Shridhar University Pilani

Shridhar University Pilani

Department

Of

Electrical and Electronics Engineering

Bachelor of Technology

Four year full time Undergraduate Course

Curriculum

2019– 20

INTRODUCTION

Shridhar University Pilani will be conducting Bachelor of Technology Programme during the year

2019– 2020 to be offered through Department of Electrical and Electronics Engineering.

1. TITLE OF THE PROGRAMME

The Course shall be called Bachelor of Technology which is abbreviated as B.Tech.EEE

2. OBJECTIVES

The basic objective of the B.Tech program is to provide a firm grounding of the electrical

stream of competent young boys and girsl with the necessary knowledge, skills, values and

attitudes to occupy key operational positions.

The aim of the course is to provide fundamental knowledge of electrical and electronics areas

along with practical application to students. The first year of B.Tech course focuses on

fundamental knowledge, second and third year will be based on advance level of core areas

& final year students will be trained as per industries requirement. In this year the focus will

be on practical aspect considering the elective subjects also.

The following considerations have been taken into account:

a) The knowledge inputs and opportunities for skill development have been offered in

an evenly distributed and logically sequenced manner.

b) The design is simple and logical.

c) There is a major focus of attention on specialization in the final year.

To develop the right kind of values and attitudes to function effectively in the competitive

environment

3. DURATION OF THE COURSE

The B.Tech course shall be of four years duration in eight semesters.

The Maximum duration for a student for complying with the degree requirement is twice (7 Years)

the duration of the academic Programme for date of first registration for his / her first semester.

The student shall undergo a Summer Industrial Training at the end of the second and third year and

project work during fourth year.

CREDIT REQUIREMENT FOR THE AWARD OF DEGREE:-

B.Tech 214 Credits.

The Credit distribution in eight semester are as follows:

Semester No. of Total credit per semester

Cumulative

Credits

I 25/24 25/24

II 24/25 49

III 30 79

IV 29 108

V 29 137

VI 29 166

VII 28 194

VIII 20 214

4. ELIGIBILITY FOR ADMISSION

Admission to the B.Tech course is open to all candidates those who possess a Pre-University

education [10+2] with science maths or equivalent level of education recognized by

University / Board.

The candidate must have passed 12th

with minimum of 45% for general category and 40% for

reserved category in PCM.

The selection for the B.Tech course is purely on merit basis.

Student with Diploma /B.Sc will get lateral entry and admitted in second year or third

semester.

5. ATTENDANCE REQUIREMENT

All students must attend every lecture, tutorial & practical Class.

A student with less than 75% attendance in individual courses shall not be permitted to write

the end semester examination in that course and will be given DT (Detained) letter grade in

the course. Attendance of lectures, tests and tutorials all count towards the calculation of this

attendance percentage.

The aggregate percentage of attendance of the student during the semester will be entered in

his / her grade sheet of that semester.

6. EVALUATION SCHEME

The overall weight age of a course in the Syllabi and scheme of Teaching & Examination shall be determined in terms of credits assigned to the course.

The evaluation of students in a course shall have three components unless specifically stated otherwise in the Scheme of Teaching & Examination and Syllabi.

i. Evaluation through a end semester examination

ii. Evaluation through a mid semester examination

iii. Continuous evaluation by the teacher(s) of the course

Recommendations for names of examiners shall be obtained from the concerned Schools

through their Dean/HOI/HOD

iv. For each theory examination of a course, the Dean /HOD of the concerned department

will send sets of model question papers drawn by the concerned teachers to the

Controller of Examinations before a date to be specific by the Controller of

Examinations. The Examiner appointed by the Vice-Chancellor for setting the Question

paper shall set the Question paper, using the model question paper as a guide. The

question paper shall be set out of the entire syllabus of a course.

v. The paper setter and examiners shall be appointed with approval from the Vice

Chancellor.

vi. The Practical and Viva Examination shall be conducted by External examiners

approved by the Vice Chancellor.

(i) Teacher's Continuous Evaluation :

Certificate/Diploma/PG Diploma/UG Degree/PG Degree

A Theory Course Marks

End Semester Exam 70

Mid Semester Exam 20

Teachers Assessments-Assignments, quizzes, presentations etc 10

B Practical/Laboratory courses

End Semester Exam 50

Practical‘s performance (Experiment), 30

Viva 10

File Record 10

C Dissertation/Thesis/Projects

Assessment by external Examiner 50

Assessment by internal Examiner 50

Note: If any component of a program not covered by the above, the weightage shall be prescribed by the Board of Studies with the approval of the Vice-Chancellor

Dissertation/Thesis/Projects

For dissertation/thesis/Project, the evaluation shall be done and marks awarded by a

Committee comprising of an internal examiner, who will ordinarily be the supervisor,

and one or more external examiners. The internal and external examiners shall award

marks jointly after conducting viva-voce examination out of 100 marks.

The Dean shall have the right to call for all the records of teachers‘ continuous

evaluation and moderate the teacher's evaluation, if it deems fit in any specific case(s).

For any other type of examination, not covered by sub-clauses mentioned above, the

mode of conduct of examination shall be as specifically provided in the syllabus/scheme

of examination and in the absence of such a provision shall be decided by the Vice-

Chancellor on the recommendation of the convener of Board of Studies.

The results of a semester (including both the semester end examinations and teacher's continuous evaluation) shall be declared by the Controller of Examinations.

The award list containing the marks obtained by a student in various courses shall be issued by the Controller of Examinations, at the end of each semester, after the

declaration of the result. Grade Points: The successful candidates will be placed in a 10-point grading system with the following letter grades as given below will :

S.No.

Letter Grade

Grade Point

1 O (Outstanding) 10

2 A+(Excellent) 9

3 A (Very Good) 8

4 B+(Good ) 7

5 B(Above Average) 6

6 C(Average) 5

7 P(Pass) 4

8 F(Fail`) 0

9 AB (Absent) 0

A student obtaining Grade F shall be considered failed and will be required to reappear in the examination. For non credit courses ‗Satisfactory‘ or ―Unsatisfactory‘ shall be indicated instead of the letter grade and this will not be counted for the computation of SGPA/CGPA.

Criteria for Passing Courses, Marks and Divisions a) Obtaining a minimum of P grade in each paper. A student may apply, within two weeks from the date of the declaration of the result, for re-checking of the examination script(s) of a specific course(s) on the payment of prescribed fees. Re-checking shall mean verifying whether all the questions and their parts have been duly marked as per the question paper, and the totaling of marks. In the event of a discrepancy being found, the same shall be rectified through appropriate changes in both the result as well as marks-sheet of the concerned semester-end examination. b) A student obtaining less than P Grade assigned to a course (paper) and failing in the course of ODD/EVEN semester shall be allowed to re-appear in the same ODD/EVEN end semester examination of the course in a subsequent semester(s). The marks obtained by such a student out of teacher(s) continuous evaluation component shall remain unchanged.

The University reserves the right to amend these regulations from time to time to meet the changing

needs & requirements of the Course.

7. SUMMER INDUSTRY TRAINING / PROJECT STUDY

All the students shall undergo a Summer Industry Training for 45 days at the end of the -second

year and third year.

A Project Report / Summer Training shall be submitted to the Department of Commerce and A Panel

of examiner will evaluate report.

The evaluation of the both work will be based on the quality of the report and students‘ performance

in a viva-voce, The viva-voce will be conducted along with external examiners.

The University shall appoint the Examiners to conduct the viva - voce. One Examiner shall be from

outside the region, or outside the University. A minimum of P grade is required for a pass in the viva

- voce.

8. ELECTIVE SPECIFICATION:-

Under semester VI and VII, the candidates shall be examined for a specialized course belonging to

anyone of the different areas of Electrical and Electronics Engineering, to be selected by the

candidate from amongst the following Elective subjects:-

Departmental Elective - 1

Digital Control System

Embedded System

Power Plant Engineering


Advanced Control System

Automation and Robotics

Special Electrical Machines

Departmental Elective – 3

Telemetry and Data Transmission

Utilization of Electrical Energy and Traction Control

Mechatronics

Course Structure for B.Tech (EEE)

First Year Course Structure (Group I-Chemistry)

(Common to all Branches)

SEMESTER – I

Course Code Course Name L T P C

AM1101 Engineering Mathematics-I 3 1 0 4

AC1101 Engineering Chemistry 3 1 0 4

EC1101 Basic Electronics 2 1 0 3

CS1101 Computer Programming 3 1 0 4

ME1101 Thermodynamics 2 1 0 3

CS1151 Computer Programming lab 0 0 2 1

AC1151 Engineering Chemistry Lab 0 0 2 1

ME1151 Basic Workshop Practice 0 0 4 2

FS1 122 Communication Skills-I 2 1 0 3

15 6 8 25

Total Hours(L+T+P) 29

SEMESTER – II


AP1201 Engineering Physics 3 1 0 4

AM1201 Engineering Mathematics II 3 1 0 4

EE1201 Electrical Technology 2 1 0 3

CE1201 Mechanics of Solids 2 1 0 3

ME1201 Engineering Graphics 0 1 4 3

AP1251 Engineering Physics Lab 0 0 2 1

FE1 244 Environmental Science 2 1 0 3

FS1 222 Communication Skills-II 2 1 0 3

14 7 6 24


First Year Programme Structure (Group II-Physics)

(Common to all Branches)

SEMESTER – I


AP1201 Engineering Physics 3 1 0 4

AM1201 Engineering Mathematics II 3 1 0 4

EE1201 Electrical Technology 2 1 0 3

CE1201 Mechanics of Solids 2 1 0 3

ME1201 Engineering Graphics 0 1 4 3

AP1251 Engineering Physics Lab 0 0 2 1

FE1 244 Environmental Science 2 1 0 3

FS1 222 Communication Skills-II 2 1 0 3

14 7 6 24


SEMESTER – II


AM1101 Engineering Mathematics-I 3 1 0 4

AC1101 Engineering Chemistry 3 1 0 4

EC1101 Basic Electronics 2 1 0 3

CS1101 Computer Programming 3 1 0 4

ME1101 Thermodynamics 2 1 0 3

CS1151 Computer Programming lab 0 0 2 1

AC1151 Engineering Chemistry Lab 0 0 2 1

ME1151 Basic Workshop Practice 0 0 4 2

FS1 122 Communication Skills-I 2 1 0 3

15 6 8 25


Third Semester

S.No Subject Code Subject Name L T P C

Theory

1. Mathematics– III 3 1 0 4

2. EE1301 Analog Electronics 3 1 0 4

3. EE1302 Object Oriented Programming using C++ and Linux OS 3 1 0 4

4. EE1303 Electrical Measurement and Measuring Instruments 3 1 0 4

5. EE1304 Circuit Theory 3 1 0 4

6. EE1305 Electromagnetic Field Theory 3 1 0 4

Practical and Laboratory

7. EE1351 Analog Electronics Lab 0 0 2 1

8. EE1352 Electrical Measurement Lab 0 0 2 1

9. EE1353 Circuit Lab 0 0 2 1

10. FV1 366 Professional values & Ethics 2 1 0 3

Total 20 7 6 30

Fourth Semester


Theory

1. EE1401 Electrical and Electronics Engineering Materials 3 1 0 4

2. EE1402 Fundamentals of Digital Signal Processing 3 0 0 3

3. EE1403 Digital Electronics 3 1 0 4

4. EE1404 Signals and Systems 3 1 0 4

5. EE1405 Electromechanical Energy Conversion 1st 3 1 0 4

6. EE1406 Microprocessor and Interfacing 3 1 0 4


8. EE1451 Digital Lab 0 0 2 1

9. EE1452 Machines Lab 0 0 2 1

EE1453 Microprocessor Lab 0 0 2 1

10. FG1 433 General Knowledge-II 2 1 0 3

Total 20 6 6 29

45 days Industrial Training after IV semester.

Fifth Semester


Theory

1. EE1501 Elements of Power System 3 1 0 4

2. EE1502 Control System 3 1 0 4

3. EE1503 Analog Integrated Electronics 3 1 0 4

4. EE1504 Electromechanical Energy Conversion 2nd

3 1 0 4

5. EE1505 Non Conventional Energy Resources 3 0 0 3

6. EE1506 Internet of Things 3 0 0 3


7. EE1551 Control system Lab 0 0 2 1

8. EE1552 Analog Electronics Lab 0 0 2 1

9. EE1553 Electrical Machines Lab 0 0 2 1

10. EE1554 Industrial Training Viva-voice seminar. 0 0 2 1

11. FE1 544 General Knowledge-III 2 1 0 3

Total 20 5 8 29

Sixth Semester


Theory

1. EE1601 Power System Analysis 3 1 0 4

2. EE1602 Power Electronics 3 1 0 4

3. EE1603 Advanced Microprocessor and Microcontroller 3 1 0 4

4. EE1604 Analog and Digital Communication 3 1 0 4

5. EE1605 Industrial Management 3 0 0 3

6. EE1606


Digital Control System

Embedded System

Power Plant Engineering

3 1 0 4

Practical / Laboratory

7. EE1651 Power Electronics Lab 0 0 2 1

8. EE1652 Microprocessor and Microcontroller Lab 0 0 2 1

EE1653 Analog and Digital Communication Lab 0 0 2 1

9. FP1 655 Personality Development-I 2 1 0 3

Total 20 6 6 29

45 days industrial training after VI semester

Seventh Semester


Theory

1. EE1701 Electrical Switchgear and Protection 3 1 0 4

2. EE1702 Electrical Instrumentation and Process control 3 1 0 4

3. EE1703 Electrical Drives. 3 0 0 3

4. EE1704 Entrepreneurship Development 3 0 0 3

5. EE1705


Advanced Control System

Automation and Robotics

Special Electrical Machines

3 0 0 3

6. EE1706

Departmental Elective – 3

Telemetry and Data Transmission

Utilization of Electrical Energy and Traction Control

Mechatronics

3 0 0 3

Practical / Laboratory

7. EE1751 Minor Project 0 0 6 3

8. EE1752 Switchgear and Protection Lab 0 0 2 1

9. EE1753 Industrial Training Seminar 0 0 2 1

10. FP1 755 Personality Development-II 2 1 0 3

Total 20 3 10 28

Eighth Semester


1. EE1751 Major Project & Seminar 0 0 38 19

2. EE1752 Seminar 0 0 02 01

Total 0 0 0 20

Total Course Credit-- 214

Courses of study

B.Tech

SEMESTER – I

Paper code: AM1101 ENGINEERING MATHEMATICS I [3 1 0 4]

Differential Calculus: Successive Differentiation, nth derivatives of standard functions, Leibnitz’s

theorem, Polar curves: Angle between radius vector and the tangent, Angle between two polar

curves, Orthogonal curves, Derivatives of arcs/radius of curvature/Evolutes, Circle of curvature,

Mean value theorems, Indeterminate forms. Partial Differentiation: Euler’s theorem on

homogeneous functions, total derivative, derivatives of composite and implicit functions, Errors

and approximations. Integral Calculus: Reduction formulae, Tracing of curves. Applications of

integral calculus: areas, lengths and volume of revolution of simple curves.Infinite Series:

Definition regarding convergence, divergence of infinite series. Tests, alternating series, Leibnitz’s

theorem, absolute and conditional convergence. Taylor’s and Maclaurin’s expansion of functions,

Analytical Solid Geometry: Direction cosines, plane s, straight lines, sphere right circular cones,

right circular cylinders.

Text Books:

1. B. S. Grewal, Higher Engineering Mathematics, Khanna Publishers, Delhi, 2006. 2. E. Kreyzig, Advanced Engineering Mathematics Wiley Eastern, 2006.

References:

3. S Narayan, Differential Calculus, Shyam Lal Charitable Trust, Delhi, 2002. 4. S Narayan, Integral Calculus, S. Chand & Co., Delhi, 2005. 5. C. B. Thomas, Calculus and Analytical Geometry, Narosa Pub., Delhi, 1986. 1. B.S.Grewal, Higher Engg Mathematics, Khanna Publishers,2005

2. E.Kreyszig, Advanced Engineering Mathematics, John Wiley& sons, 2005

Paper code: AC1101 ENGINEERING CHEMISTRY [3 1 0 4]

Chemical fuels: Introduction, Classification, Determination of calorific value. Numerical

problems Solid fuels , Liquid Fuels Gaseous fuels; The Phase Rule: Definition, Phase rule

equation, One component system, Reduced Phase Rule, Two component system; Corrosion

and its Control: Types of corrosion, Theories of corrosion, Forms of corrosion, Galvanic

corrosion, Pitting corrosion, Stress corrosion , Factors affecting corrosion, Corrosion

prevention, Protective coating; Polymers and Elastomers: Classification of polymers, Types

of polymerization reactions, Polymerization te chniques, Rubber; Water Technology:

Introduction, Hardness of water, Determination of hardness by EDTA method, Softening of

hard water, Softening of hard water – External treatment by lime soda process and Ion

exchange method Boiler troubles; Fundamentals of Analytical Chemistry:Conductrometric

analysis, Chromatographic techniques, Fundamentals of Spectroscopy.

Text Books:

1. P.C Jain, and Monika Jain, Engg. Chemistry Dhanpat Rai and Sons, Delhi, 2006.

2. J.C. Kuriacose, J and Raja ram, Chemistry in Engg. and Technology, Vol I/II, Tata McGraw –

Hill, 1988.

Chemistry, New Age International Limited, 2008.

References:

1. I. L. Finar, Organic Chemistry, Vol. I & Vol. II; Pearson Education.

2. Organic Chemistry; T M Graham Solomon’s & Craig B Fryhle, John Wiley &

Paper code: EC1101 BASIC ELECTRONICS [2 1 0 3]

PN junction: Introduction, Diode equation; Application of Diode: Clippers, Clampers; Zener

Diode: V-I Characteristics, Zener Regulators, LED; BJT: Characteristic, CE and CB configuration.

Relation between and , Q-point, Transistor biasing, Fixed bias and self bias, h- Parameters;

Transistor as an amplifier, Frequency response; OP-AMP: inverting amplifier, Non-inverting

amplifier, Application:integrator, differentiator, Summing amplifier, Comparator; Digital

Electronics: Number systems & codes,Logic gates; Truth tables, Designing combinational circuits:

SOP, POS form, K-map; Flip-flop: SR, JK and D flip-flops; Counters: Ripple; Up/down counters;

shift registers; Multi vibrator; D/A converter A/D converter; communication: Introduction,

Frequency bands, noise; Transmission media: Wire media, two wire, co-axial cable, Optical fiber,

Comparison. wireless communication; Analog modulation: AM block diagram, modulation

equation, waveforms, AM detector, Definition and applications of SSB, DSB, VSB; Frequency

Modulation: FM block diagram, modulation equations; FDM, TDM, Comparison of AM & FM.

References

1. Milliman & Halikias, Integrated Electronics, TMH, New Delhi, 1971. 2. G. Keddeny, Electronic Communication systems, 3e, TMH, New Delhi, 1996. 3. M. Mano, Digital design, PHI, New Delhi, 1991. 4. Boylsted & Nashelsky, Electronic devices and circuits theory, 9e, PHI, New Delhi, 2006. 5. S. O. Kasap, Electronics Materials and Devices, TMH, New Delhi, 2007.

Paper code: CS1101 COMPUTER PROGRAMMING [3 1 0 4]

UNIT – 1 Programming in C: Structure of C Program, Concept of Preprocessor, Macro Substitution,

Intermediate code, Object Code, Executable Code. Compilation Process, Basic Data types,

Importance of braces ({ }) in C Program, enumerated data type, Identifiers, Scope of Variable,

Storage Class, Constants, Operators & Expressions in C, Type Casting, printf( ) and scanf ( ) with

format specifires, reading single character.

UNIT – 2 Control Statements, Command Line Arguments, Arrays in C, Pointers, Using pointers to

represent arrays, Pointer & address arithmetic. Structures, using typedef.

UNIT – 3 Arrays of Structures & pointers, File Handling (fscanf, fprintf, feof, fopen, fclose, fread,

fwrite only). Dynamic memory Allocation.

UNIT – 4 Functions in C, Passing Parameters (By value & Reference), using returned data, Passing

arrays, Page structures, array of structures, pointer to structures etc., passing characters and strings,

The void pointer.

UNIT – 5 Stored Program Architecture of Computers, Storage Device- Primary Memory and

Secondary Storage, Random, Direct, Sequential access methods. Concept of High-Level, Assembly

and Low Level programming languages. Representing Algorithms through flow chart, pseudo

code, step by step. Number System: Data Representation, Concept of radix and representation of

numbers in radix r with special cases of r=2, 8, 10 and 16 with conversion from radix r1 to radix r2.

r’s and (r-1)’s complement, Representation of alphabets.

Suggested Readings

1. Ritchie & Kernighan, The C Programming language, 2nd Ed., PHI.

2. Dey & Ghosh, Computer Fundamentals and programming in C, Oxford.

3. Kamthane, Programming in C, 2nd Ed., Pearson.

4. Schildt, The Complete Reference, 4th Ed., TMH.

5. Balaguruswamy, Programming in ANSI C, 5th Ed., TMH.

6. V. Rajaraman, Fundamentals of Computers, 5th Ed. PHI, 2011.

7. Forouzan et.al, Computer Science, 3rd Ed. Cenage Learning.

Paper code: ME1101 THERMODYNAMICS [2 1 0 3]

UNIT 1 Basic Concepts of Thermodynamics: Thermodynamics system, control volume, properties,

state, processes and cycle, equality of temperature, zeroth Law of thermodynamics, temperature

scale, laws of perfect gas, pure substances, vapour-Liquid –solid-phase equilibrium in a pure

substances, thermodynamic surfaces.

UNIT 2 Work and Heat: Law of conservation of mass and energy, first law of thermodynamics,

steady state processes, second law of thermodynamics, heat engine, carnot cycle, thermodynamic

temperature scale, entropy, change of entropy for different processes, equivalence of Kelvin, Plank

and clausius statements, clausius inequality.

UNIT 3 Available and Unavailable Energy: Availability of a non flow and steady flow system,

Helmbeltz and Gibb’s functions, thermodynamic Relations, Important mathematical relations,

Maxwell relations, Tds Relations, JouleThomson coefficient, clayperon relation.

UNIT 4 Air–Standard Power Cycle: Brayton cycle, Otto cycle, Diesel cycle, Dual cycle, Stirling cycle,

Ericssion cycle and Atkinson cycle, Mean effective pressure and efficiencies, Four stroke petrol and

diesel engine, Two stroke petrol and diesel engine.

UNIT 5 Properties of Steam: Phase change process, use of steam table and mollier chart, Rankine

cycle, Reheat cycle, Regenerative cycle, cogeneration vapour compression refrigeration cycle.

List of Recommended Books

1. Engineering Thermodynamics, Chottopadhyay P., Oxford University Press.

2. Thermal Science & Engineering, Kumar D.S., S.K.Kataria & Sons

3. Engineering Thermodynamics, Nag P.K., Tata McGraw-Hill, New Delhi

4. Fundamentals of Classical Thermodynamics, Gordan J Van Wylen, Willey Eastern Ltd.

5. Engineering Thermodynamics, Cengel & Boles, Tata McGraw-Hill, New Delhi.

Paper code: CS1151 COMPUTER PRAGRAMMING LAB [0 0 2 1]

Concept to be covered in the exercise

1. Simple OS Commands, vi editor, compiling program, compiler options, linking libraries.

2. Simple input output program, integer, real, character and string. (Formatted & Unformatted),

Using Command Line Arguments.

3. Conditional statement (if, if-else-if, switch-case)

4. Looping & iterations (for, while, do-while, continue, break)

5. Using Arrays (one, two and three dimensional)

6. Using Structures and Union.

7. Program using Function (with and without recursion), passing parameters by value & reference.

8. Using pointers.

9. File handling.

Paper code: AC1151 ENGINEERING CHEMISTRY LAB [0 0 2 1]

Volumetric analysis: External indicator titration, internal indicator titration, complex metric

titration (EDTA method), iodometric titration; Water analysis: Conduct metric titrations, pH metric

measurements, potentiometric measurements, available chlorine, free chlorine, chemical oxygen

demand of waste water; Polymers: Preparation of resins; Analysis of ores andalloys: copper in

brass; Gravimetric analysis: Estimation of barium; Lubricating oil: Viscosity & viscosity index by

Redwood viscometer (no 1&2),flash and fire point (Pen sky –Martens apparatus),cloud and pour

point; Calorimetric: Flame photometer; Fuelanalysis: Proximate analysis.

References: Soft copy of notes will be provided.

Paper code: ME1151 BASIC WORKSHOP PRACTICE [0 0 4 2]

Introduction to Basic Workshop Practice: Fitting practice: Practical exposure to basic fitting

operations, Marking and measuring, Filing, Sawing & Chipping and preparation of joints;

Carpentry practice: Practical exposure to basic carpentry operations, Marking and measuring,

Planing, Mortising & tenoning, Sawing and Chipping and preparation of joints; Soldering practice:

Practical exposure to basic sheet metal & soldering operations; marking & measuring, Cutting,

Bending/forming, tinning, soldering and preparation of sheet metal models; Demonstrations on

Tapping & Dieing: Welding, Plumbing and Lathe operations;

Text Book:

1. S.K. Hajra Chaudhury and S.K. Bose., Workshop Technology Vol.1, Media Promoters and

Publishers Pvt. Ltd., Mumbai, 2003.

Reference:

1. B. S. Raghuvanshi Workshop Technology, Vol.1, Dhanpat Rai and Sons, Delhi, 2003.

Paper code: FS1 122 COMMUNICATION SKILLS – I {2 1 0 3}

Unit 1 Stepping Stones (Vocabulary Building)

Vocabulary development, Use of different words in different contexts, Technical

Vocabulary, Scientific Vocabulary and Terms in daily use. Foreign words in use,

Abbreviations. Introduction of Synonyms through the use of dictionary, vocabulary

related to description. Phrasal verbs and its usage in sentence. Affixation- Prefix and

Suffix. Conversion of one word to other- Noun to Verb, Verb to Noun, Adjective to Noun,

Verb to Adverb, Adjective to Adverb, Common Noun to Abstract Noun. Synonyms,

Antonyms. Words often confused.

Unit 2 Constructing Sentences

Parts of Speech- Noun, its types, Pronouns, Adjectives, Verbs, Adverbs, prepositions,

Conjunctions, Interjection. Sentence Patterns- SVOCA, Subject, Verb, Object,

Complement, Adverbial/ Adjunct. Construction of Sentences and their types- Types of

Sentences based on sense: Assertive or Declarative Sentences, Negative Sentences,

Interrogative Sentences, Imperative Sentences, Exclamatory Sentences. Types of

Sentences based on structure: Simple, Compound and Complex. Subject – Verb

Agreement: Concord. Modals- Notions and Perceptions. Conveying Messages- Direct and

Indirect Speech (Narration). Passivization (Active- Passive Voice)

Activities: Role Plays, Dialogue Speaking, Skit, Pictures Description.

Unit 3 Speak Well (Speech Mechanism)

Phonetics

Organs of Speech- The Respiratory System, The Phonatory System, The Articulatory

System. Vowel Sounds- Pure Vowel Sounds (Monophthongs), Diphthongs, Consonant

sounds and Symbols. Phonetic Transcription of some Common English Words.

Activities: Self- Introduction, Practicing through video and audio clippings, Reading and

comprehending through various channels like newspaper and magazines.

Suggested Readings

1. Communication Skills for Engineers and Scientists, Sangeeta Sharma and Binod Mishra, PHI Learning Pvt. Ltd. (New Delhi)

2. English Grammar and Composition, Gurudas Mukherjee, Ane Books Pvt. Ltd.(New Delhi) 3. Current English Grammar and Usage with Composition, R.P. Sinha, Oxford University Press (New Delhi) 4. Effective Technical Communication, M Ashraf Rizvi, Tata McGraw Hill (New Delhi) 5. . Business Communication, Meenakshi Raman & Prakash Singh, Oxford University Press (New Delhi) 6. Professional Communication, Aruna Koneru, Tata McGraw Hills, New Delhi 7. A Practical Course for Developing Writing Skills in English, J.K. Gangal, PHI Learning Pvt. Ltd., New Delhi. 8. “Communicative English for Engineers and Professionals”, by Nitin Bhatnagar & Mamta Bhatnagar,

Pearson (New Delhi). 9. “The Ace of Soft Skills”, by Gopalswamy Ramesh & Mahadevan Ramesh, Pearson (New Delhi

SECOND SEMESTER

Paper code: AP1201 ENGINEERING PHYSICS [3 1 0 4]

Optics: Two source interference, double slit interference, coherence, intensity in double slit

interference, thin film interference, air-wedge, Newton`s rings, Michelson`s interferometer,

diffraction and wave theory of light, single-slit diffraction, intensity in single-slit diffraction (using

phasor method), diffraction at a circular aperture, double-slit interference and diffraction,

combined-intensity in double-slit diffraction (qualitative approach), diffraction of light through

multiples slits, diffraction gratings, dispersion and resolving power of gratings, polarization of

electromagnetic waves, polarizing sheets, polarization by reflection, double refraction;

Quantum Physics: Black body radiation and Planck`s hypothesis, Stefan`s Law, Wein`s

displacement law, Photoelectric effect, Compton effect, photons and electromagnetic waves, wave

properties of particles, de Broglie hypothesis, Davisson-Germer experiment, quantum particle

(wave packet, phase velocity, group velocity), the uncertainty principle;

Quantum Mechanics: An interpretation of quantum mechanics, wave function and its significance,

Schrödinger equation, particle in a box, particle in a well of finite height (qualitative), Tunneling

through a potential barrier and its applications, the simple harmonic oscillator (qualitative);

Atomic Physics & Molecular Physics: Atomic spectra of gases, energy states and spectra of

molecules (rotational and vibrational energy levels), X-rays spectrum, Moseley’s law, spontaneous

and stimulated transitions, He-Ne and Ruby laser, application of lasers;

Solid State Physics: band theory of solids, electrical conduction in metals, insulators and

semiconductors, Superconductivity, type-I and type-II superconductors, Meisner effect, BCS theory

(Introductory) and applications of superconductivity.

References:

1. Halliday D., Resnick R., Krane K. S., Physics (5e), Wiley, 2016. 2. Beiser A., Mahajan S., Rai Chaudhary S., Concepts of Modern Physics, (7e), McGraw Hill

Education, 2017. 3. Serway R. A., Jewett J. W., Physics for Scientists and Engineers with Modern Physics, Thomson,

2013.

Paper code: AM1201 ENGINEERING MATHEMATICS II [3 1 0 4]

Ordinary Differential Equations: Solutions of first order and first degree differential equations-

variables separable, homogeneous and non-homogeneous equations, exact equations, linear

equations & Bernoulli equation, General Linear Higher Order Differential Equations: Linear

homogeneous and non-homogeneous equations with constant coefficients, inverse differential

operators and method of variation of parameters, Solution of Cauchy’s homogeneous linear

equations, Solution of simple simultaneous linear differential equations, Laplace Transforms:

Transforms of elementary functions, inverse transforms, Solutions of differential equations using

Laplace transforms. Applications of equations on RLC circuits, string problems and forced

vibrations, Linear Algebra: Generalization of vector concept to higher dimensions, Vector spaces

and sub-spaces, Matrices, elementary column and row transformations, Inverse of a matrix, rank of

a matrix, systems of linear equations, consistency, solutions by Gauss elimination, Differential

Calculus: Taylor’s theorem for a function of two variables, extreme values of a function of two

variables, Lagrange’s method of undetermined multipliers, Multiple Integrals: Definitions,

evaluation by the change of order of integration, changing of variables, Jacobian’s, Applications of

areas and volumes, Beta and Gamma Functions: Definitions, elementary properties.

Text books:

1. B. S. Grewal, Higher Engineering Mathematics, Khanna Publishers, Delhi, 2006. 2. E. Kreyzig, Advanced Engineering Mathematics, Wiley Eastern, 2006.

References:

1. E. D. Rainville and P. E. Bedient, A Short Course in Differential Equations, Macmillan Pub., 1989.

2. S Narayan, Differential Calculus, Shyam Lal Charitable Trust, Delhi, 2002. 3. C. B. Thomas, Calculus and Analytical Geometry, Narosa Pub., Delhi, 1996. 4. N. Piskunov, Differential Calculus & Integral Calculus, Vol. 1 and II, Mir Pub., 1981. 5. G. Hadley, Linear Algebra, Narosa Publishers, 2002.

Paper code: EE1201 BASIC ELECTRICAL TECHNOLOGY [2 1 0 3]

Power Systems: Stages, Voltage Levels, Load Types, Electric Circuit Elements: Active & Passive

Elements, DC Networks: Star-Delta Transformations, Mesh & Node Voltage Analysis, Magnetic

Circuits: Series & Parallel, Electromagnetism: Faraday’s Laws, Induced Emf, Single-Phase AC

Circuits: Alternating Quantities, Phasor Representation, AC Circuits: Series & Parallel, Phasor

Diagrams, Power, Power Factor & Improvement, Resonance, Three-phase AC Circuits: Star &

Delta Connections, Analysis with Balanced & Unbalanced Loads, Power Measurements, Single-

Phase Transformer: Types, Construction, Working Principle, Ideal & Practical Transformers,

Equivalent Circuit, Losses, Efficiency, Regulation, Auto-Transformer, Three-Phase Induction

Motor: Types, Construction, Working Principle, Slip, Equivalent Circuit, Losses, Efficiency, Star-

delta starter, Single-phase Induction Motor: Construction, Working Principle, Types, Measuring

Instruments.

References:

1. E Hughes., Electrical and Electronic Technology (8e), Pearson Education, 2002.

2. T.K. Nagasarkar & M.S. Sukhija, Basic Electrical Engineering, OUP 2005.

3. D. P. Kothari & I.J. Nagarath, Basic Electrical Technology, TMH 2004.

Paper code: CE1201 MECHANICS OF SOLIDS [2 1 0 3] Unit 1 Stress and Strain: Tension, compression, shearing stress and strain, Poisson’s ratio, stress-

strain relationship, Hooke’s law, equations of static equilibrium for 2D and 3D cases, elastic

constants and their relations for an isotropic hookean material, anisotropy and orthotropic, thermal

stresses, composite bars, simple elastic, plastic and visco-elastic behavior of common materials in

tension and compression test, stress strain curves, concept of factor of safety and permissible stress,

conditions for equilibrium, concept of free body diagram, introduction to mechanics of deformable

bodies.

Unit 2 Members Subjected to Flexural Loads: Theory of simple bending, bending moment and

shear force diagrams for different types of static loading and support conditions on beams, bending

stresses, section modulus and transverse shear stress distribution in circular, hollow circular, I, Box,

T, angle sections etc.

Unit 3 Principal Planes, Stresses and Strains: Members subjected to combined axial, bending and

torsional loads, maximum normal and shear stresses, concept of equivalent bending and equivalent

twisting moments, Mohr's circle of stress and strain. Theories of Elastic Failures: The necessity for a

theory, different theories, significance and comparison, applications.

Unit 4 Torsion: Torsional shear stress in solid, hollow and stepped circular shafts, angular

deflection and power transmission capacity. Stability of Equilibrium: Instability and elastic stability,

long and short columns, ideal strut, Euler's formula for crippling load for columns of different ends,

concept of equivalent length, eccentric loading, Rankine formulae and other empirical relations.

Unit 5 Transverse Deflection of Beams: Relation between deflection, bending moment, shear force

and load, transverse deflection of beams and shaft under static loading, area moment method,

direct integration method, method of superposition and conjugate beam method, variational

approach to determine deflection and stresses in beam. Elastic Strain Energy: Strain energy due to

axial, bending and torsional loads, stresses due to suddenly applied loads, use of energy theorems

to determine deflections of beams and twist of shafts, Castigliano's theorem, Maxwell's theorem of

reciprocal deflections.

List of Recommended Books

1. Mechanics of Materials, James M. Gere, Cengage Learning (Brooks\Cole).

2. Mechanics of Material, Pytel and Kiusalaas, Thomson (Brooks\Cole).

3. An Introduction to the Mechanics of Solids, Crandall, Dahl and Lardner, Tata McGraw Hill.

4. Mechanics of Materials, Beer, Johnston, Dewolf and Mazurek, Tata McGraw Hill.

5. Strength of Materials, Ryder G.H., Macmillan India.

6. Strength of Materials, Sadhu Singh, Khanna Publishers.

7. Mechanics of Material, Punmia, Jain and Jain, Laxmi Publications.

Paper code: ME1201 ENGINEERING GRAPHICS [0 1 4 3]

Principle of Orthographic Projections: Points, straight lines parallel to one ref. plane (HP/VP) and

inclined to other ref. plane, Straight lines inclined to both HP and VP, Straight lines inclined to both

HP & VP and parallel to PP, Straight lines with traces, Practical problems on straight lines;

Projections of Plane surfaces: Perpendicular one ref. plane ( HP/VP ) and inclined to other ref.

plane, Inclined to both HP & VP, Inclined to both HP & VP and perpendicular to PP; Projections of

Solids (right regular) by change of position method: Axis parallel to one ref. plane (HP/VP) and

inclined to other ref. plane, Resting on one of the ref. plane, axis inclined to both HP & VP,

Suspended freely, axis inclined to both HP & VP, Axis inclined to both HP & VP parallel to PP;

Projections of solids by Auxiliary plane method: Axis inclined to both HP and VP; Sections of

solids (right regular and no spheres): Using Horizontal and vertical section planes, Using section

plane perpendicular to one ref. plane and inclined to the other ref. plane, Given the regular true

shapes of various solids and find the inclination of section plane; Development of surfaces: Parallel

line development, Radial line development, Triangulation development; Isometric projections:

Plane surfaces and simple solids (prisms & cylinders), Frustum and combination of solids, Simple

machine elements; Introduction to Computer Aided Drafting;

Text Book:

1. N. D Bhatt, Engineering Drawing Charotar Publishing House, Anand , 2000.

References:

1. K. R.Gopalkrishna , Engineering Graphics, Suhas Publications, Bangalore, 2001.

2. K .Venugopal, Engineering Drawing and Graphics + Autocad Newage International Publishers,

Delhi(2001).

3. K. L. Narayana and P. Kannaiah, A Text book on Engineering Drawing, Scitech Publications,

Chennai (2002).

Paper code: AP1251 ENGINEERING PHYSICS LAB [0 0 2 1]

Experiments on interference, diffraction and dispersion, experiments on quantum theory of radiation,

Experiments on band theory of solids, semiconductors, Experiments on resonance circuits, Hall-effect.

References:

1. Jewett & Serway, PHYSICS for Scientists and Engineers with Modern Physics (7e), Cengage Learning, 2008.

2. Worsnop & Flint, Advanced Practical Physics for Students (9e), Methuen & Co. Ltd, London 1987.

Paper code: FE1244 Environmental Science {2 1 0 3}

Unit 1 The multidisciplinary nature of environmental studies definition, scope and importance, Need for public awareness Natural Resources : Renewable and nonrenewable resources Natural resources and associated problems a) Forest resources: Use and over- exploitation, deforestation, Timber extraction mining, dams and their effects on forests and tribal people. b) Water resources: Use and over - utilization of surface and groundwater, floods, drought, conflicts over water, dams- benefits and problems. c) Mineral resources: Use and exploitation, environmental effects of extracting and using minerals resources d) Food resources: World food problems, changes causes by agriculture and over grazing, effects of modern agriculture, fertilizer- pesticide problems, water logging, salinity, case studies. e) Energy resources: Growing energy needs, renewal and nonrenewable energy sources, use of alternative energy sources. Case Studies. f) Land resources: lands as a resource, land degradation man induce landslides, Soil erosion and desertification. Human Population and the Environment Population Growth , variation among nations Population explosion, - Family Welfare Programme Environment an Human Health Human Rights Value Education HIV / AIDS Women and Child Welfare Role of Information Technology in Environment and human health Case studies

Unit 2 Biodiversity and its conservation - Introduction- definition : Genetic, species and ecosystem diversity - Bio-geographical 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 of wildlife, man- wildlife conflicts - Endangered and endemic species of India - Conservation of biodiversity: In situ and Ex- Situ conservation biodiversity. Environmental Pollution 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

Unit 3 Social Issues and the environment : - From unsustainable to sustainable development - Urban problems related to energy - Water conservation, rain water harvesting, watershed management - Resettlement and rehabilitation of people; its problems & concerns - Environmental ethics : Issues and possible solutions - Climate change, global warming, acid rain, ozone layer depletion waste land reclamation - Consumerism and waste products Environmental protection Act. - Air (Prevention and control of pollution ) Act - Water (Prevention and control of pollution ) Act - Wild Life Protection Act - Public Awareness - Forest Conservation Act. Field Work Visitto a local area to document environmental assets – river / forest / grasslands / hill / mountain. Visit to local polluted site – Urban / Rural / Industrial / Agricultural Study of common plants, insects, birds. Study of simple ecosystems – pond, river, hill slope etc.

Suggested Readings

1. Bharucha Erach, Textbook of Environmental Studies, Universities Press, Hyderabad 2. Uberoi, N.K., Environmental Management, Excel Books, New Delhi

Paper code: FS1 222 COMMUNICATION SKILLS – II {2 1 0 3}

Unit 1 Composition

Business Letter Writing- Structure, Format, Parts of Letter, Various Styles of Letter

Writing, Floating Enquiry, Quotations, Quarry for Product specification, Price and

other details, Placing the orders and their Execution, Handling Complaints, Sales

Letters, Job Applications and their Cover Letters, Letters to Editors. Technical

Proposal Writing.

Unit 2 Vocabulary related to Processes and Projects

Phrasal Verbs

Unit 3 Drama

Indian Drama- Kanyadaan by Vijay Tendulkar.

Suggested Readings

1. Communication Skills for Engineers and Scientists, Sangeeta Sharma and Binod Mishra, PHI Learning Pvt. Ltd. (New Delhi)

2. English Grammar and Composition, Gurudas Mukherjee, Ane Books Pvt. Ltd.(New Delhi) 3. Current English Grammar and Usage with Composition, R.P. Sinha, Oxford University Press

(New Delhi) 4. Effective Technical Communication, M Ashraf Rizvi, Tata McGraw Hill (New Delhi) 5. . Business Communication, Meenakshi Raman & Prakash Singh, Oxford University Press (New

Delhi) 6. Professional Communication, Aruna Koneru, Tata McGraw Hills, New Delhi 7. A Practical Course for Developing Writing Skills in English, J.K. Gangal, PHI Learning Pvt. Ltd.,

New Delhi. 8. “Communicative English for Engineers and Professionals”, by Nitin Bhatnagar & Mamta

Bhatnagar, Pearson (New Delhi). 9. “The Ace of Soft Skills”, by Gopalswamy Ramesh & Mahadevan Ramesh, Pearson (New Delhi) 10. Communication Skills for Engineers and Scientists, Sangeeta Sharma & Binod Mishra, PHI

Learning Pvt. Ltd. 11. Kanyadaan ,Vijay Tendulkar. Oxford University Press.

Third Semester

MATHEMATICS –III [3 1 0 4]

Unit 1 : Function of Complex variable

Analytic function, C-R equations, Cauchy‘s integral theorem,

Cauchy‘s integral formula for derivatives of analytic function,

Taylor‘s and Laurent‘s series, singularities, Residue theorem,

Evaluation of real integrals of the type and

Unit 2 Statistical Techniques - I

Moments, Moment generating functions, Skewness, Kurtosis, Curve

fitting, Method of least squares, Fitting of straight lines, Polynomials,

Exponential curves etc., Correlation, Linear, non –linear and multiple

regression

analysis, Probability theory.

Unit 3 Statistical Techniques - II

Binomial, Poisson and Normal distributions, Sampling theory (small

and large), Tests of significations: Chi-square test, t-test, Analysis of

variance (one way) , Application to engineering, medicine,

agriculture etc.

Time series and forecasting (moving and semi-averages), Statistical

quality control methods, Control charts, ,

R, p, np, and c charts. Unit 4 Numerical Techniques – I

Zeroes of transcendental and polynomial equation using Bisection

method, Regula-falsi method and Newton-Raphson method, Rate of

convergence of above methods.

Interpolation: Finite differences, difference tables, Newton‘s forward

and backward interpolation , Lagrange‘s

and Newton‘s divided difference formula for unequal intervals.

Unit 5 Numerical Techniques –II

Solution of system of linear equations, Gauss- Seidal method, Crout

method. Numerical differentiation, Numerical integration ,

Trapezoidal , Simpson‘s one third and three-eight rules, Solution of

ordinary differential (first order, second order and simultaneous)

equations by Euler‘s, Picard‘s and forth-order Runge- Kutta

mehthods.

Test Books :-

1. Peter V. O‘Neil, Advance Engineering Mathematics Thomson (Cengage) Learning, 2007.

2. Jain, Iyenger & Jain, Numerical Methods for Scientific and Engineering Computation, New Age

International, New Delhi , 2003.

3. J.N. Kapur, Mathematical Statistics, S. Chand & company Ltd.,2000

Reference Books :-

1. R.K. Jain & S.R.K. Iyenger, Advance Engineering Mathematics, Narosa Publication House, 2002.

2. Chandrika Prasad, Advanced Mathematics for Engineers, Prasad Mudralaya, 1996.

3. E. Kreysig, Advanced Engineering Mathematics, John Wiley & Sons, 2005.

4. B.S. Grewal, Higher Engineering Mathematics, Khanna Publishers, 2005.

5. Devi Prasad, An introduction to Numerical Analysis, Narosa Publication house, New Delhi 2006.

6. T. Veerajan & T. Ramchandrandran, Theory & Problems in Numerical Methods, TMH, New Delhi,

2004.

7. S.P.Gupta, Statistical Methods, Sultan and Sons, New Delhi, 2004.

8. Devore, Probability and Statistics, Thomson(Cengage) Learning, 2007.

9. Walpole, Myers, Myers & Ye, Probability and Statistics for Engineers & Scientists, Pearson

Education, 2003.

EE1301 ANALOG ELECTRONICS [3 1 0 4]

Unit 1 Special Diodes- LED, Varactor diode, Photo diode, Schottky diode, Tunnel diode;

their characteristics and applications.

Transistors as a switch.

Unit 2 Frequency Response: Amplifier transfer function, low and high frequency response of

common emitter and common source amplifiers.

Feedback: General feedback structure; properties of negative feedback; series-

series, series-shunt, shunt-series and shunt-shunt feedback amplifiers.

Unit 3 Oscillators Basic principle of sinusoidal oscillator, R-C Phase Shift

and Wein Bridge oscillators, tuned oscillators- Collpits and Hartley;

Crystal oscillator Unit 4 Tuned Amplifier: Band Pass Amplifier, Parallel resonant Circuits, Band

Width of Parallel resonant circuit. Analysis of Single Tuned Amplifier, Primary & Secondary Tuned Amplifier with BJT & FET. Double Tuned Transformer Coupled Amplifier. Stagger Tuned Amplifier. Pulse Response of such Amplifier. Class C tuned amplifiers, Shunt Peaked Circuits for Increased Bandwidth.

Unit 5 Power Amplifiers: Classification, Power transistors & power MOSFET (DMOS, VMOS). Output power, power dissipation and efficiency analysis of Class A, class B, class AB, class C, class D and class E amplifiers as output stages. Push pull amplifiers with and without transformers. Complementary symmetry & quasi complimentary symmetry amplifiers

Text Books: 1. A.S. Sedra and K.C. Smith ―Microelectronics Circuits‖ Oxford University Press ( India)

2. Malvino & Leach, ―Digital Principles and applications‖ Tata Mc. Graw Hill

3. R.A. Gayakwad ―Op amps and Linear Integrated Circuits‖ Prentice Hall of India.

4. Balbir Kumar and Shail B.Jain, ―Electronic Devices and Circuits‖ Prentice Hall of India,2007

Reference Books: 1. Taub & Schilling ―Digital Electronics‖- Tata Mc Graw Hill

2. Anil K. Maini, ―Digital Electronics: Principles and Integrated circuits‖ Wiley India Ltd, 2008.

3. Millman, J. and Grabel A, ―Microelectronics‖ Mc Graw Hill

4. Anand Kumar, ―Switching Theory and Logic Design‖ Prentice Hall of India, 2008.

Aloke. K. Dutta, ―Semiconductor Devices and circuits‖, Oxford University Press, 2008.

EE1302 OBJECT ORIENTED SYSTEMS AND C++ [3 1 0 4]

Unit 1 Object & classes, Links and Associations, Generalization and

Inheritance, Aggregation, Abstract classes, Generalization, Multiple

Inheritance, Meta data.

Unit 2 Events and States, Operations and Methods, Nested state diagrams,

Concurrency, Relation of Object and Dynamic Models

Unit 3 Functional Models, Data flow diagrams, Specifying Operations,

Constraints, OMT Methodologies, examples and case studies to

demonstrate methodology

Unit 4 Principles of object oriented programming, Tokens, Expressions,

classes, Functions, Constructors, Destructors, Functions overloading,

Operator Overloading, I/O Operations.

Real life applications, Inheritance Extended Classes, Pointer. Virtual

functions, Polymorphisms, Working with files, Class templates,

Function templates, Exception handling, String manipulation.

Translating object oriented design into implementations.

Unit 5 Introduction to Unix/Linux operating systems. Concept of file

system, handling ordinary files, concept of shell, vi editor, Basic ile

attributes, concept of process, Basic system administration.

Text Books:

1. Rambaugh James etal, "Object Oriented Design and Modeling",PHI-1997

2. Balagurusamy E," Object Oriented Programming with C++", TMH,2001 '

3. Sumitabha Das ―Unix concepts & application‖ TMH

Reference Books:

1. Dillon and Lee, "Object Oriented Conceptual Modeling", New Delhi PHI-1993

2. Lipman, Stanley B, Jonsce Lajoie, C++ Primer Reading", AWL, 1999

3. Stephen R. Shah, "Introduction to Object Oriented Analysis and Design", TMH

4. Berzin Joseph, "Data Abstraction: the object oriented approach using C++", McGraw Hill

5. Budd, Timothy, "An Introduction to Object Oriented Programming", Pearson 2000

EE1303

ELECTRICAL MEASUREMENT & INSTRUMENTS

MEASURING

[3 1 0 4]

Unit 1 (1) Philosophy Of Measurement: Methods of Measurement,

Measurement System, Classification of instrument system,

Characteristics of instruments & measurement system, Errors in

measurement &

its analysis, Standards.

Analog Measurement of Electrical Quantities : Electrodynamic

,Thermocouple, Electrostatic

& Rectifier type Ammeters & Voltmeters , Electrodynamic Wattmeter,

Three Phase Wattmeter,

Power in three phase system , errors & remedies in wattmeter and

energy meter.

Unit 2 Instrument Transformer and their applications in the extension of

instrument range, Introduction to

measurement of speed , frequency and power factor

Unit 3 Measurement of Parameters: Different methods of measuring low,

medium and high resistances,

measurement of inductance & capacitance with the help of AC

Bridges, Q Meter. Unit 4 (1) (1) AC Potentiometer: Polar type & Co-ordinate type AC

potentiometers , application of AC

Potentiometers in electrical measurement

(2) Magnetic Measurement: Ballistic Galvanometer , flux meter ,

determination of hysteresis loop,

measurement of iron losses.

Unit 5 (1) Digital Measurement of Electrical Quantities: Concept of

digital measurement, block diagram Study of digital voltmeter,

frequency meter Power Analyzer and Harmonics Analyzer;

Electronic Multimeter.

(2)Cathode Ray Oscilloscope : Basic CRO circuit (Block

Diagram),Cathode ray tube (CRT) & its components , application of

CRO in measurement ,Lissajous Pattern.; Dual Trace & Dual Beam

Oscilloscopes.

Text Book: 1. E.W. Golding & F.C. Widdis, ―Electrical Measurement &Measuring Instrument‖, A.W. Wheeler&

Co. Pvt. Ltd. India.

2. A.K. Sawhney,―Electrical & Electronic Measurement & Instrument‖, Dhanpat Rai & Sons , India .

Reference Books: 3. Forest K. Harries,―Electrical Measurement‖,Willey Eastern Pvt. Ltd. India .

4. M.B. Stout ,―Basic Electrical Measurement‖ Prentice hall of India,India.

5. W.D.Cooper,‖ Electronic Instrument & Measurement Technique ― Prentice Hall International.

6. Rajendra Prashad ,―Electrical Measurement &Measuring Instrument‖ Khanna Publisher.

J.B. Gupta, ―Electrical Measurements and Measuring Instruments‖, S.K. Kataria & Sons.

EE1304 CIRCUIT THEORY [3 1 0 4]

Unit 1 Circuit Principles

Physical concept of Electric circuit parameters—Resistance,

Inductance and capacitance. Electrical circuit and its types. Voltage source, current source and their

mutual conversion. Law for current division between two parallel

resistances. Kirchhofs Laws and their application in electrical circuits.

Solution of D.C. circuits by Mesh current and Nodal Voltage analysis. Star

to Delta and Delta to Star transformation of resistances.

Unit 2 A.C. Bridges

Circuit, working and application of Inductance bridges (Maxwells,

Maxwell-Wein, Anderson, Hay's and Owen bridges) and Capacitance

bridges (De & Santy's, Weins, Schering and Wein/bridges).

Unit 3 Network Theorems

Statement, explanation and application of super position theorem,

Thevemins theorem, Norton‘s theorem, Maximum Power Transfer

theorem, reciprocity theorem, Milliman‘s theorem. Tellegen‘s

theorem.

Network reduction by Star-Delta and Delta-star Transformations Network source Conversion—Voltage source to current source and vice-

versa Unit 4 Two Port Network

Introduction to two port network and its types. Open circuit

impedance and short circuit admittance, Hybrid & inverse Hybrid

and-4 transmission & inverse transmission parameters. Solution of

transmission line equivalent circuits, as two port network.

Graph Theory : Graph of a Network, definitions, tree, co tree , link,

basic loop and basic cut set, Incidence matrix, cut set matrix, Tie set

matrix Duality, Loop and Nodal methods of analysis.

Unit 5 (a) Network Synthesis : Positive real function; definition and properties; properties of LC, RC

and RL driving point functions, synthesis of LC, RC and RL driving

point immittance functions using Foster and Cauer first and second

forms.

(b) Filters: Image parameters and characteristics impedance, passive and active

filter fundamentals, low pass,

highpass, (constant K type) filters, and introduction to active filters.

Text Books:

1. M.E. Van Valkenburg, ―Network Analysis‖, Prentice Hall of India

2. A.Chakrabarti, ―Circuit Theory‖ Dhanpat Rai & Co.

3. C.L Wadhwa, ―Network Analysis and Synthesis‖ New Age International Publishers, 2007.

4 . D.Roy Choudhary, ―Networks and Systems‖ Wiley Eastern Ltd.

5 .Donald E. Scott: ―An Introduction to Circuit analysis: A System Approach‖ McGraw Hill

EE1305 ELECTROMAGNETIC FIELD THEORY [3 1 0 4]

Unit 1 Review of Vector analysis, Rectangular, Cylindrical and Spherical

coordinates and their transformation, divergence, gradient and cvrl in

different coordinate systems, Electric field intensity, Electric Flux

density, Energy and potential

Unit 2 Current and conductors, Dielectrics and capacitance, Poisson‘s and

Laplace‘s equations.

Unit 3 Steady magnetic field, magnetic forces, materials and inductance,

Time varying field and Maxwell‘s equation.

Unit 4 Uniform Plane waves, Plane wave reflection and dispersion

Text Books:

1. Mayt, W.H. and Buck, J.A., ―Engineering Electromagnetic‖ Tata Mc.Graw Hill Publishing

Reference Books:

1. Jordan E.C. and Balmain K.G., ―Electromagnetic Wave and radiating Systems‖ Prentice Hall

International , 2nd

Edition.

2. Kraus, F. ―Electromagnetic‖ Tata Mc. Graw Hill 5th

Edition

Ramo S, Whinnery T.R. and Vanduzer T, ―Field and Waves in Communication Electronics‖ John

Wiely and Sons 3rd

Edition

ELECTRONICS LAB

EE1351 ANALOG ELECTRONICS: [0 0 2 1]

Note: Select at least any five out of the following:

1. To Plot V-I characteristics of junction diode and zener diode.

2. To draw wave shape of the electrical signal at input and output points of the half wave, full wave and

bridge rectifiers.

3. To Plot input / output characteristics for common base transistor.

4. To Plot input /output characteristics of FET and determine FET parameters at a given operating

point.

5. To determine voltage gain, current gain, input impedance and output impedance of common emitter

amplifier.

6. To determine voltage gain, current gain, input impedance and output impedance and frequency

response of R-C coupled common emitter amplifier.

7. To design R-C Phase shift / Wein Bridge oscillator and verify experimentally the frequency of

oscillation.

8. To study transistor as a switch and determine load voltage and load current when the transistor is

ON.

Note: Select at least any five out of the following:

9. To study application of Operational Amplifier as summer integrator and voltage comporator

10. To study operation of Op-Amp based astable and monostable multivibrators.

11. To study operation IC 555 based astable and monostable multibrators.

12. To study operation of (a) multiplexer using IC 74150 (b) demultiplexer using IC 74138.

13. To study operation of Adder / Subtractor using 4 bit / 8 bit IC 7483.

14. To study operation of (a) J K Master – slave flip – flop using IC 7476 (b) Modulo N counter using

programmable counter IC74190.

15. To verify experimentally output of A/D and D/A converters.

16. To study regulation of unregulated power supply using IC 7805/7812 voltage regulator and measure

the load and line regulations

EE1352 ELECTRICAL MEASUREMENT LAB [0 0 2 1]

Note: Minimum of nine experiments from the following:

1. Calibration of ac voltmeter and ac ammeter

2. Measurement of form factor of a rectified sine wave and determine source of error if r.m.s.value is

measured by a multi-meter

3. Measurement of phase difference and frequency of a sinusoidal ac voltage using C.R.O.

4. Measurement of power and power factor of a single phase inductive load and to study effect of

capacitance connected across the load on the power factor

5. Measurement of low resistance by Kelvin‘s double bridge

6. Measurement of voltage, current and resistance using dc potentiometer

7. Measurement of inductance by Maxwell‘s bridge

8. Measurement of inductance by Hay‘s bridge

9. Measurement of inductance by Anderson‘s bridge

10. Measurement of capacitance by Owen‘s bridge

11. Measurement of capacitance by De Sauty bridge

12. Measurement of capacitance by Schering bridge

13. Study of Frequency and differential time counter

14. College may add any two experiments in the above list

EE1353 ELECTRICAL CIRCUIT LAB [0 0 2 1]

1. To verify Kirchhoff‘s Laws.

2. To verify Superposition Theorem.

3. To verify Thevenin's Theorem.

4. To verify Norton's Theorem.

5. To verify Maximum power transformer Theorem.

6. To find the value of R, L and C by R-L-C bridge,

7. To find ABCD constants of a two port network.

8. To Find open circuit impedance and short circuit admitance parameters of a network

circuit.

FV1 366 Professional Values and Ethics [2 1 0 3]

Unit 1 Basic Human Values: Morals, Values and Ethics – Truth, Rights

Conduct (Righteousness), Love, non-violence and peace, Humility

and character. Core areas of ethics: Social ethics, Personal ethics

Integrity and Trustworthiness, Honesty, Loyalty, Courage, Prudence,

Confidence, Confidentiality

Unit 2 Introduction: Definition, objectives and issues in values and ethics,

Senses of Engineering Ethics, Moral Autonomy- Kohlberg‘s theory-

Gilligan‘s theory, Professions and Professionalism.Concept of

relative values- social, professional and ethical, Codes of Ethics,

Industrial standards, A balanced outlook on low, Importance of

values and ethics in corporate world

Unit 3 Rights and Responsibilities: An overview of the Indian value

system and its application in corporate life partaing to engineering

industries. Collegiality and Loyalty, respect for Authority, collective

bargaining, Professional rights, Employee rights, Intellectual property

rights

Unit 4 National and International Issues: Multinational Corporations and

business ethics, various care studies pertaining to environment,

computer world, social engineering, weapon development, Role of

engineering as a managers, consultant, expert witness and moral

leader, code of conduct for engineers

Text book

1. Chakraborty S K, ―Values and Ethics for Organization Theory and Practice‖, Oxford India,

Latest Edition.

2. Govindarajan M.G. and Natarajan S, ―Engineering Ethics‖, PHI, Latest Edition.

FOURTH SEMESTER

EE1401 ELECTRICAL & ELECTRONICS ENGINEERING

MATERIALS [3 1 0 4]

Unit 1 Crystal Structure of Materials:

A. Bonds in solids, crystal structure, co-ordination number, atomic

packing factor, Miller Indices, Bragg‘s law and x-ray diffraction,

structural Imperfections, crystal growth

B. Energy bands in solids, classification of materials using energy

band.

Unit 2 Conductivity of Metals: Electron theory of metals, factors affecting electrical resistance of

materials, thermal conductivity of metals, heat developed in current

carrying conductors, thermoelectric effect, superconductivity and

super conducting materials, Properties and applications of electrical

conducting and insulating

materials, mechanical properties of metals

Unit 3 Mechanism of Conduction in semiconductor materials: Types of semiconductors, current carriers in semiconductors, Half

effect, Drift and Diffusion currents, continuity equation, P-N junction

diode, junction transistor, FET & IGFET, properties of semi-

conducting materials.

Unit 4 Magnetic Properties of Material: Origin of permanent magnetic dipoles in matters, Classification

Diamagnetism, Paramagnetism,

Ferromagnetism,AntiferromagnetismandFerrimagnetism,

magnetostriction, properties of magnetic materials, soft and hard

magnetic materials, permanent magnetic materials

Text Books : 1 A.J. Dekker,‖Electrical Engineering Materials‖ Prentice Hall of India

2 R.K. Rajput,‖ Electrical Engg. Materials,‖ Laxmi Publications.

3 C.S. Indulkar & S.Triruvagdan ―An Introduction to Electrical Engg. Materials, S.Chand & Co.

References :

4 Solymar, ―Electrical Properties of Materials‖ Oxford University Press.

5. Ian P. Hones,‖ Material Science for Electrical and Electronic Engineering,‖ Oxford University Press.

8 G.P. Chhalotra & B.K. Bhat, ‖Electrical Engineering Materials‖ Khanna Publishers.

9 T. K. Basak, ―Electrical Engineering Materials‖ New age International.

10

EE1402 FUNDAMENTALS OF DIGITAL SIGNAL PROCESSING [3 0 0 3]

Unit 1 Discrete-Time Signals And Systems: Sequences, discrete time systems, LTI systems, frequency domain

representation of discrete time signals and systems, discrete time

signals and frequency domain representation, Fourier Transform.

Discrete Fourier Transform:

Discrete Fourier transforms, properties, linear convolution using

DFT, DCT

Unit 2 Sampling of Continuous Time Signals: Sampling and reconstruction of signals, frequency domain

representation of sampling, discrete time processing of continuous

time signals, continuous time processing of discrete time signals,

changing the sampling rate using discrete time processing, multi rate

signal processing, digital processing of analog signals, over sampling

and noise shaping in A/D and D/A conversion

Unit 3 Transform Analysis of LTI Systems: Frequency response of LTI systems, system functions, frequency

response for rational system functions, magnitude-phase relationship,

all pass systems, minimum phase systems, and linear systems with

generalized linear phase

Overview of finite precision numerical effects, effects of coefficient

quantization,Effects of round-off noise in digital filters, zero-input

limit cycles in fixed point realizations of IIR digital filters. Unit 4 Filter Design Techniques:

Design of D-T IIR filters from continuous – time filters, design of

FIR filters by windowing, Kaiser Window method, optimum

approximations of FIR filters, FIR equiripple approximation

Unit 5 Efficient computation of the DFT: Goertzel algorithm, decimation in time and decimation in frequency,

FFT algorithm, practical considerations, implementation of the DFT

using convolution, effects of finite register length.

Fourier Analysis of Signals Using DFT : DFT analysis of sinusoidal signals, time-dependent Fourier

transforms: Block convolution, Fourier analysis of non – stationary

and stationary random signals, spectrum analysis of random signals

using estimates of the autocorrelation sequence

Text Books: 1. Oppenheim A.V., Schafer, Ronald W. & Buck, John R.,‖Discrete Time Signal processing‖, Pearson

Education ,2nd

Edition

Reference Books: 2. Proakis, J.G. & Manolakis, D.G.,‖ Digital Signal Processing: Principles Algorithms and

Applications‖, Prentice Hall of India.

3. Rabiner, L.R. and Gold B., ―Theory and applications of DSP‖, Prentice Hall of India.

4. Oppenheim, Alan V. & Willsky, Alan S. , ―Signals and Systems‖ , Prentice Hall of India, 2nd

Edition 5.

6.

EE1403 DIGITAL ELECTRONICS [3 1 0 4]

Unit 1 Number Systems, Basic Logic Gates & Boolean Algebra: Binary

Arithmetic & Radix representation of different numbers. Sign &

magnitude representation, Fixed point representation, complement

notation, various codes & arithmetic in different codes & their inter

conversion.

Features of logic algebra, postulates of Boolean algebra.Theorems of

Boolean algebra.Boolean function. Derived logic gates: Exclusive-

OR, NAND, NOR gates, their block diagrams and truth tables. Logic

diagrams from Boolean expressions and vice-versa. Converting logic

diagrams to universal logic. Positive, negative and mixed logic.Logic

gate conversion.

Unit 2 Digital Logic Gate Characteristics: TTL logic gate characteristics:

Theory & operation of TTL NAND gate circuitry. Open collector

TTL. Three state output logic.

TTL subfamilies.MOS & CMOS logic families. Realization of logic

gates in RTL, DTL, ECL, C-MOS & MOSFET. Interfacing logic

families to one another.

Unit 3 Minimization Techniques: Minterm, Maxterm, Karnaugh Map, K

map upto 4 variables. Simplification of logic functions with K-map.

Conversion of truth tables in POS and SOP form. Incomplete

specified functions. Variable mapping.Quinn-McKlusky

minimization techniques.

Unit 4 Combinational Systems: Combinational logic circuit design, half and

full adder, subtractor. Binary serial and parallel adders.BCD

adder.Binary multiplier. Decoder: Binary to Graydecoder, BCD to

decimal, BCD to 7-segment decoder.

Multiplexer, demultiplexer,encoder.Octal to binary, BCD to excess-3

encoder.Diode switching matrix.Design of logic circuits by

multiplexers, encoders, decoders and demultiplexers. Unit 5 Sequential Systems: Latches, flip-flops, R-S, D, J-K, Master Slave

flip flops. Conversions of flip-flops.

Counters: Synchronous & asynchronous ripple and decade counters,

Modulus counter, skipping state counter, counter design, state

diagrams and state reduction techniques. Ring counter. Counter

applications. Registers: buffer register, shift register.

Text Books

1. Zvi Kohavi ,Switching and Finite Automat theory, Tata McGrwHill

2. Morris Mano ,Digital Logic and Computer Design Prentice Hall of India

Reference Books

1. Floyd T.L. Digital Fundamentals , Universal Bookstall

2. Biswas N.N. Logic System Theory Prentice Hall of Inia

3. Leach D. Malvino A.P. & Saha – Digital Principles and Applications- Tata McGraw Hill

EE1404 SIGNALS AND SYSTEMS [3 1 0 4]

Unit 1 INTRODUCTION:

Continuous time and discrete time systems, Properties of systems.

Linear time invariant systems - continuous time and discrete time.

Properties of LTI systems and their block diagrams. Convolution,

Discrete time systems described by difference equations.

Unit 2 : FOURIER SERIES REPRESENTATION OF SIGNALS:

Fourier series representation of continuous periodic signal & its

properties, Fourier series representation of Discrete periodic signal &

its properties, Continuous time filters & Discrete time filters

described by Diff. equation.

Unit 3 FOURIER TRANSFORM:

The continuous time Fourier transform for periodic and aperiodic

signals, Properties of CTFT. Discrete time Fourier transform for

periodic and aperiodic signals. Properties of DTFT. The convolution

and modulation property

Unit 4 Z-TRANSFORM & LAPLACE TRANSFORM:

Introduction. The region of convergence for the Z-transform. The

Inverse Z-transform. Two dimensional Z-transform. Properties of Z

transform. Laplace transform, Properties of Laplace Transform,

Application of Laplace transform to system analysis. Unit 5 SAMPLING:

Mathematical theory of sampling. Sampling theorem. Ideal & Real

sampling. Interpolation technique for the reconstruction of a signal

from its samples. Aliasing. Sampling in freq. domain. Sampling of

discrete time signals.

Text Book:

• Nagrath, S.S., Sharan; S.N.,Ranjan, R, Kumar, S.,‖Signals and Systems,TMH,New Delhi.

• Principles Of Linear Systems And Signals, 2e (Intl. Version), Lathi 2nd, Oxford

Reference Books:

• Signal & Systems 3e, Chen 3rd, Oxford

• Fundamentals Of Signals And Systems, Wiley

• Signals And Systems, P Rao, TMH

• Signals And Systems, Ravi Kumar, PHI

EE1405 ELECTRO-MECHANICAL ENERGY CONVERSION –I [3 1 0 4]

Unit 1 Principles of Electro-mechanical Energy Conversion -

Introduction, Flow of Energy in

Electromechanical Devices, Energy in magnetic

systems(defining energy & Co-energy) , Singly Excited Systems;

determination of mechanical force, mechanical energy, torque

equation , Doubly excited Systems; Energy stored in magnetic field,

electromagnetic torque , Generated emf in machines; torque in

machines with cylindrical air gap .

Unit 2 D.C. Machines:- Construction of DC Machines, Armature winding,

Emf and torque equation ,

Armature Reaction ,Commutation , Interpoles and Compensating

Windings, Performance

Characteristics of D.C. generators.

Unit 3 D.C. Machines (Contd.):- Performance Characteristics of D.C.

motors ,Starting of D.C. motors ; 3 point and 4 point starters , Speed

control of D.C. motors: Field Control , armature control and Voltage

Control (Ward Lenonard method); Efficiency and Testing of D.C.

machines (Hopkinson‘s and Swinburn‘s Test).

Unit 4 Single Phase Transformer: Phasor diagram, efficiency and voltage

regulation, all day efficiency. Testing of Transformers: O.C. and

S.C. tests, Sumpner;s test, polarity test.

Auto Transformer: Single phase and three phase auto transformers,

volt-amp, relation, efficiency, merits & demerits and applications

Unit 5 Three Phase Transformers: Construction, three phase transformer

phasor groups and their connections, open delta connection, three

phase to 2 phase, 6 phase or 12 phase connections, and their

applications, parallel operation and load sharing of single phase and

three phase transformers, excitation phenomenon and harmonics in

transformers, three winding transformers.

Text Books: 1 I.J. Nagrath & D.P.Kothari,‖ Electrical Machines‖, Tata McGraw Hill

2 Husain Ashfaq ,‖ Electrical Machines‖, Dhanpat Rai & Sons

3 A.E. Fitggerald, C.Kingsley Jr and Umans,‖Electric Machinery‖ 6th

Edition McGraw Hill,

International Student Edition.

4 B.R. Gupta & Vandana Singhal, ―Fundamentals of Electrical Machines, New Age International.

Reference Books: 5 Irving L.Kosow, ―Electric Machine and Tranformers‖, Prentice Hall of India.

6 M.G. Say, ―The Performance and Design of AC machines‖, Pit man & Sons.

7 Bhag S. Guru and Huseyin R. Hizirogulu, ―Electric Machinery and Transformers‖ Oxford

University Press, 2001.

EE1406 MICROPROCESSORS AND INTERFACING [3 1 0 4]

Unit 1 Introduction to Digital Computer and Microprocessor: Digital Computers: General architecture and brief description of

elements, instruction execution, instruction format, and instruction

set, addressing modes, programming system, higher lever languages.

Buses and CPU Timings: Bus size and signals, machine cycle

timing diagram, instruction timing, processor timing.

Microprocessor and Microprocessor Development Systems:

Evolution of Microprocessor, Microprocessor architecture and its

operations, memory, inputs-outputs (I/Os), data transfer schemes

interfacing devices, architecture advancements of microprocessors,

typical microprocessor development system.

Unit 2 8-bit Microprocessors. 8085 microprocessor: pin configuration, internal architecture.

Timing & Signals: control and status, interrupt: ALU, machine

cycles,

Instruction Set of 8085: Addressing Modes: Register addressing, direct addressing; register

indirect addressing, immediate addressing, and implicit addressing.

Instruction format, op-codes, mnemonics, no. of bytes, RTL, variants,

no. of machine cycles and T states, addressing modes.

Instruction Classification: Data transfer, arithmetic operations,

logical operations, branching operation, machine control; Writing

assembly Language programs, Assember directives.

Unit 3 16-bit Microprocessors: Architecture: Architecture of INTEL 8086 (Bus Interface Unit, Execution unit),

register organization, memory addressing, memory segmentation,

Operating Modes

Instruction Set of 8086 Addressing Modes: Instruction format:

Discussion on instruction Set: Groups: data transfer, arithmetic , logic

string, branch control transfer, processor control.

Interrupts: Hardware and software interrupts, responses and types.

Unit 4 Fundamental of Programming: development of algorithms,

flowcharts in terms of structures,(series, parallel, if-then-else etc.)

Assembler Level Programming: memory space allocation (mother

board and user program) Assembler level programs (ASMs)

Unit 5 Peripheral Interfacing: I/O programming: Programmed I/O, Interrupt Driven I/O, DMA I/O

interface: serial and parallel communication, memory I/O mapped

I/Os. Peripheral Devices: 8237 DMA controller, 8255-Programmable

peripheral interface, 8253/8254 Programmable timer/counter.

8259 programmable Interrupt Controller

.

Text Books: 1. Gaonkar, Ramesh S, ―Microprocessor Architecture, programming and applications with the 8085‖

Pen ram International Publishing 5th

Ed.

2. Uffenbeck, John, ―Microcomputers and Microprocessors‖ PHI/ 3rd

Edition.

3. Ray, A.K. & Burchandi, K.M., ―Advanced Microprocessors and Peripherals: Architecture,

Programaming and Interfacing‖ Tata Mc. Graw Hill.

4. Krishna Kant, ―Microprocessors and Microcontrollers‖ PHI Learning.

Reference Books: 5. Brey, Barry B. ―INTEL Microprocessors‖ Prentice Hall ( India)

6. ADitya P Mathur, ―Introduction to Microprocessor‖ Tata Mc Graw Hill

7. M. Rafiquzzaman, ―Microprocessors- Theory and applications‖ PHI

8. B. Ram, ―Advanced Microprocessor & Interfacing‖ Tata McGraw Hill

9. Renu Singh & B.P.Singh, ―Microprocessor and Interfacing and applications‖ New Age International

10. Hall D.V., ―Microprocessors Interfacing‖ Tata Mc Graw Hill

Liu and Gibson G.A., ―Microcomputer Systems: The 8086/8088 Family‖ Prentice Hall (India)

EE1451 DIGITAL ELECTRONCIS LAB [0 0 2 1]

9. To study operation of (a) multiplexer using IC 74150 (b) demultiplexer using IC 74138.

10. To study operation of Adder / Subtractor using 4 bit / 8 bit IC 7483.

11. To study operation of (a) J K Master – slave flip – flop using IC 7476 (b) Modulo N counter using

programmable counter IC74190.

12. To verify experimentally output of A/D and D/A converters.

13. To study regulation of unregulated power supply using IC 7805/7812 voltage regulator and measure

the load and line regulations

EE1452 ELECTROMECHANICAL ENERGY CONVERSION- I LAB [0 0 2 1]

1 To obtain magnetization characteristics of a d.c. shunt generator

2 To obtain load characteristics of a d.c. shunt generator and compound generator (a) Cumulatively

compounded (b) Differentially compounded

3 To obtain efficiency of a dc shunt machine using Swinburn‘s test

4 To perform Hopkinson‘s test and determine losses and efficiency of DC machine

5 To obtain speed-torque characteristics of a dc shunt motor

6 To obtain speed control of dc shunt motor using (a) armature resistance control (b) field control

7 To obtain speed control of dc separately excited motor using Conventional Ward-Leonard/ Static

Ward –Leonard method.

8 To study polarity and ratio test of single phase and 3-phase transformers

9 To obtain equivalent circuit, efficiency and voltage regulation of a single phase transformer using

C.C. and S.C. tests.

10 To obtain efficiency and voltage regulation of a single phase transformer by Sumpner‘s test.

11 To obtain 3-phase to 2-phase conversion by Scott connection.

12 To determine excitation phenomenon (B.H. loop) of single phase transformer using C.R.O.

EE14543 MICROPROCESSOR LABORATORY [0 0 2 1]

A. Study Experiments

1. To study 8085 based microprocessor system

2. To study 8086 and 8086A based microprocessor system

3. To study Pentium Processor

B. Programming based Experiments (any four)

4. To develop and run a program for finding out the largest/smallest number from a given set of

numbers.

5. To develop and run a program for arranging in ascending/descending order of a set of numbers

6. To perform multiplication/division of given numbers

7. To perform conversion of temperature from 0F to

0C and vice-versa

8. To perform computation of square root of a given number

9. To perform floating point mathematical operations (addition, subtraction, multiplication and

division)

C. Interfacing based Experiments (any four)

10. To obtain interfacing of RAM chip to 8085/8086 based system

11. To obtain interfacing of keyboard controller

12. To obtain interfacing of DMA controller

13. To obtain interfacing of PPI

14. To obtain interfacing of UART/USART

15. To perform microprocessor based stepper motor operation through 8085 kit

16. To perform microprocessor based traffic light control

17. To perform microprocessor based temperature control of hot water.

FG1 233 GENERAL KNOWLEDGE – II (Public Administration) [2 1 0 3]

Unit 1 Introduction to Public Administration

Meaning and Scope of Public Administration; Development of Public

Administration as a

Discipline; role of functions of President, Prime Minister, Union Cabinet

& Minister of the Government & District Administration.

Unit 2 Growth Public Administration in India

Historical Background of Indian Administration, Salient Features of Indian

Administration since

Independence; Function & Theories of state: scientific Management & other

theories of administration. Election system in India.

Unit 3 Indian Constitution

Preamble, Features and Significance of Indian Constitution; Fundamental

Rights; Directive fundamental duties, Principles of the State Policy;

Function and Powers of Lok Sabha, Rajya Sabha and State Legislatures;

Judicial System.

Unit 4 Rural, Local and Panchayat Administration

Meaning, Nature and Significance of R u r a l Administration in India;

Constitutional Provisions and Amendments; The Concept of Panchayati

Raj; Approaches to Rural development; Role of Cooperatives in Rural

Development.

References:

1. M. Laxmikanth, Indian Polity for Civil Services Examination, Tata Mcgraw Hill, 2009.

2. M. Laxmikanth, Governance in India, Tata Mcgraw Hill, 2011.

Newspapers & Magazines:

The Hindu, The Times of India, Frontline, Outlook, The Week, India Year Book, Manorama Year Book,

Economic Survey, Pratyogita Darpan (English and Hindi), Pratyogita Darpan (Special Issues), Yojana,

Kurukshetra, World Focus.

FIFTH SEMESTER

EE1501 ELEMENTS OF POWER SYSTEM [3 1 0 4]

Unit 1 Power System Components: Single line Diagram of Power system,

Brief description of power system Elements: Synchronous machine,

transformer, transmission line, bus bar, circuit breaker and isolator

Supply System Different kinds of supply system and their comparison, choice of

transmission voltage

Transmission Lines: Configurations, types of conductors, resistance of line, skin effect,

Kelvin‘s law.Proximity effect

Unit 2 Over Head Transmission Lines Calculation of inductance and capacitance of single phase, three

phase, single circuit and double circuit transmission lines,

Representation and performance of short, medium and long

transmission lines, Ferranti effect. Surge impedance loading

Unit 3 Corona and Interference: Phenomenon of corona, corona formation, calculation of potential

gradient, corona loss, factors affecting corona, methods of reducing

corona and interference.

Electrostatic and electromagnetic interference with communication

lines

Overhead line Insulators: Type of insulators and their applications, potential distribution over a

string of insulators, methods of equalizing the potential, string

efficiency

Unit 4 Mechanical Design of transmission line: Catenary curve, calculation of sag & tension, effects of wind and ice

loading, sag template, vibration dampers

Insulated cables: Type of cables and their construction, dielectric stress, grading of

cables, insulation resistance, capacitance of single phase and three

phase cables, dielectric loss, heating of cables

Unit 5 Neutral grounding: Necessity of neutral grounding, various methods of neutral

grounding, earthing transformer, grounding practices

Electrical Design of Transmission Line: Design consideration of EHV transmission lines, choice of voltage,

number of circuits, conductor configuration, insulation design,

selection of ground wires.

EHV AC and HVDC Transmission: Introduction to EHV AC and HVDC transmission and their

comparison, use of bundle conductors, kinds of DC links, and

incorporation of HVDC into AC system

Text Books 1. W. D. Stevenson, ―Element of Power System Analysis‖, McGraw Hill,

2. C. L. Wadhwa, ―Electrical Power Systems‖ New age international Ltd. Third Edition

3. Asfaq Hussain, ―'Power System‖, CBS Publishers and Distributors,

4. B. R. Gupta, ―Power System Analysis and Design‖ Third Edition, S. Chand & Co.

5. M. V. Deshpande, ―Electrical Power System Design‖ Tata Mc Graw Hill.

Reference Books

6. M. V. Deshpandey, ―Elements of Power System Design‖, Tata McGraw Hill,

7. Soni, Gupta & Bhatnagar, ―A Course in Electrical Power‖, Dhanpat Rai & Sons,

8. S. L. Uppal, ―Electric Power‖, Khanna Publishers

9. S.N.Singh, ― Electric Power Generation, Transmission& distribution.‖ PHI Learning

EE1502 CONTROL SYSTEM [3 1 0 4]

Unit 1 The Control System: Open loop & closed control; servomechanism, Physical examples.

Transfer functions, Block diagram algebra, Signal flow graph,

Mason‘s gain formula Reduction of parameter variation and effects of

disturbance by using negative feedback

Unit 2 Time Response analysis: Standard test signals, time response of first and second order systems,

time response specifications, steady state errors and error constants

Design specifications of second order systems: Derivative error,

derivative output, integral error and PID compensations, design

considerations for higher order systems, performance indices

Unit 3 Control System Components: Constructional and working concept of ac servomotor, synchros and

stepper motor

Stability and Algebraic Criteria concept of stability and necessary

conditions, Routh-Hurwitz criteria and limitations.

Root Locus Technique: The root locus concepts, construction of root loci

Unit 4 Frequency response Analysis: Frequency response, correlation

between time and frequency responses, polar and inverse polar plots,

Bode plots

Stability in Frequency Domain:

Nyquist stability criterion, assessment of relative stability: gain

margin and phase margin, constant M&N circles

Unit 5 Introduction to Design:

The design problem and preliminary considerations lead, lag and

lead-lag networks, design of closed loop systems using compensation

techniques in time domain and frequency domain.

Review of state variable technique:

Review of state variable technique, conversion of state variable

model to transfer function model and vice-versa, diagonalization,

Controllability and observability and their testing.

Text Book: 1. Nagrath & Gopal, ―Control System Engineering‖, 4

th Edition, New age International.

2. K. Ogata, ―Modern Control Engineering‖, Prentice Hall of India.

3. B.C. Kuo & Farid Golnaraghi, ―Automatic Control System‖ Wiley IndiaLtd, 2008.

4. D.Roy Choudhary, ―Modern Control Engineering‖, Prentice Hall of India.

Reference Books: 5. Norman S. Mise, Control System Engineering 4

th edition, Wiley Publishing Co.

6. Ajit K Mandal, ―Introduction to Control Engineering‖ New Age International,2006.

7. R.T. Stefani, B.Shahian, C.J.Savant and G.H. Hostetter, ― Design of Feedback Control Systems‖

Oxford University Press.

8. N.C. Jagan, ― Control Systems‖, B.S. Publications,2007.

EE1503 ANALOG INTEGRATED ELECTRONICS [3 1 0 4]

Unit 1 Frequency response & stability of an Op-Amp: Frequency response, compensating Networks, Frequency response of

internally compensated and uncompensated Op-Amps, High

frequency Op-Amps. Equivalent circuit, stability in constant GBP

Op- Amp. Circuits.

Unit 2 Op-Amp Circuits: Applications Current to voltage converters, V to I converters, current amplifier,

difference Amplifiers, Instrumentation

Amplifiers, integrators and differentiators.

Unit 3 Active filters & Converters: First and second order low pass & High pass filters, Band Pass &

Band-Reject filters, All-Pass filter, Filter using MATLAB.

Voltage to Frequency and Frequency to voltage Converters, Analog

to Digital and Digital to Analog Converters.

Unit 4 Non Linear Circuits & Regulators: Voltage Comparators, Precision Rectifiers, Schmitt Triggers, Analog

Switches, Peak detectors, Sample and

Hold circuit, Square and Triangular Wave Generators, Linear

Regulators, Switching Regulators. Unit 5 Non Linear Amplifiers & Phase-Locked Loops:

Log/Antilog Amplifiers, Analog Multipliers, Operational Trans

conductance Amplifiers, Phase-Locked

loops, Monolithic PLLs,Noise in integrated circuits.

Text Books:

1. Franco Sergio, ―Design with Operational Amplifiers and Analog Integrated Circuits‖ Tata McGraw-

Hill

2. Ramakant A. Gayakwad, ―Op-Amps and Linear Integrated Circuits‖ Prentice Hall of India.

Reference Books : 1. James M.Fiore,―Op-Amps and Linear Integrated Circuits: Theory and Applications‖ Thomson Asia

Pvt. Ltd. Singapore

2. Millman J.&Halkias C.C., ―Integrated Electronics Analog and Digital Circuits & Systems‖ McGraw

Hill.

3. Soclof,S.,―Application of Analog Integrated Circuits‖ Prentice Hall of India.

4. Bell, David A., ―Operational Amplifiers & Linear ICS‖ Prentice Hall of India.

EE1504 ELECTRO-MECHANICAL ENERGY CONVERSION - II

[3 1 0 4]

Unit 1 Synchronous Machine I Constructional features, Armature winding, EMF Equation, Winding

coefficients, equivalent circuit and phasor diagram, Armature

reaction, O. C. & S. C. tests, Voltage Regulation using Synchronous

Impedance Method, MMF Method, Potier‘s Triangle Method,

Parallel Operation of synchronous generators, operation on infinite

bus, synchronizing power and torque co-efficient

Unit 2 Synchronous Machine II: Two Reaction Theory, Power flow equations of cylindrical and

salient pole machines, operating characteristics

Synchronous Motor: Starting methods, Effect of varying field current at different loads, V-

Curves, Hunting & damping, synchronous condenser

Unit 3 Three phase Induction Machine – I Constructional features, Rotating magnetic field, Principle of

operation Phasor diagram, equivalent circuit, torque and power

equations, Torque- slip characteristics, no load & blocked rotor tests,

efficiency, Induction generator & its applications.

Unit 4 Three phase Induction Machine- II Starting, Deep bar and double cage rotors, Cogging & Crawling,

Speed Control (with and without emf injection in rotor circuit.)

Unit 5 Single phase Induction Motor: Double revolving field theory, Equivalent circuit, No load and

blocked rotor tests, Starting methods, repulsion motor

AC Commutator Motors: Universal motor, Single phase a.c. series compensated motor, stepper

motors

Text Books: 1. D.P.Kothari & I.J.Nagrath, ―Electric Machines‖, Tata Mc Graw Hill

2. Ashfaq Hussain―Electric Machines‖ Dhanpat Rai & Company

3. Fitzerald,A.E.,Kingsley and S.D.Umans―Electric Machinery‖, MC Graw Hill.

Reference Books:

4. P.S.Bimbhra, ―Electrical Machinery‖, Khanna Publisher

5. P.S. Bimbhra, ― Generalized Theory of Electrical Machines‖, Khanna Publishers

6. M.G.Say, ―Alternating Current Machines‖,Pitman & Sons

EE1505 NON-CONVENTIONAL ENERGY RESOURCES [ 3 0 0 3]

Unit 1 Introduction

Various non-conventional energy resources- Introduction,

availability, classification, relative

merits and demerits.

Solar Cells:

Theory of solar cells. solar cell materials, solar cell array, solar cell

power plant, limitations

Unit 2 Solar Thermal Energy:

Solar radiation, flat plate collectors and their materials, applications

and performance, focussing of collectors and their materials,

applications and performance; solar thermal power plants,

thermal energy storage for solar heating and cooling, limitations.

Unit 3 Geothermal Energy:

Resources of geothermal energy, thermodynamics of geo-thermal

energy conversion-electrical

conversion, non-electrical conversion, environmental considerations.

Magneto-hydrodynamics (MHD):

Principle of working of MHD Power plant, performance and

limitations.

Fuel Cells:

Principle of working of various types of fuel cells and their

working, performance and

limitations.

Unit 4 Thermo-electrical and thermionic Conversions:

Principle of working, performance and limitations.

Wind Energy:

Wind power and its sources, site selection, criterion, momentum

theory, classification of rotors, concentrations and augments, wind

characteristics. performance and limitations of energy

conversion systems.

Unit 5 Bio-mass:

Availability of bio-mass and its conversion theory.

Ocean Thermal Energy Conversion (OTEC):

Availability, theory and working principle, performance and

limitations.

Wave and Tidal Wave:

Principle of working, performance and limitations.

Waste Recycling Plants

Text/References Books:

1. Raja etal, ―Introduction to Non-Conventional Energy Resources‖ Scitech Publications.

2. John Twideu and Tony Weir, ―Renewal Energy Resources‖ BSP Publications, 2006.

3. M.V.R. Koteswara Rao, ― Energy Resources: Conventional & Non-Conventional ― BSP

Publications,2006.

EE1506 INTERNET OF THINGS [ 3 0 0 3]

Unit 1 Introduction to IoT

Defining IoT, Characteristics of IoT, Physical design of IoT, Logical

design of IoT, Functional blocks of IoT, Communication models &

APIs

Unit 2 IoT & M2M

Machine to Machine, Difference between IoT and M2M, Software

define Network

Unit 3 Network & Communication aspects Wireless medium access issues, MAC protocol survey, Survey

routing protocols, Sensor deployment & Node discovery, Data

aggregation & dissemination

Unit 4 Challenges in IoT

Design challenges, Development challenges, Security challenges,

Other challenges

Developing IoTs Introduction to Python, Introduction to different IoT tools,

Developing applications through IoT tools, Developing sensor based

application through embedded system platform, Implementing IoT

concepts with python

Unit 5 Domain specific applications of IoT Home automation, Industry applications, Surveillance applications,

Other IoT applications

STUDENTS LEARNING OUTCOMES:

On successful completion of the course, the student will: Understand the concepts of Internet of

Things

Analyze basic protocols in wireless sensor network

Design IoT applications in different domain and be able to analyze their performance

Implement basic IoT applications on embedded platform

Reference Books:

1. Vijay Madisetti, Arshdeep Bahga, ―Internet of Things: A Hands-On Approach‖

2. Waltenegus Dargie,Christian Poellabauer, "Fundamentals of Wireless Sensor Networks: Theory

and Practice"

EE1551 CONTROL SYSTEM LABORATORY [0 0 2 1]

Note: The minimum of 10 experiments are to be performed from the following, out of which at

least three should be software based.

1. To determine response of first order and second order systems for step input for various values of

constant ‘K‘ using linear simulator unit and compare theoretical and practical results.

2. To study P, PI and PID temperature controller for an oven and compare their performance.

3. To study and calibrate temperature using resistance temperature detector (RTD)

4. To design Lag, Lead and Lag-Lead compensators using Bode plot.

5. To study DC position control system

6. To study synchro-transmitter and receiver and obtain output V/S input characteristics

7. To determine speed-torque characteristics of an ac servomotor.

8. To study performance of servo voltage stabilizer at various loads using load bank.

9. To study behaviour of separately excited dc motor in open loop and closed loop conditions at various

loads.

10. To study PID Controller for simulation proves like transportation lag.

Software based experiments (Use MATLAB, LABVIEW software etc.)

11. To determine time domain response of a second order system for step input and obtain performance

parameters.

12. To convert transfer function of a system into state space form and vice-versa.

13. To plot root locus diagram of an open loop transfer function and determine range of gain ‗k‘ fir

stability.

14. To plot a Bode diagram of an open loop transfer function.

15. To draw a Nyquist plot of an open loop transfer functions and examine the stability of the closed

loop system.

Reference Books:

1. K.Ogata,―Modern Control Engineering‖ Prentice Hall of India.

2. Norman S.Nise, ―Control System Engineering‖, John Wiley & Sons.

3. M.Gopal, ―Control Systems: Principles & Design‖ Tata Mc Graw Hill.

EE1552 ANALOG INTEGRATED ELECTRONICS LAB [0 0 2 1]

1. To determine CMRR of a differential amplifier.

2. To study op-amp based inverting and non-inverting amplifiers, voltage comparator and zero crossing

detector.

3. To study op-amp based Adder and integrator circuits.

4. To study RC low pass and high pass active filters and draw outlput voltage waveform for square

wave input.

5. To study Op-Amp based triangular wave generator.

6. To study operation of IC74123 as monostable multivibrator.

7. To design and fabricate Op-Amp. Base astable multivibrator and verify experimentally frequency of

oscillation.

8. To study operation of IC NE/SE 566 voltage controlled oscillator and determine output frequency

for various voltage levels.

9. To study Op-Amp. Based V to I and I to V converters.

10. To study a PLL circuit and determine the free running frequency.

11. To study Op-Amp. based sample and hold circuit.

12. To study Instrumentation Amplifier circuit.

13 to15 The Institute /college may add three more experiments at its level.

EE1553 Electromechanical Energy Conversion -II Lab [ 0 0 2 1]

Note: The minimum 8 experiments are to be performed from the following, out of which there

should be at least two software based experiments.

1. To perform no load and blocked rotor tests on a three phase squirrel cage induction motor and

determine equivalent circuit.

2. To perform load test on a three phase induction motor and draw:

(i) Torque -speed characteristics

(ii) Power factor-line current characteristics

3. To perform no load and blocked rotor tests on a single phase induction motor and determine

equivalent circuit.

4. To study speed control of three phase induction motor byKeeping V/f ratio constant

5. To study speed control of three phase induction motor by varying supply voltage.

6. To perform open circuit and short circuit tests on a three phase alternator and determine voltage

regulation at full load and at unity, 0.8 lagging and leading power factors by (i)

EMF method (ii) MMF method.

7. To determine V-curves and inverted V-curves of a three phase synchronous motor.

8. To determine Xd and Xq of a three phase salient pole synchronous machine using the slip test

and draw the power-angle curve.

9. To study synchronization of an alternator with the infinite bus by using:

(i) dark lamp method (ii) two bright and one dark lamp method

Software based experiments (Develop Computer Program in ‘C’ language or use MATLAB or

other commercial software)

10. To determine speed-torque characteristics of three phase slip ring induction motor and study the

effect of including resistance, or capacitance in the rotor circuit.

11. To determine speed-torque characteristics of single phase induction motor and study the

effect of voltage variation.

12. To determine speed-torque characteristics of a three phase induction motor by (i) keeping

v/f ratio constant (ii) increasing frequency at the rated voltage.

13. Draw O.C. and S.C. characteristics of a three phase alternator from the experimental data and

determine voltage regulation at full load, and unity, 0.8 lagging and leading power factors.

14. To determine steady state performance of a three phase induction motor using equivalent

circuit.

FE1 544 GENERAL KNOWLEDGE – III [2 1 0 3]

In this course, students can learn the current trends in the different topics of financial markets,

business economics and operational management. Students can nurture their grips in different

specialization topics by using reading newspapers, magazines and other business related cases. The

assessment is done through the presentations & viva base, which not only increase the knowledge

about the latest trends, but also increase the personality development of the students.

References:

Newspapers & Magazines:

The Hindu, The Times of India, Frontline, Outlook, The Week, India Year Book, Manorama Year

Book, Economic Survey, Pratyogita Darpan (English and Hindi), Pratyogita Darpan (Special Issues),

Yojana, Kurukshetra, World Focus.

SIXTH SEMESTER

EE1601 POWER SYSTEM ANALYSIS [3 1 0 4]

Unit 1 Representation of Power System Components:

Synchronous machines, Transformers,Transmission lines, One line

diagram, Impedance and reactance diagram, per unit System

Symmetrical components:

Symmetrical Components of unbalanced phasors, power in terms of

symmetrical components, sequence impedances and sequence

networks.

Symmetrical fault analysis:

Transient in R-L series circuit, calculation of 3-phase short circuit

current and reactance of synchronous machine, internal voltage of

loaded machines under transient conditions

Unit 2 Unsymmetrical faults:

Analysis of single line to ground fault, line-to-line fault and Double

Line to ground fault on an unloaded generators and power system

network with and without fault impedance.

Formation of Zbus using singular transformation and algorithm,

computer method for short circuit calculations

Unit 3 Load Flows:

Introduction, bus classifications, nodal admittance matrix (YBUS ),

development of load flow equations, load flow solution using Gauss

Siedel and Newton-Raphson method, approximation to N-R method,

line flow equations and fast decoupled method

Unit 4 Power System Stability:

Stability and Stability limit, Steady state stability study, derivation of

Swing equation, transient stability studies by equal area criterion and

step-by-step method. Factors affecting steady state and transient

stability and methods of improvement

Unit 5 Traveling Waves:

Wave equation for uniform Transmission lines, velocity of

propagation, surge impedance, reflection and transmission of

traveling waves under different line loadings. Bewlay‘s lattice

diagram, protection of equipments and line against traveling waves

Text Books:

1. W.D. Stevenson, Jr. ― Elements of Power System Analysis‖, Mc Graw Hill.

2. C.L. Wadhwa, ―Electrical Power System‖, New Age International.

3. Chakraborthy, Soni,Gupta & Bhatnagar, ―Power System Engineering‖, Dhanpat Rai & Co.

4. T.K Nagsarkar & M.S. Sukhija, ―Power System Analysis‖ Oxford University Press,2007.

EE1602 POWER ELECTRONICS [3 1 0 4]

Unit 1 Power semiconductor Devices:

Power semiconductor devices their symbols and static

characteristics Characteristics and specifications of switches, types of power

electronic circuits Operation, steady state and switch characteristics

& switching limits of Power Transistor Operation and steady state

characteristics of Power MOSFET and IGBT

Thyristor – Operation V- I characteristics, two transistor model,

methods of turn-on Operation of GTO, MCT and TRIAC

Unit 2 Power Semiconductor Devices(Contd)

Protection of devices. Series and parallel operation of thyristors Commutation techniques of

thyristor DC-DC Converters:

Principles of step-down chopper, step down chopper with R-L load

Principle of step-up chopper, and operation with RL load,

classification of choppers

Unit 3 Phase Controlled Converters Single phase half wave controlled rectifier with resistive and

inductive loads, effect of freewheeling diode.

Single phase fully controlled and half controlled bridge converters.

Performance Parameters

Three phase half wave converters

Three phase fully controlled and half controlled bridge converters,

Effect of source impedance Single phase and three phase dual

converters

Unit 4 AC Voltage Controllers Principle of On-Off and phase controls

Single phase ac voltage controller with resistive and inductive loads

Three phase ac voltage controllers (various configurations and

comparison only) Single phase transformer tap changer.

Cyclo Converters

Basic principle of operation, single phase to single phase, three phase

to single phase and three phase to three phase cyclo converters,

output voltage equation

Unit 5 Inverters Single phase series resonant inverter Single phase bridge inverters

Three phase bridge inverters, Voltage control of inverters

Harmonics reduction techniques, Single phase and three phase

current source inverters

Text Books: 1. M.H. Rashid,―Power Electronics: Circuits, Devices & Applications‖, Prentice Hall of India Ltd. 3

rd

Edition,2004.

2. M.D. Singh and K.B.Khanchandani, ―Power Electronics‖Tata MC Graw Hill, 2005

3. V.R. Moorthy, ― Power Electronics : Devices, Circuits and Industrial Applications‖ Oxford

University Press,2007.

EE1603 ADVANCED MICROPROCESSORS AND

MICROCONTROLLERS [3 1 0 4]

Unit 1 Mode of operation of higher order processors: Real mode and

protected mode

Real mode and protected mode memory addressing, access right byte,

Memory paging, System descriptors,

Multi Tasking & TSS.

Unit 2 Instruction Set of higher order processors(8086 to Pentium):

Comparison with 8086 in real mode: Generalized instruction set

format

Addressing Mode: DRAM & BRAM

Categorization of instruction set of INTEL processors.

Integer instructions: Data transfer instructions, arithmetic and

logical operations, string instructions, branch control instructions,

procedure call instruction and return instruction.

Unit 3 Processing of CALLS, INTERRUPTS & EXCEPTIONS: Privilege levels; ENTER and LEAVE Instructions, INT N. IRET.

Interrupt processing sequence, Protected mode interrupts

Unit 4 Assembly Level Programming: ROM BIOS Routines, MS DOS

BIOS Routines, Assembling a progam using Assembler, exe and.

com programs.

Mixed Language Programming: using Assembly with C/C ++

Unit 5 Microcontrollers: Introduction, basic functions, applications of 8-bit

and 16-bit microcontrollers.

8-bit microcontrollers INTEL 8051: Internal Architecture, signals,

memory organization and interfacing, Timing and control, port

operations, interrupts and I/O addressing. Instruction Set and

programming.

16-bit microcontrollers INTEL 8096: Architectural description,

memory Organization and interfacing, I/O addressing, Interrupts,

instruction set and programming

Text Books:

1. Ray, A.K. & Burchandi, K.m., ―Advanced Microprocessors and Peripherals: Architeacture,

Programming and Interfacing‖ Tata Mc.Graw Hill.

2. Renu Sing & B.P.Singh, ―Advanced Microprocessors and Microcontrollers‖ New Age

International.

3. Krishna Kant,‖Microprocessors and Microcontrollers‖ PHI Learning.

4. Brey, Barry B. ―The INTEL Microprocessors‖ Pearson Education.

Reference Books:

5. Ayala, ―The 8051 Micro Controller‖, Centage Learning.

6. Mazidi M.A., Maizidi J.G. Mckinlay R.D., ―The 8051 Microcontroller and Embedded Systems‖

Pearson Education.

EE1604 ANALOG & DIGITAL COMMUNICATION [3 1 0 4]

Unit 1 Elements of communication system and its limitations Amplitude

Modulation:

Amplitude modulation and detection,Generation and detection of

DSB-SC, SSB and vestigial side band modulation, carrier acquisition

AM transmitters and receivers, super hetrodyne receiver, IF

amplifiers, AGC circuits

Frequency Division multiplexing

Unit 2 Angle Modulation:

Basic definitions

Narrow band and wideband frequency modulation, transmission

bandwidth of FM signals

Generation and detection of frequency modulation

Noise :

External noise, internal noise

Noise calculations, signal to noise ratio

Noise in AM and FM systems

Unit 3 Pulse Modulation:

Introduction, sampling process Analog Pulse Modulation Systems-

Pulse Amplitude Modulation, Pulse width modulation and Pulse

Position Modulation.

Waveform coding Techniques:

Discretization in time and amplitude, Quantization process,

quantization noise, Pulse code Modulation, Differential Pulse code

Modulation, Delta Modulation and Adaptive Delta Modulation.

Unit 4 Digital Modulation Techniques:

Types of digital modulation, waveforms for amplitude, frequency and

phase shift keying, methods of generation of coherent and non-

coherent, ASK, FSK and PSK, comparison of above digital

techniques Unit 5 Time Division Multiplexing:

Fundamentals, Electronic Commutator, Bit/byte interleaving, TI

carrier system, synchronization and signaling of TI, TDM and PCM

hierarchy, synchronization techniques.

Introduction to Information Theory:

Measure of information, Entropy & Information rate, channel

capacity, Hartley Shannan law, Huffman coding, shannan Fano

coding.

Text Books:

1. Simon Haykin,― Communication Systems‖ John Wiley & Sons 4th Edition

2. G.Kennedy and B. Davis,‖Electronic Communication Systems‖ 4th Edition, Tata McGraw Hill

3. Simon Haykin, ―Digital Communications‖ John Wiley & Sons

EE1605 INDUSTRIAL MANAGEMENT [3 0 0 3]

Unit 1 Introduction : Concept, Development, application and scope of

Industrial

Management.Productivity : Definition, measurement, productivity

index, types of

production system,Industrial Ownership

Unit 2 Management Function : Principles of Management- Management

Tools – time and motion study, work simplification- process charts

and flow diagrams, Production, Planning, Specification of Production

requirements.

Unit 3 Inventory Management-Objectives, Inventory – functions, types,

associated costs,inventory classification techniques-ABC and VED

analysis. Inventory Control,Systems-Continuous review system-

periodical review system. Stores, Management and Stores Records.

Purchase management, duties of purchase of manager, associated

forms.

Unit 4 Quality control : Meaning, process control, SQC control charts,

single, double and sequential sampling, Introduction to TQM Unit 5 Introduction to PERT / CPM : Project management, network

modeling probabilistic

model, various types of activity times estimation-programme

evaluation review techniques- Critical Path-probability of completing

the project, deterministic model, critical path method (CPM)-critical

path calculation-crashing of simple of networks

Reference Books

1.Khanna O.P. : Industrial Engineering

2.T.R. Banga : Industrial Engineering and Management

3.Sharma B.R. : Environmental and Pollution Awareness

DEPARTMENTAL ELECTIVES

ELECTIVE – I

EE1606 DIGITAL CONTROL SYSTEM [3 1 0 4]

Text Books:

1. B.C.Kuo, ―Digital Control System‖,Saunders College Publishing. 2. M.Gopal, ―Digital Control and State Variable Methods‖, Tata McGraw Hill.

Reference Books: 3. R.Leigh, ―Applied Digital Control‖, Prentice Hall, International

4. C.H. Houpis and G.B.Lamont, ―Digital Control Systems:Theory, hardware,

Software‖,Mc Graw Hill.

Unit 1 Signal Processing in Digital Control:

Basic digital control system, advantages of digital control and

implementation problems, basic discrete time signals, z-transform

and inverse z-transform,modeling of sample-hold circuit., pulse

transfer function, solution of difference equation by z-Transform

method.

Unit 2 Design of Digital Control Algorithms: Steady state accuracy, transient response and frequency

response specifications, digital compensator design using

frequency response plots and root locus plots.

Unit 3 State Space Analysis and Design:

State space representation of digital control system conversion of

state variable models to transfer functions and vice versa, solution

of state difference equations, controllability and observability,

design of digital control system with state feedback.

Unit 4 Stability of Discrete System:

Stability on the z-plane and Jury stability criterion, bilinear

transformation, Routh stability criterion on rth plane. Lyapunou‘s

Stability in the sense of Lyapunou, stability theorems for

continuous and discrete systems, stability analysis using Lyapunor‘s

method.

Unit 5 Optimal digital control :

Discrete Euler Lagrange equation, max. min. principle, otpimality

& Dynamic programming, Different types of problem and their

solutions

EE1606 EMBEDDED SYSTEMS [3 1 0 4]

Unit 1 Overview of Embedded System: Embedded System, Categories and

Requirements of Embedded Systems, Challenges and Issues in Embedded

Software Development, Applications of Embedded Systems in Consumer

Electronics, Control System, Biomedical Systems, Handheld computers,

Communication devices.

Unit 2 : Embedded Hardware & Software Development Environment: Hardware

Architecture, Micro- Controller Architecture, Communication Interface

Standards, Embedded System Development Process, Embedded

Operating systems, Types of Embedded Operating systems.

Unit 3 Design quality and Microcontroller: Quality matrix, software and hardware,

Estimation , 8 Bit microcontrollers Architecture, on chip peripherals,

instruction set/programming of Intel MCS51 family (8 bit ) Inter facing of

8051 with LCD, ADC,

sensors, stepper motor, key board, DAC, memory . Unit 4 Real Time & Database Applications: Real- Time Embedded Software

Development, Sending a Message over a Serial Link, Simulation of a

Process Control System, Controlling an Appliance from the RTLinux

System, Embedded Database Applications using examples like Salary

Survey, Energy Meter Readings. Unit 5 Programming Languages for Embedded Systems: Tools for building

embedded systems - with case studies. Microchip PIC16 family PIC16F873

processor features architecture memory organization register file map I/O

ports PORTA – PORTB PORTC Data EEPROM and flash program

memory Asynchronous serial port SPI mode I2C mode.

Text Books:

• Embedded System Design-Frank Vahid/Tony Givargis, John Willey@2005.

• An Embedded Software Primer-David E.Simon, Pearson Education @ 1999.

Reference Books:

• The 8051 Microcontroller and embedded systems-Muhammad Ali Mazidi and Janice Gillispie.

• Microcontrollers (Architecture, Implementation & Programming) Kenneth Hintz, Daniel Tabak,

Tata McGraw-Hill@2005.

• 8051 Microcontrollers & Embedded Systems 2 nd Edition -Sampath Kr, Katson Books@2006.

EE1606 POWER PLANT ENGINEERING [3 1 0 4]

Unit 1 Conventional Energy Generation Methods :(i) Thermal Power plants: Basic schemes and working principle. (ii) Gas

Power Plants: open cycle and closed cycle gas turbine plants, combined gas

& steam plants-basic schemes. (iii) Hydro Power Plants: Classification of

hydroelectric plants. Basic schemes of hydroelectric and pumped storage

plants. (iv) Nuclear Power Plants: Nuclear fission and nuclear fusion.

Fissile and fertile materials. Basic plant schemes with boiling water reactor,

heavy water reactor and fast breeder reactor. Efficiencies of various power

plants

Unit 2 New Energy Sources:

Impact of thermal, gas, hydro and nuclear power stations on environment.

Green House Effect (Global Warming).Renewable and nonrenewable

energy sources Conservation of natural resources and sustainable energy

systems. Indian energy scene. Introduction to electric energy generation by

wind, solar and tidal.

Unit 3 Loads and Load Curves: Types of load, chronological load curve, load duration curve, energy load

curve and mass curve. Maximum demand, demand factor, load factor,

diversity factor, capacity factor and utilization.

Power Factor Improvement: Causes and effects of low power factor and advantages of power factor

improvement. Power factor improvement using shunt capacitors and

synchronous condensers. Unit 4 Power Plant Economics: (i) Capital cost of plants, annual fixed and

operating costs of plants, generation cost and depreciation. Effect of load

factor on unit energy cost. Role of load diversity in power system

economics.

(ii) Calculation of most economic power factor when (a) kW demand is

constant and (b) kVA demand is constant. (iii) Energy cost reduction: off

peak energy utilization, co-generation, and energy conservation. Unit 5 (i) Tariffs: Objectives of tariffs.

General tariff form. Flat demand rate, straight meter rate, block meter rate.

Two part tariff, power factor dependent tariffs, threepart tariff. Spot (time

differentiated) pricing.

(ii) Selection of Power Plants: Comparative study of thermal, hydro, nuclear and gas power plants. Base

load and peak load plants. Size and types of generating units, types of

reserve and size of plant. Selection and location of power plants.

Text Books 1.B. R. Gupta. Generation of Electrical Energy (4/e), S. Chand Publication.( 2013) 2 S. L. Uppal. Electrical Power (13/e), Khanna Publishers (2009). Reference Books 1.V. K. Mehta, Principles of Power system (3/e), S. Chand Publication (2005) 2 Soni, Gupta and Bhatnagar, Generation of Electrical Power, Dhanpat Rai & Sons( 1996) 3.L. Elgerd Olle, Electric Energy Systems Theory, PHI( 2013) 4 C. A. Gross, Power System Analysis, TMH (1979)

EE1651 POWER ELECTRONICS LABORATORY [0 0 2 1]

Note: The minimum of 10 experiments is to be performed out of which at least three should be

software based.

1. To study V-I characteristics of SCR and measure latching and holding currents.

2. To study UJT trigger circuit for half wave and full wave control.

3. To study single-phase half wave controlled rectified with (i) resistive load (ii) inductive load

with and without free wheeling diode.

4. To study single phase (i) fully controlled (ii) half controlled bridge rectifiers with resistive and

inductive loads.

5. To study three-phase fully/half controlled bridge rectifier with resistive and inductive loads.

6. To study single-phase ac voltage regulator with resistive and inductive loads.

7. To study single phase cyclo-converter

8. To study triggering of (i) IGBT (ii) MOSFET (iii) power transistor

9. To study operation of IGBT/MOSFET chopper circuit

10. To study MOSFET/IGBT based single-phase series-resonant inverter.

11. To study MOSFET/IGBT based single-phase bridge inverter.

EE1652 SOFTWARE BASED EXPERIMENTS (PSPICE/MATLAB) [0 0 2 1]

12 To obtain simulation of SCR and GTO thyristor.

13 To obtain simulation of Power Transistor and IGBT.To obtain simulation of single phase fully

controlled bridge rectifier and draw load voltage and load current waveform for inductive

load.

14 To obtain simulation of single phase full wave ac voltage controller and draw load voltage

and

load current waveforms for inductive load.

15 To obtain simulation of step down dc chopper with L-C output filter for inductive load and

determine steady-state values of output voltage ripples in out put voltage and load current.

Reference Books: 1. M.H.Rashid, ―Power Electronics: Circuits, Devices and Applications‖, 3

rd Edition, prentice Hall of

India.

2. D.W. Hart, ―Introduction to power Electronics‖ prentice hall Inc. 1997.

3. Randal Shaffer, ―Fundamentals of Power Electronics with MATLAB‖ Firewall Media, 2007.

EE1653 ANALOG AND DIGITAL COMMUNICATION LAB [0 0 2 1]

Note: The minimum 10 experiments are to be performed from the following:

1. To study amplitude modulation using a transistor and determine depth of modulation.

2. To study generation of DSB-SC signal using balanced modulator.

3. To study generation of SSB signal

4. To study envelope detector for demodulation of AM signal and observe diagonal peak clipping

effect.

5. To study super heterodyne AM receiver and measurement of sensitivity, selectivity and fidelity.

6. To study frequency modulation using voltage controlled oscillator.

7. To detect FM signal using Phase Locked Loop.

8. To measure noise figure using a noise generator.

9. To study PAM, PWM and PPM.

10. To realize PCM signal using ADC and reconstruction using DAC and 4 bit/8bit system. Observe

quantization noise in each case.

11. To study Delta Modulation and Adaptive Delta Modulation.

12. To study PSK-modulation system.

13. To study FSK-modulation system.

14. To study sampling through a Sample-Hold circuit and reconstruction of the sampled signal and

observe the effect of sampling rate & the width of the sampling pulses.

15. To study functioning of colour television

16. Fabricate and test a PRBS generator

17. Realization of data in different forms, such as MRZ-L,NRZ - M&N,NRZ-S.

18. Manchester coding & decoding (Biphase L) of NRZ-L data.

FP1 655 PERSONALITY DEVELOPMENT – I [2 1 0 3]

ObJECTIVES: ,

• To equip students with effective speaking and listening skills in English. • To help them develop their soft skills and people skills, which will make the transition from college to workplace smoother and help them to excel in their jobs. • To enhance students' performance at Placement Interviews, Group Discussions and other recruitment exercises. The Students will be able to: • Develop their personal traits. • Understand and converse with their higher authorities/ subordinates/ other persons concerned. • Expose their personality effectively. • Develop good relations/ contacts with different types of persons concerned. • Develop skill of impromptu speech as well public speech.

Reference Books :

1. Rizvi,MAshraf. Effective Technical Communication. McGraw - Hill. 2. Mohan Krishna & Meera Banerji. Developing Communication Skills. Macmillan. 3. Krishnaswami,N and Sriraman, T., Creative Englishfor Communication, Macmillan. 4. Jain, Alok, Pravin S.R. Bhatia & A.M.,Sheikh Professional Communication Skills. S.Chand.

Unit 1 Communication-

1. Amportance of Communication 2. Non Verbal Communication 3. Personal Appearance 4. Posture 5. Gestures 6. Facial Expre'ssions 7. Eye Contact 8. Space Distancing

Unit 2 Goal Setting

1. Immediate, Short term, Long term, 2. Smart Goals 3. Strategies to Achieve goals

Unit 3 Time Management

1. Types of Time 2. Identifying Time Wasters 3. Time Management Skills.

SEVENTH SEMESTER

EE1701 ELECTRICAL SWITCHGEAR AND PROTECTION [3 1 0 4]

Unit 1 Introduction to Protection System: Introduction to protection system and its elements, functions of

protective relaying, protective zones, primary and backup protection,

desirable qualities of protective relaying, basic terminology.

Relays: Electromagnetic, attracted and induction type relays, thermal relay,

gas actuated relay, design considerations of electromagnetic relay.

Unit 2 Relay Application and Characteristics: Amplitude and phase comparators, over current relays, directional

relays, distance relays, differential relay

Static Relays: Comparison with electromagnetic relay, classification and their

description, over current relays, directional relay, distance relays,

differential relay

Unit 3 Protection of Transmission Line: Over current protection, distance protection, pilot wire protection,

carrier current protection, protection of bus, auto re-closing, Unit 4 Circuit Breaking:

Properties of arc, arc extinction theories, re-striking voltage transient,

current chopping, resistance switching, capacitive current

interruption, short line interruption, circuit breaker ratings.

Testing Of Circuit Breaker: Classification, testing station and equipments, testing procedure,

direct and indirect testing Unit 5 Apparatus Protection:

Protection of Transformer, generator and motor.

Circuit Breaker: Operating modes, selection of circuit breakers, constructional features

and operation of Bulk Oil, Minimum Oil, Air Blast, SF6, Vacuum

and d. c. circuit breakers.

Text Books:

1. S. S. Rao, ―Switchgear and Protection‖, Khanna Publishers.

2. B. Ravindranath and M. Chander, Power system Protection and Switchgear, iley Eastern Ltd.

Reference Books:

3. B. Ram and D. N. Vishwakarma, ―Power System Protection and Switchgear‖, Tata Mc. Graw Hill

4. Y. G. Paithankar and S R Bhide, ―Fundamentals of Power System Protection‖, Prentice Hall of

India.

EE1702 ELECTRICAL INSTRUMENTATION AND PROCESS

CONTROL [3 1 0 4]

Unit 1 Transducer – I: Definition, advantages of electrical transducers, classification,

characteristics, factors affecting the choice of transducers,

Potentiometers, Strain guages, Resistance thermometer, Thermistors,

Thermocouples, LVDT,RVDT

Unit 2 Transducer – II : Capacitive, Piezoelectric Hall effect and opto electronic transducers.

Measurement of Motion, Force pressure, temperature, flow and liquid

level

Unit 3 Telemetry : General telemetry system, land line & radio frequency telemetering

system, transmission channels and media, receiver & transmitter.

Data

Acquisition System: Analog data acquisition system, Digital data acquisition system,

Modern digital data acquisition system. Unit 4 Display Devices and Recorders:

Display devices, storage oscilloscope, spectrum analyzer, strip chart

& x-y recorders, magnetic tape & digital tape recorders.

Recent Developments: Computer aided measurements, fibre optic transducers, microsessors,

smart sensors, smart transmitters.

Unit 5 Process Control : Principle, elements of process control system, process characteristics,

proportional (P), integral (I), Derivative (D), PI, PD and PID control

modes. Electronic, Pneumatic & digital controllers.

Text Books: 1. A.K.Sawhney, ―Advanced Measurements & Instrumentation‖, Dhanpat Rai & Sons

2. B.C. Nakra & K.Chaudhry, ―Instrumentation, Measurement and Analysis‖, Tata Mc Graw Hill 2nd

Edition.

3. Curtis Johns, ―Process Control Instrumentation Technology‖, Prentice Hall

Reference Books: 4. E.O. Decblin, ―Measurement System – Application & design‖, Mc Graw Hill.

5. W.D. Cooper and A.P. Beltried, ―Electronics Instrumentation and Measurement Techniques‖

Prentice Hall International

6. Rajendra Prasad,‖Electronic Measurement and Instrumentation Khanna Publisher

7. M.M.S. Anand, ―Electronic Instruments and Instrumentation Technology‖ PHI International.

EE1703 ELECTRIC DRIVES [3 0 0 3]

Unit 1 Fundamentals of Electric Drive:

Electric Drives and its parts, advantages of electric drives

Classification of electric drives

Speed-torque conventions and multi-quadrant operations

Constant torque and constant power operation

Types of load, Load torque: components, nature and classification

Unit 2 Dynamics of Electric Drive:

Dynamics of motor-load combination

Steady state stability of Electric Drive

Transient stability of electric Drive

Selection of Motor Power rating:

Thermal model of motor for heating and cooling, classes of motor

duty, determination of motor

power rating for continuous duty, short time duty and intermittent

duty. Load equalization

Unit 3 Electric Braking:

Purpose and types of electric braking,

braking of dc, three phase induction and synchronous motors

Dynamics During Starting and Braking: Calculation of

acceleration time and energy loss during starting of dc shunt and

three phase induction motors, methods of reducing energy loss during

starting.

Energy relations during braking, dynamics during braking

Unit 4 Power Electronic Control of DC Drives:

Single phase and three phase controlled converter fed separately

excited dc motor drives (continuous conduction only), dual converter

fed separately excited dc motor drive, rectifier control of dc series

motor. Supply harmonics, power factor and ripples in motor current

Chopper control of separately excited dc motor and dc series motor.

Unit 5 Power Electronic Control of AC Drives: Three Phase induction

Motor Drive:Static Voltage control scheme, static frequency control

scheme (VSI, CSI, and cyclo – converter based) static rotor resistance

and slip power recovery control schemes.

Three Phase Synchronous motor:Self controlled scheme

Special Drives:Switched Reluctance motor, Brushless dc motor.

Selection of motor for particular applications

Text Books:

1. G.K. Dubey, ―Fundamentals of Electric Drives‖, Narosa publishing House.

2. S.K.Pillai, ―A First Course on Electric Drives‖, New Age International.

Reference Books:

1. M.Chilkin, ―Electric Drives‖,Mir Publishers, Moscow.

2. Mohammed A. El-Sharkawi, ―Fundamentals of Electric Drives‖, Thomson Asia, Pvt. Ltd.

Singapore.

EE1704 ENTREPRENEURSHIP DEVELOPMENT PROGRAMME [3 0 0 3]

Unit 1 UNIT -I

Entrepreneurship- definition. growth of small scale industries in

developing countries and their positions vis-a-vis large industries; role

of small scale industries in the national economy, characteristics and

types of small scale industries; demand based and resources based

ancillaries and sub-control types. Government policy for small scale

industry; stages in starting a small scale industry.

Unit 2 UNIT -II

Project identification: assessment of viability, formulation,

evaluation, financing, field-study and collection of information,

preparation of project report, demand analysis, material balance and

output methods, benefit cost analysis, discounted cash flow, internal

rate of return and net present value methods.

Unit 3 UNIT -III

Accountancy: Preparation of balance sheets and assessment of

economic viability, decision making, expected costs, planning and

production control, quality control, marketing, industrial relations,

sales and purchases, advertisement, wages and incentive, inventory

control, preparation of financial reports, accounts and stores studies.

Unit 4 UNIT -IV

Project Planning and control: The financial functions, cost of

capital approach in project planning and control. Economic

evaluation, risk analysis, capital expenditures, policies and practices

in public enterprises. profit planning and programming, planning cash

flow, capital expenditure and operations. control of financial flows,

control and communication.

Unit 5 UNIT -V

Laws concerning entrepreneur viz, partnership laws, business

ownership, sales and income taxes and workman compensation act.

Role of various national and state agencies which render assistance to

small scale industries.

Text / Reference Books:

1. Forbat, John, ―Entrepreneurship‖ New Age International.

2. Havinal, Veerbhadrappa, ―Management and Entrepreneurship‖ New Age International

3. Joseph, L. Massod, ―Essential of Management", Prentice Hall of India.

DEPARTMENTAL ELECTIVE 2

EE1705 ADVANCED CONTROL SYSTEM [3 0 0 3]

Unit 1 State Space Analysis of Continuous System: Review of state variable representation of continuous system,

conversion of state variable models to transfer function and vice-

versa, solution of state equations and state transition matrix,

controllability and obsrvability, design of state observer and

controller

Unit 2 Analysis of Discrete System:Discrete system and discrete time

signals, state variable model and transfer function model of discrete

system, conversion of state variable model to transfer function model

and vice-versa, modeling of sample-hold circuit, solution of state

difference equations, steady state accuracy, stability on the z-plane

and Jury stability criterion, bilinear transformation, Routh-Hurwitz

criterion on rth planes

Unit 3 Stability:Lyapunov‘s stability theorems for continuous and discrete

systems, methods for generating Lyapunov function for continuous

and discrete system, Popov‘s criterion.

Non linear System:Types of non linearities, phenomena related to

non - linear systems.

Analysis of non linear systems-Linearization method, second order

non-linear system on the phase plane, types of phase portraits,

singular points, system analysis by phase-plane method, describing

function and its application to system analysis.

Unit 4 Optimal Control: Introduction, formation of optimal control problem, calculus of

variations minimization of functions, constrained

optimization.Pontryagin‘s Minimum Maximum Principle, Linear

Quadratic Problem-Hamilton Jacobi equation, Riccati equation and

its solution

Unit 5 Adaptive Control:Introduction, modal reference adaptive control

systems, controller structure, self tuning regulators. Introduction to

neural network, fuzzy logic and genetic algorithms

Text Books: 1. M.Gopal, ―Digital Control and State variable Methods‖, Tata Mc Graw Hill

2. Ajit K.Madal, ―Introduction to Control Engineering: Modelling, Analysis and Design‖ New Age

International.

3. D.Landau, ―Adaptive Control‖, Marcel Dekker Inc.

4. S.Rajasekaran & G.A.Vjayalakshmi Pai, ―Neural Networks,Fuzzy Logic and Genetic Alogorithms:

Synthesis and Applications‖ Prentice Hall of India.

Reference Books: 1. Donald E. Kiv, ―Optimal Control Theory: An Introduction‖ Prentice Hall

2. B.C. Kuo, ―Digital Control Systems‖ Sounders College Publishing

3. C.H.Houpis and G.B.Lamont,―Digital Control Systems:Theory,Hardware, Software‖Mc Graw

EE1705 AUTOMATION AND ROBOTICS [3 0 0 3]

Unit 1 Introduction: Definition, Classification of Robots, geometric

classification and control

classification.

Unit 2 Robot Elements: Drive system, control system, sensors, end

effectors, gripper actuators and

gripper design.

Unit 3 Robot Coordinate Systems and Manipulator Kinematics: Robot

co-ordinate system

representation, transformation, homogenous transform and its

inverse, relating the robot to its world.

Manipulators Kinematics, parameters of links and joints, kinematic

chains, dynamics of kinematic chains, trajectory planning and

control, advanced techniques of kinematics and dynamics of

mechanical systems, parallel actuated and closed loop manipulators

Unit 4 Robot Control: Fundamental principles, classification, position, path

velocity and force

control systems, computed torque control, adaptive control, Seroo

system for robot control, and introduction to robot vision

Unit 5 Robot Programming: Level of robot programming, language based

programming, task level

programming, robot programming synthesis, robot programming for

welding, machine tools, material handing, assembly operations,

collision free motion planning

Unit 6 Applications: Application of robot in welding, machine tools,

material handling, assembly

operations parts sorting and parts inspection

Text/Reference Books: 1. Coifet Chirroza, ―An Introduction to Robot Technology‖ Kogan Page.

2. Y. Koren ―Robotics for Engineers‖ Mcgraw Hill.

3. K. S. Fu, R.C. Gonzalez Y& CSG Lee, ―Robotics‖ McGraw Hill.

4. J.J. Craig, ―Robotics‖ Addison-Wesley.

5. Grover, Mitchell Weiss, Nagel Octrey, ―Industrial Robots‖ Mcgraw Hill.

6. Asfahl, ―Robots & Manufacturing Automation‖ Wily Eastern.

EE1705 SPECIAL ELECTRICAL MACHINES [3 0 0 3]

Unit 1 Poly-phase AC Machines: Construction and performance of double cage and deep bar three

phase induction motors; e.m.f. injection in rotor circuit of slip ring

induction motor, concept of constant torque and constant power

controls, static slip power recovery control schemes (constant torque

and constant power)

Unit 2 Single phase Induction Motors: Construction, starting characteristics and applications of split phase,

capacitor start, capacitor run, capacitor-start capacitor-run and shaded

pole motors.

Two Phase AC Servomotors: Construction, torque-speed characteristics, performance and

applications.

Unit 3 Stepper Motors: Principle of operation, variable reluctance, permanent magnet and

hybrid stepper motors, characteristics, drive circuits and applications.

Switched Reluctance Motors: Construction; principle of operation; torque production, modes of

operation, drive circuits

Unit 4 Permanent Magnet Machines: Types of permanent magnets and their magnetization characteristics,

demagnetizing effect, permanent magnet dc motors, sinusoidal PM ac

motors, brushless dc motors and their important features and

applications, PCB motors.

Single phase synchronous motor; construction, operating principle

and characteristics of reluctance and hysteresis motors; introduction

to permanent magnet generators.

Unit 5 Single Phase Commutator Motors:

Construction, principle of operation, characteristics of universal and

repulsion motors ; Linear Induction Motors. Construction, principle

of operation, Linear force, and applications

Text Books:

1. P.S. Bimbhra ―Generalized Theory of Electrical Machines‖ Khanna Publishers.

2. P.C. Sen ― Principles of Electrical Machines and Power Electronics‖ John willey & Sons, 2001

3. G.K.Dubey ―Fundamentals of Electric Drives‖ Narosa Publishing House, 2001

Reference Books: 4. Cyril G. Veinott ―Fractional and Sub-fractional horse power electric motors‖ McGraw Hill

International, 1987

5. M.G. Say ― Alternating current Machines‖Pitman & Sons

Departmental Elective 3

EE1706 TELEMETRY AND DATA TRANSMISSION [3 0 0 3]

Unit 1 Sampling Fundamentals: Introduction to sampling theorem and sampling process, convolution, computing

minimum sampling

rate. Alising Errors.

Digital Modulation Techniques: Review of PCM, DPCM, Methods of binary data transmission, Data Formats, DM

code converters,

PSK, QPSK, FSK, probability of error,phase ambiguity resolution and differential

encoding, error

detection, error correction, error correction codes.

Unit 2 Data Handling System: Block schematic, Sensors, Signal conditioners, Multiplexing- high level and low

level, ADC- range

and resolution, Word Format, Frame format, Frame synchronizer codes, R. F. links,

X24, RS 422,

RS423, RS 232C interfaces, Multi terminal configuration, Multiplier & Concentrator,

Data Modems,

Data transmission over telephone lines.

Unit 3 Data Reception Systems: Bit synchronizers, frame synchronizers, subframe synchronizers, PLL, Display

systems

Unit 4 Remote Control: Communication based processing control systems, pipelines, Operational security

systems components, Pipeline control, Power system control, Programmable

controllers for factory automation.

Command: Tone command system, Tone digital command system, ON/OFF

command and data

commands.

Unit 5 Aerospace Telemetry: Signal formation and conversion, Multiplexing techniques in tele-control, Industrial

Tele-control installations, reliability in telecontrol installations.

Text Books: 1. Patranabis,‖ Telemetry Principles: Tata Mcgrew Hill.

2. Schweber,‖ Data Communication ― Mcgraw Hill.

3. Berder & Menjewlse,‖ Telemetry Systems‖.

EE1706 UTILIZATION OF ELECTRICAL ENERGY AND

TRACTION

[3 0 0 3]

Unit 1 Electric Heating:

Advantages and methods of electric heating Resistance heating

Electric arc heating Induction heating Dielectric heating

Unit 2 Electric Welding:

Electric Arc Welding Electric Resistance welding Electronic welding

control

Electrolyte Process:

Principles of electro deposition, Laws of electrolysis, applications of

electrolysis

Unit 3 Illumination:

Various definitions, Laws of illumination, requirements of good

lighting Design of in door lighting and outdoor lighting systems

Refrigeration and Air Conditioning:

Refrigeration systems, domestic refrigerator, water cooler Types of

air conditioning, Window air conditioner Unit 4 Electric Traction - I

Types of electric traction, systems of track electrification Traction

mechanics- types of services, speed time curve and its simplification,

average and schedule speeds. Tractive effort, specific energy

consumption, mechanics of train movement, coefficient of adhesion

and its influence

Unit 5 Electric Traction – II

Salient features of traction drives Series – parallel control of dc

traction drives (bridge transition) and energy saving Power Electronic

control of dc and ac traction drives Diesel electric traction.

Text Books:

1. H.Partab,―Art and Science of Electrical Energy‖ Dhanpat Rai & Sons.

2. G.K.Dubey,―Fundamentals of Electric Drives‖ Narosa Publishing House

Reference Books:

3. H. Partab, ― Modern Electric Traction‖ Dhanpat Rai & Sons.

4. C.L. Wadhwa, ― Generation, Distribution and Utilization of Electrical Energy‖ New Age

International Publicatio

EE1706 MECHATRONICS [3 0 0 3]

Unit 1 1. Mechatronics and its scope:

Sensors and transducers- Displacement, position & proximity,

velocity, force, pressure and level. Signal conditioning amplification,

filtering & data acquisition.

Unit 2 2. Pneumatic and Hydraulic actuation systems:

Directional control valves, pressure control valves and cylinders.

process control valves. Mechanical actuation system-kinematic

chains, cams, geartrains. Ratchet & Pawl, dampers, bearings.

Electrical actuation system. Mechanical switches- solenoid operated

solid state switches, DC, AC & stepper motors.

Building blocks of Mechanical spring, mass and damper. Drives-

Electrical Drives, Fluid systems, hydraulic, servo, closedloop

controllers.

Unit 3 3. Elements of Microprocessors & Microcontrollers, Programmable

logic controllers & Communication interface.

Unit 4 4. Case Studies of Mechatronic Systems:

Industrial Robot and its control Automobile Engine Control

Electromechanical disc-control.

Unit 5 5. Vehicle suspension Control: Micro mechanical systems. Computer Printer, VCR, Fax Machine,

NC Machine.

References: 1. Rolf Isennann, " Mechatronics Systems", Springer, 2005.

2. W. Bolten, "Mechatronics", Pearson Education 2003.

3. HMT Ltd, "Mechatronics:, Tata McGraw Hill 1998.

EE1751 SWITCHGEAR AND PROTECTION LAB

[0 0 2 1]

Note: - At least 10 experiments should be performed out of which 3 should be simulation based.

(A) Hardware Based:

1. To determine direct axis reactance (xd) and quadrature axis reactance (xq) of a salient pole

alternator.

2. To determine negative and zero sequence reactances of an alternator.

3. To determine sub transient direct axis reactance (xd) and sub transient quadrature axis reactance

(xq) of an alternator

4. To determine fault current for L-G, L-L, L-L-G and L-L-L faults at the terminals of an alternator

at very low excitation

5. To study the IDMT over current relay and determine the time current characteristics

6. To study percentage differential relay

7. To study Impedance, MHO and Reactance type distance relays

8. To determine location of fault in a cable using cable fault locator

9. To study ferranty effect and voltage distribution in H.V. long transmission line using

transmission line model.

10. To study operation of oil testing set.

(B) Simulation Based Experiments (using MATLAB or any other software)

11. To determine transmission line performance.

12. To obtain steady state, transient and sub-transient short circuit currents in an alternator

13. To obtain formation of Y-bus and perform load flow analysis

14. To perform symmetrical fault analysis in a power system

15. To perform unsymmetrical fault analysis in a power system

Text Books:- 1. Hasdi Sadat, ―Power System Analysis‖ Tata Mc.Graw Hill.

T. K. Nagsarskar & M.S. Sukhija,‘ Power System Analysis‘ Oxford Universitry Press.

FP1 255 PERSONALITY DEVELOPMENT – II [2 1 0 3]

ObJECTIVES: ,

• To equip students with effective speaking and listening skills in English.

• To help them develop their soft skills and people skills, which will make the transition from college to

workplace smoother and help them to excel in their jobs.

• To enhance students' performance at Placement Interviews, Group Discussions and other recruitment

exercises.

The Students will be able to:

• Develop their personal traits.

• Understand and converse with their higher authorities/ subordinates/ other persons concerned.

• Expose their personality effectively.

• Develop good relations/ contacts with different types of persons concerned.

• Develop skill of impromptu speech as well public speech.

Reference Books:

5. Rizvi, M Ashraf. Effective Technical Communication. McGraw - Hill.

6. Mohan Krishna & Meera Banerji. Developing Communication Skills. Macmillan.

7. Krishnaswami,N and Sriraman, T., Creative Englishfor Communication, Macmillan.

8. Jain, Alok, Pravin S.R. Bhatia & A.M.,Sheikh Professional Communication Skills. S.Chand.

Unit 1 Leadership and Team Management

1. Qualities of a Good Leader

2. Leadership Styles

3. Decision Making

4. Problem Solving

5. Negotiation Skills

Unit 2 Group Discussions

1. Purpose (Intellectual ability, Creativity, Approach to a problem, Solving,

Tolerance, Qualities of a leader)

2. Group Behavior

3. Analyzing Performance

Unit 3 Job Interviews

1. Identifying job openings 2. Preparing Resumes & CV

3. Covering Letter

4. Interview (Opening, Body-Answer Q, Close-Ask Q)

5. Types of Questions "'".

Documents

Shridhar University Pilani