. and Bhatkar V.P., Distributed Computer Control for industrial automation, Marcel Dekkar Inc., 1990

EI0413

VIRTUAL INSTRUMENTATION LAB Prerequisite Nil

L 0

T 0

P 3

C 1

PURPOSE To familiarize the students with Virtual Instrumentation and to do programming for applications INSTRUCTIONAL OBJECTIVES To study about Programming Techniques To study about Data Acquisition and interfacing techniques To do programming for process control and other applications LIST OF EXPERIMENTS 1. Getting Started with Lab VIEW – Basic operations, controls and indicators. 2. Simple programming structures and Timing Issues 3. Lab VIEW – Debugging a VI, Sub-VI's

63

EI – 07-08 – SRM – E&T

4. Lab VIEW – Traffic Light - Programming Structure, Sub-Vis, Clusters 5. GPIB-Serial poll Byte 6. Communication via RS232/ Serial Port. 7. Oscilloscope - Attribute Nodes, Menus 8. RC Circuit measurement - Timing issues 9. Lab VIEW – Incorporating user written C subroutines 10.Digital-to-Analog acquisition interfacing - Analog I/O 11.The RS232 Interface – Function Generator 12. Importing pictures, Global/ local variables. Arrays, Clusters REFERENCE Virtual Instrumentation Laboratory Manual

EI 0415

L 0

PLC LAB Prerequisite Nil

T 0

P 3

C 1

PURPOSE To enable the students to work in PLC and SCADA INSTRUCTIONAL OBJECTIVES To understand Automation of process using PLC Automation of process using SCADA LIST OF EXPERIMENTS Sequential control of Motor Tank level control Fan Control Seven segment Display Reaction Vessels Starter Control Star-Delta Relay units fixed with ‘8’ Relays Implementation of PLC programming through SCADA REFERENCE PLC Lab manual

EI0417

INDUSTRIAL TRAINING II Prerequisite Nil (Training to be undergone after VI Semester)

L 0

TOTAL 45 T P C 0 2 1

PURPOSE To provide hands-on experience at process where Instrumentation and Control Engineering projects are executed. INSTRUCTIONAL OBJECTIVES To enable the students to gather a first hand experience on site. INDUSTRIAL TRAINING II 1. Students have to undergo two weeks inplant training in project sites of Electronic and Instrumentation Engineering. At the end of the training they have to submit a report together with a certificate in the format prescribed and a power point presentation. L

64

T

P

C

EI – 07-08 – SRM – E&T

EI 0444

PROJECT WORK Prerequisite Nil

0

0

12

8

Hardware/ Numerical /Simulations Theoretical research and development work is to be allotted. A maximum number of three students may be involved in each project. However the contribution of the individuals in the project should be clearly brought out. The combined project report is to be submitted as per the university regulations. A seminar has to be presented on the allotted topic. All the students involved in the project will be examined for their contribution. SIXTH SEMESTER - ELECTIVES EI0350

MICROCONTROLLER BASED SYSTEM DESIGN Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE This course aims to familiarize students with the use of microprocessors and microcontrollers for simple control and interfacing applications and also this course is used to show how hardware and software interact in the solution of interfacing problems. INSTRUCTIONAL OBJECTIVES The students will be able to Know the Concepts of Microprocessors and Microcomputer Know the design techniques and programming Know the interfacing concepts To design microcontroller for different applications.

INTRODUCTION TO MICROPROCESSORS AND MICROCOMPUTERS Introduction to Microprocessors and Microcomputer based Design-Review of 8051-Evolution of Microprocessor - Microcomputer Hardware-Microcomputer systems software and programming concepts basic features of Microcomputer development systems. – applications MICRO-CONTRLLER RESOURCES Family members, bus width program and data memory parallel ports, D/A and A/D converters, reset circuitry, watchdog timers, power – down considerations PROGRAMMING FRAMEWORK CPU register, Structure, addressing modes, instruction sets, assembly languages, assemblers. 8051 programming REAL TIME CONTROL Interrupt Structures programmable timers, real-time clock, latency, interrupt, density and interval constraints. DESIGN SYSTEM Design of an Electronic weighing Bridge - Design issues Software development - calibration - Design of a microcontroller 8051 based length measurement systems for continuously rolling cloth or paper - Different applications of Microcontrollers. TEXT BOOKS 1. John, B.Peatman, Design with Micro-controllers, McGraw Hill International Ltd., 1989. 2. Mohamad Rafiquzzamen, Microprocessors and Microcomputer based systems design, Universal Book Stall New Delhi 1995. REFERENCE BOOKS 1. RAM B.,Fundamentals of Microprocesors and Micrcomputers, Dhanpat Rai Publications(P) Ltd, New Delhi April 1998.

65

EI – 07-08 – SRM – E&T

2. 3. 4.

Gilmore, Microprocessors principles and Applications, Tata McgrawHill Edition , New Delhi second edition 1998. Douglas V.Hall Microprocessors and interfacing Tata McgrawHill Edition , New Delhi second edition 1998 Peter Abel, IBM PC Assembly Language and Programming , III Edition, Prentice Hall of India Pvt Ltd, New Delhi 1996.

EI0352

BIOMEDICAL INSTRUMENTATION Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To enable the students to develop knowledge of how instruments work in the various department and laboratories of a hospital and thereby recognize their limitations. INSTRUCTIONAL OBJECTIVES The students will be able to Interpret technical aspects of medicine. Solve Engineering Problems related to medical field. Understand medical diagnosis and therapy. BASIC PHYSIOLOGY Cell and their structures, neuron, axon, synapse, action and resting potential, electro physiology of cardio pulmonary system, respiration and blood circulation, central nervous system and peripheral nervous system, electrode theory, bipolar and unipolar electrodes, surface electrodes.

ELECTRO PHYSIOLOGICAL MEASUREMENT ECG, phonocardiography, vector cardiography, EEG, EMG, ERG – lead system and recording methods, typical waveforms, computer diagnosis. NON- ELECTRICAL PARAMETER MEASUREMENTS Measurement of blood pressure, blood flow, cardiac output, plethysmography, cardiac rate, heart sound, measurement of gas volume, flow rate of Co2 and O2 in exhaust air, pH of blood. MEDICAL IMAGING AND TELEMETRY X-ray machine, echocardiography, computer tomography, MRI/NMR, ultrasonography, endoscopy, different types of telemetry system, laser in bio medicine. ASSISTING AND THERAPEUTIC DEVICES Cardiac pacemakers, defibrillators, ventilators, muscle stimulator, diathermy, introduction to artificial kidney, artificial heart, lung machine, limb prosthetics, onthotics, elements of audio and visual aids. TEXT BOOKS 1. Leslie Cromwell, Fred J. Weibell and Erich A. Pleiffer, Biomedical Instrumentation and Measurements , Prentice Hall of India, 1980. 2. L.A. Geddes and L.E. Baker, Principles of Applied Biomedical Instrumentation , John Wiley & Sons, Inc, 1989. REFERENCE BOOKS 1. Kandpur R.S. Hand book of Biomedical Instrumentation , Tata McGraw Hill, 1987. 2. Richard Aston, Principles of Biomedical Instrumentation and Measurement , Merrill Publishing Company, 1990. 3. Jacobson B. and Webster J.G., Medical Clinical Engineers , Prentice Hall, 1979. 4. John .G Webster, Editor, Medical Instrumentation, Application and Design , John Wiley and Sons Inc1998.

66

EI – 07-08 – SRM – E&T

EI0354

MODERN CONTROL SYSTEMS Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To gain a working knowledge of the basic linear system design techniques and nonlinearities in control systems in order to enable students to deal with real-life applications. INSTRUCTIONAL OBJECTIVES At the conclusion of this course, the students will be able: To design cascade compensators in time domain and frequency domain. To develop an understanding of sampling. To gain a working knowledge of z-transform theory. To understand and develop state space model for different systems. Introduction to design- Effect of adding a pole and zero to a system- compensating networks types-cascade and feedback-design of cascade lead and cascade lag compensation in time domain and frequency domain – P, PI, PD and PID controllers design Sampled data control systems - functional elements-sampling process - z-transforms- properties - inverse ztransforms- ZOH and First order Hold process- pulse transfer functions - step response – stability analysisJury’s stability test. Concepts of State, State variable and State space model- State space representation of linear continuous time systems using physical variables, phase variables and canonical variables-diagonalization-State space representation of discrete time systems-Solution of state equations-computation of state transition matrix. Concepts of Controllability and Observability – linear time invariant systems-pole placement by state feedbackAckerman’s Formula-Observers-full order and reduced order. Non-linear systems-properties-common physical non-linearities-dead zone, relay, saturation nonlinearitiesphase plane method-singular points-phase trajectories-stability analysis by Describing function methodLiapunov’s stability criterion. TEXT BOOKS 1. Katsuhiko Ogata, Modern Control Engineering , second edition Prentice Hall of India Private Ltd, New Delhi, 1995. 2. Nagrath I J and M Gopal, Control Systems Engineering , I edition , Wiley and sons, 1985.

REFERENCE BOOKS 1. Benjamin C Kuo, Automatic Control System , 7th edition, Prentice Hall of India Private Ltd, New Delhi,1993. 2. Gopal .M, Modern Control Systems Theory , New Age International Pvt.Ltd, 1987.

EI0356

SIGNAL PROCESSING & TELEMETRY Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To enable the students to learn about signal processing, various methods involved in it, and to familiarize about the devices used for signal processing and also to learn about telemetry. INTRUCTIONAL OBJECTIVES 1. To know about signal conditioning and devices used for signal conditioning. 2. To know about various methods of signal processing.

67

EI – 07-08 – SRM – E&T

3. 4.

To know how the signal can be transmitted. To know more about the Techniques of Telemetry.

Signal conditioning – introduction – bridges – instrumentation amplifiers – dynamic compensation – choppers – V/F & F/V converters. – A/P & D/A converters – sampling – sampling theorem – Interferance Grounding and Sheilding resolution , conversion time – Comparision of A/D & D/A converters – Isolation Amplifiers. Data acquisition system – sampling and digitizing – Alaising – sample and hold circuit -practical implementation of sampling and digitizing . Definition, design of and need for data acquisition system – modulation and encoding methods – band width and noise restrictions. Microprocessor / PC based data acquisition system. Pulse modulation systems – pulse amplitude modulation channel bandwidth for PAM –Detection of PAM signals pulse time modulation – generation of PDM and PPM – conversion of PDM to PPM – detection of PTM signals. Time code modulation system – quantizing – PCM systems. Decoders. Multiplexing – Time division multiplexing –Frequency division multiplexing – Telemetry – Fundamentals of telemetry – FM Telemetry – Sub carrier osciallators Telemetry transmitters – PAM Telemetry Systems – Accurracy PCM telemetry systems – Comparision of Telemetry Systems. Data loggers – pointers, scale indicators, potentiometric indicating controllers, Illuminative devices – LED & LCD plasma displays – CRO –Galvanometric recorders – X-Y Recorders – LED & LCD – magnetic tape recorders. TEXT BOOKS 1. Clayton G.B., Data Converters , The Mac Millan Press Ltd., 1982. 2. Jones B.E., Instrumentation, Measurements and Feedback TcMH, 1978. REFERENCE BOOKS 1. Jones C.B., Instrument Technology Vol –III, Butterworth Scientific Pub, 1957. 2. Doebelin E.O., Measurement System Application and Design, McGraw Hill, 1973

EC0364

L 3

DIGITAL COMMUNICATION Prerequisite Nil

T 0

P 0

C 3

PURPOSE This course is intended to provide a comprehensive coverage of digital communication systems. The key feature of digital communication system is that it deals with discrete messages and the major purposes are to add organization and structure to this field. INSTRUCTIONAL OBJECTIVES To learn and understand Formatting and Source Coding Base band signaling Band pass signaling Channel coding Synchronization and Spreading. Data Waveforms, spectra of signals, Modes of data transmission, channels for data transmission, Base band systems, formatting analog information, Base band modulation. Base band demodulation/detection - detection of binary signals in Gaussian noise, inter symbol interference, Band pass modulation and demodulation/detection. Probability of bit error for coherently detected BPSK, DEPSK, binary orthogonal FSK, binary DPSK, their comparison, M- ary signaling, and performance, Symbol error performance for M-ary systems. Channel

68

EI – 07-08 – SRM – E&T

coding- Linear Block codes, Cyclic codes, convolutional encoding, Reed Solomon codes, Interleaving and concatenated codes, Turbo codes. Synchronization- Receiver Synchronization, Frame synchronization, Network synchronization. Source codingsources, Amplitude Quantizing, differential pulse code modulation, Adaptive prediction, Block coding, Transform coding, Source coding for digital data, examples for source coding. Spread spectrum over view, Pseudo noise sequences, Direct sequence spread spectrum, Frequency Hopping system, Synchronization- Acquisition , Tracking. Principles of ISDN, Hypothesis testing- H1, H2, Communication system design. TEXT BOOKS: 1. Asia - Bernard Sklar, Digital Communications-Fundamentals and Applications , II edition, Pearson Education, 2001. 2. John G. Proakis, Digital Communication , Prentice Hall of India, 2001. REFERENCE BOOKS 1. Symon Haykins ,Digital Communication , McGraw Hill,2002. 2. William Stallings, Digital Communication , Prentice Hall of India, 1997.

EI0358

FIBER OPTICS AND LASER INSTRUMENTS Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To understand and apply optical fiber and laser technology to sophisticated modern telecommunication systems and medical field. INSTRUCTIONAL OBJECTIVES The students will be able to Analyze the theory and behaviour of basic constituents such as optical fibers, light sources, photo detectors and lasers. Design principles of optical fiber and laser according to the requirements in communication and medical field. Use it generally in non-invasive testing in medicine and NDT in industry. OPTICAL FIBERS: STRUCTURES, WAVE GUIDING AND SIGNAL DEGRADATION Basic optical laws and definitions, optical fiber modes and configuration, single mode fibers, graded index fiber structure, fiber materials, attenuation, signal distortion in optical waveguides, pulse broadening in graded index waveguides. FIBER OPTIC SENSORS Fiber optic probes, liquid level sensor, pressure sensor, temperature sensor, interferometric sensors, polarization sensors, fiber grating sensors, fiber optic gyroscopes, acoustic sensors.

OPTICAL SOURCES LED structures, light source materials, quantum efficiency and LED power, modulation of an LED. Laser rate equation , 3 & 4 level lasers, properties of laser, laser modes, resonator configuration, Q switching, mode locking, cavity damping, single frequency operation, types of lasers – gas, solid, liquid and semiconductor lasers. INDUSTRIAL APPLICATION OF LASER Laser for measurement of distance, length, atmospheric effects and pollutants, material processing, laser heating, melting, scribing, trimming, welding, material removal and vaporization, calculation of power requirement of laser for material processing.

HOLOGRAPHY AND MEDICAL APPLICATION

69

EI – 07-08 – SRM – E&T

Holography, basic principles, methods of holographic interferometry and applications, Holography for NDT, medical application of lasers, laser and tissue interaction, laser instruments for surgery, removal of tumors of vocal chords, brain surgery, plastic surgery, gynecology, oncology. TOTAL 45 TEXT BOOKS 1. Wilson J. & Hawkes J.F.B., Opto-Electronics: An Introduction, Prentice Hall International , 1983. 2. Keiser, Optical Fiber Communication Systems , Mc Graw Hill Ltd., 1983. REFERENCE BOOKS 1. Allen H.C., An Introduction to Optical Fibers , Mc Graw Hill, New York, 1983. 2. Ghatak and Thiagarajan .K, Optical Electronics , Foundation Books, 1991. 3. Jasprit Singh, Semiconductor Opto-Electronics , Mc Graw Hill, 1995. 4. Smith H.M., Principles of Holography , John Wiley and Sons, 1975.

EI0360

L 3

COMPUTER NETWORKS Prerequisite Nil

T 0

P 0

C 3

PURPOSE To learn the concepts of Computer Networking and its services INSTRUCTIONAL OBJECTIVES Study of Protocols and layers Services of Transport and Network layers Study about Link layer Learn about providing security and Multimedia services

INTRODUCTION Computer networks and Internet, the network edge, the network core, network access, delay and loss, protocol layers and services, Application layer protocols, socket programming, content distribution. TRANSPORT & NETWORK LAYERS Transport layer services, UDP and TCP, congestion control, Network layer services, routing, IP, routing in Internet, router, IPV6, multicast routing, mobility. LINK LAYER Link layer services, error detection and correction, multiple access protocols, ARP, Ethernet, hubs, bridges, switches, wireless links, PPP, ATM. MULTIMEDIA NETWORKING Multimedia networking, streaming stored audio and video, real-time protocols. SECURITY Security, Cryptography, authentication, integrity, key distribution, network management TEXT BOOK J. F. Kurose and K . W. Ross, Computer Networking: A Top-Down Approach Featuring Internet, 2/e, Pearson Education, 2003. REFERENCE BOOKS 1. Peterson L.L. & Davie B.S., Computer Networks, A systems approach, 3/E, Harcourt Asia, 2003. 2. Keshav S., An Engineering Approach to Computer Networking, Pearson Education, 2000. 3. Andrew S. Tanenbaum, Computer Networks, 3/E, PHI

SEVENTH SEMESTER-ELECTIVES

70

EI – 07-08 – SRM – E&T

L EI0451

T

3 0

ROBOTICS AND AUTOMATION

P

0

C

3

Prerequisite Nil PURPOSE Enable students to under stand about the working concepts of robot and its role in automation. INSTRUCTIONAL OBJECTIVES The students will be able to know about: 1. Power Sources and Sensors 2. Manipulators, Actuators and Grippers 3. Kainematice and Path Planning BASIC CONCEPTS Definition and origin of robotics – different types of robotics – various generations of robots – degrees of freedom – Asimov’s laws of robotics – dynamic stabilization of robots. POWER SOURCES AND SENSORS Hydraulic, pneumatic and electric drives – determination of HP of motor and gearing ratio – variable speed arrangements – path determination – micro machines in robotics – machine vision – ranging – laser – acoustic – magnetic, fiber optic and tactile sensors. MANIPULATROS, ACTUATORS AND GRIPPERS Construction of manipulators – manipulator dynamics and force control – electronic and pneumatic manipulator control circuits – end effectors – Û various types of grippers – design considerations.

KINEMATICS AND PATH PLANNING Solution of inverse kinematics problem – multiple solution jacobian work envelope – hill climbing techniques – robot programming languages. CASE STUDIES Multiple robots – machine interface – robots in manufacturing and non-manufacturing application – robot cell design – selection of a robot. TEXT BOOKS 1. Mikell P. Weiss G.M., Nagel R.N., Odraj N.G., Industrial Robotics, McGraw Hill Singapore, 1996. 2. Ghosh, Control in Robotics and Automation: Sensor Based Integration, Allied Publishers,Chennai, 1998. REFERENCES 1. Deb.S.R., Robotics technology and flexible Automation, John Wiley, USA 1992. 2. Asfahl C.R., Robots and manufacturing Automation, John Wiley, USA 1992. 3. Klafter R.D., Chimielewski T.A., Negin M., Robotic Engineering – An integrated approach, Prentice Hall of India, New Delhi, 1994. 4. Mc Kerrow P.J. ,Introduction to Robotics, Addison Wesley, USA, 1991 5. .Issac Asimov I Robot, Ballantine Books, New York, 1986.

EI0453

REAL TIME AND EMBEDDED SYSTEMS

L 3

T 0

P 0

C 3

Prerequisite Nil

71

EI – 07-08 – SRM – E&T

PURPOSE To make the students familiarize with the real time Systems. INSTRUCTIONAL OBJECTIVES The student will be able to understand 1. Concepts of real time system 2. Modelling RTS 3. Real time OS 4. Analysis of RTS 5. Real time programming Introduction to real time systems : Typical examples of RTS-characteristics features of real-time-structural, functional and performance requirements of reactive real-time system-distinctive features from non-real-time and off-line systems. Modelling RTS:Event based ,Process based and graph based models, petrinet models-representation of timeconcurrency and distributed in discrete event systems-examples of modeling practical systems. Analysis of RTS :Analysing logical properties of discrete event systems-analysing time related propertiesExamples of checking safety and timing properties of industrial systems. Real time OS: The real time kernel-OS tasks-multi tasking-task management-task dispatch and schedulinginterrupt processing-clocking-communication and synchonisation.Memory management-code sharinginput/output sub system-concurrent programming-mutual exclusion-rendezvous. Real time Programming :User requirement- language requirement-declaration-constants-control structuremodularity-exception-low level and multi- tasking facilities. Introduction to ADA. TEXT BOOKS 1. Krishna C.M., Real Time systems , Mc-Graw-Hill Singapore,1998. 2. Stuart Bennett, Real-time Computer Control , Prentice Hall, London,1998. REFERENCE BOOKS 1. Levi S. and Agarwala A.K., Real- Time System Design , Mc-Graw-Hill, NewYork,1990. 2. Laplante P.A., Real- Time Systems Design and Analysis , EEE Press, NewYork, 1992.

EI0457

INSTRUMENTATION IN AEROSPACE AND NAVIGATION Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE The purpose of this subject is to understand the technical aspects of Aerospace and Navigation. Since the subject is practical oriented, the student can realize the applications of various instrumentation based topics. INSTRUCTIONAL OBJECTIVE: While studying this subject the students will know , The basics of aerospace and navigation. The technical aspects of this subject. The idea of modern technology. Air craft and aerospace vehicle instrumentation: Air data instruments: altimeter, air speed rate of climb – gyroscopic instruments – turn and back indicator – artificial horizon – directional Gyro Schuler Tuning, Stable Platform – Automatic pilots – integrated flight instruments – Capacitance type fuel level indicating system – altitude compensation – magnetic compass. Radio Navigation Aids: automatic direction finder – instruments landing system – visual omni range – distance measuring equipments – radar – optical instruments – engine instruments and control – pressure measurements

72

EI – 07-08 – SRM – E&T

– thermal meter control – pressure measurement – thermal meter – tachometer – accelerometer – smoke and fire detection – propeller controls – cabin pressure and temperature. Satellite and space vehicle instrumentations – propulsion controls – stabilisation – stabilisation sensors – Gyros – Sun sensors – Horizon sensors – star tracker – Stabilisation controls. Air Craft Flight Simulation Instrumentation: Basic description of a flight simulator – Solution of Aerodynamics equations – simulation of abnormal conditions – Jet engine power plant troubles – Flight controls and auto pilot troubles. Electrical Troubles: Hydraulic systems troubles – landing gear troubles – cabin conditioning troubles – indication of unsafe canopy – Boeing condition – Radio troubles – Separate generator – System troubles – Trouble indicator light – Advantages of instrumentated flight – Simulation – Simulation of difficult conditions – Weapons system trainer – Need for realism – Instrumentation. TEXT BOOKS 1. Pallett E.G.H., Aircraft Instrumentation and Integrated Systems , Longman Scientific and Technical’, 1992. 2. Nagaraja N.S., Elements of Electronic Navigation ,Tata Mcgraw Hill Publishing Ltd., New Delhi, 1975. REFERENCES 1. Douglas M. Considine and S.D. Ross, Handbook of Applied Instrumentation , McGraw Hill, 1965.

EI0459

L 3

POWER PLANT INSTRUMENTATION Prerequisite Nil

T 0

P 0

C 3

PURPOSE We can know about the various methods of power generation and it control methods. INSTRUCTIONAL OBJECTIVES 1. Familiarises about different power generation process 2. Important parameter that has to be monitored and controlled 3. Various parameters that has to be analysed and monitored 4. Various instruments involved in and its controlling process. METHODS OF POWER GENERATION Power generation - types - importance of instrumentations in power generation - basic building block for all types of power generation plants - details of boiler processes - P&I diagram of boiler - cogeneration. PARAMETERS OF POWER PLANT AND ITS MEASUREMENT Electrical and non electrical parameter measurement -correction factor for steam temp and temp-steam pressure - drum level measurement -radiations detector - smoke density measurement -dust monitor - speed vibration, shell temp monitoring & control - steam pressure control lubricant temp control of turbines. ANALYZERS IN POWER PLANTS Fluegas oxygen analyzer - analysis of impurities in feedwater and steam - dissolved oxygen analyzer chromatography - PH Meter - Fuel analyser -pollution monitoring instrumentsCONTROL LOOPS IN BOILER Combustion Control-air/fuel ratio control - furnace draft control - drum level control - main steam and reheat steam temp control - super heater control - attemperator - deaerator control -distributed control system in power plants - interlocks in boiler operation. Nuclear power plant instrumentation - P&I diagram of different types of nuclear power plant - radiations detection instruments - process sensors for nuclear power plants - Spectrum Analyzer - nuclear reactor control systems and allied instrumentation. TEXT BOOK 1. Liptak B.G., Instrumentation in Process Industries , Chilton, 1973.

73

EI – 07-08 – SRM – E&T

REFERENCE BOOKS 1. The Control of boilers - Sam .G.Duke low - ISA press,1991. 2. Modern Power Station Practice - Vol.6 - A.Sherryetal Pergamon Press, 1971.

EI0461

L 3

NEURAL NETWORKS AND FUZZY CONTROL Prerequisite Nil

T 0

P 0

C 3

PURPOSE On completion of this course students will: learn to design of Neural network and Fuzzy Logic Controllers for various applications. acquire basic understanding of the various algorithms involved in Neural Networks & Fuzzy . INSTRUCTIONAL OBJECTIVES It deals with Introduction and different architecture of neural networks It deals with an Application of Neural Network It deals with Fuzzy Logic It deals with an application of Fuzzy logic. INTRODUCTION AND DIFFERENT ARCHITECTURE OF NEURAL NETWORK Introduction – Artificial Neural Network – Biological Neural Networks – Typical Architectures – Setting Weights – Common Activation Functions – McCulloch Pitts Neuron: Architecture, Algorithm, Application – Simple neural networks for classification: Architecture, Biases and Threshold, Linear separability – Hebb Net Algorithm and application – perceptron learning convergence theorem – delta rule. Back propagation –architecture –algorithm-derivation of learning rules –number of hidden layers- learning factors-Hopfield neural net : architecture – algorithm –applications. Neural network based on competition: fixed- weight competitive nets- kohonen self organizing maps and applications. Adaptive Resonance theory: Basic architecture and operation. Neural controller for a temperature process. Basic concepts of fuzzy sets – Relational equation – fuzzy logic control – fuzzification – defuzzification – knowledge base – Decision making logic –membership functions – rule base. Fuzzy logic controller: functional diagram, membership functions: triangular, trapezoidal- scale factors. Fuzzification: membership value assignments using intuition –knowledge base. Defuzzification : maxmembership principle – centeroid method – weighted average method –rule. Choice of variables-derivation of rules- case study: fuzzy logic controller design for a temperature process. TEXT BOOKS 1. Timothy J.Ross, Fuzzy logic with Engineering Applications, McGraw Hill,New york, 1996. 2. Kosko.B, Neural Network and fuzzy systems- Prentice Hall of India Pvt. Ltd., New Delhi,1992. REFERENCE BOOKS 1. Robert .J.Schalkoff, Artificial Neural networks, McGraw Hill,Singapore, 1998 2. Laurene Fausett, Fundamentals of Neural Networks, Prentice Hall, New Jersey, 1994. 3. Driankov D., Helledorn H., M.Reinframe, An Introduction to fuzzy control , Narosa publishing Co., New Delhi, 1996

EI0463

INSTRUMENTATION AND CONTROL IN PAPER INDUSTRY Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To provide a window of applications of instrumentation and automation in processing industries to senior students with specialization in Instrumentation Engineering.

74

EI – 07-08 – SRM – E&T

INSTRUCTIONAL OBJECTIVES To enable the students to Have an in-depth understanding of the various unit operations in the industry Find the alternative sensors and transducers for various measurements Evolve the appropriate controls and schematics for specific applications Have cases world-class mills employing IT-enabled applications Understand the importance of safety to plant and personnel Economic and social implications of the industry Appreciate the role of Instrumentation Engineer in such industries Role of paper in various forms in the civilised world; history of paper making; per-capita consumption of paper and board in India and in other countries. Process description in diagrammatic and functional block details; conventional and non-conventional raw materials for paper manufacture. Various grades of paper; properties of paper. Different pulping processes; importance of kraft process; continuous and batch digesters, brown stock washers, bleaching plant, chemical recovery process; paper machine operations; conversion processes. Pulping process involves various chemical processes; impact of effluents and need for treatment and disposal. Paper making is addition and removal of water; process water, DM water and potable water; water treatment plant. Cogeneration Plant for steam and power generation. Identification of various process parameters in the industry; selection of suitable measurement hardware for flow, pressure, level, temperature, density, solids, consistency, pH, ORP, conductivity. Special gauges for measurement of basis weight, moisture and caliper. Control room layout for mill operations; graphic displays; alarm management. Special applications for controls; Digester blow tank controls; digester liquor feed pump control; brown stock washer level control; stock chest level control; dissolving tank density control; white liquor classifier density control; white liquor flow control; condensate conductivity control. dryer temperature control. Basis weight control; web moisture control. Evolution of computer applications in the industry; Review of data logging, SCADA, DDC, PLC and DCS. Computer controls for online basis weight and web moisture in modern mills. TEXT BOOK 1. Liptak, Bela G, Instrumentation in the Processing Industries , Chilton Publishers, 1973. REFERENCE BOOKS 1. Considine, D.M, Hand Book of Applied Instrumentation , McGraw Hill, 1964. 2. 3.

Considine D. M., Process/Industrial Instruments and control Handbook, McGraw Hill, 4thedition 1993. www.tappi.com Robert H. Perry, Green D.W. and Maloney J.O., Perry’s Chemical Engineers’ Handbook, McGraw HillInc, New York, 7th ed, 1998.

EIGHTH SEMESTER - ELECTIVES EI0450

ARTIFICIAL INTELLIGENCE AND EXPERT SYSTEMS Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To learn the fundamentals of Artificial Intelligence and Expert system, and to acquire basic understanding of its various techniques and apply it in practice. INSTRUCTIONAL OBJECTIVES Fundamentals of Artificial Intelligence & Expert Systems Study of various AI Algorithms, tools and Languages

75

EI – 07-08 – SRM – E&T

Knowledge Representation & Semantic Networks INTRODUCTION Definition of Artificial Intelligence, History and Applications, Production Systems, database programs Vs expert systems, Components of AI AI ALGORITHMS Structures and Strategies for state space search- Data driven and goal driven search , Depth First and Breadth First Search, DFS with Iterative Deepening ,Heuristic Search- Best First Search, A* Algorithm, AO* Algorithm, Constraint Satisfaction, Using heuristics in games- Minimax Search, Alpha Beta Procedure. KNOWLEDGE REPRESENTATION Knowledge representation - Propositional calculus, Predicate Calculus, Theorem proving by Resolution, Answer Extraction, AI Representational Schemes- Semantic Nets, Conceptual Dependency, Scripts, Frames, Introduction to Agent based problem solving. EXPERT SYSTEMS Machine Learning- Symbol based and Connectionist, Social and Emergent models of learning, The Genetic Algorithm- Genetic Programming, Overview of Expert System Technology- Rule based Expert Systems, Introduction to Natural Language Processing. AI LANGUAGES Languages and Programming Techniques for AI- Introduction to PROLOG and LISP, Search strategies and Logic Programming in LISP, Production System examples in PROLOG

TEXT BOOK 1. George.F.Luger, Artificial Intelligence- Structures and Strategies for Complex Problem Solving, 4/e, 2002, Pearson Education. 2. E. Rich, k.knight, Artificial Intelligence, 2/e, Tata McGraw Hill REFERENCES 1. Winston. P. H, LISP, Addison Wesley 2. Ivan Bratko, Prolog Programming for Artificial Intelligence, 3/e, Addison Wesley, 2000 L EC 0464

DIGITAL IMAGE PROCESSING

T

3 0

P

0

C

3

Prerequisite Nil PURPOSE The purpose of this course is to introduce to the students the basic concepts and methodologies for digital image processing and to develop a foundation that can be used as the basis for further study and research. INSTRUCTIONAL OBJECTIVES The students undergoing this course will be able 1. To know the fundamentals of image processing 2. To know sampling and reconstruction procedures. 3. To know various transforms used in image processing 4. To know about various techniques of image enhancement, reconstruction and image compression. 5. To design image processing systems. DIGITAL IMAGE FUNDAMENTALS Introduction - Elements of Digital Image Processing systems-Visual perception and properties of human eye image representation - A simple image model - Some basic relationships between pixels - Imaging geometry.

76

EI – 07-08 – SRM – E&T

IMAGE SAMPLING AND QUANTIZATION Two-dimensional sampling theory - Spectrum of sampled image - Reconstruction of the image from its samples -Nyquist rate, Aliasing and foldover frequencies - Practical limitations in sampling and reconstruction - Image quantization. IMAGE TRANSFORMS 2-D Fourier transform - 2-D DFT - Fast Fourier transform - Walsh, Hadamard , Discrete cosine, Haar, Slant, KL Transforms. IMAGE ENHANCEMENT AND RESTORATION Contrast Enhancement - Image enhancement by Histogram modification technique - Image smoothing - Image sharpening - Homomorphic filtering for image enhancement - Degradation model - Diagonalization of circulant and block circulant matrices - Algebraic approach to restoration - Inverse filtering - Least mean square (Wiener) filter - Constrained Least Squares Restoration Restoration in spatial domain - Geometric transformation. IMAGE COMPRESSION AND SEGMENTATION Fundamentals - Image compression models - Elements of information theory - Error-free compression - Lossy compression - Detection of discontinuities - Edge linking and boundary detection - Thresholding - Region oriented segmentation. TEXT BOOKS 1. Rafael C. Gonzalez and Richard E. Woods, Digital Image Processing , Pearson Education Asia / Addison Wesley publishing company, Sixth Indian Reprint 2001. 2. Anil K. Jain, Fundamentals of Digital Image Processing , Prentice Hall of India, New Delhi, 2001. REFERENCE BOOKS 1. Maher A. Sid-Ahmed, Image Processing Theory, Algorithms and Architectures , McGraw-Hill, 1995. 2. William K. Pratt, Digital Image Processing , Wiley-Interscience publication, Second Edition, 1991.

EI0452

ADVANCED CONTROL THEORY Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To enable the students to understand the advanced control systems like optimal control, Robust control, Adaptive control fuzzy and Neural control. The course will provide the methods to overcome the difficulties in implementing conventional control through advanced control. INSTRUCTIONAL OBJECTIVES To understand 1. The conventional PID and its control and Robust control design. 2. Optimal control and stability analysis 3. Adaptive control and its implementation PID CONTROL Tuning Rules for PID controller - Modifications of PID control schemes-Two degrees of freedom control. OPTIMAL CONTROL Formulation-Necessary conditions of optimality-state regulator problem-matrix Riccati equation-infinite time regulator problem- Output regulator tracking problems-Pontryagin's minimum principle-time optimal control problem. LIAPUNOV STABILITY ANALYSIS AND QUADRATIC OPTIMAL CONTROL Liapunov stability analysis - Linear, Time invariant systems-Model Reference control systems-Quadratic optimal control. ADAPTIVE CONTROL

77

EI – 07-08 – SRM – E&T

Classification-MRAC systems-Different configuration, classification, mathematical descriptions-direct and indirect MRAC-self tuning regulators, different approach to self tuning, recursive parameter estimation, implicit and explicit STR. ROBUST CONTROL Robust control – Analysis of Robustness – Robust PID Control – Robust stability criterion – Design of Robust control system. TEXT BOOKS 1. Katsuhiko Ogata, Morden Control Engineering ,Third Edition, - Prentice Hall , India 1995. 2. Nagarath, I.J. and Gopal.M. Control Systems Engineering, Wiley & sons, 1985. REFERENCE BOOKS 1. Astrom K.J. and Wittenmark.B, Adaptive Control, Addison Wesley Publishing, 1985. 2. Bernard friedlanced - Advanced Control System Design - Prentice Hall of India Pvt Ltd., New Delhi,1996. 3. Richard.C. Dorf and Robert.H.Bisho, Modern Control System, Addison Wesley & sons, 1999.

EI0454

L 3

AUTOMOTIVE ELECTRONICS Prerequisite Nil

T 0

P 0

C 3

PURPOSE To enable the students to develop an understanding of the basic concepts of Automotive electronics.

INSTRUCTIONAL OBJECTIVES To address electrical principles, semiconductor and integrated circuits, digital fundamentals, microcomputer systems, computerized engine controls, and electrical test equipment as applied to automotive technology.

Introduction to shop safety-Proper use of hand tools and equipment for shop safety-Personal SafetyComputerized Systems-Theory computer networking-Theory on input sensors-Theory on output actuator-Use of Diagnostic Equipment-Scan tool-Oscilloscope-4-Four gas analyzer-Live scope. Computer-Controlled Ignition Systems-Theory on computer control ignition systems-Computer control distributor-Computer control distributor less ignition systems (D.I.S.)-(L.E.D.) optical distributors-Theory Pulse Generator-Hall-effect-Optical.

Fuel Injection systems-Fuel deliver diagnosis and service-T.B.I. Throttle body injection system-M.P.I. Multipart injection system-C.P.I. Central ported injection system (vertex)-Computerized Braking Systems-TheoryTypes-Controllers-Sensors-Actuators.

Computer Controlled Transmissions and Transaxles-Theory-Controls Common and Separate from Engine Management-Sensors-Actuators

Computer Controlled Air Conditioning Systems-Theory-Controls Common and Separate from Engine Management-Sensors-Actuators-Miscellaneous-Instrument Panels-Traction Controls-Suspension ControlsIntegration/Networking. TEXT BOOKS Don Knowles, Automotive Computer Systems ,1st Ed. Thomas Learning, UK, April 1996. REFERENCE BOOKS Hillier, V A W, Fundamentals of Automotive Electronics, Nelson Thornes Publishers, UK, 1996.

78

EI – 07-08 – SRM – E&T

James D. Halderman, Diagnosis and Troubleshooting of Automotive Electrical, Electronic, and Computer Systems, Prentice Hall, 2000.

EI0456

PERSONAL COMPUTER SYSTEMS Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To enable students to develop understanding of a personal computer and the operating system concepts. INSTRUCTIONAL OBJECTIVES The students will be able to 1. Know the operating system concepts 2. Know the motherboard logic 3. Know the overall hardware 4. Know the interfacing concepts MICROCOMPUTER SYSTEMS AND ITS PERIPHERALS MICROCOMPUTER SYSTEMS Introduction - Computer organisation Number system and codes - Memory -Arithmetic and logic unit - control unit-Instruction prepfetch-Interrupts - Input - output techniques-device controllers - personal computer concepts and techniques. Introduction - keyboard - CRT display monitor-printer-magnetic storage devices - Floppy disk drive - hard disk drive special peripherals.

OVERVIEW OF PC HARDWARE The PC family-The 8086 family - parts of PCS Hardware - Breakdown - BIOS-DOS interaction - PC Hardware system box - Motherboard logic -Memory space I/O port addresses - wait state interrupts I/O Data transfer DMA channels - peripheral interfaces and controllers - keyboard interface parallel interface-serial interfaceCRT display controller-Floppy disk controller. Hard disk controller - Memory refresh - Post sequence. Hard disk card coprocessors. MOTHERBOARD CIRCUITS Introduction - Motherboard functions-Functional units and interconnection - Reset logic CPU Nucleus Logic DMA logic wait state logic DMA logic - Bus Arbitration logic RAM logic ROM logic - ROM decode logic RAM parity logic - NMI logic. I/O ports decode logic Time of Day (TOD) logic - Dynamic memory refresh logic - speaker logic -Mode switch input logic control bus logic - Address bus logic Data bus logic - I/o slot signals - SMPS. Hardware details of the Pentium - Protected mode operation - comparison of 8088 and 8086. THE MEMORY WORKBENCH Memory overview-getting into memory - The PC's memory organization - into extended memory-Memory banks-8088 introduction CPU specifications - CPU pin configuration- The 8284 clock generator-The 8288 bus controller-system timing diagrams -PC bus standards-8088 memory systems design-8088 - & IO systems design - cache memory-The problem of speed - The cache technology. DOS AND BIOS FUNCTION CALLS Programming with DOS and BIOS function calls-using disks and files-programming with 80 × 86 peripherals. AUXILIARY SYSTEMS AND ADVANCED PCS Introduction -Data communication fundamentals. Real time clock (RTC) - serial port in PC magnetic tape subsystems-LAN. OVERVIEW OF ADVANCED PCS PC Advanced Technology - Microprocessors in AT-PC-AT operating modes - Hardware overview IBM PC AT and clones-system configuration-Post and error codes -PC-AT peripherals-AT 286-AT386 features. VLSI AT Motherboard-SCSI small computer system interface.

79

EI – 07-08 – SRM – E&T

TEXT BOOKS 1. Govindarajalu.B. Microcode consultants Madras (IBM PC and Clones H/W ,Troubleshooting and maintenance , Tata Mcgraw Hill,14th reprint 1998. 2. James.L.Antonakes, An introduction to the Intel family of Microprocessors , Third Edition Pearson Education Asia,1999. REFERENCE BOOKS 1. Peter Norton, Inside the IBM PC, Prentice Hall of India Pvt Ltd, New Delhi 110 001 second edition, 1990. 2. Harry fairhead, The 386/486 PC , First Indian Edition, BPB Publications, NewDelhi. 1991. 3. Walter A. Triehel Avtar Singh, The 8088 and 8086 Microprocessors, Prentice Hall of India, NewDelhi,2000.

EI0458

INSTRUMENTATION AND CONTROL IN PETROCHEMICAL INDUSTRIES Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE On completion of this course students will: 1. learn the complete operation of Petrochemical Industries. 2. acquire basic understanding of reaction & control of this Industries.

INSTRUCTIONAL OBJECTIVES: 1. It deals with various equipments involved in the Petrochemical Industries. 2. It deals Distillation Column, Reactor, Heat exchangers, Evaporators. 3. It deals with performance of the pumps also.

Introduction: Petroleum Exploration, production and Refining – Refining Capacity in India – Consumption of Petroleum products in India – Constituents of Crude Oil.

P & I diagram of petroleum refinery – Atmospheric Distillation of Crude oil – Vacuum Distillation process – Thermal Conversion process – Control of Distillation Column – Temperature Control – Process control – Feed control – Reflux Control – Reboiler Control.

Controls of chemical Reactors: Temperature Control, Pressure Control – Control of Dryers – Batch Dryers – Atmospheric and Vacuum; Continuous Dryers.

Control Heat Exchangers and Evaporators – variables and Degrees of freedom – Liquid to Liquid Heat Exchangers – Steam Heaters – Condensers – Reboilers and Vaporizers – Cascade Control – Feed forward Control. Evaporators: Types of Evaporators. CONTROL OF PUMPS Centrifugal pump: On-Off level control – Pressure control – Flow control – Throttling control. Rotary pumps: On-Off pressure control. Reciprocating Pumps: On-Off control and Throttling control. Effluent and Water Treatment Control: Chemical Oxidation – chemical Reduction – Naturalization – Precipitation – Biological control. TEXT BOOKS

80

EI – 07-08 – SRM – E&T

1. 2.

Dr. Ram Prasad, Petroleum Refining Technology , Khanna Publisher, 1st Edition,2000. Liptak B.G., Instrumentation in Process Industries , Chilton Book Company,1973.

REFERENCES Considine M. and Ross S.D., Handbook of Applied Instrumentation , McGraw Hill,1962. Liptak B.G., Instrument Engineers Handbook , Volume II.,1989.

EI0460

INSTRUMENTATION AND CONTROL IN IRON AND STEEL INDUSTRIES Prerequisite Nil

L 3

T 0

P 0

C 3

PURPOSE To provide a window of applications of instrumentation and automation in processing industries to senior students with specialization in Instrumentation Engineering. INSTRUCTIONAL OBJECTIVES To enable the students to Have an in-depth understanding of the various unit operations in the industry Find the appropriate sensors and transducers for various measurements Evolve the appropriate controls and schematics for specific applications Have cases world-class mills employing IT-enabled applications Understand the importance of safety to plant and personnel Economic and social implications of the industry Appreciate the role of Instrumentation Engineer in such industries The need for iron and steel in the civilised world; history of steel making; per-capita consumption of steel in India and in other countries. Process description in diagrammatic and functional block details; raw materials preparation; operation of blast furnace (BF) and auxiliary units including stoves; basic oxygen furnace (BoF); electric furnace (EF); open hearth furnace (OHF); relative merits of various steel making furnaces.

Quality of steel; impurities present and allowed limits for usable steel; waste recycling. Continuous casting and batch casting of steel; primary and secondary rolling; features of cold rolling; steel finishing operations. Identification of various process parameters in the industry; selection of suitable measurement hardware for temperature, pressure, level, flow, weighing and proportioning; special gauges for measurement of thickness and shape; Control room layout for mill operations; graphic displays; alarm management. Special applications for controls; Blast Furnace (BF) Stove combustion control system; gas and water control system in Basic Oxygen Furnace (BoF); Mould Level control system in Strand Casting operations. Evolution of computer applications in the industry; Review of data logging, SCADA, DDC and DCS. Practices for model calculating and data logging; steel rolling mill control; annealing process control; utilities management with computer system. TEXT BOOK 1. Liptak, Bela G, Instrumentation in the Processing Industries , Chilton Publishers, 1973. REFERENCE BOOKS 1. Considine D. M., Process/Industrial Instruments and control Handbook , McGraw Hill, 4th edition 1993. 2. Serope Kalpakjian, Manufacturing Engineering and Technology , Addison Wesley Publishing Company, Massachusetts,3rd edition, 1995. 3.

Robert H. Perry, D.W. Green and J.O. Maloney, Perry’s Chemical Engineers Handbook, McGraw Hill Inc, New York, 7th ed, 1998.

81

EI – 07-08 – SRM – E&T