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SATHYABAMA UNIVERSITY(Established under section 3 of UGC Act, 1956)

Jeppiaar Nagar, Rajiv Gandhi Salai, Chennai - 119.

SYLLABUSBACHELOR OF ENGINEERING PROGRAMME

IN

ELECTRONICS & INSTRUMENTATION ENGINEERING

(8 SEMESTERS)

REGULATIONS 2010

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SATHYABAMA UNIVERSITY

REGULATIONS – 2010

Effective from the academic year 2010-2011 and applicable to the students admitted to the Degree of Bachelorof Engineering / Technology. (Eight Semesters)

1. Structure of Programme

1.1 Every Programme will have a curriculum with syllabi consisting of theory and practical such as:

(i) General core courses comprising Mathematics, Basic Sciences, Engineering Sciences.

(ii) Core course of Engineering / Technology.

(iii) Elective course for specialization in related fields.

(iv) Workshop practice, Computer Practice, Engineering Graphics, Laboratory Work, IndustrialTraining, Seminar Presentation, Project Work, Educational Tours, Camps etc.

1.2 Each semester curriculum shall normally have a blend of lecture courses not exceeding 7 and

practical courses not exceeding 4.1.3 The medium of instruction, examinations and project report will be in English.

2. Duration of the Programme

A student is normally expected to complete the B.E/B.Tech. Programme in 8 semesters but in any case notmore than 12 consecutive semesters from the time of commencement of the course (not more than 10semesters for those who join 3

rdsemester under Lateral entry system) The Head of the Department shall

ensure that every teacher imparts instruction as per the number of hours specified in the syllabus and that theteacher teaches the full content of the specified syllabus for the course being taught.

3. Requirements for Completion of a Semester

A candidate who has fulfilled the following conditions shall be deemed to have satisfied the requirement forcompletion of a semester.

3.1 He/She secures not less than 90% of overall attendance in that semester.

3.2 Candidates who do not have the requisite attendance for the semester will not be permitted to writethe University Exams.

4. Examinations

The examinations shall normally be conducted between October and December during the odd semesters andbetween March and May in the even semesters. The maximum marks for each theory and practical course(including the project work and Viva Voce examination in the Eighth Semester) shall be 100 with the followingbreakup.

(i) Theory Courses

Internal Assessment : 20 Marks

University Exams : 80 Marks

(ii) Practical Courses

Internal Assessment : - -

University Exams : 100 Marks

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5. Passing requirements

(i) A candidate who secures not less than 50% of total marks prescribed for the course (For all coursesincluding Theory, Practicals and Project work) with a minimum of 35 marks out of 80 in the UniversityTheory Examinations, shall be declared to have passed in the Examination.

(ii) If a candidate fails to secure a Pass in a particular course, it is mandatory that he/she shall reappear

for the examination in that course during the next semester when examination is conducted in thatcourse. However the Internal Assessment marks obtained by the candidate in the first attempt shallbe retained and considered valid for all subsequent attempts.

6. Eligibility for the Award of Degree

A student shall be declared to be eligible for the award of the B.E/B.Tech. degree provided the student hassuccessfully completed the course requirements and has passed all the prescribed examinations in all the 8semesters within the maximum period specified in clause 2.

7. Award of Credits and Grades

All assessments of a course will be done on absolute marks basis. However, for the purpose of reporting theperformance of a candidate, Letter Grades will be awarded as per the range of total marks (out of 100) obtained

by the candidate as given below:

RANGE OF MARKS FOR GRADES

Range of Marks Grade Grade Points (GP)

90-100 A++ 10

80-89 A+ 9

70-79 B++ 8

60-69 B+ 7

50-59 C 6

00-49 F 0

ABSENT W 0

CUMULATIVE GRADE POINT AVERAGE CALCULATION

The CGPA calculation on a 10 scale basis is used to describe the overall performance of a student inall courses from first semester to the last semester. F and W grades will be excluded for calculatingGPA and CGPA.

CGPA = Σi Ci GPi

Σi Ci

where Ci - Credits for the subject

GPi - Grade Point for the subject

Σi - Sum of all subjects successfully cleared during all the semesters

8. Classification of the Degree Awarded

1. A candidate who qualifies for the award of the Degree having passed the examination in all the

courses of all the semesters in his/her first appearance within a maximum period of 8 consecutivesemesters after commencement of study (maximum of 6 semesters for Lateral entry system who join the course in the third semester) securing a CGPA not less than 9.0 shall be declared to

have passed the examination in First Class – Exemplary.


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2. A candidate who qualifies for the award of the Degree having passed the examination in all the

courses of all the semesters in his/her first appearance within a maximum period of 8 consecutive

semesters after commencement of study (maximum of 6 semesters for Lateral entry system who

join the course in the third semester) securing a CGPA not less than 7.5 shall be declared to

have passed the examination in First Class with Distinction.

3. A candidate who qualifies for the award of the Degree having passed the examination in all thecourses of all the semesters within a maximum period of 8 consecutive semesters after

commencement of study (maximum of 6 semesters for Lateral entry system who join the course in

the third semester) securing a CGPA not less than 6.0 shall be declared to have passed the

examination in First Class.

4. All other candidates who qualify for the award of the Degree having passed the examination in all

the courses of all the 8 semesters within a maximum period of 12 consecutive semesters (10

consecutive semesters for Lateral Entry system who join the course in the third semester) after

his/her commencement of study securing a CGPA not less than 5.0 shall be declared to have

passed the examination in Second Class.

5. A candidate who is absent in semester examination in a course/project work after having registered

for the same, shall be considered to have appeared in that examination for the purpose ofclassification of degree. For all the above mentioned classification of Degree, the break of study

during the programme, will be counted for the purpose of classification of degree.

6. A candidate can apply for revaluation of his/her semester examination answer paper in a theory

course, within 1 week from the declaration of results, on payment of a prescribed fee along with

prescribed application to the Controller of Examinations through the Head of Department. The

Controller of Examination will arrange for the revaluation and the result will be intimated to the

candidate concerned through the Head of the Department. Revaluation is not permitted for practical

courses and for project work.

Final Degree is awarded based on the following:

CGPA ≥ 9.0 - First Class - Exemplary

CGPA ≥ 7.50 < 9.0 - First Class with Distinction

CGPA ≥ 6.00 < 7.50 - First Class

CGPA ≥ 5.00 < 6.00 - Second Class

Minimum CGPA requirements for award of Degree is 5.0 CGPA.

9. Discipline

Every student is required to observe disciplined and decorous behaviour both inside and outside the Universityand not to indulge in any activity which will tend to bring down the prestige of the University. If a student

indulges in malpractice in any of the University theory / practical examination, he/she shall be liable for punitive

action as prescribed by the University from time to time.

10. Revision of Regulations and Curriculum

The University may revise, amend or change the regulations, scheme of examinations and syllabi from time to

time, if found necessary.


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B.E. (ELECTRONICS & INSTRUMENTATION)

REGULATIONS 2010 CURRICULUM

SEMESTER I

Sl. No. SUBJECT CODE SUBJECT TITLE L T P C Page No.

THEORY

1 SHSX1001 English for Science & Technology 3 0 0 3 1

2 SMTX1001 Engineering Mathematics – I 3 1 0 4 2

3 SPHX1001 Physics of Materials 3 0 0 3 3

4 SCYX1001 Engineering Chemistry 3 0 0 3 4

5 SMEX1002 Engineering Graphics 1 2 0 3 5

6 SPRX1001 Basic Mechanical & Civil Engg 3 0 0 3 6

7 SEEX1001 Basic Electrical Engineering 2 1 0 3 7PRACTICAL

1 SPHX4001 Physics Lab-I 0 0 2 1 8

2 SCYX4001 Chemistry Lab-I 0 0 2 1 8

3 SPRX4001 Mechanical Workshop Lab 0 0 4 2 8

TOTAL CREDITS 26

SEMESTER II


THEORY

1 SCHX1001 Environmental Science and Engineering 3 0 0 3 9

2 SMTX1002 Engineering Mathematics – II 3 1 0 4 10

3 SPHX1002 Applied Physics 3 0 0 3 11

4 SCYX1002 Chemistry of Electronic Materials 3 0 0 3 12

5 SECX1001 Electronic Devices 3 0 0 3 13

6 SEEX1004 Electrical Technology 2 1 0 3 14

7 SCSX1002 Programming in ‘C’ 3 0 0 3 15

PRACTICAL

1 SCSX4002 Programming in C Lab 0 0 4 2 16

2 SEEX4001 Electrical Engineering Lab 0 0 4 2 16

TOTAL CREDITS 26

L - Lecture hours; T - Tutorial hours; P - Practical hours; C - Credits


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SEMESTER III


THEORY

1 SMTX1009 Engineering Mathematics-III 3 1 0 4 17

2 SCSX1014 Object Oriented Programming 3 0 0 3 18

3 SEEX1005 Circuit Theory 3 1 0 4 19

4 SMEX1013 Solid & Fluid Mechanics 3 0 0 3 20

5 SICX1004 Sensors & Transducer 3 0 0 3 21

6 SECX1002 Digital systems 3 0 0 3 22

7 SECX1012 Electronic Circuits-I 3 0 0 3 23

PRACTICAL

1 SECX4020 Electric Circuits & Digital Lab 0 0 4 2 24

2 SECX4021 Devices & Electronic Circuits Lab 0 0 4 2 24

TOTAL CREDITS 27

SEMESTER IV


THEORY

1 SMTX1010 Engineering Mathematics-IV 3 1 0 4 25

2 SECX1013 Electronic Circuits-II 3 0 0 3 26

3 SMEX1011 Applied Thermodynamics 3 0 0 3 27

4 SECX1004 Signals and Systems 3 0 0 3 28

5 SICX1002 Electrical Measurements & Instrumentation 3 0 0 3 29

6 SECX1005 Network Analysis & Synthesis 3 0 0 3 30

PRACTICAL

1 SMEX4005 Thermal & Fluid Mechanics Lab 0 0 4 2 31

2 SECX4022 Electronic Circuits-II Lab 0 0 4 2 31

TOTAL CREDITS 23


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SEMESTER V


THEORY

1 SMTX1011 Applied Numerical Methods 3 1 0 4 32

2 SECX1028 Digital Signal Processing 3 1 0 4 33

3 SECX1010 Linear Integrated Circuits 3 0 0 3 34

4 SICX1013 Industrial and Chemical Processes 3 0 0 3 35

5 SICX1005 Electronic Measurements & Instrumentation 3 0 0 3 36

6 SICX1008 Industrial Instrumentation 3 0 0 3 37

7 SEEX1010 Control Systems 3 1 0 4 38

PRACTICAL

1 SECX4027 Integrated Circuits & DSP Lab 0 0 4 2 39

2 SECX4002 Measurements &Transducers Lab 0 0 4 2 39

TOTAL CREDITS 28

SEMESTER VI


THEORY

1 SICX1006 Modern Control System 3 1 0 4 40

2 SECX1015 Microprocessor & Micro controllers 3 0 0 3 41

3 SICX1007 Process Control 3 0 0 3 42

4 SECX1048 Fundamentals of Fuzzy logic & Artificial Neural

Networks

3 0 0 3 43

5 Elective-I 3 0 0 3

6 Elective-II 3 0 0 3

PRACTICAL

1 SECX4028 Microprocessor & Microcontroller Lab 0 0 4 2 44

2 SICX4003 Process Control Lab 0 0 4 2 44

TOTAL CREDITS 23


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SEMESTER VII


THEORY

1 SBAX1001 Principles of Management & Professional Ethics 3 0 0 3 45

2 SICX1010 Computer Control of Process 3 0 0 3 46

3 SICX1009 Biomedical Instrumentation 3 0 0 3 47

4 Elective-III 3 0 0 3

5 Elective-IV 3 0 0 3

6 SECX1064 Data Acquisition and Communication Systems 3 0 0 3 48

PRACTICAL

1 SICX4004 Industrial Instrumentation Lab 0 0 4 2 52

TOTAL CREDITS 20

SEMESTER VIII


1 SECX1021 Fundamentals of VLSI design 3 0 0 3 49

2 SICX1014 Logic & Distributed control system 3 1 0 4 50

3 SICX1015 Analytical Instrumentation 3 0 0 3 51

PRACTICAL

1 SICX4005 System Design Lab 0 0 4 2 52

2 S18XPROJ Project Work & Viva-Voce 0 0 30 15 52

TOTAL CREDITS 27

TOTAL CREDITS FOR THE COURSE 200


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LIST OF ELECTIVES

Note: ONE SUBJECT IS TO BE CHOSEN FROM EACH GROUP COMPULSORILY

GROUP 1:


1 SICX1012 Software for System Design 3 0 0 3 53

2 SICX1016 Fundamentals of Mechatronics 3 0 0 3 54

3 SICX1020 Theory of Robotics & Automation 3 0 0 3 55

4 SICX1025 Satellite Instrumentation 3 0 0 3 56

5 SICX1026 Ultrasonic Instrumentation 3 0 0 3 57

6 SICX1029 Process Control System Components 3 0 0 3 58

GROUP 2:

1 SICX1022 Digital Control Systems 3 0 0 3 59

2 SICX1023 Adaptive Control System 3 0 0 3 60

3 SICX1017 Instrumentation & Control in Petrochemical

Industries

3 0 0 3 61

4 SICX1018 Instrumentation & Control In Pulp & Paper

Industries

3 0 0 3 62

5 SICX1024 Instrumentation In Aerospace & Navigation 3 0 0 3 63

6 SICX1028 Power Plant Instrumentation 3 0 0 3 64

GROUP 3:

1 SECX1040 Digital Image Processing 3 0 0 3 65

2 SECX1041 Programming in MATLAB 3 0 0 3 66

3 SECX1042 Advanced Electronics Test Engineering 3 0 0 3 67

4 SECX1047 Embedded Systems 3 0 0 3 68

5 SECX1059 Pattern recognition and Image vision 3 0 0 3 69

6 SICX1019 Instrumentation & Control In Iron & Steel

Industries

3 0 0 3 70

GROUP 4:

1 SCSX1021 Artificial Intelligence 3 0 0 3 71

2 SCSX1009 Computer Architecture & Parallel Processing 3 0 0 3 723 SEEX1013 Power Electronics 3 0 0 3 73

4 SMEX1017 Resource Management Techniques 3 0 0 3 74

5 SICX1021 Fiber optics & Laser Instrumentation 3 0 0 3 75

6 SECX1020 Nano Electronics 3 0 0 3 76

7 SECX1022 MEMS and its Applications 3 0 0 3 77


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DUAL DEGREE IN COMPUTER SCIENCE

Provision for candidates from Non-IT Branches of B.E/B.Tech to undergo Dual Degree Programme leading toB.E in Computer Science.

A. Duration and Curriculum

Candidates selected for a Dual degree programme shall undergo additional courses pertaining to ComputerScience. These courses constitute with additional Curriculum as per annexure and consist of both core course

and electives. The additional courses are to be undergone concurrently from the 3rd

semester of the B.E/B.Tech.(Non-IT) degree programme and extends for one more year beyond the fourth year of the regular B.E/B.Tech.(Non-IT) degree programme to which he/she was first admitted. The additional courses are to be offered from

3rd

to 8th

Semester after normal working hours so that the regular B.E/B.Tech. (NonIT) remains unaffected.

B. A candidate undergoing dual degree programme should satisfy minimum attendance requirements for the courseof additional Curriculum for each semester, as stipulated for the regular B.E/B.Tech. Degree Programme.

C. For the courses of additional Curriculum, a candidate has to write the same examination that is held for theregular B.E. Computer Science.

D. The passing rules for the dual degree programme shall be same as that of the regular B.E/B.Tech. Degree

programme.

E. A candidate shall be declared to be eligible for the additional degree of B.E. Computer Science provided that

(i) The candidate has qualified for the regular B.E. or B.Tech. Degree in the non-IT branch in whichhe/she was originally admitted.

(ii) The candidate has successfully completed all the courses prescribed in the additional Curriculum

within a maximum period of 12 semesters from the date of first admission.

(iii) There is no disciplinary action pending against the student.


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CURRICULUM

SUBJECTS FOR DUAL DEGREE PROGRAMME IN COMPUTER SCIENCE

THIRD SEMESTER

Sl.No. SUBJECT CODE NAME OF THE SUBJECT L T P CTHEORY

1 SCSX1004 Software Engineering 3 0 0 3

2 SCSX1005 Data Structures & Algorithms 3 1 0 4

PRACTICALS

3 SCSX4004 Data Structures Lab 0 0 4 2

TOTAL CREDITS 9

FOURTH SEMESTER

THEORY

1 SCSX1007 Java Programming 3 0 0 3

2 SCSX1009 Computer Architecture & Organization 3 0 0 3

PRACTICALS

3 SCSX4005 Java Programming Lab 0 0 4 2

TOTAL CREDITS 8

FIFTH SEMESTER

THEORY

1 SCSX1017 Data Communication and Computer

Networks

3 1 0 4

2 SCSX1018 Database Systems 3 1 0 4

PRACTICALS

3 SCSX4011 RDBMS Lab 0 0 4 2

TOTAL CREDITS 10

SIXTH SEMESTER

THEORY

1 SCSX1019 System Programming 3 0 0 3

2 SCSX1022 J2EE 3 0 0 3

PRACTICALS

3 SCSX4010 System Programming Lab 0 0 4 2

TOTAL CREDITS 8


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SEVENTH SEMESTER

THEORY

1 SCSX1008 C# and .Net 0 0 0 3

2 SCSX1011 Operating System 3 1 0 4

PRACTICALS

3 SCSX4006 C# and .Net Lab 0 0 4 2

TOTAL CREDITS 9

EIGHTH SEMESTER

THEORY

1 SCSX1024 Network Programming & Management 3 0 0 3

2 Elective I 3 0 0 3

3 Elective II 3 0 0 3

PRACTICALS

4 SCSX4012 Network Programming Lab 0 0 4 2

TOTAL CREDITS 11

NINETH SEMESTER

THEORY

1 SCSX1023 Computer Graphics & Multimedia

Systems

3 0 0 3

2 SCSX1030 Datamining & Warehousing 3 0 0 3

3 SCSX1025 Wireless & Mobile Networks 3 0 0 3

4 SCSX1027 Hardware Peripherals and Interfacing 3 0 0 3

5 Elective III 3 0 0 3

6 Elective IV 3 0 0 3

PRACTICALS

7 SCSX4014 Hardware Peripherals Lab 0 0 4 2

8 SCSX4015 Case Tools & Testing Lab 0 0 4 2

TOTAL CREDITS 22

TENTH SEMESTER

1 S11XPROJ Project Work and Viva-Voce 0 0 30 15

TOTAL CREDITS 15

TOTAL COURSE CREDITS : 92


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ELECTIVES FOR DUAL DEGREE PROGRAMME IN COMPUTER SCIENCE

Sl.No. SUBJECT CODE NAME OF THE SUBJECT L T P C

1. SCSX1020 Component Based Technology 3 0 0 3

2. SCSX1026 Cryptography & Network Security 3 0 0 3

3. SCSX1028 Distributed Computing 3 0 0 3

4. SCSX1032 Management Information System 3 0 0 3

5. SCSX1036 FOSS 3 0 0 3

6. SCSX1038 Software Quality Assurance and Testing 3 0 0 3

7. SCSX1039 Unified Modeling Language 3 0 0 3

8. SCSX1042 Robotics 3 0 0 3

9. SCSX1043 Unix Internals 3 0 0 3

10. SCSX1044 Multicore Programming 3 0 0 3

11. SCSX1047 High Performance Network 3 0 0 3

12. SCSX1048 Grid Computing 3 0 0 3

13. SCSX1049 Client Server Architecture 3 0 0 3

14. SCSX1050 TCP/IP and Socket Programming 3 0 0 3

15. SCSX1057 Cloud Computing 3 0 0 3


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SHSX1001 ENGLISH FOR SCIENCE AND TECHNOLOGYL T P Credits Total Marks

3 0 0 3 100

UNIT I 10 hrs.

Reading comprehension- Skimming and Scanning - Transcoding -Bar diagram, Tables and Pie chart –Discussingtopics of general interest or on current topics and making a presentation in the class - Conjunctions and discoursemarkers- cloze reading- affixes – definitions- tense- voice – jumbled sentences.

UNIT II 10 hrs.

Subject verb agreement - Idioms and phrases, reading passages to answer evaluative, inferential and hypotheticaltype of questions- Listening - Creative thinking and speaking- Formal letters - application for job- resume preparation-inviting dignitaries to department workshops, symposium and university functions - Letter to the editor.

UNIT III 10 hrs.

Reading and summarising reports - Writing a project proposal - Editing - Checking punctuation and grammaticalerrors- Types of Sentences – preparation of Check List- formulating questions and answers - communicating politely.

UNIT IV 10 hrs.

Reported speech- Parts of speech- confusable words - Report on industrial visit - project report - Making effectivePower Point presentations - speaking about the future plans-expressing opinions-reading and guessing meanings ofunknown words from the context – using appropriate verb forms

UNIT V 10 hrs.

Modal auxiliaries – Presentation of problems and solutions – wh- questions- question tags- punctuation- hyponymy-listening and taking notes – study skills – preparing notes

TEXT / REFERENCE BOOKS:

1. Aeda Abidi & Ritu Chowdary, “English For Engineers Made Easy”, Cengage India Learning Limited, New Delhi. 2010

2. Geetha Nagaraj, “A Course In Grammar and Composition”, Foundation Books Pvt. Ltd., New Delhi, 2006.

3. Hewings. M, “Advanced English Grammar”, Cambridge University Press, Chennai. 2000.

4. Nagini, P S et al, “Excellence Through communication”, Shri Jai Publications, Chennai, 2005.

5. Raman M & Sangeetha Sharma, “Technical Communication”, Oxford University Press, USA 2005.

6. Reddy Devika and Chowdhary S, “Technical English”, Mac Millan, Chennai. 2009

7. Rizvi, M.A., “Effective Technical Communication”, Tata McGRaw Hill Publishing Company Limited, New Delhi, 2006.

8. Verma. Shivendra K, “Interactive Grammar of Modern English”, Frank Brothers & Company, India, 2000.

UNIVERSITY EXAM QUESTION PAPER PATTERN

Max Marks : 80 Exam Duration : 3 hrs.

Part A: 10 Questions of 2 marks each - No choice 20 marks

Part B: 6 Questions from the five units with internal choice, each carrying 10 marks 60 marks


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SMTX1001ENGINEERING MATHEMATICS – I

(Common to all branches except Bio Groups)

L T P Credits Total Marks

3 1 0 4 100

UNIT I TRIGONOMETRY 10 hrs.

Review of Complex numbers and De Moivre’s Theorem. Expansions of Sinnθ and Cosnθ; Sinθ and Cosθ inpowers of θ, Sin

nθ and Cos

nθ in terms of multiples of θ. Hyperbolic functions – Inverse hyperbolic functions. Separation

into real and imaginary parts of complex functions

UNIT II MATRICES 10 hrs.

Characteristic equation of a square matrix - Eigen values and Eigen vectors of a real matrix- properties of Eigenvalues and Eigen vectors, Cayley-Hamilton theorem (without proof) verification – Finding inverse and power of a matrix.Diagonalisation of a matrix using similarity transformation (concept only) , Orthogonal transformation – Reduction ofquadratic form to canonical form by orthogonal transformation.

UNIT III GEOMETRICAL APPLICATIONS OF DIFFERENTIAL CALCULUS 10 hrs.

Curvature –centre, radius and circle of curvature in Cartesian co-ordinates only – Involutes and evolutes –envelope of family of curves with one and two parameters – properties of envelopes and evolutes – evolutes asenvelope of normal.

UNIT IV FUNCTIONS OF SEVERAL VARIABLES 10 hrs.

Functions of two variables – partial derivatives – Euler’s theorem and problems - Total differential – Taylor’sexpansion – Maxima and minima – Constrained maxima and minima – Lagrange’s multiplier method – Jacobian –Differentiation under integral sign.

UNIT V ORDINARY DIFFERENTIAL EQUATION 10 hrs.

Second order linear differential equation with constant coefficients – Particular Integrals for eax

, sin ax, cos ax,x

n, x

ne

ax, e

axsinbx, e

axcos bx. Equations reducible to Linear equations with constant co-efficient using x=e

t.

Simultaneous first order linear equations with constant coefficients - Method of Variations of Parameters.


1. Veerarajan. T , “Engineering Mathematics for First Year”, Tata McGraw Hill Publishers ,II Edition ,2008.

2 Kandaswamy.P. & co., “Engineering Mathematics for First Year”, S.Chand & Co Pub., IX revised edition, 2010.

3 Moorthy M.B.K, Senthilvadivu. K ,”Engineering Mathematics-I”, VRB Pub., Revised Edition, 2010.

4. Arumugam. S & co. “Engineering Mathematics Vol-I”, SciTech Pub., Revised Edition, 2010.

5. Venkataraman M.K.,”Engineering Mathematics – First Year” (2nd edition), National Publishing Co., 2000.



Part A: 2 Questions from each unit, each carrying 2 marks 20 marks

Part B: 2 Questions from each unit with internal choice, each carrying 12 marks 60 marks



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SPHX1001PHYSICS OF MATERIALS

(Common to all Branches of B.E / B.Tech)


3 0 0 3 100

UNIT I CONDUCTING AND SUPERCONDUCTING MATERIALS 10 hrs.

Classical Free electron theory of Metals-Derivation of Electrical and Thermal Conductivity- Deduction ofWiedemann Franz law-Lorentz number. Introduction to Band theory, Difference between Conductors, Semiconductors

and Insulators - Superconductivity-Transition temperature - occurrence of superconductivity - BCS Theory(Qualitative),properties of superconductors -Type I &Type II superconductors, High Tc superconductors, AC & DC Josephson effects.Applications of superconductors – basic concepts of SQUID, cryotron, magnetic levitation.

UNIT II MAGNETIC AND DIELECTRIC MATERIALS 10 hrs.

Types based on spin. Hard and soft magnetic materials, domain theory of Ferromagnetism, magnetic bubbles,formation and propagation of magnetic bubbles, applications of magnetic materials - Magnetic storage devices. Dielectricparameters, polarization, polarisability, types of polarization. Internal or local electric field - derivation of Lorentz Equationand Clausius - Mossotti Equation, dielectric loss and breakdown, types of dielectric breakdown, types of dielectricmaterials, applications.

UNIT III OPTICAL MATERIALS 10 hrs.

Optical processes and Excitons - types, Traps - Trapping and recombination, types, Point defects –Frenkel andSchottky defects - Colour centers - types and their mechanisms, Luminescence - Photoluminescence - Types-Fluorescence and Phosphorescence- Mechanism and its applications, Cathodoluminescence, Electroluminescence.Non-linear Optical Materials – Basic Principle, Classifications, Properties - Frequency Doubling or Tripling, Optical Mixing- Applications.UNIT IV MODERN ENGINEERING MATERIALS 10 hrs.

Metals and alloys – steel and its properties - Iron-carbon phase diagram, Titanium and Aluminium based alloys- Introduction, properties and Applications. Shape Memory Alloys (SMA) - Principle of shape memory effects, Hysteresiscurve, Two way shape memory alloys, super-elasticity and thermo-mechanical behavior. Characterization methods toidentify the phase transformation of SMA, commercial SMA – Ni-Ti alloys, copper alloys and Cu-Al alloys, Applications.Ceramics – Classification, Properties, fabrication, advanced ceramics and applications. Composites – particle reinforcedcomposites and fiber reinforced composites – processing and applications.

UNIT V CHARACTERIZATION OF MATERIALS 10 hrs.

Structural characterization – X-ray diffraction, electron diffraction and neutron diffraction – Determination of crystalstructure. Difference among these diffraction techniques.Micro structural characterization – optical microscope, scanningelectron microscope, transmission electron microscope, atomic force microscopy, micro and nano hardness testing –principle and applications.

REFERENCE BOOKS :1. Ragavan.V, Material science and Engineerimg, 5 th Edition, Eastern Eco, 2004.

2. Suresh.R and Jayakumar.V, Materials Science, 1st Edition, Lakshmi Publication, 2003.

3. Wilson.J and Hawkes.J.F.B, Optoelectronics- An Introduction, 2nd Edition, Prentice-Hall of India, 2001.

4. Dr.Arumugam M., Semiconductor Physics and Opto electronics, 1 st Edition, Anuradha Publishers, 2003.

5. Gaur.R.K and Gupta.S.L, Engineering Physics, 8th Edition, Dhanbat Rai Publications,2007.

6. Palanisamy.P.K, Engineering Physics, 1st Edition, SCITECH Publications, 2007.

7. Sankar.B.N and Pillai.S.O, A text book of Engineering Physics, 1st Edition, New Age international Publishers, 2007.

8. Rajendran.V, Engineering Physics, 2nd Edition, Tata McGraw-Hill, 2008.

9. Avadhanulu.M.N and P.G. Kshirsagar.P.G, Engineering Physics, 2nd Edition, S. Chand & Company, 2007.

10. Dr. Arumugam M., Engineering Physics, 2nd Edition, Anuradha Publications, 2002.

11. William D.Callister,Jr, Materials Science and Engineering An introduction, 6th Edition, John-Wiley and Sons,2004.

12. Cullity.B.D, Principles of X-ray diffraction, 3rd

Edition, Prentice Hall, 2001


‘Applications’ mentioned in the syllabus refer to the basic applications and not to any specific case.

Max. Marks: 80 Exam Duration: 3 hrs.Part A: 2 Questions from each unit, each carrying 2 marks

Out of 20 marks, maximum of 10% problems may be asked. 20 marksPart B: Questions from each unit with internal choice, each carrying 12 marks Out of 60 marks, maximum of 10% problems may be asked 60 marks



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SCYX1001ENGINEERING CHEMISTRY

(Common to All Branches)


3 0 0 3 100

UNIT I WATER TECHNOLOGY 10 hrs.

Introduction: Impurities present in water, Hardness: Types of hardness, Expression, Units. Estimation of hardness

by EDTA method, Problems. Boiler Troubles: Sludge & Scales, Boiler Corrosion. Water Softening: Zeolite process,

Demineralization process, Merits and Demerits. Reverse osmosis, Merits and Demerits. Domestic water treatment: Flowchart diagram only.

UNIT II BATTERIES AND FUEL CELLS 10 hrs.

Introduction - Battery terminology: Primary cells, Secondary batteries, Charging and Discharging characteristics,

Capacity, Energy density, Cycle life, Internal resistance. Secondary batteries: Lead-acid accumulator, Nickel-cadmiumbatteries , Lithium primary cells: Lithium-thionyl chloride cell, Lithium-iodine cell. Lithium secondary batteries: Lithium-ionbatteries. Fuel cells: Hydrogen-Oxygen fuel cell, Solid oxide fuel cell (SOFC): Principle, construction, anode cathodeand electrolyte. Proton Exchange Membrane Fuel Cell.

UNIT III CORROSION SCIENCE 10 hrs.

Introduction - Electrochemical cell representation. Electrochemical series: Significance. Galvanic series.

Corrosion: Definition of corrosion, Dry corrosion: Mechanism of Dry corrosion, Pilling-Bedworth rule, Wet Corrosion:

Mechanism. Types of corrosion: Galvanic corrosion, Differential aeration corrosion, Pitting corrosion, Microbial Corrosion.Factors influencing corrosion: Nature of the metal, nature of the environment. Corrosion control: Material selection and

Design, Cathodic protection. Corrosion inhibitors: Anodic, cathodic and Vapour phase inhibitors.

UNIT IV EXPLOSIVES AND ROCKET PROPELLANTS 10 hrs.

Introduction - Explosives: Requirements, Classification of Explosives: Low explosives, primary explosives and

high explosives. Assessment of explosives.

Rocket engines: Types of rocket engines. Basic principle, Mass fraction, Specific impulse, Thrust, Effective exhaustvelocity, Specific propellant consumption. Chemical propellants: Requirements, Classification: Liquid fuels, Liquid

oxidizers, Solid fuels, Solid oxidizers.

UNIT V SURFACE CHEMISTRY 10 hrs.

Introduction. Adsorption: Types, Adsorption of gases on solids, Adsorption of solutes from solution. Adsorptionisotherms: Freundlich adsorption isotherm, Langmuir adsorption isotherm. Industrial adsorbent materials: Role ofadsorbents in catalysis and water softening. Emulsion: Types: water/oil, oil/water. Applications of adsorption: Cottrell’s

precipitator, Coating of rubber on metals, Electrostatic painting.

TEXT / REFERENCE BOOKS:1. Jain P.C. and Monica Jain,Engineering Chemistry, 15th Edition Dhanpat Rai Publishing Co. 2009

2. Dara S.S., Text Book of Engineering Chemistry, S.Chand & Co, 2008

3. Sheik Mideen A., Engineering Chemistry (I & II),13th Edition, Shruthi Publishers, 2010

4. Parameswara Murthy C, Agarwal C V, Andra Naidu, Textbook of Engineering Chemistry, B S Publications, 2006

5. Kuriakose J.C. and Rajaram J., Chemistry in Engineering and Technology",. Vol.1 & 2, 5 th reprint, Tata McGraw Hill Publishing

Company (P) Ltd., 2010.

6. Sharma B.K., Engineering Chemistry, 2nd Edition, Krishna Prakasam Media (P) Ltd., 2001

7. Puri Br, Sharma Lr, Madhan S Pathania, Principles of Physical Chemistry, 41

st

Edition, Vishal Publishing Co., 20048. Mars G Fontana, Corrosion Engineering, 3rd Edition, Tata McGraw Hill, 2008

9. David Linden, Thomas B Reddy, Handbook of Batteries, 4th Edition, McGraw-Hill, 2010

10. George Paul Sutton, Oscar Biblarz, Rocket Propulsion Elements, 8th Edition, John Wiley & Sons, 2010

UNIVERSITY EXAM QUESTION PAPER PATTERN:

Max. Marks: 80 Exam Duration: 3 hrs

Part A: 2 Questions from each unit, each carrying 2 marks

Part B: 2 Questions from each unit with internal choice, each carrying 12 marksOne problem for 5 marks may be asked in Unit 1 - Water Technology 60 marks



7/15/2019 EI


SMEX1001ENGINEERING GRAPHICS

(Common to all Branches of B.E / B.Tech)


1 2 0 3 100

UNIT I CONSTRUCTION OF PLANE CURVES 10 hrs.

Introduction - Importance of graphics in engineering applications – Use of drafting instruments – BIS specificationsand conventions – Size, layout and folding of drawing sheets – Lettering and dimensioning- Polygons used in

engineering practice– methods of construction of pentagon and hexagon– Construction of ellipse, parabola andhyperbola.

UNIT II PROJECTION OF POINTS AND LINES 10 hrs.

General principles of orthographic projection – first angle projection – layout of views – projections of points,straight lines located in the first quadrant – Determination of true lengths of lines and their inclinations to the planesof projection – Traces

UNIT III PROJECTION OF SOLIDS AND SECTION OF SOLIDS 10 hrs.

Projection of solids like prism, pyramid, cylinder and cone when the axis is inclined to only one plane of projection – Change of position method only - Sectioning of above mentioned solids in simple vertical positions by cutting planeinclined to one reference plane and perpendicular to the other – True shapes of sections

UNIT IV DEVELOPMENT OF SURFACES AND FREE HAND SKETCHING 10 hrs.

Need for development of surfaces – Development of lateral surfaces of simple and truncated solids – Prisms,pyramids, cylinders and cones.- Pictorial representation of engineering objects – Representation of three dimensional

objects in two dimensional media – Need for multiple views – Developing visualization skills through free hand sketchingof three dimensional objects.

UNIT V ISOMETRIC PROJECTIONS & PERSPECTIVE PROJECTIONS 10 hrs.

Principles of isometric projection – Isometric scale – Isometric projections of simple solids and combination ofsolids - Prisms, pyramids, cylinders, cones and spheres (excluding isometric projections of truncated solids) - Perspectiveprojections - Simple objects like – cube, prisms, pyramids by Vanishing point method & Visual Ray method (excludingperspective projections of truncated solids)

TEXT BOOKS / REFERENCE BOOKS:1. Natarajan, K.V, “ A Textbook of Engineering Graphics”, Dhanalakshmi Publishers, Chennai, 2006 .

2. Venugopal, K. and Prabhu Raja, V., “Engineering Graphics”, New Age International(P) Ltd.,2008.

3. Ramachandran. S, Pandian. K, Ramanamurthy. E.V.V. and Devaraj. R “Engineering Graphics”, AirWalk Publications, Chennai, 2009

4. IS 10711-2001: Technical Products Documentation – Size and Layout of Drawing Sheets

5. IS 9609 (Parts 0 & 1 )-2001: Technical Products Documentation – Lettering

6. IS 10714(Part 20)-2001 & SP 46 -2003: Lines for Technical Drawings

7. IS 11669-1986 & SP 46-2003: Dimensioning of Technical Drawings

8. IS 15021(Parts 1 to 4)-2001: Technical Drawings-Projection Methods


Max. Marks : 80 Exam Duration : 3 hrs.

PART A : 2 Questions from each unit, each carrying 2 marks 20 marks

Part A: equal distribution of questions from each unit.

PART B : 2 Questions from each unit with internal choice, each carrying 12 marks 60 marks

Part B - Split up:

Unit 1: 1 question from construction of hexagon / pentagon / ellipse &

1 question from construction of parabola / hyperbola

Unit 2: 1 question from projection of points & 1 question from projection of lines inclined to both the planes.

Unit 3: 1 question from projection of solids & 1 question from section of solids.

Unit 4: 1 question from development of surfaces & 1 question from orthographic projection.

Unit 5: 1 question from isometric projection & 1 question from perspective projection.



7/15/2019 EI


SPRX1001

BASIC MECHANICAL AND CIVIL ENGINEERING

(Common to MECH, MECH & PROD, AUTO, CHEM, ECE, EEE,

EIE, E&C & ETCE)


3 0 0 3 100

BASIC MECHANICAL ENGINEERING

UNIT I ENERGY SOURCES AND ENERGY CONVERSION 8 hrs.

Alternate sources of energy - solar, wind, wave, tidal and geo-thermal.

Boilers: Classification and principles of modern high pressure steam generators -Layout and working principlesof hydraulic (hydel), steam, gas turbine, diesel and nuclear power plants.

UNIT II INTERNAL COMBUSTION ENGINES 8 hrs.

Working principle of petrol and diesel engines - Two stroke and four stroke engines - Ignition systems -single jet carburetor-spark plug-cooling systems- lubrication systems - fuel pump and fuel injector.

UNIT III MANUFACTURING PROCESSES 9 hrs.

Foundry process and technology: Foundry tools, pattern, moulding process.

Metal forming processes: Principles of forging, rolling, drawing and extrusion.

Metal joining process: Principles of welding - fundamentals of arc welding, gas welding and gas cutting - brazingand soldering.

Metal machining process: Lathe -Specifications - Main components and their functions-Lathe operations.

Machining Concept - Drilling, Milling, Turning, Grinding and surface Finishing.

BASIC CIVIL ENGINEERING

UNIT I BUILDING MATERIALS AND STRUCTURES 8 hrs.

Construction materials - Physical and Mechanical properties - stone, brick, cement, concrete, bitumen, insulationmaterials & steel. Buildings - various components and their functions. Foundation - functions - classification andsuitability. Flooring - function - types - cement concrete, tile, marble and granite flooring. Masonry - Stone and Brickmasonry and construction details. Roof - Types - Flat & sloped RCC roof. Introduction to seismic resistant structures.

UNIT II GENERAL PROPERTIES OF MATERIALS AND BUILDING VALUATION 8 hrs.

Stress, strain & modulus of elasticity. Simple maintenance methodologies, Valuation - plinth area method -depreciation rate method. Land development process - Set backs, Authorities involved. Basics of interior design andlandscaping. Introduction to Orientation of the building & Energy efficient buildings.

UNIT III TRANSPORTATION AND SURVEYING 9 hrs.

Importance of Transport - Roads - Classification of roads - Traffic signs & signals - Surveying - Classificationand principles - Applications of Theodolite and Total Station - Measurements of distances - angle - Computation ofareas - Trapezoidal and Simpson’s rule.

TEXT / REFERENCE BOOKS1. Ramamrutham S, "Basic Civil Engineering", Dhanpat Rai Publishing Co. (P) Ltd. 1999

2. Shanmugam G and Palanichamy M S,"Basic Civil and Mechanical Engineering", Tata Mc Graw Hill Publishing Co., New Delhi, 2009.

3. Ramesh Babu.V, Text book on Basic Civil & Mechanical Engineering ,VRP publication,2009.

4. Helen Shanthi., Ramachandran. S and Premkumar, Basic Civil and Mechanical Engineering, Air Walk Publications, Chennai, 2009.

5. Natarajan K.V., Basic Civil Engineering

6. Palanichamy M S,"Basic Civil and Mechanical Engineering", Tata Mc Graw Hill Publishing Co., New Delhi, 3 rd Edition Reprint 2009.

7. Venugopal.K, Basic Mechanical engineering , Anuradha Publications, Kumbakonam

8. Palani Kumar. K,Basic Mechanical engineering , AirWalk Publications, Chennai-4

9. VenuGopal K. and Prabhu Raja V.,"Basic Civil and Mechanical Engineering", 3 rd Edition, Anuradha Publications, 2010.

UNIVERSITY EXAM QUESTION PAPER PATTERNMax.Marks: 80 Exam Duration : 3 hrs.

Basic Mechanical

Part A: 5 questions of 2 marks each - no Choice 10 marksPart B: 3 questions from each of the three units of internal choice, each carrying 10 marks 30 marks

Basic Civil

Part A: 5 questions of 2 marks each - no Choice 10 marksPart B: 3 questions from each of the three units of internal choice, each carrying 10 marks. 30 marks



7/15/2019 EI


SEEX1001BASIC ELECTRICAL ENGINEERING

(Common to EEE, ECE, EIE, ETCE & E&C)


2 1 0 3 100

UNIT I D.C. CIRCUITS 12 hrs.

Electrical quantities, Ohm’s Law, Resistors - Series and parallel combinations, Kirchoff’s laws, Node and MeshAnalysis, Star delta Transformation

UNIT II MAGNETIC CIRCUITS 10 hrs.

Definition of MMF, Flux and reluctance - Leakage factor - Reluctances in series and parallel (series and parallelmagnetic circuits) - Electromagnetic induction - Fleming’s rule - Lenz’s law - Faraday’s laws - statically and dynamicallyinduced EMF - Self and mutual inductance - Analogy of electric and magnetic circuits.

UNIT III A.C.CIRCUITS 12 hrs.

Sinusoidal functions - RMS(effective) and Average values - Phasor representation - J operator - sinusoidalexcitation applied to purely resistive - inductive and capacitive circuits - RL - RC and RLC series and parallel circuits

- power and power factor -Three phase circuits - Star / Mesh connections with balanced loads - measurement ofpower by two wattmeter method.

UNIT IV MEASURING INSTRUMENTS 8 hrs.

Classification, essentials of indicating instruments, Moving coil and moving iron instruments - Voltmeter, Ammeter,Wattmeter - Principle and theory of operation - Induction type energy meter - Earth Megger.

UNIT V ELECTRIC WIRING AND GENERAL CONCEPTS OF POWER SYSTEM 8 hrs.

Domestic Wiring - Materials and accessories - Types of wiring - Stair case wiring, Fluorescent tube circuit -Earthing - Indian Electricity rules for wiring - Simple domestic wiring layout - Single line diagram of Transmission andDistribution Systems - Do’s and Don’ts of electrical safety.

TEXT BOOKS:

1. Mittle B.N., Aravind Mittle, "Basic Electrical Engineering", Tata McGraw Hill", 2nd Edition Sep 2005.

2. Theraja B.L., "Fundamentals of Electrical Engineering and Electronics", S.Chand & Co., First Multi colour Edition, 2006, (Reprint 2009).

REFERENCE BOOKS:

1. Smarajit Ghosh, "Fundamentals of Electrical and Electronics Engineering", PHI Learning Private Ltd, 2nd Edition, 2010.

2. Wadhwa C.L., "Basic Electrical Engineering", New Age International, 4th Edition, 2007, Reprint June 2010.

3. Abhijit Chakrabarti, Sudipta nath & Chandan Kumar Chanda, "Basic Electrical Engineering", Tata McGraw Hill, 1st Edition, 2009.

4. Thyagarajan T., "Fundamentals of Electrical and Electronics Engineering", Sci Tech Publications, 5th Edition, Reprint Jan 2010.

5. TNEB Power Engineers Hand Book.


Max. Marks: 80 Exam Duration : 3 hrs.



(Distribution may be 60% Theory & 40 % Numerical)



7/15/2019 EI


SPHX4001 PHYSICS LAB - IL T P Credits Total Marks

0 0 2 1 50

LIST OF EXPERIMENTS1. Torsional pendulum- Determination of MI of the disc and rigidity modulus of the wire.

2. Quincke’s method - Determination of magnetic susceptibility of a liquid

3. Semiconductor diode - Determination of width of the forbidden energy gap

4. Ultrasonic interferometer – Determination of Compressibility of liquid

5. Lees disc - Determination of thermal conductivity of a bad conductor.

6. Optical Fiber – Determination of Numerical aperture and attenuation loss.

SCYX4001 CHEMISTRY LAB - IL T P Credits Total Marks

0 0 2 1 50

LIST OF EXPERIMENTS1. Determination of total, permanent and temporary hardness of a water sample.

2. Estimation of copper in an ore by iodometric titration.

3. Determination of strength of HCl by conductometric titration.4. Estimation of the amount of ferrous ion by titrating with chromate ion using potentiometer.

5. Verification of the Freundlich isotherm by using acetic acid adsorption on charcoal.

6. Determination of the rate of corrosion of iron metal by hydrogen evolution method.

SPRX4001 MECHANICAL WORKSHOP LABL T P Credits Total Marks

0 0 4 2 100

LIST OF EXPERIMENTS

CARPENTRY

Handling of carpentry tools, A practice in marking, sawing planning and chiseling to size. Making simple joints

such as half-lap, dove-tail and mortise and tenon joints.

Use of modern materials such as plywood, chip board, novapan, laminated sheet (demonstration only).

FITTING

Use of fitting tools-practice in marketing, fitting to size and drilling-making of simple mating and profiles suchas V, Square, Dove-tail, Half-round joints.

WELDING

i. Electric Arc Welding

a) Study on Edge preparation techniques for Arc weldingb) List of Welding Exercises

1. Lap Joint 2. Butt Joint 3. Fillet Joint 4. Tee Joint 5. V Joint 6. Corner Joint

ii. Study on gas welding and gas cutting

iii. Study on TIG & MIG welding

FOUNDRY

i. Sand testing - Grain fineness - Permeability test.

ii. Study on Pattern Allowances

iii. Preparation of green sand moulding1. Flanges 2. Glands 3. Bush 4. Dumbbell

iv. Metal casting technique (Demonstration only)



7/15/2019 EI


SCHX1001ENVIRONMENTAL SCIENCE AND ENGINEERING



3 0 0 3 100

UNIT I INTRODUCTION TO ENVIRONMENTAL STUDIES AND NATURAL RESOURCES 12 hrs.

Definition, scope and importance - need for public awareness - forest resources: use and over-exploitation,deforestation, case studies. Timber extraction, mining, dams, floods, drought, conflicts over water, dams-benefits and

problems - mineral resources: use effects on forests and tribal people - water resources: use and over-utilization ofsurface and ground water - exploitation, environmental effects of extracting and using mineral resources, case studies- food resources: world food problems, changes caused by agriculture and overgrazing, effects of modern agriculture,fertilizer-pesticide problems, water logging, salinity, case studies - energy resources: growing energy needs, renewableand non renewable energy sources, use of alternate energy sources. Case studies - land resources: land as a resource,land degradation, man induced landslides, soil erosion and desertification - role of an individual in conservation ofnatural resources - equitable use of resources for sustainable lifestyles.

UNIT II ECOSYSTEMS AND BIODIVERSITY 12 hrs.

Concept of an ecosystem - structure and function of an ecosystem - producers, consumers and decomposers- energy flow in the ecosystem - ecological succession - food chains, food webs and ecological pyramids - introduction,types, characteristic features, structure and function of the (a) forest ecosystem (b) grassland ecosystem (c) desertecosystem (d) aquatic ecosystems (ponds, streams, lakes, rivers, oceans, estuaries) - introduction to biodiversity -definition: genetic, species and ecosystem diversity - biogeographical classification of India - value of biodiversity:consumptive use, productive use, social, ethical, aesthetic and option values - biodiversity at global, national and local

levels - India as a mega-diversity nation - hot-spots of biodiversity - threats to biodiversity: habitat loss, poaching ofwildlife, man-wildlife conflicts - endangered and endemic species of India - conservation of biodiversity: in-situ andex-situ conservation of biodiversity.

UNIT III ENVIRONMENTAL POLLUTION 10 hrs.

Definition - causes, effects and control measures of: (a) air pollution (b) water pollution (c) soil pollution (d)marine pollution (e) noise pollution (f) thermal pollution (g) nuclear hazards - solid waste management: causes, effectsand control measures of urban and industrial wastes - role of an individual in prevention of pollution - pollution casestudies - disaster management: floods, earthquake, cyclone and landslides.

UNIT IV SOCIAL ISSUES AND THE ENVIRONMENT 8 hrs.

From unsustainable to sustainable development - urban problems related to energy - water conservation, rainwater harvesting, watershed management - resettlement and rehabilitation of people; its problems and concerns, casestudies - environmental ethics: issues and possible solutions - climate change, global warming, acid rain, ozone layerdepletion, nuclear accidents and holocaust, case studies. - wasteland reclamation - consumerism and waste products- environment protection act - air (prevention and control of pollution) act - water (prevention and control of pollution)act - wildlife protection act - forest conservation act - issues involved in enforcement of environmental legislation -public awareness.

UNIT V HUMAN POPULATION AND THE ENVIRONMENT 8 hrs.

Population growth, variation among nations - population explosion - family welfare programme - environmentand human health - human rights - value education - HIV / AIDS - women and child welfare - role of informationtechnology in environment and human health - case studies.

Visit to a local area to document environmental assets-river/forest/grassland/hill/mountain. Visit to a local pollutedsite-urban/rural/ industrial/agricultural-study of common plants, insects, birds-study of simple ecosystems-pond, river, hillslopes etc.

TEXTBOOK / REFERENCE BOOKS:1. Meenakshi.P, Elements of Environmental Science and Engineering, 1st Edition, PHI New Delhi, 2009.

2. Ravikrishnan. A, Environmental Science & Engineering, 3rd Edition, Sri Krishna Publications, Chennai.

3. Wrigh.R.T & Nebel B.J, Environmental Science-towards a Sustainable Future by Richard 8th Edition, Prentice Hall of India, New Delhi4. Erach Bharucha ,Text Book of Environmental Studies, University Press, Chennai.

5. Anjanayelu.Y, Introduction to Environmental Engineering, B.S.Publications.


Max. Marks: 80 Exam Duration: 3 hrs.





7/15/2019 EI


SMTX1002ENGINEERING MATHEMATICS II

(Common to all branches Except BIO Groups)


3 1 0 4 100

UNIT I THEORY OF EQUATIONS 10 hrs.

Relation between roots and Co-efficient of equations – Symmetry function of roots – Formation of equations –To increase or decrease the roots of a given equation by a given quantity – Reciprocal equations – Descartes rule

of signs – Cardon’s method of solving cubic equations.

UNIT II THREE DIMENSIONAL ANALYTICAL GEOMETRY 10 hrs.

Direction cosines and ratios – The equation of a plane – Equation to a straight line – Shortest distance betweentwo skew lines –Coplanar lines – Sphere – Tangent line – Plane section of a sphere – Orthogonal spheres.

UNIT III INTEGRAL CALCULUS 10 hrs.

Double integrals – Change of order of integration – Change of Variables from Cartesian to Polar coordinates – Area - using double integral - Triple integrals - Volume using Triple integrals.

UNIT IV BETA AND GAMMA FUNCTIONS 10 hrs.

Properties of definite Integrals – Related definite Integrals – Reduction formulae for eax

, xn

sinax, xn

cos ax,

sinnx, cos

nx and sin

mx cos

nx. Definitions of Beta and Gamma integrals – Relation between them – Properties –

Evaluation of definite integrals in terms of Beta and Gamma function – Simple applications.

UNIT V VECTOR CALCULUS 10 hrs.

Differentiation of a vector function – Gradient, divergence and curl – Directional derivative – Identities (withoutproof) - Irrotational and Solenoidal fields, Vector Integration – Line, Surface and Volume Integrals, Integral theorems

(without proof), Green’s theorem (in the plane), Gauss divergence theorem and Stoke’s theorem – Simple applicationsinvolving rectangles and cuboids.


1. Veerarajan.T, “Engineering Mathematics for First Year”, 2nd

Edition , Tata McGrawHill Publications ,2008

2. Kandaswamy. P & co., “Engineering Mathematics for First Year”, 9th

revised Edition, S.Chand & Co Pub., 2010

3. Arumugam.S & co, “Engineering Mathematics Vol-II”, Revised Edition, SciTech Pub., 2010

4. Grewal. B.S, “Higher Engineering Mathematics”, 40th

Edition, Khanna Publications, 2007

5. Chandrika Prasad, “Text book on Algebra and theory of equations”, Pothishala Private Ltd., Allahabad, 2009







7/15/2019 EI


SPHX1002APPLIED PHYSICS

(Common For All Branches)


3 0 0 3 100

UNIT I FIBER OPTICS 10 hrs.

Introduction - Principle and structure of optical fibers-Acceptance angle-Numerical aperture-Types of opticalfibers-Preparation of fiber – Double crucible technique-Types of rays-Theory of propagation of light-Energy loss in

optical fiber- Attenuation and distortion-Fiber splicing – Fusion and mechanical splicing-Fiber connectors -Butt joint andexpanded beam connectors-Optical fiber communication system (block diagram) - Advantages and its applications.

UNIT II ACOUSTICS OF BUILDINGS 10 hrs.

Introduction – Musical sound & noise-Characteristics of musical sound : pitch, loudness, quality – Weber-Fechnerlaw-Relation between pitch & frequency-Factors on which intensity & loudness depend-Decibel scale-Sound intensitylevel and sound pressure level-Sound absorption-OWU-Sound absorption coefficient and its measurements –Reverberation - Reverberation time – Standard Reverberation time – Sabine’s formula to determine the Reverberationtime (Jaegar method)- Factors affecting the acoustics of a building and the remedies-Principles to be followed in theacoustical design of a good auditorium.

UNIT III FUNDAMENTALS OF DIGITAL ELECTRONICS 10 hrs.

Number systems - Binary, decimal, Hexadecimal and Octadecimal-Conversion from one number system toanother-Binary addition-Subtraction - Subtraction by 1’s & 2’s complement- BCD-ASCII-Excess 3 code and gray code.

UNIT IV NANO DEVICES 10 hrs.Definition-Fabrication-Top down approach and bottom up approach-Nanomagnets – Particulate Nanomagnets,

Geometrical Nanomagnets-Magneto Resistance – Ordinary Magneto Resistance, Giant Magneto Resistance, TunnelingMagneto Resistance- Probing Nanomagnetic Materials-Nanomagnetism in Technology-Nano Devices – Injection Laser – Quantum Cascade Laser – Optical Memories and Coulomb Blockade Devices

UNIT V MEDICAL PHYSICS 10 hrs.

Ultrasonics –Introduction- Production of ultrasonic waves - Piezo-electric method-properties-Doppler effect - Bloodflow meter – Determination of upward and downward transit time- A- scan, B-scan and M-scan-X-rays –Introduction-Units of X-rays- Diagnostic technologies of X-rays – Radiography-Fluoroscopy-Image intensifier-Nuclear

medicine – Introduction-units of radioactivity, m 99

Tc generator, nuclear medicine imaging devices - Gamma camera.

REFERENCE BOOKS :

1. Mathur.D.S, Heat and Thermodynamics, 5th Edition, Sultan Chand & Sons, 2004.

2. Gerd Keiser, Optical fiber communication, 3rd Edition, Tata Mc Graw Hill, 2000.3. John M. Senior, Optical fiber communications - Principle and Practice, 2 nd Edition, Pearson Education, 2006.

4. Franz J.H, Jain V.K, Optical communication – Components and Systems, 1 st Edition, Narosa Publications, 2001.

5. Malvino,Leach & Gautam Saha, Digital Principles and applications, 6 th Edition, McGraw Hill, 2006.

6. William H. Gothman, Digital electronics – An Introduction to theory and practice, 2 nd Edition, PHI of India, 2007.

7. Roy, Medical Bio Physics, 1st Edition, Saras Publications, 2001.

8. Vasantha Pattabhi, Bio Physics, 1st Edition, Narosa, 2004.

9. Gaur. R.K. and Gupta. S.L., Engineering Physics, 8th Edition, Dhanbat Rai Publications,2007.

10. Avadhanulu. M.N. and. Kshirsagar. P.G, Engineering Physics, 2nd Edition, S. Chand & Company, 2007.

11. Dr. Arumugam M., Engineering Physics, 2nd Edition, Anuradha Publications, 2002.

12. William D.Callister, Jr, Materials Science and Engineering An introduction, 6 th Edition, John-Wiley and Sons, 2004.

UNIVERSITY EXAM QUESTION PAPER PATTERNMax. Marks: 80 Exam Duration: 3 hrs.


Out of 20 marks, maximum of 10% problems may be asked.


Out of 60 marks, maximum of 10% problems may be asked

‘Applications’ mentioned in the syllabus refer to the basic applications and not to any specific case



7/15/2019 EI


SCYX1002CHEMISTRY OF ELECTRONIC MATERIALS

(Common to CSE, IT, EEE, ECE, ETCE, EIE & E&C)


3 0 0 3 100

UNIT I POLYMER MATERIALS 10 hrs.

Introduction - Functionality of monomer and its significance. Types of Polymerisation: Addition, Condensationand Copolymerisation. Plastics: Thermoplastics, Thermosetting plastics. Moulding constituents of plastics. Mouldingmethods: Compression moulding, Injection moulding, Extrusion moulding. Conducting polymers: definition, Exampleswith applications of Polyacetylene and Polyaniline. Optical fibers: Definition, Principle.Plastic optical fibers: Polymethyl

methacrylate, Perfluorinated polymers. Biodegradable polymers: Definition, Classification and application.

UNIT II INTRODUCTION TO NANOMATERIALS 10 hrs.

Introduction - Nanomaterials: definition, properties. Types: Nanoparticles, Synthesis by Chemical reduction method.

Nanoporous materials: Synthesis by Sol-gel method. Nanowires: Synthesis by VLS mechanism. Carbon Nanotubes:Singlewalled and multiwalled nanotubes. Mechanical and electrical properties .Applications. Synthesis: Electric arc

discharge method , Physical Vapour Deposition (PVD), Chemical Vapour Deposition (CVD), Laser Ablation method.

UNIT III INSTRUMENTAL METHODS OF ANALYSIS 10 hrs.

Beer - Lambert’s law. Spectrophotometer: Principles, Instrumentation (block diagram only). DSC, X - ray

Diffractometer, TGA, DTA, SEM: Principle, block diagram and applications. Sensors: Oxygen sensor and Glucose sensor.UNIT IV MAGNETIC AND INSULATING MATERIALS 10 hrs.

Magnetic materials: Introduction. Types: Ferro magnetic, Ferri magnetic, Antiferro magnetic, Para and diamagneticmaterials with examples. Magnetically soft and hard materials.

Insulating materials: Classification: Heat Insulating materials, Characteristics. Types: Organic and inorganic

insulators. Sound Insulating materials: Characteristics, Types: Soft, Semi-hard and Hard materials. Electrical Insulatingmaterials (dielectrics): Characteristics, Types: Solid, Liquid and Gaseous materials.

UNIT V ELECTRICAL AND ELECTRONIC MATERIALS 10 hrs.

Electrical Materials: Resistivity, heating elements with examples(Nichrome, Molybdenum siliside)

Electronic Materials: Types of Semiconductors: Intrinsic and Extrinsic Types, Non-Elemental semi-conducting

materials. Preparation of Pure Ge/ Si: Distillation, Zone Refining, Czochralski Crystal Pulling Technique, DopingTechniques, Epitaxy, Diffusion and Ion- Implantation Techniques. Applications.


1. Jain P.C. and Monica Jain,Engineering Chemistry, 15th Edition, Dhanpat Rai Publishing Co. 2009

2. Parameswara Murthy C, Agarwal C V, Andra Naidu, Textbook of Engineering Chemistry, B S Publications, 2006

3. Charles P.Poole Jr, and Frank J Owens, Introduction to Nanotechnology, John Wiley and Sons 2006.

4. Sheik Mideen A., Engineering Chemistry (I & II), 13th Edition, Shruthi Publishers, 2010

5. Dara S.S., Text Book of Engineering Chemistry, Reprint, S.Chand & Co, 2009

6. Kuriakose J.C. and Rajaram J., Chemistry in Engineering and Technology",. Vol.1 & 2, 5th Reprint, Tata McGraw Hill Publishing

Company (P) Ltd., 2010

7. Rajput R.K., Textbook of Engineering Materials, 2nd Edition (revised), S. Chand & Co 2004

8. Skoog, Holler and Nieman, Principles of Instrumental Analysis, 5th Edition, Thomas Inc., 2003.

9. Willard Merit Dean Settle, Instrumental Methods of Analysis, Seventh Edition, CBS Publishers and Distributors







7/15/2019 EI


SECX1001ELECTRONIC DEVICES

(Common to EEE, ECE, E&C, EIE, ETCE & BIO-MED)


3 0 0 3 100

UNIT I SEMICONDUCTOR DIODE 10 hrs.

Intrinsic and Extrinsic semiconductor - Charge density, Mobility and Conductivity in Semiconductor, Drift and

diffusion current, Continuity equation, Hall effect - PN junction - Energy band diagram of PN junction, Currentcomponents in PN junction, Junction capacitance - Application of diode - Diode switch, Clipper, Clamper and Voltagemultipliers - Zener diode - Zener voltage regulators.

UNIT II BIPOLAR JUNCTION TRANSISTOR 10 hrs.

Construction and Operation of NPN and PNP transistor - Current components in a transistor, Eber moll’s Equation-Characteristics of CE,CB,CC configuration - Base width modulation, Transistor breakdown, Transistor biasing - Bias

Stabilization and Compensation, Thermal runway problems, Heat sinks, Switching characteristics.

UNIT III FIELD EFFECT TRANSISTOR 10 hrs.

JFET- Construction, Operation and Characteristics, Expression for pinch off voltage and drain current - MOSFET- Enhancement and Depletion mode operation and characteristics, Handling precautions of MOSFET, Gate capacitance

- FET as VVR - Comparison of MOSFET and JFET - Comparison of BJT and JFET.

UNIT IV SPECIAL SEMICONDUCTOR DEVICES 10 hrs.

SCR- UJT- Diac- Triac - Varactor diode - PIN diode - Tunnel diode - Gunn diode - Principle of photo electronic

devices - Solar cell, Photo diode and Photo transistor - LED, LCD, LASER diode, CCD - Operation, Characteristicsand Applications.

UNIT V PRINCIPLES OF CRT 10 hrs.

Force on charged particle in electric field and magnetic field - Motion of charged particle in electric and magnetic

field - Principles of CRT - Deflection and focusing of electron beam in CRT and TV picture tube-Orientation of electricand magnetic field in CRT - Applications of CRO.

TEXT BOOKS:

1. Millman and Halkias, Electronic devices and circuits, 2nd

Edition, McGraw Hill Publication, 2007.

2. G.K.Mithal, Basic Electronic Devices and circuits, 2nd

Edition, G.K.Publishers Pvt. Ltd., 1998.

REFERENCE BOOKS:

1. David Bell,Fundamentals of Electronic Devices and Circuits, 5th

Edition, Oxford University Press 2008.

2. Robert L. Boylestad, Electronic Devices and Circuit Theory, 6th

Edition, PHI, 1998.

3. Ben G Streetman and Sanjay Banerjee, Solid State Electronic Devices, 6th

Edition, Pearson Education, 2005.

4. Roody and Coolen, Electronic Communications, 4

th

Edition, Pearson Education, Reprint 2007.


Max Marks : 80 Exam Duration : 3 hrs





7/15/2019 EI


SEEX1004ELECTRICAL TECHNOLOGY

(Common to ECE, E&C , EIE, ETCE, MECH & M&P)


2 1 0 3 100

UNIT I DC GENERATORS 11 hrs.

Construction- Principle of operation - EMF equation types - performance characteristics- losses in dc generator

- calculation of efficiency - Applications.

UNIT II DC MOTORS 10 hrs.

Construction - Principle of operation - Significance of Back EMF - Types - Performance characteristics - TorqueEquation - Losses in dc motors - Calculation of efficiency - Starters - Necessity and their types - Speed control ofvarious types of DC motors - Applications.

UNIT III TRANSFORMERS 11 hrs.

Constructional details and principle of operation of single phase transformer - EMF equation - Phasor diagramon no load and loaded transformer - Equivalent circuit - Open circuit and Short circuit test on transformer - Regulationand Efficiency - All day efficiency - Auto transformer.

UNIT IV INDUCTION MOTORS (Qualitative treatment only) 10 hrs.

Constructional details of three phase induction motor - Slip ring and squirrel cage rotor- principle of operation-Torque equation - torque / slip characteristics - starters-Applications

Introduction to single phase Induction motors - Capacitor start capacitor run motor -Shaded pole motor.

UNIT V SYNCHRONOUS MACHINES AND SPECIAL MACHINES (Qualitative treatment only) 8 hrs.

Constructional features of Alternator - principle of operation - EMF equation - Regulation - Regulation by

synchronous impedance method - Application, Constructional features of synchronous motor - principle of operation -V and "inverter V" curves, starting and hunting - Applications.

Special Machines: Stepper motor, AC and DC servomotor - Construction, working and applications.

TEXT BOOKS:

1.B.L.Theraja & A.K.Theraja, "A Text Book of Electrical Technology, Vol II", S.Chand & Company Ltd., 2009.

2.J.B. Gupta, " Theory and Performance of Electrical Machines", S.K.Kataria & Sons, 4th Edition, 2006

REFERENCE BOOKS:

1.R.K. Rajput, "Electrical Engineering", Lakshmi Publications Pvt Limited, 4th Edition, 2008

2.S.K.Bhattacharya, "Electrical Machines", Tata Mc Graw Hill Company Ltd, 3rd Edition, 2008.

3.D.P.Kothari & I.J.Nagrath, "Electrical Machines", Tata Mc Graw Hill Company Ltd, 3rd Edition, 2004, 12th Reprint.





(Distribution may be 80% Theory & 20 % Numericals)



7/15/2019 EI


SCSX1002PROGRAMMING IN C

(Common to all Branches of B.E / B.Tech.)


3 0 0 3 100

UNIT I INTRODUCTION 10 hrs.

Introduction: Algorithms & flowcharts-Overview of C-Features of C-IDE of C Structure of C program-Compilation& execution of C program-Identifiers, variables, expression, keywords, data types, constants, scope and life of variables,

local and global variables. Operators: arithmetic, logical, relational, conditional and bitwise operators- Special operators:size of () & comma (,) operator-Precedence and associativity of operators & Type conversion in expressions.

Basic input/output and library functions: Single character input/output i.e. getch(), getchar(), getche() &putchar()-Formatted input/output: printf() and scanf()-Library Functions: concepts, mathematical and character functions.

UNIT II CONTROL STRUCTURES AND FUNCTIONS 10 hrs.

Control structures: Conditional control-Loop control and Unconditional control structures.

Functions: The Need of a function-User defined and library function- Prototype of a function-Calling of afunction-Function argument-Passing arguments to function- Return values-Nesting of function- main()-Command linearguments and recursion. Storage class specifier – auto, extern, static, & register.

UNIT III ARRAYS AND STRUCTURES 10 hrs.

Arrays: Single and multidimensional arrays-Array declaration and initialization of arrays-Array as functionarguments.

Strings: Declaration-Initialization and string handling functions.

Structure and Union: Defining structure-Declaration of structure variable-Accessing structure members-Nestedstructures-Array of structures-Structure assignment-Structure as function argument-Function that returns structure- Union.

UNIT IV POINTERS 10 hrs.

Pointers: The ‘&’ and ‘* ’ operators-Pointers expressions-Pointers vs arrays-Pointer to functions-Function returningpointers-Static and dynamic memory allocation in C.

DMA functions: malloc(), calloc(), sizeof(), free() and realloc()-Preprocessor directives.

UNIT V FILE MANAGEMENT AND GRAPHICS 10 hrs.

File management: Defining, opening & closing a file, text file and binary file- Functions for file handling: fopen,fclose, gets, puts,fprint, fscanf, getw, putw, fputs, fgets, fread, fwrite-Random access to files: fseek, ftell, rewind-Filename as Command Line Argument.

Graphics in PC-Initialize Graphics Mode-Functions used In Graphics - Drawing a Point on the Screen-Drawinglines, rectangles, ovals, circles, arcs, polygon, filling colors-Using Text in Graphics Display.

REFERENCE BOOKS:

1. Balaguruswami.E, ‘Programming in C’, TMH Publications,1997

2. Behrouz A. Forouzan & Richard F. Gilberg, “Computer Science A Structured Programming using C”, Cengage Learning, 3rd Edition, 2007

3. Gottfried , ‘Programming with C’, schaums outline series, TMH publications,1997

4. Mahapatra , ‘Thinking in C’, PHI publications, 2nd Edition.

5. Stevens , ‘Graphics programming in C’, BPB publication,2006

6. Subbura.R , ‘Programming in C’, Vikas publishing, 1 st Edition, 2000







7/15/2019 EI


SCSX4002 PROGRAMMING IN C LABL T P Credits Total Marks

0 0 4 2 100

1. To write a simple menu driven calculator program using switch statement.

2. To write a program to calculate the nCr using functions.

3. To write a program to find the largest and smallest number using arrays.

4. To write a program to generate Fibonacci series.

5. To write a program to find the factorial of a number using recursion.

6. To write a program to print the sum of elements of an array using pointers.

7. To write a program to implement file handling

8. To write a program to perform matrix addition and multiplication.

9. To write a program to check for perfect number.

10. To write a program to implement string manipulation functions without using library functions.

11. To write a program to perform ASCII equivalent keystrokes.

12. To write a program to solve a polynomial equation.

SEEX4001 ELECTRICAL ENGINEERING LABL T P Credits Total Marks

0 0 4 2 100

LIST OF EXPERIMENTS1. Open circuit characteristics of separately excited dc shunt generator.

2. Load characteristics of self excited dc shunt generator

3. Load characteristics of dc Compound generator

4. Load characteristics of dc shunt motor

5. Speed control of dc shunt motor.

6. Load characteristics of dc series motor

7. Open circuit and short circuit test on single phase transformer.

8. Load test on single phase transformer

9. Brake load test on three phase squirrel cage induction motor10. Regulation of alternator by EMF method.

11. Measurement of 3 phase power by two wattmeter method

12. Wiring circuits for

A. Calling bell

B. Stair case

C. Fluorescent lamp



7/15/2019 EI


SMTX1009ENGINEERING MATHEMATICS III

(Common to All Branches Except Bioinformatics)


3 1 0 4 100

UNIT I LAPLACE TRANSFORM 10 hrs.

Transforms of simple functions – properties of transforms – Transforms of derivatives and Integrals – Periodic

functions – Inverse transforms – Convolution theorems – Initial and final value theorems

UNIT II APPLICATIONS OF LAPLACE TRANSFORM 10 hrs.

Application of Laplace Transforms for solving : linear ordinary differential equations – simultaneous differentialequations – integral equations.

UNIT III COMPLEX VARIABLES 10 hrs.

Analytic functions – Cauchy – Riemann equations in Cartesian and Polar form – properties of analytic functions – construction of analytic functions – conformal mapping – standard types – bilinear transformations.

UNIT IV COMPLEX INTEGRATION 10 hrs.

Cauchy’s integral theorem – integral formula – Taylor’s and Laurent’s series (without proof) – Residues – Cauchy’sresidue theorem – Contour integration and the circle and semi circular contours.

UNIT V THEORY OF SAMPLING AND TEST OF HYPOTHESIS 10 hrs.

Test of Hypothesis – Large sample – test of significance – single proportion - difference of proportions – Singlemean - difference of means. Small sample – students ‘t’ test – single mean – difference of means – Fisher’s test –difference of variance, Exact sample – Chi square test – goodness of fit – independence of attributes.


1. Kandasamy, P., Thilagavathy, K., and Gunavathy, K., “Engineering Mathematics”, Volumes II & III (4th Revised Edition), S. Chand

& Co., New Delhi, 2001.

2. Venkataraman, M.K. “Engineering Mathematics” Volumes III - A & B, 13th Edition National Publishing Company, Chennai, 1998.

3. Veerarajan, T., “Engineering Mathematics”, Tata McGraw Hill Publishing Co., NewDelhi, 1999.

4. Grewal, B.S., “Higher Engineering Mathematics” (35th Edition), Khanna Publishers, Delhi, 2000.

5. Kreyszig, E., “Advanced Engineering Mathematics” (8th Edition), John Wiley and Sons (Asia) Pvt. Ltd., Singapore, 2001.







7/15/2019 EI


SCSX1014OBJECT ORIENTED PROGRAMMING

(Common to EEE, ETCE, ECE, CHEM, EIE & E&C)


3 0 0 3 100

UNIT I INTRODUCTION TO FUNDAMENTAL CONCEPTS 10 hrs.

Object oriented fundamentals, Structured verses Object oriented development, elements of object orientedprogramming, fundamentals of OOP – class, object, and abstraction and its importance, encapsulation, polymorphism,

benefits of OOP, structure of C++ program.

UNIT II CLASSES AND OBJECTS 10 hrs.

Working with classes – classes and objects – class specification, class objects, accessing class members, definingmember functions, inline functions, accessing member functions within class, data hiding, class member accessibility,

empty classes, constructors, parameterized constructors, constructor overloading, copy constructors, new, deleteoperators, “this” pointer, friend classes and friend functions.

UNIT III OVERLOADING 10 hrs.

Function overloading, operator overloading, overload able operators, unary operator overloading, operator keyword,

limitations of increment/ decrement operators, binary operator overloading, arithmetic operators, function templates,class templates.

UNIT IV INHERITANCE 10 hrs.

Base class and derived class relationship, derived class declaration, forms of inheritance, inheritance and memberaccessibility, constructors in derived class, destructors in derived class, multiple inheritance, multi level inheritance,hybrid inheritance, virtual base classes, virtual functions.

UNIT V EXCEPTION HANDLING AND FILES 10 hrs.

Files and streams, opening and closing of files, file modes, file pointers and manipulation, sequential access toa file, binary file, random access to a file, error handling during file manipulation, exception handling, exception handlingmodel, exception handling constructs, list of exceptions, catching exceptions, handling exceptions.

REFERENCE BOOKS:

1. Venu Gopal.K.R, Ravishankar.T, and Raj kumar, “Mastering C++”, Tata McGraw Hill, 1997.

2. Balaguruswamy.E, “Object Oriented Programming with C++”, Tata McGraw Hill, 2nd Edition, 2004.

3. Bjarne Stroustrup, “The C++ programming language”, Addison Wesley, 3rd Edition, 1998.

4. John R Hubbard, “Programming with C++”, Shaums Outline Series, McGraw Hill, 2nd Edition

5. James Martin & James J.Odell, “Object Oriented methods – A foundation” Prentice Hall, 1997

6. Grady Booch, “Object Oriented Analysis and Design with application”, Addision Wesley, 2nd Edition, 1994







7/15/2019 EI


SEEX1005CIRCUIT THEORY

(Common to EEE, ECE, E&C, EIE & ETCE)


3 1 0 4 100

UNIT I NETWORK THEOREMS (BOTH DC & AC) 12 hrs.

Superposition Theorem - Reciprocity Theorem - Thevenin’s Theorem - Norton’s Theorem - Maximum PowerTransfer Theorem.

UNIT II TRANSIENTS 9 hrs.

Time Domain Analysis - Transient response of RL, RC & RLC networks with DC input and AC with sinusoidal

input.

UNIT III RESONANCE AND COUPLED CIRCUITS 12 hrs.

Coupled circuits - coefficient of coupling - Analysis of coupled circuits - single tuned and double tuned circuits

(qualitative treatment only), Resonance circuits - Resonance in series and parallel circuits - Q factor, Bandwidth of

resonant circuits

UNIT IV NETWORK TOPOLOGY 9 hrs.

Network Topology - Basic concepts of Graph theory, Network Graph, Tree, Incidence & Reduced IncidenceMatrices, Cut sets, Tie sets, Cut set schedule, Tie set schedule - Application to network solutions - Duality and Dual

Networks.

UNIT V PSPICE CONCEPTS 8 hrs.

Pspice - Introduction - DC Analysis and unit identification - AC and DC network Analysis - Circuit with variable

resistor - Transient analysis.

TEXT BOOK:

1. Sudhakar & Shyammohan S Palli, "Electrical Circuits and Networks Analysis and Synthesis", Tata McGraw Hill, 3rd Edition,2009

REFERENCE BOOKS:

1. S.Sivanagaraju, G.Kishor & C.Srinivasa Rao, "Electrical Circuit Analysis", Cengage Learning, 1st

Edition, 2010.

2. W.H.Hayt, J.E.Kemmerly & S.M.Durbin, "Engineering Circuit Analysis", Tata McGraw Hill, 6th

Edition, 2006.

3. Soni Gupta, "Electrical Circuit Analysis", Dhanpat Rai publications, 6th

Edition, 1997 (Reprint 2007)

4. M.Arumugam & N.Premkumaran, "Electric Circuit Theroy", Khanna Publications, 4th

Edition, 1989 (Reprint 2008).


Max.Marks:80 Exam Duration :3 hrs



(Distribution may be 30% Theory and 70% Numerical)



7/15/2019 EI


SMEX1013SOLID AND FLUID MECHANICS

(Common to EEE & EIE)


3 0 0 3 100

UNIT I DEFORMATION OF SOLIDS 10 hrs.

Concept of Stress and Strain-Normal and Shear Stresses-Simple and Compound stresses-Principal Stresses andPrincipal Planes-Normal, Shear and Volumetric strains-Relation between Elastic constants-Elasticity and ElasticModuli-Poisson’s ratio.

UNIT II BENDING, TORSION ON SHAFTS AND SPRINGS 10 hrs.

Concept of Shear force and Bending Moment-Beams and Support, Bending Moment and Shear Force Diagrams(Limited to simply supported, Cantilever Beams with Point Load and uniformly distributed load)

Torsion of Circular Shafts-Torsion theory-Strength of the Shaft-Power transmitted by the Shaft-Closed and Opencoiled Helical spring-Stress, Deflection, Strain Energy.

UNIT III FLUID PROPERTIES AND FLUID DYNAMICS 10 hrs.

Fluid Density-Specific weight-Specific gravity-Capillarity-Viscosity-Newton’s Law-Surface Tension-Fluid Pressureand its Measurement.

Types of Flow-Euler’s and Bernoulli’s Equations - Venturimeters - Orifice meters - Notches and Weirs.

UNIT IV PUMPS 10 hrs.

Centrifugal Pumps-Operation-Velocity Triangles-Performance Curves-Cavitation-Multistaging.

Reciprocating Pumps-Operating Principles-Slip-Indicator Diagram-Separation-Air Vessels.

UNIT V TURBINES 10 hrs.

Introduction and Classification of Turbines-Working Principles-Pelton Wheel-Francis Turbine-KaplanTurbine-Velocity Triangles-Cavitation-Draft Tube.

TEXT BOOKS:

1. Dr.Bansal.R.K-“Strength of Materials”, 4th Edition, Lakshmi Publications, 2007

2. Dr.Modi P.N, Dr.Seth S.M.-“Hydraulics & Fluid Mechanics”,17th Edition, Standard Book House”, New Delhi, 2009

3. Dr.Bansal.R.K-“A Text Book of Fluid Mechanics and Hydraulic Machines”, 9th Edition, Laxmi Publications, 2009


Max. Marks : 80 Exam Duration : 3 Hrs


Part B :80% Problem and 20% Theory

2 Questions from each unit with internal choice, each carrying 12 marks 60 marks



7/15/2019 EI


SICX1004 SENSORS AND TRANSDUCERSL T P Credits Total Marks

3 0 0 3 100

UNIT I SENSORS 10 hrs

Difference between Sensors and Transducers – Sensors for Motion and Position Measurement , GPS, INS,Doppler, SONAR.

Thermal Sensors – Gas Thermometric Sensors, Acoustic Temperature Sensor, Thermoemf Sensors, NQR

Thermometry, Heat Flux Sensor.

Biosensors – Types - Calorimetric Biosensors, Potentiometric Biosensors, Amperometric Biosensors, Optical

Biosensors, Immunosensors

UNIT II MEASUREMENTS 9 hrs.

Functional Elements of measurement system- Examples - Characteristics of instruments: Static characteristics -Dynamic characteristics - Types of errors -sources of errors- methods of elimination-Analysis of data - Limitingerrors-Relative limiting error-Combination of Quantities with limiting errors – Statistical treatment of data: Histogram,

Mean, Measure of dispersion from the mean, Range, Deviation, Average deviation, Standard Deviation, Variance.

UNIT III RESISTIVE TRANSDUCER 10 hrs.

Transducers –Classification of Transducers, Characteristics - Basic Requirements of a Transducer - Mechanical

Devices as Primary Detectors -Mechanical Springs, Proving Rings, Potentiometer, Strain Gauges -Theory, Types(includes Rossette), Temperature Compensation, Calibration – Resistance Hygrometer, Photoconductive cell, Hot wire

anemometer.

UNIT IV INDUCTIVE & CAPACITIVE TRANSDUCER 11 hrs.

Self inductive transducers, Mutual inductive transducer, Linear variable Differential transformer - Eddy currentgauge, Proximity sensors, Microsyn, Induction potentiometer, Capacitive displacement transducers, Single endedcapacitive displacement transducers - Desirable features of capacitive transducers -Practical capacitive pickups - Equibar

differential pressure transducer -Feedback type capacitance proximity pickup – Capacitor microphone - Application inlevel measurement

UNIT V SPECIAL TRANSDUCER & SENSORS 10 hrs.

Piezoelectric, Photovoltaic, Hall Effect, Magnetostrictive, Radio-Active Absorption, Ionic Conduction Transducers,

Digital Transducers - Digital Displacement Transducer, Shaft Angle Encoder, Optical Encoders, Magnetic Encoders-Digital Speed Transducers -Variable Reluctance Type, Smart Sensors - SQUID Sensors - Film Sensors – MEMS.,Sensors for angular measurement using non contact type ( wireless)

TEXT BOOKS:

1. Sawhney A.K., “Electrical & Electronic Measurements and Instrumentation”, Dhanpat Rai Publications,2001

2. D. Patranabis, ‘Sensors and Transducers’, Prentice Hall of India, 1999.

3. Doeblin E..O. “Measurement System Applications and Design”, TMH, 5th Edition, 2004.

REFERENCE BOOKS:

1. Rangan C.S. Mani V.S.V: and Sharma G.R., “Instrumentation Devices and Systems” Tata McGraw Hill.

2. D. Patranabis, “Principles of Industrial Instrumentation”,TMH, 2nd Edition.

3. Dr. S. Renganathan, “Transducer Engineering” -Allied Publishers Limited.D.V.S Murthy –“Transducer and Instrumentation”, PHI, 1st

Edition

UNIVERSITY EXAM QUESTION PAPER PATTERNMax.Marks: 80 Exam Duration :3 hrs.





7/15/2019 EI


SECX1002DIGITAL SYSTEMS

(Common to ECE, ETCE, EEE, EIE, E&C & Bio-Med)


3 0 0 3 100

UNIT I DIGITAL CONCEPTS, NUMBER SYSTEMS, BOOLEAN SWITCHING ALGEBRA 10 hrs.

Introduction to Number Systems – Positional Number Systems, Number System conversion, Binary codes –Binary arithmetic, Binary logic functions – Switching algebra – Functionally complete operation sets, Reduction of

switching equations using Boolean algebra, Realization of switching function.

UNIT II DESIGN OF COMBINATIONAL LOGIC 10 hrs.

Minimal two level networks – Minimization of POS and SOP – Design of two level gate networks – Two levelNAND-NAND and NOR-NOR networks – Karnaugh maps – Advantages and Limitations – Quine McClusky’s method.

UNIT III ARITHMETIC AND STANDARD COMBINATIONAL MODULE AND NETWORKS 10 hrs.

Adders – Subtractors – Binary parallel adders, Parallel subtractors, Parallel adder/subtractors, Binary decodersand encoders – Priority encoders – Multiplexers – MUX as universal combinational modules – Demultiplexers – ALUmodule and comparator modules.

UNIT IV SEQUENTIAL CIRCUITS 10 hrs.

Flip flops – SR, JK, D and T flip flops, Master – Slave flip flops, Characteristic and excitation table – Shiftregisters – Counters – Synchronous and Asynchronous counters – Modulus counters, Up/Down counters – State

diagram, State table, State minimization, Implication chart method.

UNIT V LOGIC FAMILIES AND MEMORIES (QUALITATIVE STUDY ONLY) 10 hrs.

Classification and characteristics of logic family – Bipolar logic family – Saturated logic family – RTL, DTL,

DCTL, I2L,TTL, HTL – Non saturated family – Schottky TTL, ECL – Unipolar family – MOS, CMOS – Comparison

of logic families – memories – RAM, ROM, PROM, EPROM, EEPROM, SRAM, DRAM, CCD – PAL, PLA – HCT/HCseries IC’s.

TEXT BOOKS:

1. Morris Mano, “Digital design”, 3rd Edition, Prentice Hall of India, 2008.

REFERENCE BOOKS:

1. Milos Ercegovac, Jomas Lang, “Introduction to Digital Systems”, Wiley publications, 1998.

2. John M. Yarbrough, “Digital logic: Applications and Design”, Thomas – Vikas Publishing House, 2002.

3. R.P.Jain, “Modern digital Electronics”,3rd Edition, TMH, 2003.

4. William H. Gothmann, “Digital Electronics”, Prentice Hall, 2001.


Max Marks : 80 Exam Duration : 3 Hrs



(Distribution may, be 20% Theory & 80 % Numericals)



7/15/2019 EI


SECX1012ELECTRONIC CIRCUITS - I

(Common to ECE, E&C, EIE & ETCE)


3 0 0 3 100

UNIT I RECTIFIERS AND POWER SUPPLIES 10 hrs.

Half Wave Rectifier - Full Wave Rectifier – Bridge Rectifier – Performance of Rectifiers – Filters – Types of

Filters – L, C, LC, π Filters – Ripple Factor Calculation for C, L, LC and π Filter – Regulators – Shunt and SeriesVoltage Regulator – IC Regulator – SMPS – Power Control using SCR.

UNIT II BIASING CIRCUITS AND ANALYSIS OF SMALL SIGNAL BJT AMPLIFIERS 10 hrs.

Biasing Circuit Of BJT, Dc Equivalent Circuit Of BJT, DC And AC Load Lines, Stability Factor Analysis, Typesof Amplifiers – Equivalent Circuits – Input-Output Characteristics – Small Signal Equivalent Circuit of Amplifier –Calculation of Gain, Input and Output Impedance of various Amplifiers using h-Parameter.

UNIT III ANALYSIS OF FET AMPLIFIERS 10 hrs.

Small signal model of JFET and MOSFET – source bias circuit for FET voltage divider bias – conversion ofbiasing circuits into CS, CG and CD amplifiers – analysis of the different biasing using small signal model – MOSFET

biasing.

UNIT IV LARGE SIGNAL AMPLIFIERS 10 hrs.

Class A, B, C, AB and D type of operation – efficiency of class A amplifier with resistive and transformercoupled load, efficiency class B, complementary symmetry amplifiers – distortion in power amplifiers – Thermal stabilityof power amplifier.

UNIT V FREQUENCY RESPONSE AND MULTISTAGE AMPLIFIERS 10 hrs.

Low frequency equivalent circuit and Miller effect response of BJT and JFET amplifiers – High frequency responseof BJT and JFET amplifier - Multi stage amplifier - Direct coupled amplifier – RC coupled amplifier – transformer

coupled amplifier – Cascode amplifier – cascade amplifier – Darlington emitter follower – Bootstrap amplifier.

TEXT BOOKS

1. Jacob Millman and C. Halkias, “Electronic Devices and Circuits”, McGraw Hill, 2008.

2. Mithal. G.K., “Electronic Devices and Circuits”, Khanna Publishers, 23rd Edition, 2004.

REFERENCE BOOKS

1. Donald. L, Schilling and C.Belove, “Electronic Circuits - Discrete and Integrated”, 3rd Edition, McGraw Hill, 1989.

2. David A. Bell, “Electronic Devices and Circuits”, PHI, 1998.

3. Gupta. J.B, “Electronic Devices and Circuits”, Katson Publishers, 2009.

4. Salivahanan. S, “Electronic Devices and Circuits”, TMH, 2008.

5. Srinivasan. K.S, “Electronic Circuits-I”, 1st Edition, Anuradha Agencies.







7/15/2019 EI


SECX4020 ELECTRIC CIRCUITS AND DIGITAL LABL T P Credits Total Marks

0 0 4 2 100

List of experiments

ELECTRIC CIRCUITS1. Verification of Thevenin’s Theorem.

2. Verification of Superposition Theorem.

3. Verification of Reciprocity Theorem.

4. Verification of Compensation Theorem.

5. Verification of Maximum Power Transfer Theorem.

DIGITAL CIRCUITS.

1. Verification of Truth Table In Basic & Universal Logic Gates.

2. Verification of Truth Table of Flip Flops- RS, D, JK, T.

3. Testing of Half Adder & Full Adder.

4. Testing of Multiplexer And Demultiplexer.

5. Testing of Decoder and Encoder.

6. Testing of Shift Registers.

SECX4021 DEVICES AND ELECTRONIC CIRCUITS LABL T P Credits Total Marks

0 0 4 2 100

List of experiments

DEVICES

1. Characteristics of semiconductor diode & Zener diode.

2. Characteristics of CE & CB Configuration.

3. Characteristics of JFET & UJT.

4. Characteristics of MOSFET.

5. Characteristics of SCR.

6. Characteristics of Diac & Triac.

ELECTRONIC CIRCUITS

1. Analysis of Transistor Biasing Circuits

2. Design and Testing of Full Wave Rectifier Circuit without and with filter.

3. Characteristics of Shunt & Series Regulator.

4. Design and Testing of RC coupled transistor amplifier

5. Design and Testing of Emitter follower

6. Design and Testing of Push pull power amplifier



7/15/2019 EI


SMTX1010ENGINEERING MATHEMATICS IV

(Common to All Branches except Bio Informatics)


3 1 0 4 100

UNIT I PARTIAL DIFFERENTIAL EQUATION 10 hrs.

Formulation of equations by elimination of arbitrary constants and arbitrary functions-solutions byequations-general, particular and complete integrals-Lagrange’s linear equation-standard type of first order

equation-second and higher order equations with constant coefficients-homogenous equations.

UNIT II FOURIER SERIES 10 hrs.

Euler’s formula-Dirichlets conditions-convergence statement only-change of interval-odd and even functions-halfrange series-RMS value-Parseval’s formula-complex form of Fourier series-harmonic analysis.

UNIT III WAVE AND HEAT EQUATION 10 hrs.

One dimensional wave equation-Transverse vibration of finite elastic string with fixed ends-boundary and initialvalue problems-Fourier series solution-Derivation of one dimensional heat equation-steady and unsteady state-boundaryand initial value problems-Fourier series solutions. Two dimensional heat equation-steady state heat flow in twodimensions-Laplace equation in Cartesian coordinates - Fourier series solution.

UNIT IV FOURIER TRANSFORM 10 hrs.

The infinite Fourier transform-sine and cosine transform-Properties-Inversion theorem-Finite Fourier transform-sine

and cosine transform-Convolution theorem-Parseval’s identity.

UNIT V Z – TRANSFORM AND DIFFERENCE EQUATIONS 10 hrs.Z – Transforms – Elementary Properties – Inverse Z – transforms – Convolution theorem – Formation of difference

equations – Solution of difference equations using Z – transforms.


1. Kandasamy, P., Thilagavathy, K., and Gunavathy, K., “Engineering Mathematics”, Volumes II & III (4th Revised Edition), S. Chand

& Co., New Delhi, 2001.

2. Venkataraman, M.K. “Engineering Mathematics” Volumes III - A & B, 13th Edition National Publishing Company, Chennai. Engineering

Mathematics – Dr. T.Veerarajan, Tata McGrawhill Company, 1998.

3. Veerarajan, T., “Engineering Mathematics”, Tata McGraw Hill Publishing Co., New Delhi, 1999.

4. Grewal, B.S., “Higher Engineering Mathematics” (35th Edition), Khanna Publishers, Delhi, 2000.

5. Kreyszig, E., “Advanced Engineering Mathematics” (8th Edition), John Wiley and Sons (Asia) Pvt Ltd., Singapore, 2001.







7/15/2019 EI


SECX1013ELECTRONIC CIRCUITS - II

(Common to E&C, ECE, ETCE & EIE)


3 0 0 3 100

UNIT I FEEDBACK AMPLIFIER 10 hrs.

Types of feedback – effect of feedback amplifier on noise, distortion gain, input and output impedance of theamplification, analysis of voltage and current feedback amplifier.

UNIT II OSCILLATORS 10 hrs.

Barkhausen Criterion for Oscillation in Feedback Oscillator – Sinusoidal Oscillator – Phase Shift Oscillator – RC

and Wein Bridge Oscillator – Analysis of LC Oscillator, Colpitts, Hartley, Clap, Crystal Oscillator.

UNIT III TUNED AMPLIFIERS 10 hrs.

Resonance Circuits, Unloaded and Loaded Q of Tank Circuit – Bandwidth – Types of Tuned Amplifiers – Analysis

of Single Tuned Amplifier – Double Tuned Amplifier-Stagger Tuned Amplifier – Instability of Tuned Amplifier –Stabilization Techniques, Neutralization and Unilaterlization – Class C Tuned Amplifiers and their Application.

UNIT IV WAVE SHAPING CIRCUIT 10 hrs.

High Pass and Low Pass RC Circuits and their Response for Sine, Step, Pulse, Square, Ramp and ExponentialInput Multivibrators – Astable Multivibrators – Emitter and Collector Coupled - Monostable, Bistable Multivibrators, and

Schmitt Trigger Circuits.

UNIT V SWEEP CIRCUIT AND BLOCKING OSCILLATORS 10 hrs.

Principle of Time Based Generator – Voltage Time Based Generator – Bootstrapped and Miller Saw Tooth

Generator – Current time Based Generator – Monostable and Astable Blocking Oscillator using Emitter Based Timing – Push-Pull Operation of Blocking Oscillator

TEXT BOOKS

1. Millman. J And Taub. H, “Pulse, Digital and Switching Waveforms”, TMH, 2000.

2. Mithal G.K, “Electronic Devices and Circuits”, Khanna Publishers, 23rd Edition, 2004.

REFERENCE BOOKS

1. David A. Bell, “Solid State Pulse Circuits”, PHI, 2002

2. Venkatraman. R, “Pulse, Digital Circuits and Computer Fundamentals”.

3. Jacob Millman and C. Halkias, “Integrated Electronics, Analog and Digital Circuits and Systems”, McGraw Hill, 1997.







7/15/2019 EI


SMEX1011APPLIED THERMODYNAMICS

(Common to EEE, EIE & E&C )


3 0 0 3 100

(Use of H.M.T. data book, charts, steam tables permitted)

UNIT I FUNDAMENTALS OF THERMODYNAMICS 10 hrs.

Basic concepts, Thermodynamic system-property, state, process, cycle, First law of thermodynamics and its

application to non flow and steady flow processes, Second law of thermodynamics, Reversibility, Carnot theorem, Heatengine, Entropy.

UNIT II STEAM – TURBINES AND NOZZLES 10 hrs.

Steam generation,steam properties-dryness fraction, Use of steam tables and Mollier chart, Simple Rankine cycle,steam turbine - impulse and reaction, compounding. Flow of steam through nozzles, shapes of nozzles, effect of

friction in nozzles, Critical pressure ratio.

UNIT III POWER CYCLES AND INTERNAL COMBUSTION ENGINES 10 hrs.Air standard cycles - air standard efficiency - Otto and Diesel cycles, Combustion in petrol and diesel engines,

Testing of internal combustion engines, Performance curves, determination of frictional horse power efficiencies, Heatbalance calculations.

UNIT IV AIR COMPRESSORS 10 hrs.

Positive displacement compressor - reciprocating air compressor, work done, volumetric efficiency, Effect ofclearance volume, multistaging, rotary compressors - vane type, roots blower-centrifugal compressor.

UNIT V HEAT TRANSFER & REGRIGERATION 10 hrs.

Heat transfer-Modes of heat transfer- Heat transfer by conduction, convection and radiation - empirical relations,

Laws of radiation, Vapour compression, refrigeration cycle, Calculation of coefficient of performance.

TEXT BOOKS:

1. Nag P.K, Engineering thermodynamics, 4th Edition, Tata McGraw Hill, 2008

2. Rajput R.K Thermal Engineering, 8th Edition, Lakshmi publications Ltd. New Delhi,2010

REFERENCES:

1. Rogers and Mayhew, Engineering Thermodynamics, 4th Edition, Addison Wesley 1999.

2. Manohar Prasad, Refrigeration and air conditioning, 2nd Edition, New Age International (P) Ltd, 2003.

3. Domkundwar S, Arora S.C, A course in heat and mass transfer, Dhanpat Rai & Sons,2005

4. Ganesan.V.,Internal combustion Engines, 3rd Edition, Tata McGraw Hill, 2007


Max. Marks : 80 Exam Duration : 3 Hrs


Part B : 80% Problem and 20% Theory2 Questions from each unit with internal choice, each carrying 12 marks 60 marks



7/15/2019 EI


SECX1004SIGNALS AND SYSTEMS

(Common to ECE E&C, EIE & Bio-Med)


3 0 0 3 100

UNIT I CLASSIFICATION OF SIGNALS 10 hrs.

Continuous time signals (CT signals) and Discrete time signals (DT signals) – Step, Ramp, Pulse, Impulse,

Exponential – Classification of CT and DT signals – Periodic, aperiodic and Random signals – Real and Complexsignals – Energy and power signals.

UNIT II ANALYSIS OF CONTINOUS TIME SIGNALS 10 hrs.

Continuous time Fourier Transform and Laplace Transform analysis with examples – Basic properties – Parseval’srelation – Convolution in time and frequency domain – Relation between Fourier transform and Laplace transform.

UNIT III LINEAR TIME INVARIANT CONTINUOUS TIME SYSTEMS 10 hrs.

CT systems – Linear Time invariant Systems – Basic properties of continuous time systems – Linearity, Causality,Time invariance, Stability – Frequency response of LTI systems – Analysis and characterization of LTI systems usingLaplace transform – Computation of impulse response and transfer function using Laplace transform – Differential

equation – Impulse response – Convolution integral and Frequency response.

UNIT IV ANALYSIS OF DISCRETE TIME SIGNALS 10 hrs.Spectrum of D.T signals, Discrete Time Fourier Transform (DTFT), Discrete Fourier Transform (DFT) – Basic

principles of z-transform – z-transform definition – Region of convergence – Properties of ROC – Properties ofz-transform – Poles and Zeros – Inverse z-transform using Contour integration – Residue Theorem, Power Seriesexpansion and Partial fraction expansion.

UNIT V LINEAR TIME INVARIANT DISCRETE TIME SYSTEMS 10 hrs.

LTI-DT systems – Characterization using difference equation – Properties of convolution and interconnection ofLTI Systems – Causality and Stability of LTI Systems – Impulse response, Convolution Sum and Frequency response – Computation of Impulse response and Transfer function using Z Transform.

TEXT BOOKS:

1. Allan V. Oppenheim et al, ‘Signals and Systems’, 2nd Edition., Prentice Hall of India Pvt. Ltd., 1997.

2. P.Ramesh Babu et al , ‘Signals and Systems’, 4th Edition, Scitech publishers, 2010.

3. Haykin. S and Van Been. B., ‘Signals and Systems’, 2nd Edition, John Wiley & Sons.2003.

REFERENCE BOOKS:

1. Rao.P, Signals and Systems, 1st Edition, Tata McGraw Hill, 2008.

2. Lathi, B. P., Linear Systems and Signals, 2nd Edition, Oxford University Press 2006

3. Mrinal Mandal, Amir Asif, Continuous and Discrete Time Signals and Systems, 1st Edition, Cambridge University Press 2007.

4. Roberts, M.J., Fundamentals of Signals and Systems, 1st Edition, Tata McGraw Hill, 2007

5. S. Salivahanan et al., Digital Signal Processing, 2nd Edition, Tata McGraw Hill, 2009.

6. H P Hsu, Signals and Systems,2nd Edition, Tata McGraw Hill, 2008.





(Distribution may, be 40% Theory & 60% Numericals) 60 Marks



7/15/2019 EI


SICX1002

ELECTRICAL MEASUREMENTS AND

INSTRUMENTATION

(Common to EIE & E&C)


3 0 0 3 100

UNIT I MEASUREMENT OF VOLTAGE AND CURRENT 10 hrs.

Units of voltage and current -principle of operation, Constructional details, comparison of the following; D’ArsonvalGalvanometer, permanent magnet moving coil, permanent magnet moving iron, Dynamometer, Induction, thermal andrectifier type instruments. Extension of ranges and calibration of voltmeter and ammeters -Errors and compensation.

UNIT II MEASUREMENT OF POWER 10 hrs.

Power measurement; Voltmeter-ammeter method, three ammeters and three-voltmeter method. Types of

Wattmeter-Dynamometer type, Induction type, Hall effect type, Thermal type, Compensated type, Single phase and3-phase power measurement, Uses of instrument transformer with Wattmeter, Error and Compensation -Calibration ofWattmeter.

UNIT III ENERGY MEASUREMENT 13 hrs.

Principle & Construction of energy meters -Single and polyphase induction type energy meter, D.C.energy meter-Energy meter testing -Calibration of Energy meter, KV/A meter, KV/AR meters, Maximum demand meter, Power factormeter, Synchroscope. Instrument transformers and special instruments: Potential Transformers and current transformers

-Theory, Classification, Accuracy regarding ratio and phase angles.

UNIT IV MEASUREMENT OF RESISTANCE, INDUCTANCE AND CAPACITANCE 8 hrs.

Ammeter- Voltmeter method and substitution method for resistance measurement. Wheat stone bridge, Kelvin

double bridge, Wein Bridge, Hay’s bridge, Maxwell bridge, Anderson bridge, Schering bridge -Phasor diagrams for ACbridges -Sources and detectors in bridges -megger, Q-meter, Measurement of incremental inductance and Mutual

inductance.

UNIT V POTENTIOMETRIC MEASUREMENT 9 hrs.

DC Potentiometer: Laboratory type, Leeds and Northup potentiometer, Vernier potentiometer, Brookes deflectionpotentiometer -Working principle and applications. AC potentiometer: Drysdale potentiometer, Gall potentiometer-

Working principle and applications, Application of DC and AC potentiometer - Magnetic measurement: Flux meter-Testing of Ring specimen, B-H curve by method of reversal and step by step method, Testing of Bar specimen.Hopkinson’s permeameter- Iron loss measurement by Lloyd Fisher Square.

TEXT BOOK:

1. A.K.Sawhney,” Electrical, Electronic Measurement & Instrumentation”, Dhanpat Rai & sons,18th Edition, Reprint 2010.

REFERENCE BOOKS:

1. E.W. Golding and F.C. Widdis, “Electrical Measurements and Measuring Instruments”,5th Edition, Wheeler Publications.

2. M.B.Stout, “Basic Electrical Measurements”, PHI, 1981.

3. F.K.Harris, Electrical Measurements”, Wiley Eastern Pvt.Ltd., 1974


Max.Marks:80 Exam Duration :3 hrs





7/15/2019 EI


SECX1005NETWORK ANALYSIS AND SYNTHESIS

(Common to ECE, EEE, ETCE, EIE & E&C)


3 0 0 3 100

UNIT I NETWORK FUNCTION AND ITS PARAMETERS 10 hrs.

Network functions – Driving point impedance – Transfer functions – Poles and zeros, Significance of poles and

zeros – Determination of network function of one port and two port network – Network parameters – Z,Y, h and ABCD

– Conditions for reciprocity – Parameter conversion.

UNIT II TWO PORT NETWORKS 10 hrs.

Image parameters – Iterative parameter – Image and iterative parameters in terms of open circuit and short

circuit network – Parameters of important Networks – Lattice network – T network π Network – Twin network –

Network Conversions – Bartlett’s bisection theorem and its application – Interconnection of Two Port Networks.

UNIT III SYNTHESIS OF LC, RL AND RC NETWORK 10 hrs.

Hurwitz polynomial – Routh Criterion – Positive Real function – Elementary Synthesis Procedure – Propertiesof LC, RC, and RL Driving Point Functions – Synthesis of LC, RC, RL and RLC Network using Foster and Cauerforms – Constant resistance network – Synthesis of transfer admittance and transfer impedance with a one ohm

termination.

UNIT IV FILTERS 10 hrs.

Filters – Constant K – Low Pass Filter – High Pass Filter – Band Pass Filter – Band Stop Filter – m – DerivedFilters – Terminating Half Section – Composite Filter – Design of First order, Second order Low Pass, High Pass,

Butterworth and Chebyshev filters.

UNIT V ATTENUATORS AND EQUALIZERS 10 hrs.

Attenuators – Symmetrical and Asymmetrical – T and Attenuator – Design of Attenuators – Equalizer – Types – Series and Shunt Equalizer – Constant Resistance Equalizer – Types of simple four terminal Equalizers – FullSeries Equalizer, Full Shunt Equalizer, Bridged – T Equalizer and Lattice Equalizer – Characteristics of equalizers.

TEXT BOOKS:

1. Sudhakar and Shyam Mohan Palli, Circuits and Networks; Analysis and Synthesis, 3rd Edition, Tata McGraw Hill, 2008.

2. John.D.Ryder, Networks Lines and Fields, 2nd Edition, PHI Publications, 2003.

REFERENCE BOOKS:

1. Kuo, ’Network Analysis and Synthesis’, 2nd Edition, PHI, 1995.

2. Soni and Gupta,’Electric Circuits and Analysis’, 5th Edition, Dhanpatrai and Sons, 1995.

3. Umesh Sinha, ‘Network Analysis and Synthesis’, 5th Edition, Sathya Prakashan Publishers, 1985





(Distribution may be 20% Theory & 80 % Numericals) 60 Marks



7/15/2019 EI


SMEX4005 THERMAL & FLUID MECHANICS LABL T P Credits Total Marks

0 0 4 2 100

(A) THERMAL LAB

1. Valve Timing Diagram of 4-Stroke Engine.2. Port Timing Diagram of 2- Stroke Engine.

3. Performance Test on I.C Engine Using Electrical Dynamometer.

4. Performance Test on I.C Engine Using Hydraulic Dynamometer.

5. Performance Test on Air Condition Plant.

6. Performance Test on Air Compressor.Air Pressure Measurement And Regulation

7. Heat Balance Sheet of An I.C Engine.

8. Boiler Trail And Heat Balance Sheet.

9. Performance Test on A Refrigerator.

10. Free And Forced Convection Heat Transfer.

(B) FLUID MECHANICS LAB

1. Performance Study Of Centrifugal Pump.

2. Performance Study Of Reciprocating Pump.

3. Performance Study Of Gear Oil Pump.

4. Performance Study Of Jet Pump/Deep Well Pump.

5. Performance Study Of Submersible Pump.

6. Performance Study Of Pelton Wheel/Francis Turbine.

7. Pipe Friction Apparatus.

8. Flow Through Venturimeter.

9. Flow Through Orificemeter.

SECX4022 ELECTRONIC CIRCUITS -II LABL T P Credits Total Marks

0 0 4 2 100

List of experiments:

1. Design and Testing of Hartley Oscillator.

2. Design and Testing of RC Phase Shift Oscillator.

3. Design and Testing of Colpitt’s Oscillator.

4. Design and Testing of Astable Multivibrator.

5. Design and Testing of Schmitt Trigger.

6. Design and Testing of Tuned Amplifier.

7. Design and Testing of Monostable Multivibrator Using PSPICE Simulation.

8. Design and Testing of Bistable Multivibrator Using PSPICE Simulation.

9. Design and Testing of Feedback Amplifier Using PSPICE Simulation.

10. Design and Testing of Wein Bridge Oscillator Using PSPICE Simulation.



7/15/2019 EI


SMTX1011

APPLIED NUMERICAL METHODS

(Common to Mech, M & P, Aero, Auto, Civil, Chem, EIE,

ECE, EEE, E&C and ETCE)


3 1 0 4 100

UNIT I CURVE FITTING AND RELATION BETWEEN OPERATORS 10 hrs.Curve Fitting-Method of group averages-Principle of least squares-Method of moments-Finite Differences-Operators

E & D-Relationship between operators.

UNIT II INTERPOLATION 10 hrs.

Interpolation-Newton’s method-Lagrange’s method-Numerical Differentiation and Integration-Trapezoidal andSimpson’s Rule-Finite Difference Equations.

UNIT III ALGEBRAIC AND TRANSCENDENTAL EQUATIONS 10 hrs.Numerical solution of Algebraic and Transcendental Equations-Regula Falsi method-Newton Raphson

method-Graffe’s Root Squaring method-Simultaneous linear algebraic equations- Gauss Jordan method-Crout’smethod-Gauss Seidel method-Relaxation method.

UNIT IV ORDINARY DIFFERENTIAL EQUATIONS 10 hrs.

Numerical solution of Ordinary Differential Equations-Taylor’s series-Modified Euler’s method-Runge Kutta method

of fourth order-Predictor-Corrector methods-Milne’s method-Adam’s Bashforth method.

UNIT V PARTIAL DIFFERENTIAL EQUATIONS 10 hrs.

Numerical solution to Partial Differential Equations-Classification-Elliptic equations-Poisson’s equations-Leibmann’s

iteration procedure-Parabolic equation-Bender Schmidt Scheme-Crank Nicholson’s Scheme-Hyperbolic equations.


1. Kandasamy P & Co., Numerical Methods, S.Chand & Co., New Delhi, 2003.

2. Venkataraman M.K., Engineering Mathematics – First Year, 2nd Edition, National Publishing Co., 2000.

3. Grewal, B.S., “Higher Engineering Mathematics”, 35th Edition, Khanna Publishers, Delhi, 2000.

4. Balgurusamy .E, Numerical Methods, Tata McGraw Hill, New Delhi, 2006.

5. Steven C.Chapra, Raymond P. Canale, Numerical Methods for Engineers, Tata McGraw Hill, New Delhi, 2003.







7/15/2019 EI


SECX1028DIGITAL SIGNAL PROCESSING

(Common to ECE, E&C, EIE)


3 0 0 3 100

UNIT I DFT and FFT 10 hrs.

Review of Time domain and Frequency domain representation of DTLTI system – Discrete random signals –Averages – Auto correlation and power spectral density – DFT – Properties – Linear and Circular convolution – FFT

– Decimation in time FFT and Decimation in frequency FFT algorithms – Inverse DFT – Applications of FFT toconvolution.

UNIT II ANALYSIS and DESIGN OF DIGITAL FILTERS 10 hrs.

Review Butterworth and Chebyshev approximations – Properties of IIR and FIR filters – Design of IIR filterusing Impulse invarient and Bilinear transformation method – Design of FIR filter using window method – rectangular,Hanning hamming, Kaiser windows.

UNIT III EFFECT OF FINITE REGISTER LENGTH 10 hrs.

Realization structure for FIR & IIR filters – Direct Form I and Direct Form II, cascade, parallel realization –Effect of number representation in registers – fixed point arithmetic – floating point arithmetic –Errors due to rounding

– ADC quantization noise – coefficient quantization error – product quantization error – truncation – limit cycles dueto product round off error – addition of over flow errors – Scaling – dynamic range.

UNIT IV MULTI RATE DIGITAL SIGNAL PROCESSING 10 hrs.

Introduction- Concepts of Multirate Signal Processing- Decimation by integer factor- interpolation by integer factor

-Sampling rate conversion by non integer factor – multistage approach to sampling rate conversion – Application: echocancellor, efficient digital to analog Conversion in compact hi-fi systems.

UNIT V DIGITAL SIGNAL PROCESSORS 10 hrs.

TMS320C5’416 family – Architecture – Addressing mode – Instruction set- Simple programs – Introduction tocode composer studio software – Simulation.

TEXT BOOKS:

1. John G Proakis and Dimtris G Manolakis, Digital Signal Processing, 3rd edition,PHI Pearson Education, 2000.

2. P.Ramesh Babu et al., Digital Signal Processing,4th edition, Scitech Publishers, Reprint 2010.

REFERENCE BOOKS:

1. Sanjit K.Mitra, Digital signal Processing A Computer Based Approach, 3rd Edition, Mc Graw Hill,2006.

2. J.G.Prokias, Digital Signal Processing, 2nd Edition, Prentice Hall, 1996.

3. Rabiner and Gold, Theory and application of Digital Signal Processing, Prentice Hall, 2007.

4. Oppenheim and Schafer, Digital Time Signal Processing, 2nd Edition, Prentice Hall, 1999.

5. Ashok Ambarder, Digital Signal Processing., 1st Edition, Cengage learning, 2006.

6. Venkataramani, Digital Signal Processors, Tata Mc Graw Hill, 14

th

Reprint of 2008.





(Distributions may be 60% Numericals & 40% Theory) 60 Marks



7/15/2019 EI


SECX1010LINEAR INTEGRATED CIRCUITS



3 0 0 3 100

UNIT I FABRICATION OF ICs AND BASICS OF OP-AMP 8 hrs.

Fabrication of ICs, Packaging of ICs, Realizations of Passive & Active Devices Like R, C, Diodes, Transistorsin ICs, IC Technology- Monolithic, Thin Film and Hybrid Technologies, Fabrication Constraints, Design Guidelines.

OpAmps- Internal Circuit and Block Diagram -DC and AC Characteristics of OpAmps

UNIT II APPLICATIONS OF OPERATIONAL AMPLIFIERS 11 hrs.

Applications of Opamp- Arithmetic Circuits, Amplifiers, Opamp Circuits Using Diodes, Rectifiers, V to I and I toV Converters, Clipper and Clamper – Sample and Hold Circuit. Comparators – Characteristics and its Applications.

UNIT III SIGNAL GENERATORS AND VOLTAGE REGULATORS 10 hrs.

Schmitt Trigger, Monostable, Astable Multivibrators, Saw tooth, Triangular and Sine Wave Generators.

Series OP- amp Regulator - IC Voltage Regulators - 723 - Switching Regulator.

UNIT IV ACTIVE FILTERS 9 hrs.

RC Active Filters: Low Pass - High Pass - Band Pass - Band Reject - First Order - Second OrderTransformations - State Variable Filter - Switched Capacitor Filters

UNIT V PLL AND 555 TIMERS 12 hrs.

Basic Principles - Phase Detector and Comparator: Analog and Digital - Voltage Controlled Oscillator - Low

Pass Filter- Monolithic Phase Locked Loop – Applications of PLL: Frequency Multiplication/ Division - Frequency

Translation - AM Detection - FM Detection – FSK Demodulation - 555 Timer Functional Diagram - Monostable Operation- Astable Operation - Their Applications – Schmitt Trigger – Counters, Timers.

TEXT BOOKS:

1. D.Roy Choudhry, Shail B. Jain, “Linear Integrated Circuits” 3rd Edition, New Age International Pvt. Ltd., 1998

2. William D.Stanely, ‘Operational Amplifiers with Linear Integrated Circuits’. Pearson Education, 4th Edition,2004.

REFERENCES:

1. K.R.Botkar, ‘Integrated Circuits’. Khanna Publishers, 9th Edition, 1996.

2. James M.Fiore, Operational Amplifiers & Linear Integrated Circuits: Theory & Applications, Delmer Thomas Learning, 2001.

3. Ramakant A.Gayakwad, ‘OP-AMP and Linear Integrated Circuits’, 4th

Edition, PHI Publisher, 2000.





80% theoretical and 20% numerical in Part B may be asked



7/15/2019 EI


SICX1013INDUSTRIAL AND CHEMICAL PROCESSES



3 0 0 3 100

UNIT I INTRODUCTION TO UNIT OPERATIONS 10 hrs.

Introduction to Industrial & chemical processes, unit operations-Transport of liquids, solids and gases- Adjusting

of particle size of bulk solids- Mixing processes- Separation processes.

UNIT II DISTILLATION, CHEMICAL REACTORS, STEAM BOILERS 10 hrs.

Qualitative study of unit operations with an understanding of operating variables; Distillation, chemical reactors,steam boilers.

UNIT III DRYERS, CRYSTALLIZATION, EVAPORATORS 10 hrs.

Qualitative study of unit operations with an understanding of Operating variables, Dryers, Crystallization,

Evaporators.

UNIT IV FURNACES, CENTRIFUGES, HEAT EXCHANGERS 10 hrs.

Qualitative study of unit operations with an understanding of operating variables. Furnaces, Centrifuges, Heatexchangers.

UNIT V PUMPS, COMPRESSORS, EXTRUDERS 10 hrs.

Qualitative study of Unit operations with an understanding of operating variables. Pumps, Compressors, Extruders.


1. Warren L.McCabe, Julian C.Smith, Peter Harriot, “Unit operations of chemical Engineering”, 7th Edition, McGraw Hill, 2005.

2. George.T. Austin, Shreve’s, “Chemical Process Industries”, 5th Edition, McGraw Hill.

3. Balchan J.G and Mumme K.I, ‘Process Control Structures and Applications’, Van Nostrand Reinhold Company, 1988.


Max.Marks : 80 Exam Duration : 3 hrs.





7/15/2019 EI


SICX1005

ELECTRONIC MEASUREMENTS AND

INSTRUMENTATION



3 0 0 3 100

UNIT I BASIC ELECTRONIC MEASUREMENTS 10 hrs.Review of DC and AC Voltmeters - Electronic Multimeter-Q-Meter-True RMS Voltmeter- Differential

Voltmeter-Vector Impedance Meter-Vector Voltmeter-RF Voltage and Power Measurements.

UNIT II SIGNAL GENERATORS AND ANALYSERS 10 hrs.

Function Generators-RF Signal Generators-Sweep Generators-Frequency Synthesizer-Wave Analyzer-Harmonic

Distortion Analyzer -Spectrum Analyzer, Noise Generator, Pattern Generator, Wobbuloscope.

UNIT III CATHODE RAY OSCILLOSCOPE 10 hrs.

Basic Oscilloscope-CRT- Vertical Deflection System- Horizontal Deflection System-CRO Probes-Applications ofCRO-Special Purpose Oscilloscope-Sampling Oscilloscope-Storage Oscilloscope-Digital Storage Oscilloscope.

UNIT IV DIGITAL INSTRUMENTS 8 hrs.

Digital Voltmeter -Digital Multimeter-Frequency Counter-Measurements of Frequency and Time Interval- Extension

of Frequency Range-Measurement Errors.

UNIT V RECORDERS AND DATA ACQUISITION SYSTEM 12 hrs.

X-Y Recorders-Magnetic Recorders, Strip Chart Recorders, Interference & Screening – Multiple earth & earth

loops electrostatic & Electromagnetic interference Grounding Techniques -Digital Recorders and Data Loggers-Analogand Digital Data Acquisition System- Interfacing of Transducers-Multiplexing-Computer ControlledInstrumentation-IEEE488 Electrical Interface.

TEXT BOOKS:

1. Alber.D.Helfrick & William.D.Cooper, “Modern Electronic Instrumentation & Measurement Techniques”, PHI, 2003.

2. Ernest. O. Doeblin, “Measurement Systems Application and Design” TMH, 5th Edition, 2004.

REFERENCE BOOKS:

1. Joseph.J.Carr, “Elements of Electronics Instrumentation & Measurement”, Pearson Education, 2003.

2. Alan S.Morris, “Principles of Measurements &Instrumentation”, PHI, 2nd Edition, 2003.







7/15/2019 EI


SICX1008INDUSTRIAL INSTRUMENTATION



3 0 0 3 100

UNIT I MEASUREMENT OF SPEED, FORCE, TORQUE, ACCELERATION 10 hrs.

Measurement of speed- Revolution counter, Dragcup tachometer, AC and DC tachogenerators, photo electric

pickup. Measurement of force - Load cell, pneumatic load cell, hydraulic load cell. Measurement of Torque using straingauges and magneto elastic principle, Measurement of acceleration - Elementary accelerometers, seismicaccelerometers, practical accelerometers, calibration.

UNIT II MEASUREMENT OF PRESSURE 10 hrs.

Manometers – different types of manometers, Elastic pressure transducers, Dead weight Tester, Electrical types,Vacuum gauges - McLeod gauge, Knudsen gauge, thermocouple gauge, ionization gauge, Differential pressuretransmitter - electrical & pneumatic types

UNIT III MEASUREMENT OF TEMPERATURE 10 hrs.

Temperature scales, Bimetallic thermometer, filled- in Thermometers, Vapour pressure thermometers, Resistance

thermometers, Thermistors, Thermostat, Thermocouples - types and ranges, characteristics, laws of thermocouples,

cold junction compensation, IC temperature sensors AD 590, Pyrometers - radiation and optical pyrometers.

UNIT IV MEASUREMENT OF FLOW, LEVEL 10 hrs.

Orifice, Venturi, Pitot tube, flow nozzle rotameter, Positive displacement meter, turbine flowmeter, electromagneticflow meter, ultrasonic flow meter, open channel flow measurement, solid flow measurement. Sight glass, float gauge,

displacer, torque tube, bubbler tube, diaphragm box, Differential Pressure methods, electrical methods- resistance type,capacitance type, ultrasonic level gauging

UNIT V MEASUREMENT OF DENSITY, VISCOSITY, HUMIDITY 10 hrs.

Hydrometer – continuous weight measurement, liquid densitometer – float principle, air pressure balanced method,using gamma rays – gas density measurements – gas specific gravity measurements – Viscosity terms, saybolt

viscometer, rotometer type viscometer, Industrial consistency meters. Humidity terms – dry & wet bulb psychrometers

– hot wire electrode type hygrometer, electrolytic hygrometer, Dew point hygrometer

TEXT BOOKS:

1. D. Patranabis, “Principles of Industrial Instrumentation”, Tata McGraw Hill, 2ndEdition, New Delhi, Reprint 2009.

2. S. K. Singh, “Industrial Instrumentation & Control ” 3rd Edition, Tata McGraw Hill, Reprint 2009.

3. K.Krishnaswamy & S.Vijayachitra, “Industrial Instrumentation” New age International, Reprint 2008.

REFERENCE BOOKS:

1. Ernest O. Doeblin, Dhanish. N. Manik, “Measurement Systems Application & Design”, TMH, 5th Edition, 2004.

2. R.K.Jain, “Mechanical & Industrial Measurements”, Khanna Publishers, 11th

Edition, 2004.







7/15/2019 EI


SEEX1010CONTROL SYSTEMS

(Common to EEE, ECE, ETCE, E&C & EIE)


3 1 0 4 100

UNIT I SYSTEM CONCEPTS 12 hrs.

Types of system – open loop systems, closed loop systems, Basic elements in control system – Mathematicalmodels of physical system: Differential equation- transfer functions of simple electrical networks, Electrical analogous

of mechanical translational and Rotational system – D.C and A.C servomotor – Mechanical system- Translational andRotational system – Block diagram reduction techniques – Signal flow graphs.

UNIT II TIME RESPONSE ANALYSIS OF CONTROL SYSTEMS 10 hrs.

Standard test signals -Time response of first and second order system, Time domain- specifications- Generalizederror series – Steady state error and error constants.

UNIT III STABILITY OF CONTROL SYSTEM 10 hrs.

Characteristics equation – Location of roots in S plane for stability – Routh Hurtwitz criterion – Root locusconstruction – Nyquist stability criterion.

UNIT IV FREQUENCY RESPONSE ANALYSIS 10 hrs.

Frequency response of the system – Correlation between time and frequency response – Gain and Phasemargin – Bode plot.

UNIT V COMPENSATION AND CONTROLLERS 8 hrs.

Introduction to compensation networks – Lag, Lead and Lag Lead networks – Compensator Design – P, PI,PID Controllers design using Bode plot.

Total No of Hours: 50 hrs.

TEXT BOOKS:

1. Ashok Kumar, “Control Systems”, TMH Ltd, Ist Edition, 2006.

2. Kausuhio Ogata, “Modern Control Engineering”, Prentice Hall of India Pvt. Ltd., 3rd Edition, 1998.

3. Smarajit Ghosh, “ Control System Theory & applications”, 2nd Edition, Pearson Education, Publishers, 2005

REFERENCE BOOKS:

1. I.J.Nagrath and M.Gopal, “Control Systems Engineering”, New Age International (P) Limited, Publishers, 2nd Edition, 2009

2. M.N. Bandyo Pathyaj, “Control Engineering, Theory and Practice”, PHI, 1st Edition, 2005.

3. N.K Sinha, “Control Systems”, New Age International(p) Limited, Publishers, 3rd Edition, 1998

4. Roy Choudhury, “Modern Control Engineering”, Prentice Hall of India, 2nd Edition, 2005

5. Richard Dorf, “Modern Control Systems”, Pearson Education Ltd, 8th Edition. 2005


Max. Marks : 80 Exam Duration : 3 hrs






7/15/2019 EI


SECX4027 INTEGRATED CIRCUITS AND DSP LABL T P Credits Total Marks

0 0 4 2 100

INTEGRATED CIRCUITS LAB

List of Experiments

1. Characteristics of Op amps and applications: Summer, Integrator, and Differentiator.

2. Design and testing of waveform generators using Op-amps: square, triangular.

3. Design and testing of Precision Rectifier, Active Filters.

4. Design and testing of an Instrumentation amplifier & D/A Converter.

DIGITAL SIGNAL PROCESSING LAB

List of Experiments1. Study of DSP Processor.

2. Arithmetic and Logical Operation Using DSP Processor.

3. Multiplication / Division operation Using DSP Processor.

4. Convolution – Linear / Circular Convolution using MATLAB.

5. Cross Correlation / Auto Correlation using MATLAB.

6. Generation of Square / Sine Waveform using MATLAB.

7. Design FIR – Low pass filter / High Pass Filter using MATLAB.

8. Design IIR – Low pass filter / High Pass Filter using MATLAB.

SECX4002 MEASUREMENT AND TRANSDUCER LABL T P Credits Total Marks

0 0 4 2 100

List of experiments1. Measurement of Medium Resistance Using Wheat stone’s Bridge

2. Measurement of Low Resistance Using Kelvin’s Double Bridge

3. Measurement of Capacitance Using Schering’s Bridge

4. Measurement of Inductance Using Anderson’s Bridge

5. Calibration of Ammeter, Voltmeter

6. Design of Current to voltage & Voltage to current converters

7. Displacement versus output characteristics of potentiometer transducer

8. Strain Gauge characteristics

9. Load cell characteristics10. Characteristics of LVDT

11. Characteristics of Thermocouple

12. Characteristics of Thermistors

13. Step response characteristics of RTD

14. Hall Effect transducers



7/15/2019 EI


SICX1006MODERN CONTROL SYSTEM

(Common to E&C & EIE)


3 1 0 4 100

UNIT I REVIEW OF MATRICES 10 hrs.

Review of matrices-co-ordinate transformation- Eigen values and Eigen vectors- diagonalization – Cayley Hamiltontheorem- state transition matrix.

UNIT II STATE SPACE ANALYSIS 10 hrs.

State space analysis – state space formulation- state space representation of control systems described by

scalar differential equation – state variable- transformation of state space equation , physical ,phase & canonical variable,state space models-state space representation for discrete time system.

UNIT III CONTROLLABILITY AND OBSERVABILITY 10 hrs.

Jordan and canonical forms, controllability and observability – condition for controllability and observability, Gilbertmethod and Kalman decomposition- design of state feedback by pole placement.

UNIT IV PHASE VARIABLE MATRIX 10 hrs.

Controllable phase variable form, observable phase variable form, reduced order observer – full orderobserver-reducibility, irreducibility, transfer function matrix, impulse response functions.

UNIT V NON – LINEAR SYSTEM ANALYSIS 10 hrs.

Non – linear systems – properties of non linear system – describing function for simple non linearity’s likeON-OFF, dead zone and saturation- describing function analysis of non linear systems – phase plane method – basisconcept- singular points – constructing phase plane trajectory for linear and nonlinear second order systems.

TEXT / REFFERENCE BOOKS:

1. Gopal.M, “Modern Control Theory”, 2nd Edition ,Wiley Eastern Publishers, 1993.

2. Tou.T.J. “Modern Control Theory”, McGraw Hill publications, 1964.

3. Ogata.K.H, “State Space Analyasis Of Control Systems ”, Prentice Hall Publications, 1967.

4. Nagrath I.J. & Gopal.M, “Control Systems Engineering”, 2nd Edition, Wiley & Sons, 1985.


Max.Marks : 80 Exam Duration : 3 hrs





7/15/2019 EI


SECX1015MICROPROCESSORS & MICROCONTROLLERS



3 0 0 3 100

UNIT I MICROPROCESSORS 10 hrs.

Microprocessors evolution and types, general 8 bit microprocessors and its architecture-8085,Z80,6800-8086microprocessors family overview,8086 internal architecture,introduction to programming of 8086

UNIT II INSTRUCTION SETS AND ASSEMBLY LANGUAGE PROGRAMMING-8085 10 hrs.

Instruction cycle – timing diagram-machine cycle-instruction format-addressing modes-instruction set of

8085-assembler directives-stack &subroutines-assembly language programs

UNIT III MICROCONTROLLER-8051 10 hrs.

Microprocessors and microcontrollers-microcontroller evolution-8051 architecture input/output ports, program and

data memory, counters and timers, serial data I/O, interrupts-introduction set and assembly language programs

UNIT IV PERIPHERAL DEVICES & INTERFACING 10 hrs.

Data transfer schemes-programmable I/O-serial I/O-peripheral IC’S-8251,8255,8259,8279-DMA, interfacing-7segment LED & LCD Display- stepper motor – water level control-ADC & DAC-applications

UNIT V INTRODUCTION TO OTHER 16 BIT MICROPROCESSOR AND MICROCONTROLLERS 10 hrs

Intel 80286,80386,80486,80196,PIC ,ARM architecture & features, introduction to embedded systems.

TEXT/REFFERENCE BOOKS:

1. Gaonkar, “Microprocessors Architecture, Programming, And Application With 8085”, Wiley Eastern Publication.,1997.

2. Kenneth J. Ayala, “The 8051 Microcontroller:Architecture, Programming And Applications”, Penram International Publishings, 1996.

3. Dougals .V.Hall, “Microprocessors &Interfacing-Programming and Hardware”, Tata McGraw Hill, 1991.

4. Walter A.Trebel & Avtar Singh, “The 8088 and 8086 Microprocessors”, PHI, 1985.

5. Barry B. Brey, “The Intel Microprocessor 8086 8088 80186 80286 80386 80486 Pentium And Pentium Pro Processor Architecture,

Programming And Interfacing”, PHI, 7th Edition (March 23, 2005).

6. Mazidi & Mazidi, “The 8051 Microcontroller And Embedded System”, PHI, 2000.







7/15/2019 EI


SICX1007PROCESS CONTROL



3 0 0 3 100

UNIT I INTRODUCTION TO PROCESS CONTROL 10 hrs.

Process variable – load variables-dynamic of simple pressure, flow, level and temperature process-transient

response of first order system for thermal & level process – interacting & non-interacting system – degrees of freedom – batch process and continuous process – self regulator – servo and regulator operation.

UNIT II CONTROL ACTION OF CONTROLLERS 10 hrs.

Characteristics of On-Off, Proportional, Integral, Derivative modes – P + I , P + D And P + I + D control modes –

pneumatic and electronics controller – quantitative analysis

UNIT III CONTROLLER TUNING & ADVANCED CONTROL TECHNIQUES 10 hrs.

1 ⁄ 4 decay ratio, IAE, ISE, ITAE – determination of optimum setting for mathematically described process by

using time response and frequency response – tuning of controller by process reaction curve method, continuouscycling method, feed forward control, cascade control, ratio control, split -range control and multivariable control –introduction to adaptive control and inferential control

UNIT IV FINAL CONTROL ELEMENTS 10 hrs.

I/P and P/I Converter – pneumatic, electric and hydraulic actuator – valve positioner – control valves –

characteristics of control valve – valve body – globe, butterfly valves – control valves sizing – cavitation, flashing incontrol valves

UNIT V MULTIVARIABLE CONTROL & APPLICATIONS 10 hrs.

Piping and instrumentation diagram of loops, interaction of control loops, non interacting control loops, relative

gain array – control of distillation column – control of heat exchanger.

TEXT BOOKS:

1. Stephanopoulos.C, “Chemical Process Control”, Prentice Hall of India Pvt Ltd, 20042. Eckman D.P, “Automatic Process Control”, Wiley Eastern Ltd, 1972.

3. Curtis D Johnson, “Process Control Instrumentation Technology ”, John Wilsey & Sons, 2004.

REFFERENCE BOOKS:

1. P.Harriot, “Process Control ”, Tata McGraw Hill , 1984.

2. B.G.Liptak, “Instrumentation in Process Industries ”, Vol. 1 & 2, Chilton Book&Co. 1974.

3. D.R.Coughanowr, “Process System Analysis and Control”, 2nd Edition, John Wiley & Sons, 1991.

4. F.G.Shinskey, “Process Control System”, 3rd Edition, McGraw Hill, 1991.

5. B.G.Liptak, “Process Control”, Chilton Book & Co, 2001







7/15/2019 EI


SECX1048

FUNDAMENTALS 0F FUZZY LOGIC AND

ARTIFICIAL NEURAL NETWORKS

(Common to EIE, ECE, ETCE & EEE)


3 0 0 3 100

UNIT I INTRODUCTION TO FUZZY LOGIC 8 hrs.

Introduction to Fuzzy Set Theory – Basic Concepts of Fuzzy Sets - Classical Set Vs Fuzzy Set – Propertiesof Fuzzy Set – Fuzzy Logic Operation on Fuzzy Sets – Fuzzy Logic Control Principles – Fuzzy Relations – FuzzyRules – Defuzzification.

UNIT II FUZZY LOGIC CONTROLLER & ITS APPLICATION 10 hrs.

Fuzzy Logic Controller – Fuzzification Interface – Knowledge Base – Decision Making Logic – DefuzzificationInterface – Application of Fuzzy Logic to Water Level Controller - Temperature Controller- Inverted Pendulum Control – Control of Blood Pressure during Anaesthesia.

UNIT III FUNDAMENTALS OF ANN 10 hrs.

Fundamentals of ANN – Biological Neurons and Their Artificial Models – Types of ANN – Properties – DifferentLearning Rules – Types of Activation Functions – Training of ANN – Perceptron Model (Both Single & Multi Layer) – Training Algorithm – Problems Solving Using Learning Rules and Algorithms – Linear Separability Limitation and Its

Over Comings

UNIT IV DETERMINISTIC & STATISTICAL NETWORKS 12 hrs.

Back Propagation Training Algorithm – Practical Difficulties – Counter Propagation Network – Structure &Operation – Training of Kohonen and Grossberg Layer – Applications of BPN & CPN - Statistical Method – TrainingApplication – Boltzman Training – Cauchy Training – Hop Field Network and Boltzman Machine – Speed Energy

Function – Network Capacity – Applications A / D Converter – Travelling Sales Man Problem – RBF Network

UNIT V BAM, ART & OPTICAL NETWORKS 10 hrs.

BAM – Structure – Types – Encoding and Retrieving – Adaptive Resonance Theory – Architecture of ART 1

& ART 2 – Implementation – Training – Characteristics – Introduction to Optical Neural Network – Cognitron &Neocognitron

TEXT BOOKS:

1. Timothy Ross, Fuzzy Logic with Engineering Application, McGraw Hill, Edition 1997.

2. James A. Freeman & Skapura, Neural Networks, Pearson Education, 2007.

REFERENCE BOOKS:

1. B.Yegnanarayana, “Artificial Neural Networks” Prentice Hall, September 2007.

2. Simon Haykin, “Artificial Neural Networks”, 2nd Edition, Pearson Education.

3. Drainkov, H.Hallendoor and M.Reinfrank, “An Introduction to Fuzzy Control”, Edition 2001.





80% theoretical and 10% numerical from Unit I & II, 10% from Unit III,IV, V may be asked



7/15/2019 EI


SECX4028 MICROPROCESSOR AND MICROCONTROLLER LABL T P Credits Total Marks

0 0 4 2 100

List of experiments1. Familiarization of 8085 trainer kit, 8086 trainer kit,8051 trainer kit & 89C51 µC.

2. Addition & subtraction of 8 and 16 bits using 8085.

3. Multiplication & division 8 and 16 bits using 8085

4. Interfacing of stepper motor using 8085.

5. Interfacing of traffic light using 8085.

6. Addition and subtraction of two 16 bit numbers using 8086.

7. Code converters using 8086.

8. Sorting of N numbers using 8086.

9. Arithmetic operation programs using 8051.

10. Interfacing of ADC using 8051.

11 Interfacing of DAC using 8051.

12 Addition and subtraction using 89C51.

13 Filling of internal memory using 89C51.

SICX4003 PROCESS CONTROL LABL T P Credits Total Marks

0 0 4 2 100

List of experiments

1. Characteristics of I/P & DPT converter

2. Characteristics of valve (a) based on position

(b) Shape of valve body

3. Study and control of a level process using ON-OFF, P, PI, PD, PID controllers.

4. Study and control of a Pressure process using ON-OFF, P, PI, PD, PID controllers.

5. Study and control of a flow process using ON-OFF, P, PI, PD, PID controllers.

6. Study and control of a Temperature process using ON-OFF, P, PI, PD, PID controllers.

7. Verification of logic gates using PLC

8. Study of DCS

9. Cascade control

10. Study of Ratio control

11. Interacting and non- interacting system

12. Tuning of controller using Zeigler Nicholas method



7/15/2019 EI


SBAX1001PRINCIPLES OF MANAGEMENT AND

PROFESSIONAL ETHICS


3 0 0 3 100

UNIT I MANAGEMENT FUNCTIONS & STRUCTURE 10 hrs.

Management – Definition – Basic Function – Contribution of Taylor & Fayol. Types of structure – Line, staff,Functional, Committee, Project & Matrix – Structures.

Departmentalization – Centralization – Decentralization – span of control. Management By Objectives –Management By Exception.

UNIT II MANAGEMENT OF ORGINASATION 10 hrs.

Forms of Business / Industrial Ownership – Sole Trader, Partnership, Company, Performance Appraisal – BasicPrinciples – Pitfalls – Methods to Overcome. Industrial Safety – Causes of Accidents – Cost of Accident – How tominimize Accidents. Plant Layout & Maintenance – Need, Types & Managerial Aspects.

UNIT III ORGANISATIONAL BEHAVIOUR 10 hrs.

OB – Definition – Nature & Scope – Contributing Disciplines – Importance of OB to Managers. Personality –Definition – Theories – Factors Influencing Personality. Motivation – Definition – Theories. Theory X & Y – Transactional

Analysis. Morale & Job Satisfaction – Factors Influencing Job Satisfaction.

UNIT IV GROUP DYNAMICS 10 hrs.

Group – Definition – Types – Determinants of Group Cohesiveness – Communication – Process – Barriers –Effective Communication. Leadership Theories – Factors Contributing to Effective Leadership – Role of Trade Union

in Organizations – Functions of Trade Union – Why Trade Union is required? – Types of Trade Union.

UNIT V PROFESSIONAL ETHICS 10 hrs.

Ethics in Workplace – Formulation of Ethics – Managerial Ethics – Managing Ethical Behaviour – Codes of

Ethics – Encouraging Ethical Behaviour – Social Responsibility – Spirituality.

TEXT / REFERENCE BOOKS

1. Gupta C.B., Management Theory and Practice, 14th Edition, Sultan Chand & Sons, 2009.

2. Dr. Prasad L.M., Principle & Practice of Management, 7th Edition, Sultan Chand & Sons, 2008.

3. Aswathappa, Organisational Behaviour, 8th Edition, Himalaya Publishing House, 2010.

4. Dr. Prasad L.M., Organisational Behaviour, 4th Edition, Sultan Chand & Sons, 2008.

5. Harold Koontz, Principles of Management, 1st Edition, Tata McGraw Hill, 2004.







7/15/2019 EI


SICX1010COMPUTER CONTROL OF PROCESS



3 0 0 3 100

UNIT I DIGITAL CONTROL SYSTEM 10 hrs.

Need for computer in a control system- functional block diagram of a control system- direct digital control-supervisory control-scheduling control- digital control interfacing: process inputs, outputs interface-data loggers-dataacquisition system- type of displays, computer – various input/outputs- computer control action- treatment of inputs,

outputs, and control strategies.

UNIT II TRANSFORMS AND STABILITY ANALYSIS 10 hrs.

Mathematical representation of sampling process- Z transform & properties- inverse Z transform-pulse transferfunction-data hold sampling frequency consideration-open loop& closed loop response of sampled data control system-

modified Z transform- stability of sampled data control system- stability in Z domain- Schur-Cohn stability test, bilineartransformation, Jury’s test of stability.

UNIT III CONTROL ALGORITHM 10 hrs.

Control algorithm- design of control algorithm using Z transform-dead beat algorithm - Dahlin’s method-ringing

Kalman’s approach-PID algorithm position & velocity form- tuning the algorithm- selection of sampling time.

UNIT IV PROGRAMMABLE LOGIC CONTROLLER 10 hrs.

PLC- configuration- ladder diagrams- relay based PLC- computer based PLC- typical control features- interlocks& alarms.

UNIT V DISTRIBUTED CONTROL SYSTEMS 10 hrs.

DCS-different architectures - functional elements- remote electronic unit- redundancy- different methods ofcommunication protocol network.

TEXT BOOKS:

1. Deshpande P.B. & Ash R.H, “Elements of Computer Process Control”, Instrument Society of America 1981.

2. Michal.P Lucas, “Distributed Control System” , Van Nostrand Reinhold & Co 1986.

3. Frank D.Petruzella, “Programmable Logic Controllers”, 3rd Edition 2005.

REFFERENCE BOOKS:

1. Liptak B.G, “Instrumentation in Process Industries”, Vol.I &II Chilton Book Co, 1974

2. George Stephanopoulos.C, “Chemical Process Control”, PHI, 2005

3. Curtis D Johnson, “Process Control Instrumentation Technology”, John Wiley & Sons, 2006.4. John.W.Webb, “Programmable Logic Controllers-Principle & Application”, PHI 2007.







7/15/2019 EI


SICX1009BIOMEDICAL INSTRUMENTATION

(Common to EIE, E&C, ECE, ETCE & EEE)


3 0 0 3 100

UNIT I ELECTRO PHYSIOLOGY 10 hrs.

Cell and Its Structure – Electrical, Mechanical and Chemical Activities – Action and Resting Potential- Organization

of Nervous System – CNS – PNS – Neurons – Axons- Synapse – Propagation of Electrical Impulses along the Nerve-Sodium Pump – Cardio Pulmonary System- Physiology of Heart, Lung, Kidney.

UNIT II BIO POTENTIAL ELECTRODES AND TRANSDUCERS 11 hrs.

Design of Medical Instruments – Components of Biomedical Instrument System – Electrodes: Micro Electrodes,Needle Electrodes, Surface Electrodes – Transducers – Piezo Electric, Ultrasonic, Passive Transducers – Resistive,Capacitive, Inductive – Biomedical Measurements Like PH, PCO2, PO2 of Blood, Isolation Amplifier, Preamplifier,Current Amplifier, Chopper Amplifier.

UNIT III INSTRUMENTS USED FOR DIAGNOSIS 9 hrs.

ECG, Einthoven Triangle, Leads, Electrodes, Vector Cardiograph, Measurement of Cardiac Output, EEG, EMG,

Plethysmography, Blood Flow Measurements, Holter Monitor- Respiratory Rate Measurement – Oximeter, PatientMonitoring System, ICCU.

UNIT IV MODERN IMAGING SYSTEM 10 hrs.

Ultrasonic Diagnosis, Ultrasonic Scanning, Isotopes in Medical Diagnosis- Pace Makers, Defibrillators, DopplerMonitor(colour), Medical imaging-X-ray generation, Radiographic & Fluoroscopic Techniques – Image

Intensifiers-Computer Aided Tomography, PET, SPECT- Laser Applications-Echocardiography-CTScan-MRI/NMR-Endoscopy.

UNIT V RECENT TRENDS & INSTRUMENTS FOR THERAPY 10 hrs.

Dialysers – Surgical Diathermy – Electro Anaesthetic and Surgical Techniques. Sources of Electric Hazards andSafety Techniques. Single Channel Telemetry, Multi channel Telemetry, Implantable Telemetry, Wireless Telemetry,

Telemedicine, Telemedicine Applications.

TEXT BOOKS:

1. Khandpur, “Handbook of Biomedical Instrumentation” 2nd Edition, Tata McGraw Hill, 2003.

2. M.Arumugam, “Biomedical Instrumentation”, Anuradha Publications, Reprint 2009.

REFERENCE BOOKS:

1. Leslie Cromwell, Fred J. Werbell and Eruch A. Pfeigger, “Biomedical Instrumentation and Measurements” 2nd Edition

2. W.J.Tompkins and J.G. Webster, "Design of Microcomputer Based Medical Instrumentation", Prentice Hall, 1991

3. L.A. Geddes and L.E. Baker, "Principle of Applied Biomedical Instrumentation" 3rd Edition, Wiley, 1989

4. D.W. Hill, "Principle of Electronics for Medical Research", 2nd Edition, Butterworths, 1965.







7/15/2019 EI


SECX1064DATA ACQUISITION AND COMMUNICATION

SYSTEMS


3 0 0 3 100

UNIT I DATA CONVERTERS 10 hrs.

Definition, Design and need for Data Acquisition Systems -D/A Converters-Implementing a DAC Function-Useof Ladder Networks-Bipolar Coded DACs -A/D Converters-Parallel A/D, Feedback A/D, Ramp type A/D, Dual slopeA/D, Successive Approximation A/D-Comparison of A/D Conversion Techniques- Microprocessor/PC based DataAcquisition Systems

UNIT II COMPUTER NETWORKS 10 hrs.

Topology- TCP/IP-Data Link Control Protocol-BISYNC,SDLC.HLDC,LLA,MA-

Principles of Internet Working-Repeaters, Hubs, Bridges, Switches, Routers, Gateways-Internet Protocol-Encoding-Types of Encoding-Frequency and time-division Multiplexing techniques

UNIT III AMPLITUDE MODULATION 8 hrs.

Modulation- Need for Modulation- AM-Frequency Spectrum- Power Relation – Different types of Modulators- SSBand VSB Generation-AM Transmitters- Block Diagram- Functions of each block – High level and Low Level Transmitters.

UNIT IV FREQUENCY MODULATION 10 hrs.

Angle Modulation-Principle of Frequency and Phase Modulation-Relation between FM and PM Waves- Band

width of FM-Narrow Band And Wide Band FM Wave- Generation of FM wave- Direct and Indirect Methods –FMTransmitters-Block Diagram- Functions of each block

UNIT V DETECTORS & RECEIVERS 12 hrs.

Detection and Receivers –Detection of AM Waves-Diode Detectors-Synchronous Detectors-FM Detectors-PhaseDiscriminators-Ratio Detectors. Receivers-Different types-Superheterodyne receivers-Block Diagram-Choice of IF andOscillator Frequencies- Tracking-Alignment-AVC,AFC, Receiver Characteristics.

TEXT BOOKS:1. G.B.Kennedy, “Electronic Communication Systems”, 4th Edition, Tata McGraw Hill, 1993.

2. Anokh Singh, “Principles of Communication Engineering” S.Chand & CO.

3. A.S.Tanenbaum, Computer Networks ,3rd Edition, Prentice Hall of India, 1996

REFERENCE BOOKS:

1. G.B.Clayton, “Data Converters”, The Macmillan Press Ltd., 1982

2. Roddy D.Coolen.J, “Electronic Communications”, 4th Edition, PHI, 2007.

3. Taub and Schlling, “Principles of communication systems”, Tata McGraw Hill, New Delhi, 1995.

4. Behrouz A Forouzan, "Data Communication and Networking".

5. Simon Haykin, “Communication System, John Wiley & Sons, 4th Edition, 2001

6. Bruce Carlson et al., “Communication Systems”, Tata McGraw Hill, 4th Edition, 2002.







7/15/2019 EI


SECX1021FUNDAMENTALS OF VLSI DESIGN



3 0 0 3 100

UNIT I MOS TRANSISTOR THEORY 10 hrs.

The MOS transistor-Current Voltage Relations-Threshold Voltage-Second order effects-MOS models-Design of

Logic gates-Stick diagrams – DC characteristics – Small signal AC characteristics of CMOS inverter – Dynamic behavior – Power consumption – Scaling of MOS circuits.

UNIT II COMBINATIONAL LOGIC DESIGN 10 hrs.

Static CMOS design – Determination of Pull-up and Pull-down ratio-Sizing of transistors – Ratioed logic-Passtransistor logic – Dynamic CMOS design – Noise consideration – Domino logic, np CMOS logic – Power consumption

in CMOS gates – Multiplexers – Transmission gates design.

UNIT III SEQUENTIAL LOGIC DESIGN 10 hrs.

Introduction – Static sequential circuits- CMOS static flip-flop – Dynamic sequential circuits – Pseudo static latch

- Dynamic two phase flip-flop – clocked CMOS logic – C2

MOS latch- Pipelining – NORA CMOS logic – True singlephase clocked logic – Realization of DFF in TSPC logic.

UNIT IV SUBSYSTEM DESIGN 10 hrs.

Introduction-Designing Static and Dynamic Adder circuits – The Array Multiplier – Multiplier structures-Baugh-Wooly – Booth Multiplier – Barrel shifter – Memory structures – SRAM and DRAM design – Design approach

of Programmable logic devices – PLA, PAL and FPGA.

UNIT V INTRODUCTION TO VHDL 10 hrs.

Digital system design process – Language elements of VHDL- Operators-Data Types – Signal assignments –

Concurrent and Sequential assignments-Process statement – Wait statement – If statement - Loop statement - Assertionstatement – Data flow modeling - Structural modeling – Behavioral Modeling- Examples

Total Hours: 50

TEXT BOOKS

1. Jan M.Rabaey, “Digital Integrated Circuits”, 2nd Edition, September 2000, PHl Ltd.

2. M.J.S.Smith, “Application Specific Integrated Circuits”, Ist Edition 1997, Pearson Education.

REFERENCE BOOKS

1. Douglas A.Pucknell, “Basic VLSI design”, PHI Limited 1998.

2. E.Fabricious, “Introduction to VLSI design”, Mc Graw Hill Limited 1990.

3. Neil Weste, “Principles of CMOS VLSI design”, Addison Wesley 1998.

4. Wayne Wolf, “Modern VLSI design”, 2nd Edition 2003, Pearson Education.

5. Sung-Mo Kang & Yusuf “CMOS Digital Integrated Circuits- Analysis & Design”, 2nd Edition, MGH.



Part A : 6 Questions of 5 marks each – No choice 30 marks

Part B : 5 Questions from each of the five units of internal choice, each carrying 10 marks each 50 marks



7/15/2019 EI


SICX1014 LOGIC AND DISTRIBUTED CONTROL SYSTEMSL T P Credits Total Marks

3 1 0 4 100

UNIT I PROGRAMMABLE LOGIC CONTROLLER (PLC) BASICS 10 hrs.

Definition- overview of PLC systems - Input/ Output modules - Power supplies –IO slots. General PLCprogramming procedures - programming on-off outputs. Auxiliary commands and functions - creating ladder diagrams

from process control descriptions. PLC basic programming – digital logic Gates-boolean algebra. Basic PLCfunctions-register basics - timer functions - counter functions.

UNIT II PLC INTERMEDIATE FUNCTIONS 12 hrs.

Arithmetic functions - number comparison functions - skip and MCR functions - data move systems. PLCAdvanced intermediate functions- utilizing digital bits - sequencer functions - PLC Advanced functions:alternate-programming languages - operation. PLC-PID functions -PLC installation - trouble shooting and maintenance

- controlling a robot - processes with PLC - design of inter locks and alarms using PLC.

UNIT III INTERFACE AND BACKPLANE BUS STANDARDS FOR INSTRUMENTATION SYSTEMS 6 hrs.Field bus: Introduction - concept - international field bus standards. HART protocol: method of operation - structure

- operating conditions and applications.

UNIT IV DISTRIBUTED CONTROL SYSTEMS (DCS) 10 hrs.

Evolution of DCS - building blocks – different architectures-comparison of architectures-detailed descriptions and

functions of local control units – basic elements & functions-operator stations - data highways - redundancy concepts.

Unit V DISTRIBUTED CONTROL SYSTEMS :COMMUNICATION FACILITIES 12 hrs.

DCS communication Facilities-communication system requirements-architectural issues-protocol

issues-communication system standards-operator interfaces-low level and high level operator interfaces-Engineeringinterfaces- low level and high level Engineering interfaces

TEXT BOOKS:

1. John Webb, W, Ronald Reis, A.,: “Programmable Logic Controllers Principles and Applications”, 3rd Edition, Prentice hall Inc., New

Jersey, 1995.

2. Krishna Kant, “Computer based Industrial Control”, Prentice Hall India. 1997.

3. Lucas, M.P.,: “Distributed Control Systems”, Van Nostrand Reinhold Co., New York, 2nd Edition, 1986

REFERENCE BOOKS:

1. Petruzella., “Programmable Logic Controllers” 3rd Edition, Tata McGraw Hill, Newyork.

2. Hughes, T. “Programmable Logic Controllers”, ISA Press 1994. 4th Edition.

3. Mckloni, D.T. “Real Time Control Networks”, ISA Press 1994.







7/15/2019 EI


SICX1015ANALYTICAL INSTRUMENTATION



3 0 0 3 100

UNIT I PH CONDUCTIVITY & DISSOLVED COMPONENT ANALYSER 5 hrs.

Sampling systems – ion selective electrodes – conductivity meters – pH meters - dissolved oxygen analyser –sodium analyser – silica analyser – moisture measurement.

UNIT II GAS ANALYSER 9 hrs.

Oxygen analyser – CO monitor – NOx analyser – H2S analyser – dust and smoke measurement- thermal

conductivity type – thermal analyser – industrial analysers.

UNIT III CHROMATOGRAPHY 10 hrs.

Gas chromatography – liquid chromatography – principles, types and applications – high-pressure liquidchromatography – detectors.

UNIT IV SPECTRO PHOTOMETERS 13 hrs.

Spectral methods of analysis – Beer’s law UV – visible spectrophotometers – single beam and double beaminstruments – source and detectors – IR spectrophotometers – sources and detectors – FTIR spectrometers –atomic

absorption spectrophotometer – flame emission spectrophotometers – sources of flame photometry –applications.

UNIT V NUCLEAR MAGNETIC RESONANCE AND RADIATION TECHNIQUES 13 hrs.

NMR – basic principle – NMR spectrometers – applications – introduction to mass spectrophotometers –nuclearradiation detectors – GM counter – proportional counter – solid state detectors – introduction – to x-ray spectroscopy.

TEXT / REFERENCES BOOKS:

1. R.S. Khandpur, “Handbook of Analytical Instruments”, 2nd Edition, Tata McGrawHill, New Delhi, 2006.

2. Gurdeep R. Chatwal, Sham.K. Anand, “Instrumental methods of Chemical Analysis” Himalaya Publishing house, Reprint 2006.

3. Hobart H. Willard, Lynne.L. Merrit, John A. Dean, Frank A.Settle, “Instrumental Methods of Analysis”, 7th Edition,CBS Publishing &

Distribution, 1986.

4. Robert D. Braun, “Introduction to Instrumental Analysis”, Pharma Book Syndicate, Hyderabad, Reprint 2006.

5. Douglas.A. Skoog, F. James Holker, Stanley R. Gouch, “Instrumental Analysis”, Cengage Learning India, India Edition 2008.

6. R.K. Jain, “Mechanical & Industrial Measurements”, Khanna Publishers, 11th

Edition, 2004.







7/15/2019 EI


SICX4004 INDUSTRIAL INSTRUMENTATION LABL T P Credits Total Marks

0 0 4 2 100

List of Experiments1. Level measurement using d/p transmitter

2. Flow measurement using Orifice and Venturi meter

3. Calibration of Thermocouple 4. Calibration of Pressure transmitter

5. Torque measurement 6. Viscosity measurement

7. UV-Visible Spectrophotometer 8. IR Spectrophotometer

9. Vacuum Pressure measurement

10. Conductivity meter calibration and measurements of conductivity of test solutions.

11. pH meter standardization and measurement of pH values of test solutions

12. Radiation Pyrometer & IR Thermometer

SICX4005 SYSTEM DESIGN LABL T P Credits Total Marks

0 0 4 2 100

List of ExperimentsUSING MATLAB

1. Design of digital controller using dead beat algorithm.

2. Design of digital controller using Dahlin’s algorithm

3. Design of digital controller using Kalman’s algorithm

USING VHDL

4. Implementation of Logic gates

5. Design of Half adder and Full adder

USING LAB VIEW

6. Building of VI to demonstrate conversion of Centigrade to Fahrenheit and create a subroutine for conversion ofCentigrade to Fahrenheit

7. Building of VI to demonstrate software timings while loop and waveform chart.8. Building VI for analysing and logging of data

9. Building of VI to demonstrate Multi-plot graph using waveform charts

10. Building of VI to demonstrate error clusters and handling.

11. Building of VI to stimulate simple test sequence using simple state machine architecture.

12. Building of VI to design Multimeter.

S18XPROJ PROJECT WORK & VIVA-VOCEL T P Credits Total Marks

0 0 30 15 100

The objective of the project work is to make use of the knowledge gained by the student at various stages ofthe degree course. Students, will also be permitted to undertake industrial/consultancy project Work, outside the

department, in industries/Research labs.There shall be three assessments during the semester by a review committee. The student shall make three

presentations on the progress made before the committee at various stages of the Project work. The Head of theDepartment shall constitute the review committee for each branch of study. The total marks obtained in the threereviews, shall be taken in to account. There will be a viva-voce examination at the end of the Project work, conductedby one internal examiner and one external examiner. The total marks secured will be the sum of marks secured inthe Project reviews and Viva Voce Examination.

Each student is required to submit a Project report on the project assigned to him by the department. Thereport should be based on the information available in the literature or data obtained by the student by way ofexperiments conducted in the laboratory/industry.



7/15/2019 EI


SICX1012SOFTWARE FOR SYSTEM DESIGN



3 0 0 3 100

UNIT I INTRODUCTION TO MATLAB 10 hrs.

Introduction- function description-data types-tool boxes- graphical display-import and export of data-programs forsolution of state equation-controller design-limitation-simple control application programs.

UNIT II MATLAB PROGRAMMING 10 hrs.

Numerical solution- Rungekutta method - Adam bass worth technique- solution of ordinary differential equation-

simulation of first order, second order and lead-lag transfer function- Matlab routine for step and impulse response -development of dynamic model and Laplace domain model using MATLAB

UNIT III SIMULINK 10 hrs.

Introduction-graphical user interface- starting - selection of objects- blocks-lines- simulation-applicationprograms-limitations- FIS editor- study of fuzzy logic tool box-GUI editor-rule view-membership function editor- ruleeditor.

UNIT IV INTRODUCTION TO VIRTUAL INSTRUMENTATION 10 hrs.

Introduction to virtual instrumentation-VI’s and sub VI’s, loops and charts, arrays, cluster and graphs, case and

sequence structure, formula nodes, local and global variables, string and file I/O.

UNIT V INSTRUMENT INTERFACE AND USE OF ANALYSIS TOOLS 10 hrs.

DIO, RS232/RS485, GPIB,USB & PCMCIA – VISA and IVI-networking basics for office & industrial applicationsFourier transform, power spectrum, correlation methods, windowing and filtering, VI applications in instrumentation andcontrol, robotics, networking and communication, image acquisition and processing.


1. Sokoloff, “Basic Concepts of Lab View 4”, Prentice Hall, 1998.

2. Katsuhiko Ogata, “Morden Control Engineering”, 4th Edition, PHI, New Delhi, 2006.

3. MATLAB user manual

4. SIMULINK user manual

5. Gary Johnson, “Lab View Graphical Programming”, Ide,Mcgraw Hill,1997

6. Lisa. K.Well & Jeffery Travels, “Lab View For Every One”, Prentice Hall, 1997.

7. Gupta. S, Gupta. J.P, “PC Interfacing For Data Acquisition & Process Control”, 2nd Edition, Instrument Society of America, 1994.







7/15/2019 EI


SICX1016FUNDAMENTALS OF MECHATRONICS

(Common to EIE, E&C, ECE, EEE, ETCE & BIOMED)


3 0 0 3 100


Mechatronics: Definition & Key Issues – Evolution – Elements – Mechatronics Approach to Modern EngineeringDesign.

UNIT II SENSORS AND TRANSDUCERS 10 hrs.

Types – Displacement, Position and Proximity & Velocity Sensors – Signal Processing – Data Display.

UNIT III ACTUATION SYSTEMS 10 hrs.

Introduction to Mechanical Types and Electrical Types – Pneumatic & Hydraulic Systems – Applications –

Selection of Actuators

UNIT IV CONTROL SYSTEMS 10 hrs.

Types of Controllers – Microprocessor Applications in Mechatronics- 2 case studies in automobiles, and 2 casestudies in robotics, – Programming Interfacing – Computer Applications

UNIT V RECENT ADVANCES 10 hrs.

Manufacturing Mechatronics – Automobile Mechatronics -2 Case Studies – Medical Mechatronics – 2 Case Studies

TEXT BOOKS:

1. W.Bolton. N, “Mechatronics: Electronic Control System for Mechanical & Electrical Engineering”, 2nd Edition, Pearson Education, 2004.

2. Dr. K.P. Ramachandran, G.K. Vijaya Raghavan, Mechatronics, A.R.S. Publications, Second Edition, 2008.

REFERENCE BOOKS:

1. D.A. Bradly, D. Dawson, N.C.Burd and A.J. Loader, “Mechatronics: Electronics in Products and Processes” Nelson Publisher, 2004.

2. Michael B.Histand & David G.Alciators, “Introduction to Mechatronics & Measurement systems”, McGraw- Hill International Editions,

1998.

3. Dan Necsulescu, “Mechatronics”, Pearson Education, 2005.







7/15/2019 EI


SICX1020THEORY OF ROBOTICS AND AUTOMATION

(Common to EIE, E&C, ECE, ETCE, EEE & BIOMED)


3 0 0 3 100

UNIT I BASIC CONCEPTS 10 hrs.

Origin & various generation of Robots - Robot definition - Robotics system components – Robot classification

- Coordinate frames - Asimov’s laws of robotics – degree of freedom – work volume - Need for Automation - typesof automation – fixed, programmable and flexible automation.

UNIT II SENSORS AND VISION SYSTEM 10 hrs.

Sensing - Range, proximity, position, velocity, acceleration, Touch, Force, Torque. Optical & laser sensors.Machine vision - Introduction, Image acquisition, Illumination Techniques, Image conversion, Cameras, Image processingand analysis – image data reduction – segmentation feature extraction – Object recognition.

UNIT III GRIPPERS AND ROBOT DYNAMICS 10 hrs.

Introduction - various types of grippers-design considerations. Construction of Manipulator – Introduction to Robot

Dynamics – Lagrange formulation – Newton Euler formulation – Properties of robot dynamic equations.

UNIT IV KINEMATICS AND PATH PLANNING 10 hrs.

Forward Kinematics – Denavit Hartenberg Representation. Inverse Kinematics – Geometric approach.

UNIT V PROGRAMMING LANGUAGES AND APPLICATIONS 10 hrs.

Robot programming - Fixed instruction, sequence control, General programming language, Specific programming

languages. Robots for welding, painting and assembly – Remote Controlled robots – Robots for nuclear, thermal andchemical plants.

TEXT BOOKS:

1. Mikell P. Groover, Weiss M. Nagel R.N. Odrey. N.G. , “Industrial Robotics”, Tata McGraw Hill, 3rd Reprint, Edition 2008.

2. Deb.S.R. “Robotics Technology and Flexible Automation”, Tata McGraw Hill, 9th Reprint 2004.

3. K.S Fu, R C.Gonzalez, CSG Lee- “Robotics”, McGraw Hill, Edition 2008.

REFERENCE BOOKS:

1. John J Craig “Introduction to Robotics Mechanics & Control, Low price Edition, 7th Reprint, 2005.

2. Ghosh, “Control in Robotics and Automation : Sensor Based Integration”, Allied Publishers.







7/15/2019 EI


SICX1025SATELLITE INSTRUMENTATION



3 0 0 3 100

UNIT I ELEMENTS OF SATELLITE COMMUNICATION AND SUBSYSTEMS 10 hrs.

Satellite systems, orbital description, Orbital mechanics of LEO, MEO and GSO, Placement of a satellite in a

GSO, Satellite – description of different communication subsystems, Bandwidth allocation, Satellite subsystems, attitudeand orbit control systems, TTC&M, communication subsystem, satellite antenna satellite link design: basic transmissiontheory, system noise temperature and G/T ratio, downlink design, uplink design, satellite systems using small earth

station, design for specified C/N.

UNIT II LINK CALCULATIONS AND DESIGN 10 hrs.

Space craft configuration, payload and supporting subsystems, satellite uplink – downlink power budget, C/No,G/T, Noise temperature, system noise, propagation actors, Rain and ice effects, Polarization calculations, Link designwith and without frequency reuse.

UNIT III SATELLITE CONTROL 10 hrs.

Attitude control of satellites, Reaction wheel, Momentum wheel, Thrusters, Stabilization satellites, Spin stabilization.

Gravity gradient stabilization, yo-yo mechanism, control moment gyros, orbit determination of satellites, sensors insatellite ADCS. Dual spinners, navigation of satellites, ascent guidance, satellite rendezvous. Tethered satellite systems,satellite services, space stations, docking of spacecrafts.

UNIT IV SATELLITE INSTRUMENTATION 10 hrs.

Advanced very high resolution radiometer, high-resolution infrared radiation sounder, Microwave sounding unit,stratospheric sounding unit, advanced microwave sounding unit, solar backscatter ultraviolet radiometer, GOES imagerand sounder.

UNIT V SATELLITE APPLICATIONS 10 hrs.

INTELSAT series, INSAT, VSAT, Remote sensing, Mobile satellite, Service: GSM, GPS, INMARSAT, Satellite

navigation system, Direct to home service (DTH), special services, E-mail, Video conferencing and internet connectivity


1. Marshall. H Kalpan ‘Modern Spacecrafts Dynamics and Control’ John Wiley & sons, 1976.

2. Wilbur L. Pritchard and Joseph A. Sciulli, “Satellite Communication Systems Engineering”, Prentice hall, New Jersy, 1986

3. Timothy Pratt and Charles W. Bostain, “Satellite Communications”. John Wiley and sons, 1986

4. Tri T Ha, “Digital Satellite Communication”, Macmillan Publishing company, 1990.

5. Wilbur L. Pritchard, Hendri G. Suyderhood, Robert A. Nelson, “Satellite Communication Systems Engineering”. 2nd Edition, Prentice

Hall, New Jersy, 1993

6. Dennis Rody, “Satelite communication”, Regents/Prentice Hall, Eaglewood Cliff, New Jersey, 1983

7. Tri T Ha, “Digital Satellite Communication”, 2nd edition, McGraw Hill, New york, 1990

8. Feher.K, Digital Communication Satellite / Earth Station Engineering, Prentice Hall Inc. New Jersey, 1983







7/15/2019 EI


SICX1026ULTRASONIC INSTRUMENTATION



3 0 0 3 100

UNIT I ULTRASONIC WAVES CHARACTERISTS 10 hrs.

Ultrasonic waves: principle and propagation of various waves, characterization of ultrasonic transmission, reflection

and transmission coefficients, intensity and attenuation of sounds beam .power level, medium parameters.

UNIT II ULTRASONIC WAVE GENERATION 10 hrs.

Generation of ultrasonic waves: magnetostrictive and piezoelectric effects, search unit types, construction andcharacteristics

UNIT III ULTRASONIC TEST METHODS 10 hrs.

Ultrasonic test methods: pulse echo, transit time, resonance, direct contact and immersion type and ultrasonic

methods of flaw detection.

UNIT IV ULTRASONIC MEASUREMENTS 10 hrs.

Ultrasonic measurements: ultrasonic methods of measuring thickness, depth and flow, variables affecting ultrasonictesting in various applications.

UNIT V ULTRASONIC APPLICATIONS 10 hrs.

Ultrasonic applications: ultrasonic applications in medical diagnosis and therapy, acoustical holography.


1. J.David N. Cheeke, Fundamentals And Applications of Ultrasonic Waves, CRC Press 2002.

2. Dale Ensminger, Ultrasonic: Fundamentals, Technology, Applications, CRC press, 1988, Second Edition.

3. Baldev Raj, Palanichamy P., Rajendran. V, Science And Technology Of Ultrasonic, Alpha Science, 2004.







7/15/2019 EI


SICX1029PROCESS CONTROL SYSTEM COMPONENTS



3 0 0 3 100

UNIT I FLOW AND TEMPERATURE SYSTEM 10 hrs.

Orifice meter – design of orifice for given flow condition – design of rotameter – design of RTD measuring

circuit – design of cold junction compensation circuit for thermocouple using RTD – Transmitters – Zero and spanadjustment in D/P transmitters and temperature transmitters.

UNIT II PRESSURE AND LEVEL SYSTEM 10 hrs.

Bourdon gauges – factors affecting sensitivity – design of Bourdon tube – Design of Air purge system for level

measurement. Electronic P + I + D controllers – design – adjustment of set point, bias and controller settings.

UNIT III CONTROL VALVES 10 hrs.

Control valves – design of actuators and positioners – types for valve bodies – valve characteristics – materialsfor body, and trim – sizing of control valves – selection of body, materials and characteristics of control valves fortypical applications.

UNIT IV PUMPS 10 hrs.

Types of pumps – pump – performance – pipe work calculation – characteristics of different pumps – pumpoperation maintenance – instruments used in pumping practice pump noise and vibration – selection of pumps.

UNIT V LOGIC CIRCUIT 10 hrs.

Design of logic circuits for alarm and annunciator circuits, interlocks – design of microprocessor based

P + I + D controller.

TEXT BOOKS:

1. N.A. Anderson, “Instrumentation for Process Measurement and Control”, Chillton Company, 1980, 3rd Edition, 1997, CRC Press

2. D.M. Considine, “Process Instruments and Controls Handbook”, McGraw Hill Book Co. 1985, McGraw Hill Professional, 5th

Edition,1999.

REFERENCES:

1. R.H. Warring, “Pumping Manual”, Gulf Publishing Co., 1984.

2. C.D. Johnson, “Process Control Instrumentation Technology”, Prentice Hall Inc.. 7th Edition, 2002.

3. Terry Bartelt, “Instrumentation and Process Control”, Nov.28, 2006, Delmar Cengage Learning.

4. Donald.P. Eckman, “Automatic Process Control’, Wiley Eastern Ltd., New Delhi, 1993.





100% Numerical may be asked



7/15/2019 EI


SICX1022DIGITAL CONTROL SYSTEMS

(Common to E&C, EIE, EEE and ETCE)


3 0 0 3 100

UNIT I REVIEW OF SAMPLED DATA CONTROL SYSTEM 10 hrs.

Review of Sampled Data Control System – Sample and Hold Operation – Review of Z Transform- Pulse TransferFunction – Z Domain Equivalents to S Domain

UNIT II STABILITY ANALYSIS 10 hrs.

Stability Analysis – Correlation between Time Response and Root Location in the Z Plane – Effect of PoleZero Configuration in Z Plane – Transient Response of Sampled Data – Steady State Error

UNIT III STATE SPACE ANALYSIS 10 hrs.

Discrete Time State Equation – State Diagram – Realization of Pulse Transfer Function – Direct Realization -Cascade Realization – Parallel Realization – Sampled Data Model of Continuous Time System – Concepts of

Controllability and Observability – Systems with Dead Time.

UNIT IV DESIGN SPECIFICATION 10 hrs.

Transform of Digital Control System – Design Specification – Design on the W Plane – Digital PID Controller – Introduction to Design on the Z Plane.

UNIT V IMPLEMENTATION OF CONTROL ALGORITHM 10 hrs.

Implementation of Control Algorithm using Microprocessor – General Description of Micro Controller – DigitalQuantization – Signal Quantization

TEXT BOOK:

1. Gopal. M, “Digital Control Engineering”, Willey Eastern Publishers,1998.

REFERENCE BOOKS:

1. Nagrath. I.J. “Control System Engineering”, New Age International, 2006.

2. Yoan D. Landau, Gianluca Zito, “Digital Control System: design, identification and implementation”, Springer, 2006.







7/15/2019 EI


SICX1023ADAPTIVE CONTROL SYSTEM



3 0 0 3 100


Introduction to Adaptive Control – Effects of Process Variations – Adaptive Control Schemes – Adaptive ControlProblems – Non Parametric Identification – Classifications of Adaptive Control Systems

UNIT II PARAMETRIC IDENTIFICATION 10 hrs.

Linear in Parameter Models – ARX – ARMAX – ARIMAX – Least Square Estimation – Recursive Least Square

Estimation – Extended Least Square Estimation – Maximum Likelihood Estimation – Introduction to Nonlinear SystemsIdentification – Pseudo Random Binary Sequence.

UNIT III SELF - TUNING REGULATORS 10 hrs.

Different Approaches to Self Tuning – Implicit and Explicit STR – LQG Self Tuning – Introduction to StochasticSelf Tuning Regulators – Stochastic Indirect Self Tuning Regulators

UNIT IV MODEL REFERENCE ADAPTIVE CONTROLLER 10 hrs.

Different Configurations and Classifications of MRAC – Direct and Indirect MRAC – MIT Rule for ContinuousTime MRAC Systems – Lyapunov Approach and Hyper Stability Approach for Continuous – Time and Discrete Time

MRAC Systems – Relation Between MRAC and STR.

UNIT V RECENT TRENDS AND APPLICATIONS OF ADAPTIVE CONTROL 10 hrs.

Recent Trends in Self Tuning – Design of Gain Scheduling Controller – Auto Tuning of PID Regulator – StabilityAnalysis of Adaptive Controllers – Application of Adaptive Control in Chemical Reactor, Distillation Column, VariableArea Tank System


1. Karl J. Astrom & Bjorn Wittenmark, “Adaptive Control”, Pearson Education (Singapore) Second Edition, 2003

2. Chalam. V. V., “Adaptive Control Systems, Techniques & Applications”, Maral Dekker, Inc. NY and Basel, 1987.

3. Astry. S & Bodson. M, “Adaptive Control”, Prentice Hall, 1989.

4. Narendra & Annasamy, “Stable Adaptive Control Systems”, Prentice Hall, 1989.

5. Eve Leigh, V.W., “Adaptive Control and Optimization Techniques”, McGraw Hill, 1967.

6. Hsia T.C.H.A., “System Identification”, Lexington Books, 1974.

7. Stephanopoulos G. “Chemical Process Control”, Prentice Hall Of India, New Delhi, 1990.







7/15/2019 EI


SICX1017

INSTRUMENTATION AND CONTROL IN

PETROCHEMICAL INDUSTRIES

(Common to EIE and E&C)


3 0 0 3 100

UNIT I INSTRUMENTATION AND CONTROL IN DISTILLATION COLUMNS & REACTORS 12 hrs.

Introduction to petroleum exploring, processing and refining constituents of crude oil – P& I diagram of petroleumrefinery Instrumentation and control in distillation columns: distillation equipment- variable and degrees of freedom -measurement and control of column pressure - liquid distillate -vapour distillate and inserts - control of feed, re-boilerand reflux - use of gas chromatograph-cascade and feed forward controls. Temperature control and pressure controlin batch reactors.

UNIT II INSTRUMENTATION AND CONTROL IN DRYERS AND HEAT EXCHANGERS 10 hrs.

Control of batch dryers and continuous dryers.- Instrumentation and control in heat exchangers: variables anddegree of freedom - liquid to liquid heat exchangers - steam heaters – condensers -reboilers and vaporizers -use ofcascade and feed forward control.

UNIT III CONTROL OF PUMPS 8 hrs.

Centrifugal pumps- on-off level control-pressure control-flow control- throttling control

Rotary pumps- on-off pressure control, Reciprocating pumps- throttling, On-Off control

UNIT IV INSTRUMENTATION AND CONTROL IN EFFLUENT AND WATER TREATMENT 10 hrs.

Chemical oxidation -chemical reduction -neutralization -precipitation -biological control.

UNIT V INSTRUMENTATION AND CONTROL IN EVAPORATORS AND INTRINSIC SAFETY 10 hrs.

Types Of Evaporators - Measurement And Control Of Absolute Pressure, Density, Conductivity, DifferentialPressure And Flow In Evaporators- Intrinsic Safety Of Instruments

TEXT BOOKS:

1. Bela.G. Liptak - Instrumentation In The Processing Industries - Chilton Book Company, 1994.

2. R.F. Goldstien, A.L.Waddams, ‘Petroleum Chemicals Industry’, Spon-Publisher, 3rd Edition,1967.

REFERENCE BOOKS:

1. D.M. Considine and S.D.Ross - Handbook Of Applied Instrumentation -Mcgraw Hill, 1964.

2. Curtis D.Johnson, ‘Process Control Instrumentation Technology’, 17th Edition, Pearson Education, New Delhi, 2002.

3. George.T. Austin, Shreeve’s Chemical Process Industries, 5th Edition, McGraw Hill, 1998.4. Balchan J.G and Mumme K.I, ‘Process Control Structures and Applications’, Van Nostrand Reinhold Company, New York, 1988.







7/15/2019 EI


SICX1018

INSTRUMENTATION AND CONTROL IN PULP &

PAPER INDUSTRIES



3 0 0 3 100

UNIT I PULPING AND PAPER MAKING PROCESS 10 hrs.Flow Diagram and description of the process – raw materials - Pulping process – Chemical recovery process

– Paper making process – Converting.

UNIT II PROCESS PARAMETERS 10 hrs.

Special Process Parameters – Measurements of basic weight – Density - Specific gravity –Flow – level andsolids - Pressure -Temperature - Consistency – Moisture – pH – Oxidation –Reduction potential – Graphic displays

and alarms.

UNIT III CONTROL SYSTEMS 10 hrs.Typical Control Systems – Blow tank controls – Digester liquor feed pump controls – Brown stock washer level

control – stock chest level control – Basic weight control – Dryer temperature control.

UNIT IV CONTROL APPLICATIONS 10 hrs.

Special Control applications – Dissolving tank density control – White liquor classifier density control – Whiteliquor flow control – Condensate conductivity control.

UNIT V COMPUTER APPLICATIONS 10 hrs.

Computer Application – Evolution of control – Programmable logic Controllers – Distributed Control Systems(DCS) – Applications for paper machine Controls.

TEXT BOOKS:

1. LIPTAK B.G., “Process Measurement And Analysis” Third Edition, Chilton Book Co., 1995.

2. Douglas M..Considine, “Process / Industrial Instruments & Controls Hand Book”, Fourth Edition, McGrawhill, 1993.

REFERENCE BOOKS:

1. Hobart.H.Willard, Lyne.L..Meritt, John.A.Dean, Frank.A.Settle, “Instrumental method of Analysis”, Seventh Edition, CBS Publishers &

Distributors, 1986.







7/15/2019 EI


SICX1024

INSTRUMENTATION IN AEROSPACE &

NAVIGATION



3 0 0 3 100

UNIT I AIR CRAFT AND AEROSPACE VEHICLE INSTRUMENTATION 10 hrs.Air data instruments: altimeter, air speed rate of climb – gyroscopic instruments – turn and back indicator –

artificial horizon – directional Gyro Schuler Tuning, Stable Platform – Introduction to Automatic pilots – integrated flight

instruments – altitude compensation.

UNIT II RADIO NAVIGATION AIDS 11 hrs.

Automatic direction finder – distance measuring equipments -instruments landing system – visual omni range –radar – optical instruments – engine instruments and control – pressure measurements – thermal meter control –

tachometer – accelerometer – smoke and fire detection – propeller controls – twin blade control - cabin pressure andtemperature.

UNIT III SATELLITE AND SPACE VEHICLE INSTRUMENTATIONS 8 hrs.

GPS – propulsion controls – Sun sensors – Horizon sensors – star tracker – Stabilisation controls.

UNIT IV AIR CRAFT FLIGHT SIMULATION INSTRUMENTATION 10 hrs.

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. Simulation – Simulation of difficult conditions

– Weapons system trainer – Need for realism – Instrumentation.

UNIT V ELECTRICAL TROUBLES 11 hrs.Hydraulic systems troubles – landing gear troubles – cabin conditioning troubles – indication of unsafe canopy

– Boeing condition – Radio troubles – Separate generator – System troubles – Trouble indicator light – Advantagesof instrumentated flight – Black box and its use.

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 BOOK:

1. Douglas M. Considine and S.D. Ross, Handbook of Applied Instrumentation, McGraw Hill, 1965.







7/15/2019 EI


SICX1028POWER PLANT INSTRUMENTATION

(Common to EIE, E&C & EEE)


3 0 0 3 100

UNIT I OVERVIEW OF POWER GENERATION 10 hrs.

Brief survey of methods of power generation – Hydro, thermal, nuclear, solar wind and wave power – Importanceof instrumentation in power generation – Thermal power plants – Block diagram – Details of boiler processes - P&Idiagram of boiler – Cogeneration.

UNIT II MEASUREMENTS IN POWER PLANTS 10 hrs.

Electrical measurements – Current, voltage, power, frequency, power factor reactive power.

Non electrical parameters – Flow of feed water, fuel, air and steam with correction factor for temperature andpressure – Drum level measurement – Radiation detector – Smoke density measurement – Dust monitor.

UNIT III ANALYSERS IN POWER PLANTS 10 hrs.

Flue gas oxygen analyser – Analysis of impurities in feed water and steam -

Dissolved oxygen analyser – Chromatography – pH meter –Conductivity cell -

Fuel analyser – Pollution monitoring instruments. Spectrum analyser

UNIT IV CONTROL LOOPS IN BOILER 10 hrs.

Combustion control – Air/fuel ratio control – Furnace draft control – Drum level control – Main steam and reheatsteam temperature control – Super heater control – Air temperature – Deaerator control – Distributed control systemin power plants – Interlocks in boiler operation.

UNIT V TURBINE – MONITORING AND CONTROL 10 hrs.

Speed, vibration, shell temperature monitoring and control – Steam pressure control – Lubricant oil temperaturecontrol – Cooling system.

TEXT BOOKS:

1. Sam G. Dukelow, ‘The Control of Boilers’, Instrument Society of America, 1991.

2. P.K. Nag, ‘Power Plant Engineering’, Tata McGraw Hill, 2001.

REFERENCE BOOKS:

1. S.M. Elonka and A.L. Kohal, ‘Standard Boiler Operations’, Tata McGraw Hill, New Delhi, 1994.

2. R.K.Jain, ‘Mechanical and Industrial Measurements’, Khanna Publishers, New Delhi, 1995.3. E.Al. Wakil, ‘Power Plant Engineering’, Tata McGraw Hill, 1984.







7/15/2019 EI


SECX1040DIGITAL IMAGE PROCESSING

(Common to ECE, EIE, E&C, EEE & ETCE)


3 0 0 3 100

UNIT I IMAGE PERCEPTION AND SAMPLING 10 hrs.

Elements of Digital Image Processing Systems – Elements of Visual Perception – structure of human eye –light, luminance, brightness and contrast, mech band effect – image formation – Monochrome vision model – Image

fidelity criteria – Color vision model – Introduction to 2D system – linear, shift invarient, casual and stable systems – optical and modulation transfer function – 2D sampling theorem – Aliasing – reconstruction of image from samples – Practical limitations in sampling and reconstruction – Image quantization – Lloyd max quantizer – Optimum meansquare uniform quantizer.

UNIT II IMAGE TRANSFORMS 10 hrs.

Need for transform – 2D Orthogonal and Unitary transform and its properties – 1D & 2D DFT – Properties –

separability,translation, periodicity, conjugate symmetry, rotation, scaling,convolution and correlation – FFT – Statement,proof and properties of Separable transforms – Walsh, Hadamard, Haar, Discrete Sine, DCT, Slant, SVD & KLtransforms .

UNIT III IMAGE ENHANCEMENT AND RESTORATION 10 hrs.

Spatial domain method – point operation – Histogram modelling – Spatial operations – directional smoothening,median filtering, image sharpening, masking, edge crispening, interpolation – Transform operation – linear filtering, rootfiltering – Homomorphic filtering – Degradation model – diagonalization – Constrained and Unconstrained restoration – Inverse filtering – Wiener filter – generalised inverse, SVD and iterative methods.

UNIT IV IMAGE ANALYSIS AND PATTERN RECOGNIZATION 10 hrs.

Spatial feature extraction – Edge detection – Boundary extraction and representation – region and moment

representation – structure – Texture – Scene matching and detection – Image segmentation –Classification techniques-Pattern recognisation – Perceptron for two pattern classes – Training algorithm – Non seperable classes.

UNIT V IMAGE DATA COMPRESSION 10 hrs.

Fundamentals of coding – coding, inter pixel and psychovisual redundancy, fidelity criteria – Image compression

models – fundamental coding theorem – Shannon’s coding, Huffman coding – Pixel coding – Predictive techniques –lossy and lose less predictive coding – variable length coding – Transform coding – Zonal and thereshold coding –Image compression standards – CCITT and JPEG standards.

TEXT BOOKS:

1. Anil .K.Jain, Fundamentals of Digital Image Processing, 1st edition, PHI New Delhi, 1995.,

2. Gonzalez R.C. and R.E.Woods, Digital Image Processing, 2nd edition, Pearson Education Ltd 2002.

REFERENCE BOOKS:

1. William K Pratt, Digital Image Processing,,3rd edition, John Wiley & Sons, 2001.

2. Greenberg A.D. and S.Greenberg, Digital Images: A Practical Guide, ,1st edition, McGraw Hill,1995.

3. Nick Efford, Digital image Processing a practical introduction using JAVA, Pearson Education Ltd., 1st edition, 2000.

4. Edward R Dougherty, Electronic Imaging Technology, 1st edition, PHI, 2005.





(Distribution may be 25% Numericals and 75% Theory)



7/15/2019 EI


SECX1041PROGRAMMING IN MATLAB

(Common to ECE, ETCE, E&C, EEE & EIE)


3 0 0 3 100

UNIT I MATLAB ENVIRONMENT 10 hrs.

Defining Variables – functions – Matrices and Vectors –Strings – Input and Output statements -Script files –Arrays in Mat lab – Addressing Arrays – Dynamic Array – Cell Array – Structure Array – File input and output –Opening & Closing – Writing & Reading data from files.

UNIT II PROGRAMMING IN MATLAB 10 hrs.

Relational and logical operators – Control statements IF-END, IF-ELSE – END, ELSEIF, SWITCH CASE – FORloop – While loop – Debugging – Applications to Simulation – miscellaneous MAT lab functions & Variables.

UNIT III PLOTTING IN MATLAB 10 hrs.

Basic 2D plots – modifying line styles – markers and colors – grids – placing text on a plot – Various / SpecialMat Lab 2D plot types – SEMILOGX – SEMILOGY – LOG- LOG – POLAR – COMET – Example frequency responseof filter circuits.

UNIT IV APPLICATION OF MATLAB 10 hrs.

Linear algebric equations – elementary solution method – matrix method for linear equation – Cramer’s method – Statistics, Histogram and probability – normal distribution – random number generation – Interpolation – Analyticalsolution to differential equations – Numerical methods for differential equations.

UNIT V TOOL BOXES 10 hrs.

Simulink – Simulink model for a dead zone system, nonlinear system – Applications in DSP – Computation ofDFT & FFT – Filter structure –IIR & FIR filter design – Applications in Communication PCM, DPCM, DM, DTMF-

Interfacing of Matlab with event driven simulators.

TEXT BOOK:

1. Rudra Pratap, "Getting Started with MATLAB 6.0", 1st edition, Oxford University Press, 2004.

REFERENCE BOOKS:

1. William J.Palm, "Introduction to MATLAB 6.0 for Engineers", Mc Graw Hill & Co

2. M.Herniter, "Programming in MATLAB", Thomson Learning.

3. John G.Proakis, "Digital Signal Processing using MATLAB", Thomson Learning.







7/15/2019 EI


SECX1042ADVANCED ELECTRONICS TEST ENGINEERING

(Common to ECE, E&C, EIE, ETCE & EEE)


3 0 0 3 100

UNIT I INTRODUCTION TO PCB TECHNOLOGY 10 hrs.

Printed Circuit Boards(PCB)- Construction – Types of PCB- Multilayer – Surface Mount technology – PCBManufacturing process – PCB Inspection methods – Bare Board Testing – Optical and X – ray Inspection – Electrical

tests – Text fixtures – Bed of nails fixtures – Cross talk test – Mock up test – In circuit test – burn in test – Faultdiagnostic methods. Electromagnetic compatibility testing of electronic components, subassemblies, MeasuringInstruments and systems

UNIT II PCB TROUBLE SHOOTING PROCESS 10 hrs.

Symptom Recognition – Bracketing Technique – Component failure Analysis – Fault types and causes in circuits

– during manufacturing – Manual trouble shooting technique – Tools and Instruments DMM – CRO – PCO – Logicprobes – Logic pulsar – Logic Analyzer.

UNIT III AUTOMATED TROUBLE SHOOTING TECHNIQUES 10 hrs.

ATE Techniques – CPU Emulator technique – ROM amd ROM Emulators – In circuit Comparator – In CircuitFunctional test – Trouble shooting digital gates – Testing Linear Integrated Circuits – Guarding Technique – VI trace

Technique – Bus Cycle Signature System – Board functional test methods – Boundary scan test basics

UNIT IV ATE SYSTEM ARCHITECTURE 10 hrs.

ATE System Components – Digital Pin Electronics – Drive data formats – Digital High way – Analog Highway – Test Vector Generation – Creating test patterns – Fault Simulations.

UNIT V DESIGN FOR TESTABILITY (DFT) 10 hrs.

MDA test systems – Boundary scan test with I/O pin compatibility – Automatic optical inspection systems –Combinational ATE Systems – Design for testability – Observability and Controllability – Testing Flow diagram – Stuckat fault model – Fault simulation – Ad Hoc technique – Scan design technique – Basics of ATPG – BIST-Test pattern

generation for built in self test - Exhaustive pattern generation and deterministic testing – Output response Analysis

– Transition count syndrome checking – Signature Analysis – Circular BIST.

TEXT BOOKS:

1. Michael L.Bushnell et al., "Essentials of Electronic testing for digital, memory and mixed signal VLSI circuit", 1st edition, Academic

Press, 2002.

2. Randall L Geiger, Pillip E Allen, "VLSI Design Techniques for Analog and Digital Circuits", MGH, 1990.

REFERENCE BOOKS:

1. Parag.K.lala, Digital circuit Testing and Testability, 1st Edition, Academic press, 2001.

2. Alfred L.Crouch, "Design for test for Digital ICs and Embedded core systems", 2nd edition, PHI, 1999.

3. Sabapathy S.R., Test Engineering for electronic hardware, Qmax publishers, 1st Edition, 2007.







7/15/2019 EI


SECX1047EMBEDDED SYSTEMS



3 0 0 3 100

UNIT I SYSTEMS DESIGN 10 hrs.

Introduction to embedded systems – hardware and software components – types- examples- characteristics –challenges in embedded computing system design – embedded system design process.

UNIT II INTERFACE ISSUES OF EMBEDDED SYSTEMS 10 hrs.

I/O devices – examples – synchronous – Iso- synchronous and asynchronous communications from serial devices – UART- RS232-RS485-USB- Power issues- FPGA-ASIC- diagnostic port.

UNIT II TECHNIQUES FOR EMBEDDED SYSTEMS 10 hrs.

Interpreter – compiler- assembler – cross assembler – simulators & emulators – in-circuit emulators – high level

language description of s/w for embedded systems, java based embedded systems design.

UNIT IV REAL TIME OPERATING SYSTEMS 10 hrs.

Introduction to real time theory – operating systems – OS services – real time operating systems concepts –real time kernel –kernel services – task scheduling – interrupt processing – clocking communication & synchronization – control blocks, memory requirements and control – basic design using RTOS

UNIT V DESIGN EXAMPLES 10 hrs.

Cell phones, smartcard, digital thermometer – personal digital assistants – set top boxes – inkjet printers –telephone PBX. introduction to micro C/OS-11 operating systems and Its uses.

TEXT BOOKS:

1. Raj Kamal, “Embedded Systems- Architecture, Programming And Design”, Tata Mcgraw Hill, 2003.

REFFERENCE BOOKS:

1. Wayen Wolf, “Computer As Components-Principles of Embedded Computing Systems Design”, Harcourt India pvt Ltd., 2001.

2. David E Simon, “An Embedded Software Primer”, Pearson education, 2004.

3. Sriram V Iyer, Pankaj Gupta, “Embedded real-time systems programming”, Tata Mcgraw Hill, 2004.

4. K.V.K.K. Prasad, “Embedded/real-time system: concepts, design and programming”, Dreamtech press, 2004.







7/15/2019 EI


SECX1059PATTERN RECOGNITION & IMAGE VISION

(Common to ECE, ETCE, EIE & E&C)


3 0 0 3 100

UNIT I OBJECT RECOGNITION 10 hrs.

Introduction to pattern recognition, types of images, regular pattern, irregular pattern, fuzzy methods. Statisticalpattern recognition, feature selection, syntactic pattern recognition, clustering and non supervised learning methods.

UNIT II OBJECT DETECTION METHODOLOGIES 10 hrs.

Combined detection method, edge detection, edge linking, gradient. Laplacian, line detection, method based,point detection, snake methods. Boundary description detection, matching, merges segmentation, smoothing, splittingof boundaries syntactic, analysis of region boundaries, study of shape by region analysis.

UNIT III FUZZY LOGIC IN PATTERN ANALYSIS 10 hrs.

Explanation of how fuzzy approach can be applied to pattern recognition, classificatory analysis preprocessing,

feature detection and primitive extraction, adaptive classification of fuzzy grammar. Algorithms for pattern recognition,neural network fundamentals, approaches for pattern recognition.

UNIT IV IMAGE EXTRACTION CONCEPTS 10 hrs.

Introduction of Computer Vision, Computer Imaging System, Image Formation and sensing CVIP tools Software,

Image representation. Area Extraction: Concepts, Data-structures, Edge, Line- Linking, Hough transform, Line fitting,Curve fitting.

UNIT V BOUNDARY ANALYSIS AND MATCHING 10 hrs.

Region Analysis: Region properties, External points, spatial moments, mixed spatial gray-level moments, Boundaryanalysis: Signature properties, Shape numbers. General Frame Works for Matching: Distance relational approach,Ordered- structural matching, View class matching, Models database organization. Knowledge Based Vision: Knowledgerepresentation, Control strategies, Information integration, Application

TEXT BOOKS

1. Dude, Hart, and Stock, "Pattern Classification", John Wiley and Sons, 2nd edition, 2001.

2. Gose, Johnsonbaugh and Jost, "Pattern Recognition and Image Analysis", Prentice Hall; Har/Dsk edition (May 1996).

REFERENCE BOOK

1. Milan Sonka,Vaclav Hlavac, Roger Boyle, "Image Processing, Analysis, and Machine Vision" (Mar. 19, 2007).2. Robert Haralick and Linda Shapiro, "Computer and Robot Vision", Vol I, II, Addison-Wesley, 1993.







7/15/2019 EI


SICX1019

INSTRUMENTATION AND CONTROL IN IRON AND

STEEL INDUSTRIES



3 0 0 3 100

UNIT I INTRODUCTION TO FURNACES 10 hrs.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 hearthfurnace (OHF) – relative merits of various steel making furnaces.

UNIT II CASTING AND ROLLING 10 hrs.

Quality of steel – impurities present and allowed limits for usable steel – waste recycling. Continuous castingand batch casting of steel – primary and secondary rolling – features of cold rolling – steel finishing operations.

UNIT III MEASUREMENTS IN IRON AND STEEL INDUSTRIES 10 hrs.

Identification of various process parameters in the industry – selection of suitable measurement hardware fortemperature, pressure, level, flow, weighing and proportioning – special gauges for measurement of thickness andshape – Control room layout for mill operations – graphic displays – alarm management.

UNIT IV CONTROL APPLICATION 10 hrs.

Special applications for controls – Blast Furnace (BF) Stove combustion control system – gas and water controlsystem in Basic Oxygen Furnace (BoF) – Mould Level control system in Strand Casting operations.

UNIT V EVOLUTION OF COMPUTER APPLICATIONS 10 hrs.

Evolution of computer applications in the industry – Review of data logging, SCADA, DDC and DCS. Practicesfor model calculating and data logging – steel rolling mill control – annealing process control – utilities managementwith 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.







7/15/2019 EI


SCSX1021ARTIFICIAL INTELLIGENCE

(Common to CSE, ECE, EEE, EIE, ETCE & E&C)


3 0 0 3 100

UNIT I INTRODUCTION AND PROBLEM SOLVING 10 hrs.

Introduction – Foundations of AI – History of AI – Intelligent agent – Types of agents - Structure – Problemsolving agents – Uninformed search strategies – Breadth first search – Uniform cost search – Depth first search –Depth limited search – Bidirectional search – Searching with partial Information.

UNIT II INFORMED SEARCH AND GAME PLAYING 10 hrs.

Informed search – Strategies – A* Heuristic function – Hill Climbing – Simulated Annealing – ConstraintSpecification problem – Local Search in continuous space – Genetic algorithm – Optimal decisions in games - Pruning

- Imperfect decisions –Alpha-Beta pruning – Games that include an element of chance.

UNIT III KNOWLEDGE AND REASONING 10 hrs.

Knowledge based agent – The Wumpus world environment – Propositional logic – Inference rules – First-orderlogic – Syntax and semantics – Situation calculus – Buliding a knowledge base – Electronic circuit domain – Ontology – Forward and backward chaining – Resolution – Truth maintenance system.

UNIT IV ACTING LOGICALLY 10 hrs.

Planning – Representation of planning – Partial order planning –Planning and acting in real world – Actingunder uncertainty – Bayes’s rules – Semantics of Belief networks – Inference in Belief networks – Making simpledecisions – Making complex decisions.

UNIT V LEARNING AND COMMUNICATION 10 hrs.

Learning from observation – Learning decision trees –Ensemble learning – Learning general logical descriptions

– Computational learning theory – Neural networks – Applications – Reinforcement learning – Passive reinforcement – Active reinforcement – Communication as action – Types of communicating agents – Parsing – DCG – Semanticinterpretation.

REFERENCE BOOKS:

1. Stuart J.Russel , Peter Norvig , “Artificial Intelligence A Modern Approach”, Pearson Education, 2nd Edition.

2. Elaine Rich , Kevin Knight , “Artifical Intelligence“ , Tata McGraw Hill , 2nd

Edition.







7/15/2019 EI


SCSX1009

COMPUTER ARCHITECTURE & PARALLEL

PROCESSING

(Common to CSE, IT, EIE & E&C)


3 0 0 3 100

UNIT I INTRODUCTION 10 hrs.Central Processing Unit – Introduction – General register organization – Stack organization – Instruction formats

– Addressing modes – Data transfer and manipulation – Progam control – RISC – Data representation – Basic computerorganization – Instruction codes – Computer registers – Computer instructions – Timing and control – Instruction cycle

– Register transfer and microoperations – Register transfer language – Register transfer – Bus and memory transfers – Arithmetic ,Logic, Shift Microoperations – Arithmetic logic shift unit.

UNIT II PROCESSOR DESIGN 10 hrs.

Computer arithmetic – Addition – Subtraction – Multiplication and Division algorithms – Floating point arithmeticoperations - Microprogrammed Control – Control memory – Address sequencing – Microprogram Example – Designof control unit.

UNIT III MEMORY AND I/O SYSTEM 10 hrs.

Memory Organization – Memory hierarchy – Main memory – Auxiliary memory – Associative memory – Cachememory – Virtual memory – Memory managemant hardware.

Input-Output Organization – Peripheral devices – I/O interface – Asynchronous data transfer – Modes of transfer – Priority interrupt – DMA – IOP – Serial communication.

UNIT IV PIPELINING AND VECTOR PROCESSING 10 hrs.

Parallel processing – Pipelining – Arithmetic pipeline – Instruction pipiline – RISC pipeline – Vector processing – Array processors.

UNIT V MULTIPROCESSORS 10 hrs.

Characteristics of multiprocessors – Interconnection structures – Interprocessor arbitration – Interprocessorcommunication and synchronization – Cache coherance.

REFERENCE BOOKS:

1. M.Morris Mano, “Computer system Architecture”, Prentice-Hall Publishers, 3rd Edition.

2. John P Hayes , “Computer architecture and Organization”, McGraw Hill international edition, 3rd Edition.

3. Kai Hwang and Faye A Briggs, ”Computer Architecture and Parallel Processing”, McGraw Hill International edition,1995.


Max Marks : 80 Exam Duration : 3 Hrs.





7/15/2019 EI


SEEX1013POWER ELECTRONICS

(Common to EEE, EIE, ECE, ETCE & E&C)


3 0 0 3 100

UNIT I POWER SEMICONDUCTOR DEVICES 10 hrs.

Overview of V-I characteristics of switching devices – Power Diode, BJT, Switching characteristics of powerMOSFETS, IGBT and Thyristor – SCR Protection circuits – firing circuits – Commutation techniques.

UNIT II PHASE CONTROLLED RECTIFIERS 10 hrs.

Principle of phase controlled converter operation – single phase semi converter & full converter with R, RL &

RLE load – Freewheeling diode – Inverter operation of full converter – Three phase Semi converter & full converterwith RLE load.

UNIT III DC & AC CHOPPERS 10 hrs.

DC – DC Chopper: Step down and step up choppers – One, two and four quadrant operation.

AC – AC Chopper: Single phase AC voltage controllers with R & RL load – Multistage sequence control. Singlephase step up and step down cycloconverters.

UNIT IV INVERTERS 10 hrs.

Principle of operation : Single phase half bridge & full bridge voltage source inverters – Three phase Voltagesource inverters (120

0and 180

0mode) – Single phase current source inverter. PWM techniques : Single pulse PWM,

Sinusoidal PWM, Modified sinusoidal PWM and multiple PWM

UNIT V APPLICATIONS 10 hrs.

SMPS : Flyback and Push Pull – UPS : Redundant and Non-Redundant – HVDC Transmission systems –

Single phase full converter fed DC drives. Inverters for standalone and gird connected photovoltaic systems.

Total No of Hours: 50 hrs.

TEXT BOOKS:

1. Rashid M.H., “Power Electronics circuits Devices and Applications”, Prentice Hall, 3rd Edition, New Delhi, 2004

2. P.S.Bimbhra, “Power Electronics”, Khanna Publishers, 3rd Edition, 2003

REFERENCE BOOKS:

1. P.C.Sen, “ Power Electronics”, Tata Mc Graw Hill Company, New Delhi, 1987.

2. M.D.Singh and K.B.Khanchandani, “Power Electronics” TMH, New Delhi, 2nd edition, 2007.

3. Dubey G.K., Doradla S.R., Joshi A and Sinha R.M., “Thyristorised Power Controllers” – Wiley Eastern Limited 1986.

4. Ned Mohan, “ Power Electronics”, 2nd

Edition, 2001.








7/15/2019 EI


SMEX1017RESOURCE MANAGEMENT TECHNIQUES



3 0 0 3 100

UNIT I INTRODUCTION AND LINEAR PROGRAMMING 10 hrs.

Operations Research(OR)-Nature-Characteristics-Phases.-Role of OR in Decision making- Outline of OR ModelsLinear Programming – Formulation of L.P.problems –Solution by graphical method, simplex method, and big M methods

– Applications of O.R. in production management

UNIT II TRANSPORTATION AND ASSIGNMENT MODEL 10 hrs.

Transportation problem – Initial Basic feasible solution- Northwest corner method, Least Cost method, Vogel’s

approximation method – Test for optimality-MODI method

Assignment problems- Hungarian assignment models- Travelling salesman problems

UNIT III RESOURCE SCHEDULING AND NETWORK ANALYSIS 10 hrs.

Problem of Sequencing – Problem with N jobs and 2 machines N Jobs 3 m/cs and 2 Jobs m m/cs (Graphical

method). Project Management – Basic concepts – Network construction and scheduling CPM & PERT Programevaluation and resource leveling by network techniques, time – Cost trade off.

UNIT IV INVENTORY CONTROL AND SIMULATION 10 hrs.

Inventory Control – Various Types of inventory models – deterministic inventory models – Production model,Purchase model– with and without shortage- EOQ – Buffer stock – Shortage quantity, Probabilistic inventory models

– Quantity Discount and Price Breaks Simulation – Use, advantages & limitations, Monte –Carlo simulation, applicationto queuing, inventory & other problems

UNIT V QUEUEING THEORY, GAME THEORY AND REPLACEMENT MODELS 10 hrs.

Queuing theory – Poisson arrivals and exponential service times, Single channel models only. Game theory-Pay

off matrix, competitive games with pure strategy, minimax criterion, principles of dominance &mixed strategiesReplacement policy for items whose maintenance cost increases with time- Consideration of time value of moneyvalue- Replacement policy- Individual, Group replacement of items that fail completely

TEXT BOOK:

1. Kanti Swarup, P.K.Gupta, & Manmohan., "Operations Research" – S. Chand & Sons.

REFERENCE BOOKS:

1. K.V.Mital and C.Mohan, "Optimization Methods in O.R and System Analysis", New Age International Publishers.

2. S.D.Sharma, "Operations Research", Kedarnath Ramnath & Co, 2002.

3. Hamdy A. Taha, "Operations Research", 5th Edition, PHI, 1995

4. Hiller & Liberman, "Introduction to Operation Research", 5th Edition, McGraw Hill, 2001.

5. Ravindran, Phillips & Solberg, "Operations Research: Principles and Practice", 2nd Edition, Wiley India Ltd, 2007







7/15/2019 EI


SICX1021FIBER OPTICS AND LASER INSTRUMENTATION

(Common to E&C, EIE, EEE & ETC)


3 0 0 3 100

UNIT I OPTICAL FIBERS AND THEIR PROPERTIES 10 hrs.

Principles of light propagation through a fiber – different types of fibers and their properties transmissioncharacteristics of optical fiber – absorption losses – scattering losses-dispersion – optical fiber measurement – opticalsources – optical detectors –LED-LD-PIN and APD.

UNIT II INDUSTRIAL APPLICATION OF OPTICAL FIBERS 10 hrs.

Fiber optic sensors – fiber optic instrumentation system –different types of modulators – detectors – applicationin instrumentation – interferometric method of measurement of length – moiré fringes – measurement of pressure,temperature, current, voltage, liquid level and strain –fiber optic gyroscope – polarization maintaining fibers.

UNIT III LASER FUNDAMENTALS 10 hrs.

Fundamental characteristics of Lasers – three level and four level lasers – properties of laser – laser modes – resonator configuration – Q-switching and mode locking – cavity dumping – types of lasers – gas lasers, solidlasers, liquid lasers semi conductor lasers.

UNIT IV INDUSTRIAL APPLICATIONS OF LASERS 10 hrs.

Laser for measurement of distance, length, velocity, acceleration, current, voltage and atmospheric effect –

material processing – laser heating, welding melting and trimming of materials – removal and vaporization.

UNIT V HOLOGRAM AND MEDICAL APPLICATION 10 hrs.

Holography – basic principle, methods, holographic interferometry and applications, holography for non-destructivetesting – holographic components- medical applications of lasers – laser and tissue interaction – laser instruments forsurgery, removal of tumors of vocal cords, brain surgery, plastic surgery, gynecology and oncology.

TEXT BOOK:

1. Ghatak A.K. and Thiagarajar K, “Optical Electronics Foundation Book”, TMH, New Delhi, 1991.

REFERENCE BOOKS:

1. John and Harry, “Industrial lasers and their applications”, McGraw Hill, 1974.

2. John F Ready, “Industrial applications of lasers”, Academic Press, 1978.

3. Monte Ross, “Laser applications”, McGraw Hill, 1968.4. Jasprit Singh, “Semi conductor Optoelectronics”, McGraw Hill, 1995.







7/15/2019 EI


SECX1020NANO ELECTRONICS

(Common to EEE, BIO-MED, EIE, E&C, ETCE, ECE, CSE & IT)


3 0 0 3 100

UNIT I CONCEPTS OF NANOSTRUCTURES 10 hrs.

Electronic states in crystal energy bands, Concepts of 2D nanostructures (quantum wells), 1 D nanostructures

(quantum wires) OD nanostructures (quantum dots), artificial atomic clusters.

UNIT II PROPERTIES AND ANALYSIS OF NANOSTRUCTURES 10 hrs.

Size dependent properties, Size dependent absorption spectra, Blue shift with smaller sizes, Phonons in

nanostructures, Contacts at Nano level, AFM.lSTM tip on a surface.

UNIT III ANALYSIS OF QUANTUM TECHNIQUES 10 hrs.

Charging of quantum dots, Coulomb blockade, Quantum mechanical treatment of quantum wells, wires and dots,Widening of bandgap in quantum dots, Strong and weak confinement, Properties of coupled quantum dots, Optical

scattering from Nan defects.

UNIT IV CHARACTERISTIC OF NANOCOMPOSITES AND ZEOLITES 10 hrs.Nanocomposites Electronic and atomic structure of aggregates and nanoparticles Theory and modeling of

nanoparticles fictionalization processes.

UNIT V CHARACTERIZATION OF NANOPOLYMERS 10 hrs.

Nanosystems: Synthesis and chacterization Methods of Synthesis: Molecular beam epitaxy, MOCVD, chemicalroutes, nanoparticles on polymers, pulsed laser deposition, ion beam assisted techniques including embeddednanoparticles, RF sputtering.

Total Hours: 50

TEXT BOOKS:1. K.Bamam and D.Vvedensky ,Low Dimensional Semiconductor Structures, (Cambrige University Book) 2001.

REFERENCE BOOKS:

1. L.Banyai and S.W.Koch ,Semiconductor Quantum Dots, (World Scientific) 1993,

http://www.nanotec.org.uklworkshop.october03health.htm(for health and safety aspects of nanostructures)

2. J.H. Davies, An introduction to the physics-af low dimensional semiconductors, Cambridge Press, 1998.

3. Karl Goser, Peter Glosekotter, Jan Dienstuhl Nanoelectronics and Nanosystems , Springer, 2004

4. Krause P. C. and Wasynczuk O., Electromechanical Motion Devices, McGraw-Hill, New York, 1989.Lyshevski S. E., Electromechanical

Systems, Electric Machines, andApplied Mechatronics, CRC Press, FL, 1999.

5. Lyshevski S. E., "Integrated control of microactuators and integrated circuits: a new turning approach in MEMS technology,"

Proceedings Conference Decision and Control, Phoenix, AZ, pp. 2611-2616, 1999.


Max. Marks: 80 Exam Duration: 3 hrs





7/15/2019 EI


SECX1022MEMS AND ITS APPLICATIONS

(Common to ETCE, EIE, E&C, EEE, ECE)


3 0 0 3 100


MEMS-Micro fabrications for MEMS -Surface micromachining of silicon -Wafer bonding for MEMS-LIGAprocess-Micromachining of polymeric MEMS devices -Three-dimensional microfabrications.Materials: Materials for MEMS

- Metal and metal alloys for MEMS - Polymers for MEMS - Other materials for MEMS.Metals : Evaporation –Sputtering.Semiconductors :Electrical and chemical properties-Growth and deposition.Thin films for MEMS and their depositiontechniques -Oxide film formation by thermal --oxidation -Deposition of silicon dioxide and silicon nitride -Polysilicon filmdeposition -Ferroelectric thin films. Materials for polymer MEMS :Classification of polymers -UV radiation curing -SU-8for polymer MEMS.

UNIT II MICROSENSING FOR MEMS 10 hrs.

Piezoresistive sensing - Capacitive sensing - Piezoelectric sensing - Resonant sensing - Surface acoustic wavesensors.

Transducers: E lectromechanical transducers-Piezoelectric transducers -Electrostrictive transducers-Magnetostrictive transducers -Electrostatic actuators-Electromagnetic transducers -Electrodynamic transducers-Actuators: Electrothermal actuators-Comparison of electromechanical actuation schemes.

UNIT III MICRO MACHINING 10 hrs.

Micromachning : Bulk micromachining for silicon-based MEMS -Isotropic and orientation-dependent wet etching

- Dry etching -Buried oxide process -Silicon fusion bonding -Anodic bonding -Silicon surface micromachining Sacrificiallayer technology - Material systems in sacrificial layer technology - Surface micromachining using plasma etching-Combined integrated-circuit technology and anisotropic wet etching.

UNIT IV LITHOGRAPHY 10 hrs.

Microstereolithography for polymer MEMS -Scanning method -Two-photon microstereolithography Surfacemicromachining of polymer MEMS -Projection method -Polymeric MEMS architecture with silicon, metal and ceramics-Microstereolithography integrated with thick film lithography.

UNIT V APPLICATIONS 10 hrs.

Switching: Introduction- Switch parameters- Basics of switching - Mechanical switches-Electronic switches-Switches for RF and microwave applications - Mechanical RF switches - PIN diode RF switches - Metal oxidesemiconductor field effect transistors and monolithic microwave integrated circuits.

RF MEMS switches: Integration and biasing issues for RF switches -Actuation mechanisms for MEMSdevices-Electrostatic switching - Approaches for low-actuation-voltage switches - Mercury contact switches -Magnetic

switching - Electromagnetic switching - Thermal switching.Dynamics of the switch operation: Switching time and dynamicresponse - Threshold voltage. MEMS switch design, modeling and evaluation:Electromechanical finite element analysis- RF design - MEMS switch design considerations.

Total Hours: 50

TEXT BOOK:1. Vijay K.Varadan, K.J.Vinoy and K.A.Jose, “RF MEMS and Their Applications(ISBN 0-470-84308-X)”, 1st edition, John Wiley & Sons

Ltd., West Sussex, England, 2003.

REFERENCE BOOKS :1. P. Rai-choudhury, “MEMS and MOEMS Technology and Applications”, 1st Edition PHI, 2009.


EI

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