Syllabus
This document was uploaded by user and they confirmed that they have the permission to share it. If you are author or own the copyright of this book, please report to us by using this DMCA report form. Report DMCA
Overview
Download & View Syllabus as PDF for free.
More details
- Words: 29,904
- Pages: 123
Electronics & Communication Engg COURSE STRUCTURE ( Common to All Branches of B.Tech Programme)
FIRST YEAR FIRST SEMESTER A.
THEORY CODE
SL .N O. 1
Hu 101
2 3 4 5
Ph 101 M 101 ME 101 EE 101
6
Ch 101
THEORY
English Language & Communication Engineering Physics Mathematics Mechanical Sciences Basic Electrical Engineering Environment & Ecology
CONTACTS (PERIODS/WEEK) L T P T OTA L 2 1 3 3 3 3 3
1 1 1 1
7 8 9 10
3
4 4 4 4
4 4 4 4
3
3
22
22
3 3
3 3
2 2
3 3
3 3 12
2 2 8
3
Total of Theory B.
CREDITS
PRACTICALS Ph 191 EE 191
Engineering Physics Lab Electrical Engineering Lab ME 191 Engineering Graphics ME 192 Workshop Practical Total of Practical Total of Semester
34
30
Electronics & Communication Engg
FIRST YEAR SECOND SEMESTER
A.
THEORY CODE
SL .N O. 1 2 3 4
Ph 201 M 201 ME 201 CS 201
5 6
EC 201 Ch 201
THEORY
Engineering Physics Mathematics Mechanical Sciences Introduction to Computing Basic Electronics Engg. Engineering Chemistry
CONTACTS (PERIODS/WEEK) L T P TOTAL 3 3 3 2 3 3
3 4 3 3
3 4 3 3
4 3
4 3
20
20
3
3/ 2
1
2 3
3/ 2
1
3 3
3 3
2 2
3 3
3 3 15
2 2 10
1 1 1
Total of Theory B.
PRACTICALS
7
Ph 291
Engineering Physics Lab
8
Ch 291
Engineering Chemistry Lab
9 10 11 12
CREDITS
CS 291 EC 291
Computing Lab Electronics Engineering Lab ME 291 Engineering Graphics ME 292 Workshop Practical Total of Practical Total of Semester
2
35
30
Electronics & Communication Engg SECOND YEAR FIRST SEMESTER
A. Theory Sl. Code No. 1. 2. 3. 4. 5. 6.
M 302 EE 301 EC 301 CS 302 CS 312 EE 302
B. Practicals EE391 CS382 EE392 CS392
Subject Mathematics Circuit Theory & Networks Solid State Devices & Circuit Data Structure & Algorithms Numerical Methods & Programming Electrical and Electronic Measurement Total Theory
Circuit & Network Lab Numerical Methods & Programming Lab Electrical and Electronic Measurement Lab Data Structure Lab
Total Practical Total of Semester
Contacts Periods/Week L T P 3 1 -3 1 -3 0 -3 1 -3 0 -3 1 --
-----
-----
3 3 3 3
Credits Total 4 4 3 4 3 4
4 4 3 4 3 4
22
22
3 3 3 3
2 2 2 2
12 34
6 30
Electronics & Communication Engg Second Year Second Semester A.THEORY: Code
EC 401 EC 402 CS 404 EC 403 EI 402
A. Theory Theory Contacts Credits Periods/Week T P Total L Analog Electronic Circuits 0 0 3 3 Digital Electronics & 3 1 0 4 4 Integrated Circuits Computer Organization & 3 0 0 3 3 Architecture Analog Communication 0 0 3 3 3 Electronic measurements 0 0 3 3 & Instrumentation 3 3 Total Theory
16
16
B. PRACTICAL: Code EC 491 EC 492 EC 493 EI 492
B. Practicals Practicals Contacts Periods/Week L T P Analog Electronic 0 0 3 Circuits Lab Digital Electronics & 0 0 3 Integrated Circuits Lab Analog Communication Lab
0
0 Electronic Measurements & Instrumentation Lab Total Practical
Credits Total 3 3
2 2
0
3
3
2
0
3
3
2
12
8
C. SESSIONAL: HU 481
Technical Report writing & / Language Practice Lab
0
0
0
3
2
Electronics & Communication Engg TOTAL OF SESSIONAL
3 31
TOTAL of Semester :
2 26
Third Year First Semester THEORY SL NO.
CODE
1
EC 501
2
EC 502
3
EC 503
4
EC 513
5
EI 502
THEORY
Line Communication System EM Theory, Propagation & antenna Audio & Video Engineering Linear & Digital Control Systems Microprocessor & Microcontroller TOTAL THEORY
CONTACT PERIODS PER WEEK
TOTAL
CREDITS
L 3
T 0
P 0
3
3
3
1
0
4
4
3
0
0
3
3
3
1
0
4
4
3
1
0
4
4
18
18
TOTAL
CREDITS
PRATICAL SL NO.
CODE
1 2 3
EC 592 EC 593 EC 583
4
EI 592
PRACTICAL
CONTACT PERIODS PER WEEK
Propagation & Antenna Lab Audio & Video Engg. Lab Linear & Digital Control System Lab Microprocessor & Micro controller Lab
L
T
P
0 0 0
0 0 0
3 3 3
3 3 3
2 2 2
0
0
3
3
2
12
8
Total Practical Total of Semester:
30
26
C. SESSIONALS 0 Total of Sessionals Total of Semester -
0
0 0 30
0 0 26
Electronics & Communication Engg Third Year Second Semester A. Theory Code HU 601 EC 601 EC 602 EC 603 EC 604
Theory Industrial Management Optoelectronic Devices & Circuits RF & Microwave Engineering. Digital Communication Systems Microelectronic Technology and Circuits Total of Theory
L 3 3 3 3 3
T 0 1 1 1 1
P 0 0 0 0 0
Total 3 4 4 4 4
Credits 3 4 4 4 4
19
19
B. Practical Code EC 692 EC 693
Code EC 683 EC 682
Practicals Microwave Engineering. Lab Digital Comm. Systems Lab Total of Practicals
L 0 0
T 0 0
P 2 2
Total 2 2 4
Credits 2 2 4
C. Sessional Sessionals L Electronic Design Lab 0 Group Discussion & Seminar 0
T 0 0
P 5 3
Total 5 3 8 31
Credits 4 2 6 29
Total of Sessionals
Total of Semester
6 –Week Industrial Training during Summer Vacation
Electronics & Communication Engg
FOURTH YEAR FIRST SEMESTER – 7th A. Theories
Sl. No. 1 2 3 4
Code
Subject
ΕC 701 Digital Signal Processing EC702 VLSI Design EC703 System Programming & Operating Systems EC 704 Elective-I
Contacts Periods/Week L T P 3 1 0 3 1 0 3 1 0
Total
Credit
4 4 4
4 4 4
4 16
4 16
Contacts Periods/Week L T P 0 0 3 0 0 3
Total
Credit
3 3 6
2 2 4
Contacts Periods/Week L T P 0 0 3 0 0 3
Total
Credit
3 3 6
2 4 6
3
1
0
Total of theory
B. Practicals
Sl. No. 1 2
Code ΕC791 EC792
Subject Digital Signal Processing Lab VLSI Design Lab Total of practical
C. Sessionals
Sl. No. 1 2
Code ΕC793 EC794
Subject Project-I Group discussion Total of sessionals Total credit of semester
26 Elective-I
1 2 3 4 5 6 7
Code ΕC704 Α EC704B EC704C EC704D EC704E EC704F EC704G
Subject Advanced Antenna Engineering Advanced Semiconductor Advanced Mathematics for Electronic Engineering Computer Communication & Networking Object Orient Programming Data Base Management Systems ΕΜΙ / ΕΜΧ Techniques & Management
Electronics & Communication Engg 8 9 1 0 11 1 2
EC704H Process Control Engineering EC704I Industrial Electronics EC704J Numerical Techniques for RF Systems EC704K Pattern Recognition & Machine Intelligence EC704L Computer Vision
FOURTH YEAR SECOND SEMESTER – 8th A. Theories
Sl. No. 1 2 3 4
Code ΗΥ 801 EC 802 EC 803
Subject Values of Ethics of Profession
Optical Fibre Communication Wireless Communication Elective – II
Contacts Periods/Week L T P 3 0 0 3 1 0 3 1 0 3 1 0
Total
Credit
3 4 4 4 15
3 4 4 4 15
Contacts Periods/Week L T P 0 0 3
Total
Credit
3
2
3
3
3
3 9
4 4 4 14
Total of theory
C. Sessionals
Sl. No.
Code
Subject
1
ΕΧ891
Αδϖανχεδ Χοµµυνιχατιον ΛΑ Β
2 3 4
EC892 EC893 EC894
Project-II Grand Viva Seminar-II Total of sessionals
0
Total credit of semester
Elective-II
1 2 3 4 5 6 7 8
Χοδε ΕΧ804Α EC804B EC804C EC804D EC804E EC804F EC804G EC804H
Συβϕεχτ Φιβρε Οπτιχ Μετρολογψ RF & Microwave Network Modern Control Systems Software Engineering CAD VLSI Coding Theory & Cryptography Biomedical Electronics Data-Communication Systems
0
29
Electronics & Communication Engg 9 EC804I 1 EC804J 0 11 EC804K
Internet Technology Distributing Computing Digital Image Processing
DETAILS OF CURRICULUM ENGLISH LANGUAGE & COMMUNICATION Code : Hu 101 Contact : 2L + I T = 3 Credits: 3
Guidelines for Course Execution Objective of the Course To impart basic skills of communication in English through intensive practice to the first year UG students of Engineering so as to enable them to function confidently and effectively in that language in the professional sphere of their life. Desired Entry Behaviour The student must have some basic command of English that is must be able to : 1. Write reasonably grammatically 2. Understand ( if not use ) at least some 2500 general purpose words of English to express himself in writing and 1500 words to talk about day-to-day events and experiences of life. 3. Understand slowly-delivered spoken material in Standard Indian English , and 4. Speak reasonably clearly ( if not fluently ) on routine matters with his fellow students. Strategies for Course Execution • • • • • •
The topics must be conveyed through plenty of examples. Lecture classes must be conducted as lecture-cum-tutorial classes. It is a course that aims to develop skills. It is therefore “practical” in orientation. Plenty of exercises of various kinds must be done by the students both inside and outside the classroom. The teacher must not depend on a single or a set of two or three text books. He must choose his materials from diverse sources. Keeping in view the requirements of his students , the teacher may have to prepare some teaching and exercise material. For practice in listening , good tape recorders can be used if the more advanced facilities ( for example , language laboratory ) are not available. In fact they can be used very fruitfully. The teacher must function as a creative monitor in the class-room.
Electronics & Communication Engg •
Minimum time should be spent in teaching phonetic symbols , stress , intonation , etc. The aim should be to enable the students to find out for himself the correct pronunciation of a word from a learner’s dictionary. In teaching speaking, emphasis should be on clarity , intelligibility and reasonable fluency rather than on “ correct “ pronunciation of words. Classroom presentation and group discussion sessions should be used to teach speaking.
End Results from the Course Some Key Concepts Communication as sharing; context of communication; the speaker / writer and the listener / reader; medium of communication; barriers to communication; brevity, clarity and appropriateness in communication.
Writing Selecting material for expository, descriptive , and argumentative pieces, business letters; formal report; summarizing and abstracting ; expressing ideas within a restricted word limit; paragraph division; the introduction and the conclusion; listing reference material; use of charts, graphs and tables ; punctuation and spelling; semantics of connectives, modifiers and modals; variety in sentences and paragraphs.
Reading Comprehension Reading at various speeds ( slow , fast , very fast ) ; reading different kinds of texts for different purposes (for example , for relaxation , for information , for discussion at a later stage , etc.) ; reading between the lines.
Speaking Achieving desired clarity and fluency ; manipulating paralinguistic features of speaking ( voice quality , pitch , tone , etc. ) pausing for effectiveness while speaking ; task-oriented , interpersonal , informal and semiformal speaking ; task-oriented, interpersonal , informal and semiformal speaking; making a short , classroom presentation.
Group Discussion Use of persuasive strategies including some rhetorical devices ( for emphasizing , for instance; being polite and firm; handling questions and taking in criticism of self; turn-taking strategies and effective intervention ; use of body language. Telephonic Conversation.
Listening Comprehension
Electronics & Communication Engg Achieving ability to comprehend material delivered at relatively fast speed; comprehending spoken material in Standard Indian English, British English and American English ; intelligent listening in institutions such as an interview in which one is a candidate.
Syllabus Details: Grammar – Correction of sentence, Vocabulory / word formation, Single word for a group of words, Fill in the blank, transformation of sentences, Structure of sentences – Active / Passive Voice – Direct / Indirect Narration ( 5 lectures) Essay – Descriptive – Comparative – Argumentative – Thesis statement- Structure of opening / concluding paragraphs – Body of the essay ( 7 lectures) Reading Comprehension – Global – Contextual – Inferential – Select passages from recommended text ( 8 lectures) Business Correspondence – Letter Writing – Formal. Drafting. Biodata- Resume′Curriculum Vitae ( 7 lectures) Report Writing – Structure , Types of report – Practice Writing ( 8 lectures) Communication / Public Speaking skills , Features of effective speech, verbalnonverbal ( 7 lectures) Group discussion – principle – practice
( 6 lectures)
Distribution of marks: Examination Letters including official Precis Comprehension (chart / graph) Report writing including technical/scientific Essay Grammar
Assessment
10 10 10 10 10 20 70
Electronics & Communication Engg Class tests
10 Unit Tests
Reading ability Speaking ability Group Discussion Formal conversation
5 5 5 5 30
References / Books: 1. Mark MaCormack : “Communication” 2. John Metchell “ How to write reports” 3. S R Inthira & V Saraswathi “ Enrich your English – a) Communication skills b) Academic skills “ Publisher CIEFL & OUP 4. R.C. Sharma and K.Mohan , “Business Correspondence and Report Writing “ , Tata McGraw Hill , New Delhi , 1994 5. L.Gartside , “Model Business Letters” , Pitman , London , 1992 6. Longman , “Longman Dictionary of Contemporary English” ( or ‘Oxford Advanced Learner’s Dictionary of Current English’ , OUP , 1998. 7. Maxwell Nurnberg and Rosenblum Morris , “All About Words” , General Book Depot, New Delhi , 1995 8. A Text Book for English foe Engineers & Technologists 9. Written Communication in English by Sara-Freeman – Orient Longman 10. English skills for Technical Students by British Council 11. The Young Writer’s TheraurusS by A.J.Koutsoukis – Orient Longman 12. Communicating at Work by Alder & Elmhorst – McGraw-Hills International 13. Succeeding Through Communication – Subhash Jagota, EXCEL BOOKS 14. Art of Effective Communication – Charles J Margerison, EXCEL BOOKS 15. Communication Skill For Effective Management – A.Ghanekar.EPH 16. Communication Skill – L.M.Shaikh.EPH 17. Communication Skill for Technical Students – Faratullah, Orient Longman 18. English Skills for Technical Students – Orient Longman 19. English Online – Jayasree Mohan Raj, Orient Longman 20. Spoken English – R.K.Bansal, Orient Longman 21. English for Engineers & Technologists Vol.1 & 2 – Orient Longman 22. Speak English (with Audio Cassettes Vol.1 – Vol.8) – Don Dallas,Orient Longman
ENGINEERING PHYSICS Code : Ph 101 Contacts: 3L + 1 T = 4 Credits : 4
Electronics & Communication Engg Total lecture & theoretical classes needed = 43 Theory of Relativity 7L Galilean transformation , Inertial frame of reference , Non inertial frames and fictitious forces (Centrifugal and Coriolis forces – deviation of the path of a freely falling body) , Outline of Relativity (shortcomings of Newtonian Relativity), MichelsonMorley experiment, Postulates of Special Theory of Relativity, Lorentz transformation of space and time , length contraction , variation of mass with velocity , addition of velocities, equivalence of mass and energy.
Geometrical Optics
5L
Introduction to Matrix Algebra, Combination of thin lenses , cardinal points of coaxial system of thin lenses , thick lenses, location and properties of cardinal points . Matrix method in paraxial rays - introduction, effect of translation and refraction. Imaging by a spherical Refracting surface, Imaging by a co-axial optical system (thick lens & lens formulae), unit planes, Nodal planes Physical Optics Interference 5L Huygen’s Principle, relation between phase and path difference, Secondary waves, Coherence (Spatial & Temporal) Analytical treatment of interference , Intensity distribution of fringe system , Coherent and non-coherent sources , Fundamental conditions of interference , Fresnel’s biprism , Displacement of fringes , Wedge shaped films , Newton’s rings Diffraction 4L Concept of diffraction, classification of diffraction (Fraunhofer and Fresnel class), Single slit and Double slit diffraction, diffraction grating ,reflection (introduction) and transmission (detailed theory)), resolution (Rayleigh criterion), Limit of resolution , resolving power of grating . Polarisation 7L Concept of polarization, Brewster’s law , double refraction , geometry of calcite crystal , optic axis, Nicol prism, circularly and elliptically polarized light , retardation plates (half wave and quarter wave) , analytical treatment of production of polaristaion, polarimeter. Laser: Spontaneous, absorption and stimulated emission of radiation – Einstein A,B coefficients, Population Inversion – He Ne Laser, Ruby Laser –application, Basic principle and application of optical fibres.
4L
Acoustics
7L
Simple Harmonic motion – free, damped vibration (analogy with electric circuits), Damped Harmonic motion, Forced vibration Amplitude resonance, velocity resonance and energy intake. Transverse vibrations and longitudinal vibrations, wave equation,
Electronics & Communication Engg sound absorption and reverberation, Sabine's formula. Production and applications of Ultrasonics , Acoustics of buildings. Dynamics of Fluids
4L
Elementary treatment (no vector method used),Continuity equation , Bernoulli’s theorem and its applications, Torcelli’s theorem, Viscosity, flow of liquid through a capillary tube, capillaries in series and parallel, Poiseullie's formula, Stoke’s formula, rotation viscometer.
References / Books 1. 2. 3. 4. 5. 6.
Optics by A.K.Ghatak Mechanics by D.S.Mathur Physics of Waves and Oscillations by Bajaj TMH A treatise on heat by Saha and Srivastava Physics of Oscillations and Waves by R.B.Singh Jenkins and White , “Optics, McGraw-Hill Book Company Introduction to special Realtivity by Robert Resnick 7. Optics by P.K.Cahkraborty 8. Optics (Teach yourself Physics) by A.Yadav (Bharati Bhawan) 9. Acoustics by D.P.Roy Chowdhury 10. Waves and Oscillations- Brijlal, Vikas 11. Text Book of Sound- Brijlal, Vikas 12. Engineering Physics- Basavraj,Vikas 13. Applied Physics- Rajasekran, Vikas 14. Waves & Oscillations – Chaudhari R.N (New Age International) 15. Physics for Engineers – Srinivasan M.R. (New Age International) 16. Lasers & Non – Linear Optics – Laud B.B. (New Age International) 17. Acoustics Waves & Oscillations – Sen S.N. (New Age International) 18. Optoelectronics & Fibre Optics Communication – Sarkar C.K. (New Age Inter.) 19. Introduction to Modern Physics – Singh R.B. (New Age International) 20. Basic Fluid Mechanics – Kothandaraman C.P. (New Age International) 21. Fluid Mechanics & its Applications – Gupta V. (New Age International) 22. Geometrical & Physical Optics – R.S.Longhurst (Orient Longman) 23. Wave Optics & its Applications – R.S.Sirohi (Universities Press) 24. Oscillations & Waves – Reddy K.R. (Universities Press) 25. Optical Communication – Mukunda Rao (Universities Press)
MATHEMATICS Code: M 101 Contacts: 3L + 1 T = 4 Credits: 4 Calculus of Functions of One Variable Review of limit and continuity and differentiability.
1L
Electronics & Communication Engg Successive differentiation, Libnitz’s theorem ( without proof but with problems of the type of recurrence relations in derivatives of different orders and also to find (yn)n ): 3L Rolle’s theorem (statement only), Mean Value Theorem (Lagrange & Cauchy), Taylor’s theorem (without proof and problems in respect of direct use and applications of the theorem only),Maclaurin’s expansion in infinite series of the functions: log(1+x)n , ex , sinx/cosx, (a+x)n , n being a negative integer or a fraction. 5L Newton’s method for approximate solution – This is included in the Numerical Analysis in 2nd Sem (M 201) and so should be extended from M101 and instead of this we may teach L’Hospital Rule. 1L Fundamental theorems of integral calculus (Statement and related problems) 1L Elementary Reduction Formulae for Integrals.(Problems of the type π/2 n
n
∫ sec xdx, ∫ tan xdx, Integral 2L
π/2 0
n
cos xdx , Integral
0
cosn xdx )
Applications. Calculation of length (assuming formulae for Cartesian only) Moment of Inertia and C.G. Volume and surface of revolution. 5L
Infinite Series: Concepts of Sequence, Convergence and Divergence of Infinite series – and typical examples of convergent and divergent series. 1L Comparison test and related problems (statement only) Ratio test and related problems (statement only)
1L 1L
Cauchy’s root test , Cauchy’s integral test and related problems( statements only) 1L Alternating series, Leibnitz’s theorem (without proof), absolute and conditional convergence and related problems. 2L Expansions of functions into Taylor and Maclaurin series.
1L
Electronics & Communication Engg Calculus of Functions of Several Variables Introduction of Function of several variables and examples. 2L Knowledge of limit and continuity. Partial derivative & related problems. Euler’s Theorem & Problems upto 3 variables. 1L Chain rules and related problems. Differentiation of implicit functions & related problems.
1L
Total differentials and related problems. Jacobian – Definition and related problems for two variables.
2L
Tangent planes and normals and related problems. 1L Maxima , minima and saddle points – definition , condition of extrema & problems for two variables. Lagrange’s multiplier method – problems related to three variables. 2L Double Integrals, Triple Integral – Discussion w.r.t. different type of limits and problems. 3L Transformations, applications to areas and volumes, surface area of revolution. 2L Vector Calculus Scalar and vector fields – Definition (terminologies, products: dot,cross,box,vector triple product) 1L Gradient , directional derivative,divergence , curl. (with problems). 2L Lines and Surface integrals with examples. 2L
Green’s theorem with problems Divergence theorem do Stoke’s theorem do
4L
TOTAL = 48L
Electronics & Communication Engg References / Books: 1. G.B.Thomas and R.L. Finney , “Calculus and Analytic Geometry”, 6th edition, Addison Wesley / Narosa, 1985. 2. Piskunov, “Differential and Integral Calculus”, Vol-I & II , Mir Publishers , Moscow , 1979 3. B.S. Grewal “Engineering Mathematics”, S. Chand & Co., New Delhi. 4. Integral Calculus , Das & Mukherjee 5. An Introduction to Real Analysis- S.K.Mapa 6. Higher Algebra – Lahiri & Roy 7. Higher Algebra , Ghosh & Chakraborty 8. Higher Algebra, Bernard & Child 9. Differential Calculus, Maity & Ghosh 10. Integral Calculus , Maity & Ghosh 11. Engineering Mathematics, Prof.T.Majumdar 12. An Introduction to Analysis , Mallick & Arora 13. Undergraduate Engg Math- Jana, Vikas 14. Engineering Math Vol 1,2,3- Lakshami, Vikas 15. Calculus of One Vairable – Pandey G.S. (New Age International) 16. Differential Calculus – Dhami H.S. (New Age International) 17. Integral Calculus – Dhami H.S. (New Age International) 18. Numerical Methods for Engineers – Gupta S.K. (New Age International) MECHANICAL 19. A Textbook of Engg Maths Vol.1 &SCIENCES Vol.2 – Dutta D. (New Age Inter.) 20. Advanced Engg. Mathematics By D.P. Das, Cyber Tech Code: ME 101 Contacts: 3L + 1 T = 4 Credits: 4
Force systems & Equilibrium: Types of forces- concurrent, coplanar, distributed, spatial, resultant of a force about an axis, concept of equilibrium. 1L Moment and couple, Principles of Transmissibility.
1L
Lamis and Varignon’s theorem + 1T
1L
Resultant of a coplanar force system into a single force and a couple. 1L Computation of centroids, centre of gravity 1T
2L
+
Moment of inertia of areas and masses 2L Concepts of friction. Laws of coulomb Problems- applications to wedges- square threaded screws and bolts. 3L Applications of Simple Structures 2L + 1T Analysis of plane pin joints, trusses and frames, Methods of joints, sections and members.
Electronics & Communication Engg Virtual works- Principle of virtual work Simple applications to machines, mechanical efficiency Potential energy and equilibrium.
1½L 2L + 1T 1½L
Total : 18L + 4T
Mechanics of Materials Concepts of stress and strains- Internal and external forces 1L Stress-normal, shearing and bearing Deformations Strain-Normal, shearing and bearing Stress-strain diagram
1L
Elastic and plastic behaviour, elastic constants and their mutual relations 2L St.Venaut’s principle Thermal stresses Shearing force and bending moments 2T Shear and Bending moment diagrams and their applications
2L
+
Deflections of beams. (Double Integration Method)
1½L
Principal stresses, graphical representation by Mohr’s circle (two dimensional) 1L Computations of stress and strain in simple structure and thin walled pressure vessels, Principle of strain energy. Hoop stress 1 ½ L + 1T Total : 10L + 3T
Kinematics and Kinetics Rectilinear and curvilinear motion of particles 2L Translation and rotation of rigid bodies
1L
General plane motions, equations of motions in non-inertial frames of reference 1L
Electronics & Communication Engg Inertia force, D’Alembert’s principle 1T
1L
+
Principle of work and energy, application to plane motion of particles and rigid bodies, conservation of energy, power, efficiency. 2L + 1T Principle of impulses and momentum, application to plane motion of particles and rigid bodies. 1L Mechanical vibrations: Introduction to free forced and damped vibrations. 2L + 1T Total = 38L + 10T
References / Books: 1. 2. 3. 4. 5. 6. 7.
Timoshenko & Young- “Engineering Mechanics”- McGraw Hill, 4th Ed K.L.Kumar-“Engineering Mechanics”-Tata McGraw Hill, New Delhi Beer , F.P. and Johnston. F.R. , “Mechanics for Engineering “, McGraw Hill Shames I.H., “Engineering Mechanics”, Prentice Hall of India. Meriam , J.L., “Statics”, John Wiley Meriam , J.L., “Dynamics”, John Wiley Y.N.Walawalkar – Engineering Mechanics. EPH 8 .Suman Chakraborty– Fundamental Concept In Engineering Mechanics,(Statisc, Strength of Materials, Dyanmics ).(EPH.) 9 .Ferdinand, P.Beer & E. Russel Johnston Jr.-“Mechanics for Engineers (statics)”- McGraw Hill Book Co. 10. Ferdinand, P.Beer & E. Russel Johnston Jr.-“Mechanics for engineers(dynamics)”- McGraw Hill 11. Ferdinand, P.Beer & E. Russel Johnston Jr.-“Mechanics of Materials”- McGraw Hill Book Co. 12. Irvin L. Shames-“Engineering Machines”-Printice Hall of India 13. Strength Of Materials – B.L. Singhal. EPH. 14. Strength of Matreials- Bahvikati ,Vikas 15. Engineering Mechanics- Rajasekran, Vikas 16. Engineering Mechanics- Stat and Dynamics, Vikas 17. Engineering Mechanics – Bhavikatti S.S., New Age International 18. Problems & Solutions in Engg Mechanics – Bhavikatti S.S., New Age International 19. Introduction to Mechanical Engineering – Chandra S.,New Age International 20. Mechanical Measurements – Sirohi R.S., New Age International 21. Non Linear Mechanical Vibrations – Srinivasan P., New Age Inter. 22. Mechanism & Machine Theory – Rao J.S., New Age International 23. Strength of Materials Vol.1 – Prakash Rao D, Universities Press 24. Introduction to Strength of Materials – Prakash Rao D.,Universities Press
Electronics & Communication Engg 25. Engineering Thermodynamics (through Examples) – Y.V.C.Rao, Universities Press
BASIC ELECTRICAL ENGINEERING Code: EE 101 Contacts: 3L + 1T = 4 Credits: 4 Coulomb’s law, Gauss’s theorem (proof), capacitance calculation for plates, concentric spheres and co-axial cylinders, dielectrics, stored energy, electrostatic precipitator, electrostatic photocopying ( Xerox ). 6L Ohm’s law, Kirchhoff’s laws, mesh current and node voltage methods, Delta-star and star-Delta conversion, superposition theorem; Thevenin’s and Norton’s theorems (with independent sources), Maximum power transfer theorem (with proof) 5L Magnetism as a Relativistic effect; Biot-savart law, Ampere’s circuital law, magnetic field due to long straight conductors, coils and solenoids; magnetic forces : Lorentz /Ampere force, force production in simple systems (as in PMMC) 5(4) L B-H characteristics of ferromagnetic materials, Magnetic circuits, Faraday’s law, self and mutual inductance, Energy stored in a magnetic field, lifting power of electromagnet, Hysteresis and Eddy current losses. 3L D.C. Machines: Construction , Characteristics of D.C.generators and D.C. motors( qualitative and only for shunt & series machines), starting (by 3-point starter) and speed control of D.C. machines (armature voltage and field current control) 5(4) L
D.C. transients in R-L, R-C and R-L-C circuits 3(2) L A.C. generation ,waveforms, average and RMS values, peak-factor, R-L, R-C and R-L-C circuits, symbolic notations, j-operator, complex representation of impedances, power factor, active and reactive power, series, parallel and series parallel circuits, series and parallel resonance, Q-factor ; application of circuit theorems.Maximum power transfer theorem in A.C. circuits. 7(6) L Three phase power supplies, Delta and star connection, line and phase quantities, solution of 3-phase circuits for balanced voltage and balanced loads, phasor diagrams, 3 phase, 4 wire circuits, power measurement by two wattmeter method. General structure of electrical power systems, Power transmission & distribution
Electronics & Communication Engg through overhead lines & underground cables.(single line diagram only) 5L Single phase Transformers : Core and shell type construction, EMF equation, no load and on load operation, open and short circuit tests, equivalent circuit, regulation and efficiency calculations. 3L 3 Phase Induction Motors: Construction, Production of rotating field, principle of operation ratings. Torque –speed characteristics ( qualitative only).Starters for squirrel cage and wound rotor Induction motors. Speed Control (only voltage control and frequency control) References / books: 1. Nagrath I J – “Basic Electrical Engineering” Tata McGraw Hill Pub. Co. 2. Kamaleshaiah and Naidu – “Introduction to Electrical Engineering” Tata McGraw Hill Pub. Co 1995. 3. Edward Hughes ( revised by Ian McKenzie Smith) , “Electrical Technology “ , Seventh Ed. , English Language Book Society Publication with Longman , 1995. 4. Vincent Del Torro , “Electrical Engineering Technology “ , Second Edition, Prentice Hall of India Pvt. Ltd. , 1994 5. Principles and Applications Of Electrical Engineering by Rizzoni TMH 6. H.Cotton , “Advanced Electrical Technology “ , Issac Pitman , London 7. Theodore Wildi, “Electrical Machines, Drives and Power Systems”, Second Ed. , Prentice Hall, 1996. 8. J.R. Cogdell , “ Foundations of Electrical Engineering “ , Second Ed. , Prentice Hall, 1996 9. Cotton H – “Electrical Technology”- Wheeler, 1989. 10. Parker Smith S – Problems in Electrical Engineering , CBS, 9th Edn, ‘81 11. JR Cogdell, Foundations of Electrical Engineering . PHI 12. McGraw Hill Encyclopedai of Science & Technology , Vol.6 & 13 13. Theory And Problems Of Elements Of Electrical Engineering – Vaidya,Bhagwat, EPH. 14. Basic Electrical Science and Technology- Murgesh Kumar, Vikas 15. Experiments in Basic Electrical Engg – Bhattacharya S.K., New Age International 16. Fundamentals of Electrical Machines – Gupta B.R., New Age International 17. Engineering Basics – Thyagarajan T., New Age International 18. Electrical Machine Design Data Book – Shanmugasundaram A., New Age Inter. ENVIRONMENT & ECOLOGY Code: Ch 101 Contacts: 3L = 3 Credits: 3 General
Electronics & Communication Engg Basic ideas of environment, basic concepts related to environmental perspective, man, society and environment, their inter relationship. 1L Mathematics of population growth and associated problems, definition of resource, types of resource, renewable, nonrenewable, potentially renewable, effect of excessive use vis-à-vis population growth, definition of pollutant and contaminant. Environmental impact assessment. 2L Environmental degradation: Acid rain, toxic element, particulates, noise pollution , air pollution and its effect on man. 1L Overall methods for pollution prevention, environmental problems and sustainable development , components of environment 1L Ecology Elements of Ecology : System, open system, closed system, definition of ecology, species, population, community, definition of ecosystem, biotic and abiotic components. Ecological balance and consequence of change: Effect of abiotic factor on population, flow chart of different cycles with only elementary reaction [oxygen, nitrogen, phosphate, sulphur], food chain [definition and one example of each food chain] 3L Air Pollution and Control Atmospheric Composition: Troposphere, stratosphere, stratopause and mesopause 1L
mesosphere,
thermosphere,
tropopause,
Energy Balance: Conductive and convective heat transfer, radiation heat transfer, simple global temperature modal [Earth as a black body, earth albedo]), problems. 3L
Green-house effects: Definition, impact of greenhouse gases on the global climate and consequently on sea water level, agriculture and marine food. 1L
Climate , weather:
Electronics & Communication Engg Difference between climate and weather Global warming and its consequence: 2L Adiabatic lapse rate, atmospheric stability, temperature inversion, radiation inversion Atmospheric dispersion: Maximum mixing depth, ventilation coefficient, smokestack plumes and atmospheric lapse rate. 1L The point-source Gaussian plume model excluded. Source and effect of pollutants: Toxic chemicals in the environment , toxic chemicals in air , suspended particulate matter, carbon dioxide, sulphur dioxide, nitric oxide, lead, carbon monoxide. 2L Primary and secondary pollutants: Emission standard, criteria pollutant, oxides of carbon, oxide of nitrogen, oxide of sulphur, particulate, PAN Depletion Ozone layer: CFC, destruction of ozone lair by CFC, impact of other greenhouse gases, effect of ozone modification. 1L Standards and control measures: Industrial, commercial and residential air quality air quality standard, Control measure (ESP, Cyclone separator, bag house, catalytic converter, scrubber (ventury). Statement with brief reference) 1L Water Pollution and Control Hydrosphere: Hydrological cycle
1L
Natural water Pollutants : their origin and effects : Oxygen demanding wastes, pathogens, nutrients, salts, thermal application, heavy metals, pesticides, volatile organic compounds 1L River / lake / ground water pollution River DO, 5day BOD test, BOD reaction rate constants, temperature dependents of BOD, effect of oxygen demanding wastes on river [Deoxygenation, reaeration], COD , Oil, Grease, pH. 2L Lake Eutrophication [Definition, source and effect] 1L Ground Water:
Electronics & Communication Engg Aquifers, hydraulic gradient, ground water flow. (Definition only)
1L
Standard and control: Waste water standard [BOD,COD,Oil, Grease], Water treatment system [coagulation and flocculation, sedimentation and filtration, disinfection, hardness and alkalinity, softening], wastewater treatment, primary treatment , secondary treatmens [Trickling filters, rotating biological contractor, activated sludge, sludge treatment, oxidation ponds], tertiary treatment definition. 3L Arsenic pollution : Biochemical effect, contamination, speciation
2L
Land Pollution Lithosphere Composition Pollutants Municipal, industrial, commercial, agricultural, hazardous solid wastes Recovery and conversion method Waste and waste management Land filling, incineration, composting
1L 2L
Noise Pollution 2L Cources, effects Definition of noise, effect of noise pollution , noise classification, transport noise, occupational noise, neighbourhood noise, definition of noise intensity, noise threshold limit value. References / Books: 1. Masters , G.M., “Introduction to Environmental Engineering and Science”, Prentice –Hall of India Pvt. Ltd. , 1991 2. Basak: Environmental Engineering TMH 3. Nebel , B.J., “Environmental Science”, Prentice –Hall Inc., 1987 4. Odum , E.P., “Ecology: The Link between the natural and social sciences” , IBH Publishing Com. , Delhi 5. Dash: Fundamentals Of Ecology TMH 6. Environmental Management – N.K. Uberoi, EXCEL BOOKS 7. Fundamentals of environmental studies by D.K.Sinha, & A.D.Mukherjee 8. Introduction to Environmental Engineering Sc. by G.Mmasters 9. Environmental Chemistry by A.K.De, New Age International 10. Environmental Management- Mukherjee, Vikas 11. Environmental Management- Pandey, Vikas 12. Environmental Chemistry – Sindhu P.S., New Age International 13. Water Pollution & Management – Varshney C.K., New Age International 14. Water Chemistry – Venkateswarlu K.S., New Age International 15. Water Pollution: Causes, Effects & Control – Goel P.K., New Age International ENGINEERING PHYSICS LABORATORY 16. Environmental Pollution Control Engg – Rao C.S., New Age International 17. Land Treatment of Waste Water – Gohil M.B., New Age International 18. Environmental Pollution Analysis – Khopkar S.M., New Age International 19. Soil Erosion & Conservation – Tripathi R.P., New Age International 20. Environmental Studies – De A.K., New Age International 21. Environmental Impact Assessment – Barthwal R.R., New Age International 22. Man, Nature & Environment – De A.K., New Age International
Electronics & Communication Engg Code: Ph 191 Contacts: 3P Credits: 2 Suggested List of Experiments 1. 2. 3. 4.
To determine the coefficient of viscosity of water by capillary flow To determine the wave length of light by Newton’s ring method. To determine the wave length of light by Fresnel’s biprism. To determine the dispersive coefficient of the given material of the prism. 5. To determine the focal length of combination of two thin lenses by nodal slide assembly and its verification. 6. Determination of e/m by J.J.Thomson’s method. 7. Use of Carry Foster bridge 8. Study of electromagnetic induction 9. Study of electromagnetic damping and determination of terminal velocity reached by a magnet falling in a metallic tube 10. Laser Diffraction 11. Determination of Plank’s Constant using photocells. 12. Determination of Hall Co-efficient of Semiconductors. 13. Determination of band-gap 14. Determination of resistance of a ballistic galvanometer and study the variation of logarithmic decrement with resistance.
BASIC ELECTRICAL ENGINEERING LABORATORY Code: EE 191 Contacts: 3 P Credits: 2 Suggested List of Experiments 1. To measure the armature and field resistance of a DC machine. 2. To calibrate a test ( moving iron) ammeter and a ( dynamometer) wattmeter with respect to standard ( DC PMMC) ammeter and voltmeters. 3. Verification of circuit theorems , Thevenin’s and Superposition theorems ( with DC sources only). 4. Voltage-current characteristics of incandescent lamps and fusing time-current characteristics of fuse wire. 5. Measurement of current, voltages and power in R-L-C series circuit excited by ( single phase) AC supply. 6. Open circuit and short circuit tests on a single phase transformer. 7. Connection and starting of a three phase induction motor using direct on line ( DOL) , or star delta starter. 8. Connection and measurement of power consumption of a fluorescent lamp. 9. Determination of open circuit characteristics ( OCC ) of a DC machine. 10. Starting and speed control of a DC shunt motor. 11. Connection and testing of a single phase energy meter ( unity power factor load only) 12. Two wattmeter method of measuring power in three phase circuit ( resistive load only)
Electronics & Communication Engg 13. Measurement of thermo emf between different types of thermocouples as a function of temperature difference between the junction , measurement of an unknown temperature. 14. Design and use of potentiometer 15. Study of LCR circuits with AC current.
ENGINEERING GRAPHICS Code: ME 191 Contacts: 3 P Credits: 2 1.
LINE LETTERING DIMENSIONING, COPYING FIG
1L + 2 Sessionals
Class sessional work : Different type of lines lettering, Dimensioning, Copying, Different figures Home assignment Rest of lettering both (5:4, 7:4, Mechanical type) Dimensioning (One-aligned system, one-unidrectional system) copying two figures. 2.
SCALE
1L + 1 Sessionals
Class sessional work: Plain scale, Diagonal scale, Comparative scale, Vernier scale
Home assignment PROB 3.
Plain scale-One PROB. Diagonal scale-Two PROBS. Comparative scale-One PROB. Vernier One CURVES
1L + 2 Sessionals
CLASS SESSIONAL WORK Parabolla, Hyperbolla, ellipse, Rectangular hyperbolla, Cycloid, Involute, Archemedian spiral, Logerithm spiral, Hellix HOME ASSIGNMENT Hyperbolla, Ellipse-Two methods, Two problems. Involute-One PROBLEM. Hellix –One PROBLEM.
Electronics & Communication Engg 4.
PROJECT OF POINTS, LINES, SURFACES
1L + 3 Sessionals
Class sessional work
Home assignment Projection of lines including H.T & V.T – Two PROBS. Projection of lines including sideview – Two PROBS Projection of surfaces – i) Pentagon-One PROB. ii) Hexagon-One PROB. 5.
PROJECTION OF SOLIDS
1L + 2 Sessionals
Home assignment Cube-One problem involving solid diagonal Pyramid-One PROBLEM, Prism-One PROB.
References / Books: 1. Narayana, K.L. and Kannaiah, P. “Engineering Graphics” , Tata McGraw Hill , New Delhi, 1988 2. Bhatt , N.D. “Elementary Engineering Drawing” , Charotar Book Stall , Anand, 1998 3. Lakshminarayanan, V. and Vaish Wanar , R.S., “Engineering Graphics” , Jain Brothers, New Delhi, 1998 4. Singh: Understanding AutoCAD 2000 5. Jeyapoovan- Engineering Graphics using Autocad 2000, Vikas 6. Engineering Graphics – Venugopal K, New Age International 7. Engineering Drawing & Graphics + Auto CAD – Venugopal K, New Age International
WORKSHOP PRACTICAL Code: ME 192 and ME 292 Contacts: 3P for Semester I and 3P for Semester II
Electronics & Communication Engg Credits:
2 for Semester I and 2 for Semester II
Carpentry Timber , definition, Engineering applications , seasoning and preservation, plywood and plyboards Metal Joining Definitions of welding , brazing and soldering processes , and their applications. Oxyacetylene glass welding process, equipment and techniques, types of flames and their applications. Manual metal arc welding technique and equipment, AC and DC welding, electrodes, constituents and functions of electrode coating. Welding positions. Types of weld joint. Common welding defects such as cracks , undercutting , slag inclusion, porosity. Metal Cutting Introduction to machining and common machining operations. Cutting tool materials. Definition of machine tools , specification and block diagram of lathe, shaper,milling, drilling machine and grinder. Common lathe operations such as turning , parting , chamfering and facing. Quick return mechanism of shaper. Difference between drilling and boring. Files-material and classification. List of Jobs to be Made in the Workshop Group A T-Lap joint and Bridle joint ( Carpentry shop) 4 hrs Group B 1) a) Gas welding practice by students on mild steel flat 2 hrs b) Lap joint by Gas welding 2) a) MMA welding practice by students b) Square butt joint by MMA Welding
2 hrs
a) Lap joint by MMA Welding b) Demonstration of brazing
1 hr 1 hr
3)
4) Tin smithy for making mechanical joints and soldering of joints 2 hrs Group C 1) Job on lathe with one step turning and chamfering operations 2 hrs. 2) Job on shaper and milling machine for finishing two sides of a job 2 hrs. 3) a) Drilling two holes of size 5 and 12 mm diameter on job used / to be used for shaping b) Grinding a corner of above job on bench grinder 2 hrs. 4) Finishing of two sides of a square piece by filing.
Electronics & Communication Engg References / Books: 1. M.L. Begeman and B.H. Amstead , “Manufacturing Process”, John Wiley , 1968 2. W.A.J. Chapman and E.Arnold , “Workshop Technology “, Vol. I & III, Viva Low Priced Student Ed. , 1998 3. B.S. Raghuwanshi, “Workshop Technology “, Vol. I & II, Dhanpat Rai and Sons , 1998 4. Hajra Choudhary , “Elements of Workshop Technology “, Media Promoters & Publishers, 1997 5. Khanna , O.P. “Workshop Technology “,Dhanpat Rai Publications , 1998 6. S.Crawford, “Basic Engineering Processes”, Hodder & Stoughton, 1985 7. Jeyapoovan- Workshop Practics, Vikas 8. Fundamentals of Metal Cutting & Machine Tools – Juneja B.L., New Age International 9. Kuppuswamy G – Principle of Metal Cutting, Universities Press/Orient Longman INTRODUCTION TO COMPUTING Code : CS 201 Contacts : 2L + 1T = 3
Credits : 3 Fundamentals of Computer: History of Computer, Generation of Computer, Classification of Computers
2L
Basic Anatomy of Computer System, Primary & Secondary Memory, Processing Unit, Input & Output devices
3L
Binary & Allied number systems representation of signed and unsigned numbers. BCD, ASII. Binary Arithmetic & logic gates
6L
Assembly language, high level language, compiler and assembler (basic concepts) 2L Basic concepts of operating systems like MS DOS, MS WINDOW, UNIX, Algorithm & flow chart C Fundamentals: The C character set identifiers and keywords, data type & sizes, variable names, declaration, statements Operators & Expressions: Arithmetic operators, relational and logical operators, type, conversion, increment and decrement operators, bit wise operators, assignment operators and expressions, precedence and order of evaluation. Input and Output: Standard input and output, formatted output -- printf, formatted input scanf. Flow of Control: Statement and blocks, if - else, switch, loops - while, for do while, break and
2L 3L
5L
Electronics & Communication Engg continue, go to and labels
2L
Fundamentals and Program Structures: Basic of functions, function types, functions returning values, functions not returning values, auto, external, static and register variables, scope rules, recursion, function prototypes, C preprocessor, command line arguments.
6L
Arrays and Pointers: One dimensional arrays, pointers and functions, multidimensional arrays.
6L
Structures Union and Files: Basic of structures, structures and functions, arrays of structures, bit fields, formatted and unformatted files.
5L
Recommended reference Books: Kerninghan, B.W. Yourdon, E. Schied F.S. Gottfried Kerninghan B.W. & Ritchie D.M. Rajaraman V. Balaguruswamy Kanetkar Y.
The Elements of Programming Style Techniques of Program Structures and Design Theory and Problems of Computers and Programming Programming with C Schaum The C Programming Language Fundamental of Computers Programming in C Let us C
M.M.Oka Leon LeonRam B. Ravichandran D. Xavier C. Xavier C. Rao S.B.
Computer Fundamentals,EPH Introduction to Computers,Vikas Fundamental of Information Technology,Vikas Computer Fundamentals, New Age International Programming in C, New Age International C Language & Numerical Methods, New Age Inter. Introduction to Computers, New Age International Numerical Methods with Programs in Basic Fortran Pascal & C++, Universities Press Computer Programming & Numerical Analysis, Universities Press Computer Fundamentals Computer Concepts & C Program, Scitech
Dutta N. Bhanu Pratap Rajaram
BASIC ELECTRONICS ENGINEERING
Electronics & Communication Engg Code : EC 201 Contacts : 3L + 1T = 4 Credits : 4 Introduction: Crystalline material: mechanical properties, energy band theory, Fermi levels
2L
Conductors, Semiconductors and Insulators: electrical properties, band diagrams. Semiconductors: intrinsic and extrinsic, energy band diagram, electrical conduction phenomenon, P-type and N-type semiconductors, drift and diffusion carriers, mass action law and continuity equation (statement only)
6L
Formation of P-N junction, energy band diagram, built-in-potential forward and reverse biased P-N junction, formation of depletion zone, V-I characteristics, Zener breakdown, Avalanche breakdown and its reverse characteristics, junction capacitance and varactor diode.
6L
Simple diode circuits, load line, linear piecewise model; rectifiers: half wave, full wave, its PIV, DC voltage and current, ripple factor, efficiency Clipper and Clamper circuits
5L
Introduction to Transistors: Formation of PNP / NPN junctions, energy band diagram; transistor mechanism and principle of transistors, CE, CB, CC configuration, Ebers-Moll model of transistor; transistor characteristics: cut-off active and saturation mode, early effect.
4L
Biasing and Bias stability: calculation of stability factor with variation of Ico Different operating modes; CE, CB, CC and their properties; small signal low frequency operation of transistors; equivalent circuits h parameters as a two port network.
4L
Transistors as amplifier: expression of voltage gain, current gain, input impedance and output impedance, frequency response for CE amplifier with and without source impedance (qualitative)
4L
Introduction to Field Effect Transistor: Construction and characteristics of JFET (N channel only), Transfer characteristics; construction and characteristics of MOSFET (N channel only), depletion and enhancement type; CS, CG, CD configuration
5L
Feed Back Amplifier: Concept (Block diagram), properties, positive and negative feed back, loop gain, open loop gain, feed back factors; topologies of feed back amplifier; effect of feed back on gain, output impedance, input impedance, sensitivities (qualitative), bandwidth stability; effect of positive feed back: instability and oscillation, condition of oscillation, Barkhausion criteria.
5L
Operational Amplifier: Introduction to integrated circuits, properties, specification of M741
2L
operational
amplified
and
its
terminal
Application of operational amplified: concept of virtual earth, inverting and noninverting mode of operation, voltage summing, difference, constant gain multiplier,
Electronics & Communication Engg voltage follower, comparator, integrator, differentiator.
3L
Special Semiconductor devices: Silicon Controlled Rectifier (SCR): constructional features, physical operation, characteristics, simple application (Saw tooth generator); concept of TRIAC, DIAC and UJT; insulated gate bipolar transistor (IGBT)
4L
Cathode Ray Oscilloscope: Construction features of cathode ray tube, concept of dual beam CRO; application of CRO for different electrical measurements: amplitude frequency and phase of sine wave, Lissajous figure.
3L
Recommended reference Books: Malvino
Electronic Principle
Millman & Halkias
Integrated Electronics
Mottershed
Electronics Devices & Circuits
Millman & Grabal
Microelectronics
Schilling & Belove
Electronics Circuits
Salivahanan
Electronics Devices & Circuits
Manish Mukherjee Bhargava Rakshit & Chattopadhyay
Foundation Of Electronics Devices &Circuits. Basic Electronics and Linear Circuits Foundation of Electronics
Storey
Electronics
S.C.Sarkar
Electronics Devices And Circuits. Vol. I&II.EPH
Basavrag
Basic Electronics,Vikas
Mann, K.
Introductory A.C. Circuits Theory, Universities Press
Ray Dilip Kumar
Physics of Semiconductor Devices, Universities Press
Chattopadhyay & Rakshit
Electronics :Fundamentals & Application, New Age
Paul P. John
Electronics Devices & Circuits,New Age
Poornachandra
Electronics Devices & Circuits
MECHANICAL SCIENCES Code : ME 201
Contacts : 3L = 3 Credits : 3
Electronics & Communication Engg Thermodynamics: Introduction; first law for closed and open systems; flow processes and control volume; analysis of difference non-flow and flow processes: limitations of first law of thermodynamics; perpetual motion machine (PMM) of the first kind.
6L
Power producing and power absorbing devices; second law of thermodynamics; introduction of Carnot cycle; practical thermodynamic cycles; PMM II, Corollaries of second law.
4L
Clausius inequality, reversibility, entropy and disorder, basic concept of avalability; temperature entropy diagram, properties of vapour of saturated steam.
3L
Use of Mollier Chart and Steam Tables; Ranking cycle, reheat and regenerative cycles; Airline cycles.
5L
Fluid Mechanics: .Properties of Fluid, Classifications; ideal fluid, Newtonian and non-Newtonian fluids, Inviscid fluid; Newton's law of viscosity.
3L
Fluid Statics; fluid pressure and its variation within fluid at rest; measurement of fluid pressure
4L
Fluid Kinetics; principles of fluid flow; rate of flow, average velocity, steady and unsteady flow; One, two and three dimensional flow; laminar and turbulent flow.
3L
Fluid dynamics: one dimensional equation of motion; integration of equation of motion; Bernoulli's equation; application of Bernoulli's equation.
4L
Dynamic Fluid Pressure: conservation of linear momentum and its application; study of viscous flow; laminar and turbulent flow through circular and non-circular conduits. Flow through open channel: Chezy's equation; compressible fluid; compressibility factor; stagnation enthalpy, temperature, pressure & density. Recommended reference Books: Nag P. K. Van Wylen G. J. & Sentag R. E. Arora C. P. Cengel Som & Biswas Streeter U.L. and Wylie E. B. Roy D. N. Bansal R. K. G.B.Deshpande Ramadurgaiah Rao Y.V.C. Rao Y.V.C. Garde Gupta V. New Age Kapoor B.S. International Rao Y.V.C. New Age
6L
4L
Engineering Thermodynamics Fundamentals of Classical Thermodynamics Thermodynamics Thermodynamics Fluid Mechanics and Machinery Fluid Mechanics Fluid Mechanics Fluid Mechanics and Hydraulic Machines Fluid Mechanics.EPH Fluid Mechanics & Machinery, New Age International Thermodynamics, Universities Press Engineering Thermodynamics, Universities Press Engineering Fluid Mechanics,Scitech Fluid Mechanics & its Applications, Fluid Mechanics, New Age An Introduction to Thermodynamics,
Electronics & Communication Engg ENGINEERING CHEMISTRY Code : Ch 201
Contacts : 3L = 3 Credits : 3 Chemical Thermodynamics: Concept of Thermodynamic System: diathermal wall, adiabatic wall, isolated system, closed system, open system, extensive property, intensive property Introduction to first law of thermodynamics: different statements, mathematical form; internal energy: physical significance, mathematical expression (ideal and real gas), Enthalpy: physical significance, mathematical expression
3L
Cp and Cv: definition and relation; adiabatic changes; reversible and irreversible processes; application of first law of thermodynamics to chemical processes: exothermic, endothermic processes, law of Lovoisier and Laplace, Hess's law of constant heat summation, Kirchoff's law
3L
Second law thermodynamics; Joule Thomson and throttling processes; inversion temperature; evaluation of entropy: characteristics and expression, entropy change in irreversible process, entropy change for irreversible isothermal expression of an ideal gas, entropy change of a mixture of gases
2L
Work function and free energy: physical significance, mathematical expression for ideal and real gases obeying Vander Waals' equation, Gibbs Helmholtz equation
2L
Condition of spontaneity and equilibrium; non ideal systems, activity and activity coefficient, partial molar properties, chemical potential to multicomponent systems, Gibbs Duhem relation; application of thermodynamics to phase transition
4L
Atoms and Molecules: Homonuclear and heteronuclear diatomics, covalent bonds, ionic bonds and electronegativity concepts, hybridzation and shapes of molecules, non-covalent interaction (Vander Waals and hydrogen bonding).
3L
Solid State Chemistry: Introduction to stoichiometric defects (Schottky & Frenkel) and non-stoichiometric defects (Metal excess and metal deficiency); role of silicon and germanium in the field of semiconductor, transistors, rectifier and photovoltaic cells; the process for preparing microminiaturized semiconductor devices: integrated circuits
Instrumental Methods of Analysis: Introduction to instrumental metals such as IR, UV,-Vis, NMR and Mass spectrometry. Reaction Dynamics: Reaction laws: rate and order; molecularity; first and second order kinetics;
5L
1L
Electronics & Communication Engg mechanism and theories of equation)
reaction rates (Transition state theory, Arrhenius
Transition and Metal Chemistry: Structures of coordination compounds corresponding to coordination number 6; types of ligands; isomerism (geometrical, optical, ionization, linkage and coordination).
2L
2L
Structure and Reactivity of Organic Molecule: Inductive effect; resonance; hyperconjugatin; electromeric effect; carbanion and free radicals; brief study of some addition, elimination and substitution reactions
4L
Polymerization: Concepts, classifications and industrial applications; polymerization processes, degree of polymerization (addition and condensation polymerization); preparation, structure and use of some common polymers: plastic (PE, PP, PVC bakelite), rubber (natural rubber, SBR, NBR), fibre (nylon 6,6, polyester); conducting and semiconducting polymers
6L
Industrial Chemistry: Solid, liquid and gaseous fuels; constituents of coal, carbonization of coal, coal analysis, proximate and ultimate analysis; classification of coal Petroleum, gasoline, octane number, aviation fuel, diesel, cetane number; natural gas, water gas.
5L
Electrochemistry: Conductance of electrolytic solutions, specific conductance, equivalent conductance, molar conductance and ion conductance; effect of temperature and concentration; basic ideas and inter ionic attractions; transport numbers and hydration ions, electrochemicals cells; cell emf and its thermodynamic significance; single electrode potentials and its applications; hydrogen half cell and calomel half cell; conductometric titrations: SA vs SB & SA vs WB; precipitation titration KCL vs AgNO3
5L
Recommended reference Books: Rakshit P. C. Physical Chemistry Dutta R. L. Inorganic Chemistry Levine Physical Chemistry Finar I. L. Organic Chemistry Sarkar Samir Fuels and Combustion Carey Organic Chemistry Glasston Samuel Text Book of Physical Chemistry Lee J. D. Concise Inorganic Chemistry Ghosh P. Polymer Science and Technology of Plastics & Rubbers GopalanApplied Chemistry for Engineers,Vikas GopalanConcise coordination Chemistry,Vikas Sharma Physical Chemistry,Vikas Raman Physical Chemistry,Vikas Rao Y.V.C. Chemical Engineering Thermodynamics, Univs Press Moore W.J. Physical Chemistry, Orient Longman Satyanarayan Rao V. Polarography & Allied Techniques, Universities Press Mann F.G. Practical Organic Chemistry, Orient Longman Sykes,P. Guidebook to Mechanism in Org.Chems. Orient Longman Sathyaranarana , D.N. Electronic Absorptions Spectrocopy & Related Techniques, Univs Press
Electronics & Communication Engg Negi A.S.
A Textbook of Physical Chemistry, New Age International
Chakraborty D.K.
Solid State Chemistry, New Age International
Singh S.K Gupta M.C.
Fundamentals of Engg Chemistry, New Age Inter. Atomic & Molecular Spectroscopy, New Age
Gowarikar V.R. Mishra G.S. Mukherji S.M.
Polymer Science, New Age Introductory Polymer Chemistry, New Age Organic Chemistry Vol.1,2,3, New Age
Nasipuri D. Kalsi P.S
Stereochemistry of Organic Compounds, New Age
Kalsi P.S. Bansal R.K. Chakraborty D.K.
Organic Reactions & their Mechanism, New Age A Textbook of Organic Chemistry, New Age Absorption & Catalysis by Solids, New Age
Kalidas C. Reddy K.H.
Chemical Kinetic Methods, New Age Bioinorganic Chemistry
Spectroscopy of Organic Compounds, New Age
ENGINEERING PHYSICS Code : Ph 201 Contacts : 3L
Credits : 3 Vector Analysis: Scalar and Vector fields, Gradient of a scalar field, curvilinear co-ordinates in connection with grad, divergence and curl of a vector field, line integral of a vector field, gauss-divergence theorem Stoke's theorem. Electromagnetism: Quantization & Conservation of charge, Coulomb's law (vectorial from) and superposition principle, concept of electric lines, flux of E-field, Gauss's law, electric potential energy and potential (problems on spherical and cylindrical symmetry), conductors, capacitors (parallel plates, spherical and cylindrical symmetry) and dielectric materials (frequency dependence of such materials), magnetic field, force on a moving charge in a magnetic field, force on current element, torque on current loop, Biot Savart's Law (concept of B and vector potential A), Ampere's law, electromagnetic induction and Faraday's law, magnetism in materials (relation among B, H and M), Maxwell's equation in differential and integral form, electromagnetic waves. Thermoelectricity: Seebeck effect, law of successive temperatures, law of intermediate metals, peltier effect, Thomson effect, thermoelectric power. Modern Physics: Limitations of classical physics and its failure, blackbody radiation, photoelectric effect, compton effect (derivation of wave length shift), X-ray diffraction and Bragg's law, wave particle duality, Davisson-Germer experiment, Heisenberg's
3L
10L
3L
Electronics & Communication Engg uncertainty relation (Thought experiment y-ray experiment, elementry proof), Schrodinger's equation (time dependent and time independent), wave function and its normalisation, probability density and expectation values, operators in quantum mechanics (brief introduction), particle in a box (one dimensional (infinite square well potential) three dimensional also to be discussed), hydrogen atom problemtransformation of Schrodinger equation to spherical polar to-ordinate, discussion of the solution of the equation in polar coordinates, space quantisation, orbital & spin angular momentum, normal zeeman effect, exclusion principle. Thermal Physics: Introduction to Statistical Physics, Maxwell-Boltzmann distribution, application to ideal gas molecules, distribution of molecular speeds, mean, rms and most probable velocity, law of equipartition of energy, Fermi-Dirac statistics, calculation of total number of free electrons in a metal, evaluation of Fermi energy of electrons in a metal at absolute zero temperature (short derivation), Bose-Einstin statistics, Plans's radiation law, Wien's displacement law and Stefan-Boltzmann law.
14L
10L
Solid State Physics: Crystal class and their symmetries, Bravais lattice, unit cell fcc, bcc, hcp crystal, Miller indices and applications, Band theory of solids, conductor, semiconductor and insulators, Brillouin zones.
6L
Nuclear Physics: Nuclear binding energies, nuclear forces and their short range character, balance of mass and energy in nuclear reactions-Q-value of reaction, threshold energy in endothermic reactions, nuclear fission and fusion: fundamentals, nuclear reactors.
6L
Recommended reference Books: Speigal M. Mahajan Beiser
Vector Algebra Electricity and Magnetism Concepts of Modern Physics
Fewkes & Yarwood Ghoshal S. N. Eisberg & Resnick Wehr, Richards & Adair Brijlal & Subrahmanyam Dekker A. J. Kaplan I. Fewkes & Yarwood Gupta A. B & Ghosh D. GuptaPillai S.O. Singh R.B. Ashraf Ali Roy S.K. Roy R.R.,Nigam Hans H,S Patel S.B. Sarawate V.V. Laud B.B. Henderson H.
Electricity and Magnetism (Vol. I) Introduction to Quantum Mechanics Quantum Physics Physics of the Atom Thermal and Statistical Physics Solid State Physics Nuclear Physics Atomic Physics (Vol II) Atomic & Nuclear Physics Mathematical Physics,Vikas Solid State Physics, New Age Introduction to Modern Physics, New Age Vector Analysis with Applications,N.Age Thermal Physics & Stats Mechanics,New Age Nuclear Physics,New Age Nuclear Physics, New Age Nuclear Physics: An Introduction,New Age Electromagnetic Fields & Waves, New Age Electromagnetics, New Age International Nuclear Physics, Universities Press
Electronics & Communication Engg Rao Y.V.C. Sukatme
Heat Transfer, Universities Press Textbook of Heat Transfer, Universities Press
MATHEMATICS Code : M 201 Contacts : 3L + 1T = 4 Credits : 4 Linear Algebra: Vector Spaces: definition of vector spaces over the field of real numbers; definition of south face of a vector space and a criterion for a sub space; definition of linear combination, linear independence and linear dependence of vectors with examples. Definition of basis and dimension of vector space; example of vector space which has more than one basis.
3L
Introduction to the idea of a matrix; equality of matrices; special matrices. Algebraic operations of matrices: commutative property, associative property and distributive property. Transpose of matrix (properties (At)t = A, (A+B)t = At + Bt , (cA)t = cAt, (AB)t = BtAt to be stated (without proof) and verified by simple examples. Symmetric and skew symmetric matrices.
2L
Properties of determinant (statement only); minus, co-factors and Laplace expansion of determinant; Cramer's rule and its application in solving system of linear equations.
2L
Singular and non-singular matrices; adjoint matri; inverse of a matrix [(AB)-1 = B-1A1 to be stated and verified by example. Elementary row and column operations on matrices; definition of rank of a matrix; determination of rank of (2x2) matrix using definition; determination of rank of a rectangular matrix.
2L
Systems of linear equations: consistency and inconsistency.
1L
Eigen values and Eigen vectors of a matrix; diagonalization of a matrix; Gauss elimination process for solving a system of linear equations.
2L
Linear transformation: definition of kernel and image of a linear transformation; kernel and images of a linear transformation forming sub-spaces; nullity and rank of a linear transformation; Dimker T + Dim lm T = Dim V; definition of inner product space, norm of a vector, orthogonal and ortho-normal set of vectors. Ordinary Differential Equations: Definition of order and degree; ODE of the first order: first order first degree (equation solvable by separation and variables, homogeneous equations, nonhomogeneous equations that can be reduced to homogeneous equations, exact equations; definition and use of integrating factors; linear equation and Bernoulis' equation ODE of first order but not of first degree, simple problems General ODE of nth order: operator method for solving equations with constant
1L
3L
Electronics & Communication Engg coefficients, method of variation of parameters and method of undetermined coefficients for solving equations with variable coefficients; Cauchy-Euler homogeneous linear equations.
4L
Solution of simple simultaneous linear equations; Legendre and Bessel' functions and their properties
2L
Laplace Transforms: Definition; existence of LT; LT of elementary functions; first and second shifting properties; change of scale property; L.T. of derivatives Corresponding theorems for multiplication by t" and division by t; L.T. of periodic functions; unit step functions Inverse L.T.; solution of ODE's using L.T. Numerical Methods: Estimation of error; difference operator (forward, backward, central, sift and average operators); Newton's forward and backward interpolation; Lagrange interpolation and corresponding error formulae. Newton's forward formula, Newton's backward formula and Lagrange formula; numerical integration (Trapezoidal rule and Simpson's rule); Recommended reference Books: Kreyszig E. Krishnamurthy V., Mainra V.P. and Arora J.L. Boyce and Diprima Grewal B.S. S.K.Rathor Lakshmninarayn Jana Chakraborty A. Bhattacharya P.B. Rao Sarveswar A. Gupta S.K. Jain M.K. Jain M.K. Balachandra Rao Dutta N. Rao S.B. Murray D.A. Bagchi S.C. Arumugam
4L 4L
5L 4L
Advance Engineering Mathematics An Introduction to Linear Algebra Elementary Differential Equations and Boundary Value Problems Engineering Mathematics Higher Engineering Mathematics II.EPH Engg Math,Vikas UG Engg. Mathematics,Vikas Elements of Ord.Diff. Equations,New Age First Course in Linear Algebra,New Age Engineering Mathematics, Universities Press Numerical Methods for Engineers, New Age Numerical Methods for Sc. & Engg Computation, New Age International Numerical Solutions of Differential Equations Numerical Methods with Programs in Basic, Fortran Pascal and C++ Computer Programming & Numerical Analysis: An Integral Approach,Universities Press Differential Equations with Applications & Programs, Universities Press Introductory Course in Differential Equations First Course on Representation Theory & Linear Lie Groups, Universities Press Engineering mathematics,I,II & III, Scitech
Electronics & Communication Engg ENGINEERING PHYSICS LABORATORY Code: Ph 291 Contacts: 3/2 P Credits: 1 1. To determine the thermal conductivity of a bad conductor by Lee’s method. 2. To determine the thermal conductivity of a good conductor by Searl’s method. 3. Measurement of thermo emf between different types of thermocouples as a function of temperature between the junctions, measurement of an unknown temperature. 4. Verification of Hooke’s law and determination of Young’s modulus. 5. Determination of Bending Moment and Shear Force of beam by Travelling Microscope. 6. Determination of rigidity modulus. 7. Determination of Spring Constant of a Spiral Spring & helical spring. 8. To determine the dielectric constant of a given dielectric material 9. To determine the Rydberg Constant by studying Hydrozen Spectrum 10. To find the Lande'g-factor with Electron-Spin Resonence Spectrometer 11. Study the current-Voltage,poweroutput vs. load, areal characteristics,and Spectral Response of the Photovoltaic Solar cell.
ENGINEERING CHEMISTRY LABORATORY Code : Ch 291 Contacts : 3/2 P Credits: 1 Suggested List of Experiments 1. Acid –base titration ( estimation of commercial caustic soda) 2. Redox titration (estimation of iron using permanganometry) 3. Complexometric titration ( estimation of hardness of water using EDTA titration) 4. Preparation and analysis of a metal complex ( for example thiourea / copper sulfate or nickel chloride / ammonia complexes) 5. Chemical Kinetics (determination of relative rates of reaction of iodide with H2O2 at room temperature (clock reaction) 6. Heterogeneous equilibrium (determination of partition coefficient of acetic acid between n-butanol and water) 7. Photochemical oxidation-reduction (study of photochemical reduction of ferric salt) 8. Viscosity of solutions (determination of percentage composition of sugar solution from viscosity) 9. Conductometric titration for determination of the strength of a given HCl solution by titration against a standard NaOH solution
Electronics & Communication Engg 10. pH- metric titration for determination of strength of a given HCl solution against a standard NaOH solution. COMPUTING LAB Code: CS 291 Contacts: 3 P Credits: 2 Exercises should include but not limited to: 1. DOS System commands and Editors ( Preliminaries) 2. UNIX system commands and vi ( Preliminaries) 3. Simple Programs: simple and compound interest. To check whether a given number is a palindrome or not, evaluate summation series, factorial of a number , generate Pascal’s triangle, find roots of a quadratic equation 4. Programs to demonstrate control structure : text processing, use of break and continue, etc. 5. Programs involving functions and recursion 6. Programs involving the use of arrays with subscripts and pointers 7. Programs using structures and files.
BASIC ELECTRONICS ENGINEERING LAB Code: EC 291 Contacts: 3P Credits: 2 1. Familiarization with Electronic components such as Resistors, Capacitors, Diodes, Transistors etc. 2. Familiarization with electrical devices and measuring equipment like DC power supply, Multimeter, Trainer kit etc. 3. Familiarization with measuring and testing equipment like CRO, Signal generator. 4. Study on V-I characteristics of Junction Diode. 5. Study on V-I characteristics of Zener Diode. 6. Study on Half Wave and Full Wave rectifiers. 7. Study on characteristics of Field Effect Transistors. 8. Determination of Input offset voltage, Input Bias current, Slew rate of Op-Amp. 9. Determination of Common Mode Rejection Ratio, Bandwidth, Offset null of OpAmp. 10. Characteristics Curve for common base emmitor & common collector transducers 11. Study of working of data acquisition system. ENGINEERING GRAPHICS Code: ME 291 Contacts: 3 P Credits: 2
Electronics & Communication Engg ISOMETRIC VIEW AND ISOMETRIC PROJECTION
Class sessional work
2L + 4 Sessionals
2 PROBS
Home assignment2 PROBS
SECTIONAL VIEW, TRUE SHAPE OF A SECTION
Class sessional work
Home assignment
2L + 4 Sessionals
1 PROB EACH
1 PROB EACH
RIVET HEADS, RIVETED JOINTS
2L + 4 Sessionals
Class sessional work cover)
Rivet heads, types, lap-joint, butt joint (single
Home assignment
Remaining heads butt-joint (Double cover)
THREADS, NUT-BOLT KEY AND COTTER JOINT
Class sessional work: Home-work-threads-2types, hexagonal bolt, fitted with a SQ. nut-plan and elevation. Home-work –two views each- 2 probs Home assignment: Remaining threads. SQ. Head bolt and Hexagonal head nut. – 2 probs
DEVELOPMENT
1L + 3 Sessionals
Electronics & Communication Engg Class sessional work
Two PROBS
Home assignment
Two PROBS
INTERPENETRATION
2L + 3 Sessionals
Class sessional : From orthographic view- plan , elevation and side view-1 PROB. Home assignment : 1 PROB MACHINE PARTS
1L + 5 Sessionals
Home assignment: 1 PROB BUILDING DRAWING (CIVIL – R.C.C.) 1 L + 5 Sessionals
Class sessional work Front line plan to draw plan-elevation .A Brick Foundation showing all components.
Home assignment: 2 probs Computer Aided Drafting
3L + 3 Sessionals
Introduction .Cartesian and Polar Co-ordinate system, Absolute and Relative Coordinates; Basic Editing Commands : Line, Point, Trace, Rectangle, Polygon, Circle, Arc, Ellipse, Polyline; Basic Editing Commands : Basic Object Selection Methods, Window and Crossing Window, Erase, Move, Copy, Offset, fillet, Chamfer, Trim, Extend, Mirror; Display Commands : Zoom, Pan, Redraw, Regenerate; Simple dimensioning and text. Simple exercises and practice problems.
Electronics & Communication Engg References/ Books: 1. French and Vireck , “The Fundamental of Engineering Drawing and Graphic Technology “, McGraw Hill, 4th Ed., 1978 2. “IS:696 ( 1972) Code of Practice for General Engineering Drawing”, ISI New Delhi 3. P.S.Gill, “ A Text Book of Machine Drawing”, Katson Publishing House, Ludhiana, 1980 4. Giesecke , Mitchell, Spener, Hill and Dygon, “Technical Drawing”, McMillan & Co. , 7 th Ed., 1980 5. George Omura, “Mastering AUTOCAD”, B.P.B. Publication, New Delhi , 1994 6. Venugopal K. :Engineering Drawing & Graphics + Auto CAD, New Age International 7. Venugopal K. : Engineering Graphics, New Age International
Third Semester
Electronics & Communication Engg Mathematics Code : M 302 Contacts : 3L + 1T Credits: 4 Fourier Series, Integrals and Transforms : Properties, Inverse, Fourier Transform of Derivative, Convolution, use of Fourier Series and Transforms in solving Partial Differential Equations. Partial Differential Equations : Boundary and Initial Conditions, Solution of Laplace's and Heat Conduction Equations Complex Analysis : Functions, Limits and Continuity, Analytic Functions, Cauchy Riemann Conditions, Analytic Continuation, Complex Integration and Cauchy's Theorem, Cauchy's Integral Formula, Taylor's and Laurent Series, Reside Theorem and it's application to evaluation of integral, Introduction to Conformal Mapping. Probability and Statistics : Mean, Median, Mode, Standard Deviation, Moments, Skewness, Kurtosis. Definition of Laws of Probability, Conditional probability, Multiplication, Independence of Events, Bayes' Rule, Sample Space, Random Variable, Discrete and Continuous Probability Distributions - Cumulative Distribution Functions-Mathematics Expectancy, Standard Probability Models - Binomial, Poisson, Normal, Sampling and its Distribution, Correlation and Regression, Method of Least Square - Fittings. Graph Thoery : Graphs, Digraphs, Isomorphism, Walks, Paths, Circuits, Shortest Path Problem, Dijkstra's Algorithm, Trees, Properties of Trees, Cotrees and Fundamental Circuits, Shortest Spanning Trees - Kruskal's Algorithm, Cut Sets, Fundamental Cut Sets and Cut Vertices, Planar and Dual Graphs, Metric Representation of Graphs, Networks, Flow Augmenting Path, Ford-Fulkerson Algorithm for Maximum Flow. Text Books : 1. Gupta S . C and Kapoor V K : Fundamentals of Mathematical Statistics - Sultan Chand & Sons. 2. Lipschutz S: Theory and Problems of Probability (Schaum's Outline Series) McGraw Hill Book. Co. 3. Spiegel M R : Theory and Problems of Probability and Statistics (Schaum's Outline Series) - McGraw Hill Book Co. 4. Veerarajan :Probability &statistics 2/e TMH 5. Goon A. M., Gupta M K and Dasgupta B: An Outline of Statistical Theory-Vol.I The World Press Pvt. Ltd. 6. Goon A.M., Gupta M K and Dasgupta B: Fundamental of Statistics - The World Press Pvt. Ltd.
Electronics & Communication Engg 7. Spiegel M R : Theory and Problems of Complex Variables (Schaum's Outline Series) - McGraw Hill Book Co. 8. Bronson R: Differential Equations (Schaum's Outline Series) - McGraw Hill Book Co. 9. Ross S L : Differential Equations - John Willey & Sons. 10. Sneddon I. N. : Elements of Partial Differential Equations - McGraw Hill Book Co. 11. West D.B. : Introduction to Graph Theory - Prentice Hall 12. Deo N: Graph Theory with Applications to Engineering and Computer Science Prentice Hall. 13. Grewal B S : Higher Engineering Mathematics (thirtyfifth edn) - Khanna Pub. 14. Kreyzig E: Advanced Engineering Mathematics - John Wiley and Sons.
15. Discrete Structure And Graph Theory.- Rathor / Chaudhuri,EPH. 16. Jana- Undergraduate Engg. Math,Vikas 17. Lakshminarayan- Engg. Mathematics 1,2,3 ,Vikas 18. Gupta- Matehmatical Physics ,Vikas 19. Subir Das- Key to Differential Equations (EPH)
Circuit Theory & Networks Code: EE 301 Contact: 3L + IT Credit: 4 Different types of systems & networks: continuous & Discrete, Fixed and Time varying, Linear and Non-linear, Lumped and distributed, Passive & Active Networks & Systems Laplace transform of impulse and sinusoidal steps waveforms for RL, RC, LC and RLC Circuits. Transient analysis of different electrical circuits with and without initial conditions, Fourier Series and Fourier Transform Network theorems and their applications in circuit analysis, Formulation of network equations, Source transformations, Loop variable analysis and node variable analysis Graph of network, concept of tree branch, tree link. Incidence matrix, Tie-set matrix and loop currents, Cut set matrix and node pair potentials Two port networks, Open circuit Impedance and Short circuit Admittance parameters, Transmission parameters, hybrid parameters, and their inter-relations Indefinite admittance matrix- their applications to the analysis of active network Active filter analysis and synthesis using operational amplifier SPICE: How SPICE works. Model statement, models for passive and active device, D.C. circuits analysis, small signal analysis, capacitors and inductors in D.C. Circuits, steady state and transient, plotting and printing, input and output Impedance, D.C. sensitivity analysis, harmonic decomposition (Fourier Series), Harmonic re-composition, voltage controlled components
Text books :
Electronics & Communication Engg 1. Sudhakar:Circuits & Networks:Analysis & Synthesis 2/e TMH New Delhi 2. Valkenburg M. E. Van, “Network Analysis”, Prentice Hall. 3. Engineering circuit analysis with PSPICE and probe-Roger 4. Engg Circuit Analysis,: Hayt 6/e Tata Mcgraw-Hill 5. A. Chakravarty: Networks, Filters & Transmission Lines 6. D.Chattopadhyay and P.C.Rakshit: Electrical Circuits 7. A.V. Oppenheimer and A.S.Wilsky: Signals & Systems, PHI 8. R.V.Jalgaonkar.: Network Analysis & Synthasis.EPH. 9 . Sivandam- Electric Circuits and Analysis, Vikas 10. V.K. Chandna, A Text Book of Network Theory & Circuit Analysis, Cyber Tech
References : 1.Reza F. M. and Seely S., “Modern Network Analysis”, Mc.Graw Hill Book Company 2.Roy Choudhury D., “Networks and Systems”, New Age International Publishers. 3.Kuo F. F., “Network Analysis & Synthesis”, John Wiley & Sons.
Solid State Devices & Circuits Code: EC 301 Contacts: 3L
Credits: 3 Transport phenomena in solids – drift and diffusion. Properties of p-n and metal semiconductor junctions, rectifier and detector diodes, photovoltic effect-solar cells, zener and tunnel diodes Varactor gunn and impatt diodes, Bipolar transistor – physical mechanism, current gain, punch-through and avalanche effect High voltage and high power transistors Field effect transistors –JFETS and IJFETS. MOS-capacitors-flat band and threshold voltages –P-and Nchannel MOSFETS, CMOS and VLSI MOSFETS, Semi conductor sensors and detectors. LEDs & LCDs, Elements of device fabrications technology Different configurations of feedback amplifiers-voltage series, voltage shunt, current series and current shunt, effects on gain, i/p and o/p impedance’s, positive feedback and oscillator circuits- phase shift, wien bridge, hartlay, colpit and crystal oscillators. Books : 1. Millman & Halkias Integrated Electronics, THH 2. Millman & Grabel, MGH Micro-Electronics 3. Neamen: Semiconductor Physics &devices TMH 4. Malvino Principle of Electronics, TMH 5. Chattopadhyay, Rakshit, Saha & Purkait, 2nd, Edn -Foundation of Electronics
1. Prof. Manis Mukherjee -- Foundation Of Electronics Devices And Circuits. EPH. 2. Kasap:Principles of Electronic Materials &devices Tata Mcgrawhill
Electronics & Communication Engg Data Structures and Algorithms Code: CS 302 Contact: 3L + IT Credit: 4 Overview of C language Time and Space analysis of Algorithms - Order Notations. Linear Data Structures - Sequential representations - Arrays and Lists, Stacks, Queues and Dequeues, strings, Application. Linear Data Structures - Link Representation - Linear linked lists, Circularly linked lists. Doubly linked lists, application. Recursion - Design of recursive algorithms, Tail Recursion, When not to use recursion, Removal of recursion. Non-linear Data Structure : Trees - Binary Trees, Traversals and Threads, Binary Search Trees, Insertion and Deletion algorithms, Height-balanced and weight-balanced trees, B-trees, B+ -trees, Application of trees; Graphs - Representations, Breadth-first and Depth-first Search. Hashing - Hashing Functions, collision Resolution Techniques. Sorting and Searching Algorithms - Bubble sort, Selection Sort, Insertion Sort, Quicksort, Merge Sort, Heapsort and Radix Sort. File Structures - Sequential and Direct Access. Relative Files, Indexed Files - B+ tree as index. Multi-indexed Files, Inverted Files, Hashed Files. Text books: 1. Data Structures and Algorithms- O.G.Kadke and U.A.Deshpandey, ISTE/EXCEL 2. Aho Alfred V., Hopperoft John E., UIlman Jeffrey D., “Data Structures and Algorithms”, Addison Wesley 3. Ajoy Agarwal.: Data Structures Through C.Cybertech. 4.
Lipschutz: Data Structures TMH
References : 1.Heileman: Data structures,algorithims &OOP Tata McGraw Hill 2. Data Structures Using C, M.Radhakrishnan and V.Srinivasan, ISTE/EXCEL BOOKS 3.Weiss Mark Allen, “Algorithms, Data Structures, and Problem Solving with C++”, Addison Wesley. 4. Horowitz Ellis & Sartaj Sahni, “Fundamentals of Data Structures”, Galgotria Pub. 5. Tanenbaum A. S. , “Data Structures using ‘C’ ”
Electronics & Communication Engg
Numerical Methods and Programming Code : CS 312 Contacts : 3L Credits : 3 Approximation in numerical computation, Truncation and rounding errors; Interpolation: Lagrange’s Interpolation, Newton forward & backward differences Interpolation, Newton divided difference; Numerical Integration: Trapezoidal, Rule, Simson’s 1/3 Rule, Weddle’ Rule; Numerical Solution of a system of linear equation Gauss elimination method, Matrix Inversion, LU Factorization method, Gauss Jacobi method, Gauss Seidal method; Algebraic Equation: Bisection method, Secant method, Regular-Falsi method, NewtonRaphson method; Numerical solution of ordinary differential equation: Taylor’s series method, Euler’s method, Runge-kutta method, Predictor-Corrector method; C Language Overview: Loop, recursion, function, array, pointers, structures, various types of file access methods: Sequential, Indexed Sequential, Random; Various types of files in C and various types file handling statements in C Implementation above Numerical & Statistical Problems in C Language;
Books: 1.Numerical Analysis and Algorithms by Pradeep Niyogi TMH 1. Numerical Mathematical Analysis by J.B.Scarborough 2. C Language and Numerical Methods by C.Xavier 3. Introductory Numerical Analysis by Dutta & Jana 4. Balagurusamy :Numerical methods 5. Numerical Methods (Problems and Solution) by Jain, Iyengar , & Jain 6. Numerical Methods In Computer Applications. : P.U.Wayse.EPH
ELECTRICAL AND ELECTRONIC MEASUREMENT Code : EE 302 Contacts : 3L + 1T Credits :4 General features – Construction and principle of operation of moving coil, moving iron, Dynamometer, Thermal and Rectifier type deflecting instruments. Deflecting, controlling and damping torques, extension of instrument ranges using shunts, multipliers and instrument transformers. Measurement of low, medium and high resistances, Kelvins double bridge, multimeters, megger, localization of cable faults.
Electronics & Communication Engg D.C. and A.C. potentiometers, Measurement of high voltage, Electrostatic instruments, measurement of inductances, capacitance and frequency by A.C. Bridges. Measurement of power in polyphase circuits, various wattmeter connections. A.C. and D.C. energy meters. C.R.O. construction & principle measurement of voltage, current, frequency and phase by oscilloscope.
Electronic voltmeters – analog and digital. Digital multimeters, Audio oscillators, signal generators and frequency counter. Text Books: 1. Electronic Instrumentation – H.S. Kalsi, ISTE/EXCEL BOOKS 2.Golding E.W. & Wides F.C. : Electrical Measuring Instruments & Measurements ; Wheeler 3.Kalsi:Electronic Instrumentation 4.Industrial Instrumentation & Control : SK Singh Tata McGraw Hill.New Delhi 5.Sawhney A K : A course in Electrical & Electronic Measurements & Instruments, Dhanpat Rai & Co. 6.Heltrick A.D. & Cooper W.D. : Modern Electronic Instrumentation & Measuring Instruments; Wheeler 7.Patranabis D: Sensors & Transducers, Wheeler 96
Circuits & Networks Lab
Code: EE 391 Contact: 3P Credit:
2
List of Experiments:
2 3 4
1. Transient response in R-L and R-C Network: Simulation/hardware 2. Transient response in R-L-C Series & Parallel circuits Network: Simulation/hardware 3. Determination of Impedance (Z) and Admittance(Y) parameters of two port network 4. Frequency response of LP and HP filters 5. Frequency response of BP and BR filters 6. Generation of Periodic, Exponential, Sinusoidal, Damped sinusoidal, Step, Impulse, Ramp signals using MATLAB in both discrete and analog form 7. Evaluation of convolution integral, Discrete Fourier transform for periodic & non-periodic signals and simulation of difference equations using MATLAB Representation of poles and zeros in z-plane, determination of partial fraction expansion in z-domain and cascade connection of second order system using MATLAB Determination of Laplace transform and inverse Laplace transformation using MATLAB Spectrum analysis of different signals
Note: An Institution/College may opt for some other software or hardware simulation wherever possible in place of MATLAB
Electronics & Communication Engg
Numerical Methods & Programming Lab Code: CS 382 Contact: 3P Credit: 2 1. Assignments on Interpolation: Newton forward & backward, Lagrange 2.Assignments on Numerical Integration: Trapezoidal Rule, Simson’s 1/3 Rule, Weddle’s Rule 1. Assignments on Numerical solution of a system of linear equation: Gauss elimination, Gauss Jacobi, Matrix Inversion, Gauss Seidal 2. Assignments on Algebric Equation: Bisection, Secant, Regular-falsi, Newton Raphson 3. Assignments on Ordinary Differential Equation: Taylor Series, Euler’s method, Runga-Kutta 4. Assignments on Statistical Problem: Mean, Median, Mode, Standard deviation ( for simple & frequency type data), Correlation & Regression
Electrical and Electronic Measurement Lab Code: EE 392 Contact: 3P Credit: 2 List of Experiments: 1. Instrument workshop- observe the construction of PMMC, Dynamometer, Electro thermal and Rectifier type instrument, Oscilloscope and digital multimeter 2. Calibrate moving iron and electrodynamometer type ammeter/volmeter by potentiometer 3. Calibrate dynamometer type Wattmeter by potentiometer 4. Calibrate A.C. energy meter 5. Measure the resistivity of material using Kelvin Double Bridge
Electronics & Communication Engg 6. Measurement of Power using Instrument transformer 7. Measurement of Power in Polyphase circuits 8. Measurement of Frequency by Wien Bridge using Oscilloscope 9. Measurement of Inductance by Anderson Bridge 10. Measurement of Capacitance by De Sauty Bridge
Data Structure Lab Code: CS 392 Contact: 3P Credit: 2 Experiments should include but not limited to : Implementation of array operations : Stacks and Queues : adding, deleting elements Circular Queue : Adding & deleting elements Merging Problem : Evaluation of expressions operations on Multiple stacks & queues : Implementation of linked lists: inserting, deleting, inverting a linked list. Implementation of stacks & queues using linked lists: Polynomial addition, Polynomial multiplication Sparse Matrices: Multiplication, addition. Recursive and Non-recursive traversal of Trees Threaded binary tree traversal. AVL tree implementation. Application of Trees, Application of sorting and searching algorithms Hash tables implementation: searching, inserting and deleting, searching & sorting techniques.
Electronics & Communication Engg
Fourth Semester ANALOG ELECTRONIC CIRCUITS Code : EC 401 Contacts : 3L Credits :3 Transistor Biasing and Stability: Self Bias-CE, CC, Compensation techniques. Voltage, current, transresistance & transconductance amplifier. High frequency model of transistor. Power amplifiers – Class A, B, AB, C, Tuned amplifier. Different stages of Operational Amplifier: Differential Amplifier, Constant current source (current mirror etc.), level shifter, Ideal and practical OpAmp. Comparator, Schmitt Trigger. Instrumentation Amplifier, Log & Anti-log amplifiers, Transconductance multiplier, Precision Rectifier Multivibrator – Monostable, Bistable, Astable. Timer. Monostable and astable operation using 555 timer. Linear voltage regulator : series and shunt. Switched mode power supply. Function generator, wave shapers. V-I, I-V, V-F & F-V converters. VCO, PLL lock-in amplifier. Text Book: 1. Millman & Halkias – Integrated El;ectronics, Tata McGraw Hill. 2. Franco—Design with Operational Amplifiers & Analog Integrated Circuits , 3/e,TMH 3. Schilling & Belone—Electronic Circuit:Discrete & Integrated , 3/e ,TMH 4. Gayakwad R.A -- OpAmps and Linear IC’s, PHI 5. Coughlin and Drisscol – Operational Amplifier and Linear Integrated Circuits – Pearson Education Asia. Reference: 1. 2.
Malvino—Electronic Principles , 6/e ,TMH Millman & Taub- Pulse, Digital & switching waveforms- TMH
Electronics & Communication Engg 3. 4. 5. 6. 7. 8.
Horowitz & Hill- The Art of Electronics; Cambridge University Press. Hayes & Horowitz- Student Manual for The Analog Electronics; Cambridge University Press. Boyle’stead & Nashelsky: Electronic Devices & Circuit theory, PHI. Millman & Halkias: Basic Electronic Principles; TMH. Tobey & Grame – Operational Amplifier: Design and Applications, Mc Graw Hill. Tushar Jadhab – Linear Integrated Circuits, Everest Publishing House
DIGITAL ELECTRONICS & INTEGRATED CIRCUITS Code : EC 402 Contacts : 3L + 1T Credits :4
Data and number systems, Binary representation, Codes and their conversions: BCD, Octal, Hexadecimal, ASCII, EBDIC, Gray, Signed binary number representation with 1’s and 2’s complement methods, Binary arithmetic. Boolean algebra, Venn diagram, logic gates and circuits, Minimization of logic expressions by algebraic method, K-map method and Quine Mc Clauskey method Combinational circuits- adder, subtractor, encoder, decoder, comparator, multiplexer, demultiplexer, parity generator, etc Design of combinational circuits-Programming logic devices and gate arrays. Sequential Circuits- Flip Flops, various types of Registers and counters and their design, Irregular counter, State table and state transition diagram, sequential circuits design methodology. Different types of A/D and D/A conversion techniques. Different Logic families- TTL, ECL, MOS and CMOS, their operation and specifications. Memory Systems: RAM, ROM, EPROM,EEROM Textbooks: 1. Jain—Modern Digital Electronics, 2/e ,TMH 2. Leach & Malvino—Digital Principles & Application, 5/e, TMH 3. Digital Logic Design- Morries Mano, PHI. Reference: 1. Digital Integrated Electronics- H.Taub & D.Shilling, Mc Graw Hill. 2. Givone—Digital Principles & Design, TMH 3. Digital Technology- Virendra Kumar, New Age. 4. Digital Circuit & Design- S.Aligahanan, S.Aribazhagan, Bikas Publishing House. 5. Fundamentals of Digital Electronics & Microprocessor- Anokh Singh, A.K. Chhabra, S.Chand. 6. Introduction to Digital Computer Design 4th Ed.- V.Rajaraman & T. Radhakrishnan, P.H.I.
Electronics & Communication Engg
Computer Organization & Architecture CS-404 Contacts: 3L Credits: 3 Concepts & Terminology: Digital computer concepts; Von-Neumann concept ; Hardware & Software and their nature ; structure & functions of a computer system , Role of operating system. Memory Unit : Memory classification , characteristics ; Organization of RAM , address decoding ROM/PROM/EEPROM ; Magnetic memories , recording formats & methods , Disk & tape units; Concept of memory map , memory hierarchy , Associative memory organization ; Cache introduction , techniques to reduce cache misses , concept of virtual memory & paging. CPU Design: The ALU – ALU organization , Integer representation , 1s and 2s complement arithmetic ; Serial & Parallel Address; implementation of high speed Address Carry Look Ahead & carry Save Address; Multiplication of signed binary numbers-Booth’s algorithm ; Divide algorithms- Restoring & Non-Restoring ; Floating point number arithmetic; Overflow detection , status flags. Instruction Set Architecture- Choice of instruction set ; Instruction word formats ; Addressing modes. Control Design – Timing diagrams; T-States , Controlling arithmetic & logic instruction , control structures ; Hardwired & Micro programmed, CISC & RISC characteristics. Pipelining-general concept , speed up , instruction & arithmetic pipeline; Examples of some pipeline in modern processors , pipeline hazards; Flynn’s classification –SISD ,SIMD , MISD , MIMD architectures-Vector and Array processors & their comparison , Concept of Multiprocessor; Centralized & distributed architectures. Input/output Organization : Introduction to Bus architecture , effect of bus widths , Programmed & Interrupt I/O , DMA.
Text: 1.Hayes-- Computer Architecture & Organization,3/e ,MH 2.Carter—Computer Architecture (Schaum Series), TMH 3.Mano M.M—“Computer System Architecture” 4.Chaudhury P. Pal—“ Computer Organization & Design” , PHI Reference:
Electronics & Communication Engg 1.Hamacher—Computer Organization, 5/e, MH 2.Stallings W—“ Computer Organization & Architecture” , MH
ANALOG COMMUNICATION EC 403 Contacts: 3L Credits: 3 Introduction to analog communication: 1. Types and reasons for modulation 2. Transmitters, transmission channels and receivers. Spectral Analysis 1. Review of Fourier Transform theory, energy,power,parseval’s theorem 2. Power spectral density functions (PSDF), Analog spectrum analysis 3. The auto correlation functions, relationship between the PSDF and the auto correlation functions, PSDF’s of harmonic signals and uncorrelated (white) signals. 4. Review of signal transfer in linear systems, the ideal low pass filters and distortionless transmission, importance of channel bandwidth. Continuous wave linear modulars 1. Amplitude modulation(AM), Time domain expression and modulation index., frequency domain(spectral) representations, transmission bandwidth foR am. 2. AM for a single tone message, phasor diagram of an AM signal, illustration of the carrier and side band components. 3. Transmission requirements for AM, normalized power and side band power. 4. Double side band suppressed carrier (DSB) modulation, time and frequency domain expressions. 5. Transmission requirements for DSB , bandwidth and transmission power for DSB. 6. Methods of generating ASM and DSB, squre law modulators, balanced modulators, ring modulators. 7. Single side band modulation(SSB), generation of SSB using a side band filter, indirect generation of SSB. 8. Representation off SSB signals. 9. Transmission requirements for SSB, transmit band width and power, side band filter examples. 10. Vestegial side band modulation (VSB) Demodulation for linear modulation 1. Demodulation of AM signals, square law and envelope detectors 2. The superheterodyne receiver for standard AM radio. 3. Synchronous demodulation of AM,DSB and SSB using synchronous detection 4. Effects of frequency and phase errors in the local oscillator in DSB and SSB 5. Demodulation of SSB using carrier reinsertion and the use of SSB in telephony. 6. Carrier recovery circuits 7. Introduction to Phase-Locked Loop( PLL) Frequency modulation (FM) and Phase modulation (PM)
Electronics & Communication Engg 1. Instantaneous frequency instantaneous phase, time domain repesentation for FM and PM, Phasor diagram for FM and Pm. 2. FM and PM signals for a single tone message, the modulation index and phasor diagrams. 3. Spectral representation of FM and PM for a single tone message, Bessel’s functions and Fourier series. 4. Generation of FM using Armstrong method, commercial FM requirements. 5. Demodulation of FM and Pm signals, the limiter discriminator.’ 6. Commercial FM radio and stereo Fm radio. 7. Demodulation of PM using phase locked loop. Frequency division multiplexing (FDM) systems 1. FDM in telephony, telephone hierarchy an examples of group and super group generation. 2. Satellite system and applications and frequency division multiple access (FDMA) systems. 3. Filters and oscillator requirement in FDM. Representation of random signals and noise in communication system 1. Signal power and spectral representations, the auto-correlation and power spectral density function (PSDP) 2. White noise, thermal noise, PSDF of white signals. 3. Input and output relationship for random signals and noise passed through a linear invariant system, band limited noise, ARC filtering of white noise. 4. The noise bandwidth of a linear time invariant system and its use in communication 5. Narrow band noise representation , generation of narrow band noise and PSDF time domain expression for narrow band noise. Noise 1. 2. 3.
performance of Analog Communication systems Signal-to-noise ratio in linear modulation, synchronous detection of DSB Signal-to-noise ratio for AM and SSB, comparison of DSB, SSB and AM Effect of noise in envelope and square law detection of AM, threshold effects in nonlinear detectors. 4. Signal-to-noise ration for FM,SNR improvement using pre-emphasis and deemphasis networks. 5. FM threshold effects, noise clicks in FM system. 6. Comparison of linear and exponential modulation system for additive white band-limited noise channels.
Text Books: 1. Taub and D.LSchilling , “Principles of Communication Systems”, 2nd ed., McGraw Hill Book Co. 2. Carlson—Communication System,4/e ,TMH References: 1. Singh—Communication Systems: Analog & Digital, TMH 2. L.W.Couch Ii, “Digital and Analog Communication Systems”, 2nd Edition, Macmillan Publishing Co., New York, 1987
Electronics & Communication Engg
ELECTRONIC MEASUREMENT AND INSTRUMENTATION EI 402 Contacts: 3L
Credits: 3 Basis Measurement Techniques for Analog and Digital Measurements Units and standards of physical quantities. Documentation standards. Block diagram of Instrumentation schemes – Static and Dynamic.
Accuracy, Precision, Fidality, speed of response, Linearization of techniques. Errors in measurement : Classifications of errors, Statistical Analysis, Introduction to Reliability. Digital Multimeters, Theory of Operational and Constructinal Details SHE, A-D-C D-A-C, Multiplexing, Data Acquisition Systems, Actuator, Elements of Transducer, Analog Multiplier, R M S and Average value detectors, Wave and Spectrum Analysers, Q-meters. Measurement of high frequencies RF and VHF Text: 1.Jain—Digital Electronics, 2/e,TMH 2.Malvino & Leach – Digital Principles & Application , 5/e,TMH 3.Helric A.D & Cooper W.D—Modern Electronic Instrumentation & Measuring Instruments, Wheeler Pub. 4.Dhir S.M—Applied Electronics & Instrumentation, TMH Reference: 1. Taub & Schilling – Digital Integrated Electronics,TMH 2. Givone—Digital Principles & Design,TMH 3. Shawney A.K—A course in Electrical & Electronic Measurements, Dhanpat Rai & Sons.
Electronics & Communication Engg
EC 491 ANALOG ELECTRONIC CIRCUITS LAB Contacts: 3P Credits: 2
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.
Introduction: Study of characteristics curves of B.J.T & F.E.T . Construction of a two-stage R-C coupled amplifier & study of it’s gain & Bandwidth. Study of class A & class B power amplifiers. Study of class C & Push-Pull amplifiers. Realization of current mirror & level shifter circuit using Operational Amplifiers. Study of timer circuit using NE555 & configuration for monostable & astable multivibrator. Construction & study of Bistable multivibrator using NE555. Study of Switched Mode Power Supply & construction of a linear voltage regulator using regulator IC chip. Construction of a simple function generator using IC. Realization of a V-to-I & I-to-V converter using Op-Amps. Realization of a Phase Locked Loop using Voltage Controlled Oscillator (VCO). Study of D.A.C & A.D.C.
Electronics & Communication Engg
EC 492 DIGITAL ELECTRONIC & INTEGRATED CIRCUITS LAB Contacts: 3P Credits: 2
1. Realization of basic gates using Universal logic gates. 2. Code conversion circuits- BCD to Excess-3 & vice-versa. 3 .4-bit parity generator & comparator circuits. 4. Construction of simple Decoder & Multiplexer circuits using logic gates. 5. Design of combinational circuit for BCD to decimal conversion to drive 7-segment display using multiplexer. 6. Construction of simple arithmetic circuits-Adder, Subtractor. 7. Realization of RS-JK & D flip-flops using Universal logic gates. 8. Realization of Universal Register using JK flip-flops & logic gates. 9. Realization of Universal Register using multiplexer & flip-flops. 10. Construction of Adder circuit using Shift Register & full Adder. 11. Realization of Asynchronous Up/Down counter. 12. Realization of Synchronous Up/Down counter. 13. Design of Sequential Counter with irregular sequences. 14. Realization of Ring counter & Johnson’s counter. 15. Construction of adder circuit using Shift Register & full Adder.
Electronics & Communication Engg
ANALOG COMMUNICATION LAB EC 493 Contacts: 3P
Credits: 2 1. Study of Amplitude Modulation & Demodulation techniques. 2. Study of Double Side Band Suppressed Carrier (DSB-SC) & Demodulation technique. 3. Study of Single Side Band Suppressed Carrier (SSB-SC) & Demodulation technique. 4. Study of Frequency Modulation & Demodulation. 5. Study of VCO (Voltage controlled oscillator) & PLL (Phase Locked Loop). 6. Study of Time Division Multiplexing (TDM) & Demultiplexing. 7. Study of Noise Effect in Audio circuits & in communication system. Determination of Signal to Noise Ratio (SNR). 8. Study Frequency Division Multiplexing (FDM) & Demultiplexing. 9. Study of a Superhetrodyne Receiver.
Electronics & Communication Engg
Electronic Measurements and Instrumentation Lab Code: EI 492 Contacts: 3P Credits: 2 1. Study of static characteristics (accuracy, precision, hysteresis, repeatability, linearity) of a measuring instrument.
2. Study of dynamic characteristic (fidelity, speed of response) 3. Acquaintance with basic structure of DMM and measurement of different electrical parameters 4. Statistical analysis of errors in measurement using computer simulation 5. Study of A/D converter along with its associate circuitry 6. Study of D/A converter 7. Realization of Data Acquisition system 8. Wave and spectrum analysis using Q meter 9. Measurement of HF and VHF
Electronics & Communication Engg TECHNICAL REPORT WRITING & / LANGUAGE PRACTICE LABORATORY Code: HU 481
Contact: 3 Credits: 2 Topics to be covered and number of hours required for it: 1. Introductory lecture is to be given to the students so that they get a clear idea of the syllabus and understand the need for having such a practice lab in the first place(3 hours) 2. Conversion practice is done on given situation topics. The students are also made to listen to pre-recorded cassettes produced by British Council and also by the Universities of Oxford and Cambridge (6 hours) 3. Group Discussions:- The students are made to understand the difference between the language of conversion and group discussion. Strategies of such discussions are to teach to them. It is also helpful to use videocassettes produced by the U.G.C. on topics like groupdiscussion. After wards the class is divided into groups and the students have to discuss on given topics on current socio-economic-political-educational importance(12 hours) 4. Interview sessions-students are taught the do’s and don’ts of facing a successful interview. They then have to face rigorous practices of mock-interviews. There simulations of real life interview sessions where students have to face an interview panel(12 hours) 5. Presentations: The secrets of an effective presentation are taught to the students. Then each and every student has to make lab presentations with the help of the Overhead projector/ using power point presentation and other audio-visual aids in the laboratory. They also have to face the question answer sessions at the end of their presentation (12 hours) 6. Classes are also allotted to prepare the students for competitive examinations like the T.O.E.F.L. by making the students listen to specially produced C.D. cassettes of such examinations (3 hours) The overall aim of this course is to inculcate a sense of confidence in the students and help them to become good communicators in their social as well as professional lives. Text: 1. Sharma—Business Correspondence & Report Writing, TMH 2. Prasad—Group Discussion & Interview (With Audio Cassette) , TMH Reference: 1. Sashi Kumar—Spoken English (with Cassette) , TMH
Fifth Semester
Electronics & Communication Engg Line Communication System
Code: EC 501 Contacts: 3L Credits: 3 Introduction: Evolution of Telecommunication, Basics of Switching System, Classification of Switching System, limitation of Manual Switching System, Evolution of Automatic Switching System, Principle of Operation of Stronger & Crossbar Electromechanical Systems, pulse dialing & tone dialing, Circuit Switching & Packet Switching. Electronic Switching: Stored program control, centralized SPC, distributed SPC, software architecture, application software. Traffic Engineering: Blocking network, blocking probability, grade of service, traffic load, Erlang-B congestion formula. Time Division Switching: Basic time division space switching, Basic time division time switching, time multiplexed space switching, time multiplexed time switching, combination switching, Frequency division switching, grouping. Transmission Lines: Transmission line equations, characteristic impedance, propagation constant , group & phase velocities, voltage-current distribution. Telephone Networks: Subscriber loop systems, Switching hierarchy & routing, transmission systems, charging plan, signaling techniques-in channel & common channel signaling. ISDN: Introduction, ISDN channels & access arrangements, ISDN service capabilities, usernetwork interfaces, drawbacks of ISDN, introduction to B-ISDN. Text Books: 1. T. Viswanathan, “ Telecommunications Switching Systems & Networks”, PHI 2. Tannenbaum, “ Computer Network”, PHI 3. J. Ryder, “ Networks, lines & fields”, PHI References: 1. H. Taub & D.T. Schiling, “ Principles of Communication System “, MGH 2. S. Rambhandran, “ Telecommunication Principles, Circuits & Systems”, Khanna Publishers 3. G. Kennedy, Electronic Communication System”, TMH
Electronics & Communication Engg EM Theory , Propagation & Antenna Code : EC 502 Contacts : 3L + 1T Credits 4 EM Theory : Ampere’s law , magnetic vector potential , Maxwell’s equation: time varying electric & magnetic field , Faraday’s law , displacement current, electromagnetic radiation, uniform plane wave equation & solution , skin depth , Poynting theorem , Poynting vector, reflection & refraction of plane waves , RF lines , smith chart. Propagation : Different modes of radio wave propagation , ionospheric propagation , MUF, critical frequency, skip distance, duct propagation, troposphere propagation. Antenna : Antenna parameters: Directivity, beam width , gain, radiation resistance, short dipole antenna , thin linear antenna , antenna array, pattern multiplication, Yagi -Uda array , loop antenna , log periodic antenna, Friss transmission formula , horn antenna , parabolic reflector & its feed , cassegrain feed , Antenna for mobile communication. References : 1. Hayt: Engineering Electromagnetics TMH 2. Jordan E.C & Balmain K.G , “ Electromagnetic Waves and Radiating systems “ Prentice Hall of India , 1971. 3. Kennedy G. “ Electronic Communication Systems “ 4th ed. , McGraw Hill Book Co ., 1985. 4. John D. Ryder , “ Network Lines & Fields “ , 2nd ed., Prentice Hall of India,1984. 5. J.D Kraus , “Antennas “, McGraw Hill,3rd ed. 6. J.D Kraus , “ Electromagnetics with Applications “ , McGraw Hill,5th ed..
Electronics & Communication Engg Audio & Video Engineering Code: EC 503 Contacts: 3L Credits: 3 Audio: Acoustical systems & its electrical equivalent circuits; Microphones, loud speakers, recording & reproduction of sound; high fidelity stereophonic systems; compact disc. Video: TV fundamentals, scanning, synchronization & blanking, composite video, video bandwidth consideration, vestigial side brand transmission, channel bandwidth including sound & colour transmission; standard channel, different TV systems, allocation of frequency bands, TV standards, Monochrome & colour camera system, vidicon & plumbicon, solid-state camera; picture tubes, characteristics of phosphor screen, persistence, roll of aluminized coating & shadow mask; gama corrections. Block diagram of TV transmitter & receiver, short description of each block; characteristics of TV transmission & transmitting antenna; characteristics of receiving antenna, balun, VHF & UHF tuners, electronic tuning, video IF amplifier characteristics, trap frequencies & VSB correction, video detector & amplifier characteristics, role of AGC sync. Separation, & generation of deflecting signals, role of AFC, EHT circuits, & other receiver power supplies, FM detection, role of limiter & deemphasis circuits, fundamentals of colour signal transmission & reception, frequency interleaving, distinction between NTSC & PAL systems video recording & reproduction, cable & satellite TV. HDTV: Introduction, Principle, Standards, applications Text Books: 1. D. P. Roychowdhury, “ Advanced Acoustics”, The New Book Stall 2. R.R. Gultari, “ Monochronic & Colour Television”, References: 1. M. Dhake,” TV & Video Engineering”, TNH 2. K. Blair Benson & Donald G. Fink, “ HDTV”, Advanced television for 1990’s, MGH
Electronics & Communication Engg Microprocessor and Microcontrollers Code: EI 502 Contacts: 3L + 1T Credits:4 Introduction to 8085A CPU architecture-register organization, addressing modes and their features. Software instruction set and Assembly Language Programming. Pin description and features. Instruction cycle, machine cycle, Timing diagram. Hardware Interfacing: Interfacing memory, peripheral chips (IO mapped IO & Memory mapped IO). Interrupts and DMA. Peripherals: 8279, 8255, 8251, 8253, 8237, 8259, A/D and D/A converters and interfacing of the same. Typical applications of a microprocessor. 16 bit processors: 8086 and architecture, segmented memory has cycles, read/write cycle in min/max mode. Reset operation, wait state, Halt state, Hold state, Lock operation, interrupt processing. Addressing modes and their features. Software instruction set (including specific instructions like string instructions, repeat, segment override, lock prefizers and their use) and Assembly Language programming with the same. Brief overview of some other microprocessors (eg. 6800 Microprocessor).
References: 1. Microprocessor architecture, programming and applications with 8085/8085A, Wiley eastern Ltd, 1989 by Ramesh S. Gaonkar. 2. Intel Corp: The 8085 / 8085A. Microprocessor Book – Intel marketing communication, Wiley inter science publications, 1980. 3. An introduction to micro computers Vol. 2 – some real Microprocessor – Galgotia Book Source, New Delhi by Adam Osborne and J. Kane 4. Advanced Microprocessors by Ray and Bhurchandi - TMH 5. Intel Corp. Micro Controller Handbook – Intel Publications, 1994. 6. Microprocessors and Interfacing by Douglas V. Hall, McGraw Hill International Ed. 1992 7. Assembly Language Programming the IBM PC by Alan R. Miller, Subex Inc, 1987 8. The Intel Microprocessors: 8086/8088, 80186, 80286, 80386 & 80486, Bary B. Brey, Prentice Hall, India 1996.
Electronics & Communication Engg Linear & Digital Control Systems Code: EE 513 Contacts: 3L+1T Credits: 4 Basic components, open & closed loop, effect of feedback; mathematical models, differential equations, state equations, state diagram, linear, non-linear, time invariant & time-varying systems; impulse response, transfer functions of linear systems, signal flow graph, Mason’s Gain formula, state space representation , stability analysis, state transmission matrix, eigen value. Modeling of Electrical & Mechanical systems, DC motor, error Detector, tachometer. Characteristics of control systems; first & second order systems, transient response, steady-state error, stability of linear system; Routh-Hurwitz criterion; Root-locus method, principle & properties; frequency response plot: Bode Plot, Nyquist criterion, Grain & Phase margin, transient & error function analysis, type of a system & its effect on error function. Design of Control Systems, lead-lag compensation , proportional, proportional-integral (PI), PID controller. Digital Control Systems, effect of Sampling rate on stability, transient response & steady state error. BOOKS ;
1. Kuo B.C. Automatic Control System, PHI 2. Das Gupta S : Control System Theory ; Khanna Pub. 3. Nagrath I J & Gopal M : Control Systems Engineering, New Age International Pub. 4. Ogata K : Modern Control Engg. PHI 5. Dorf R C & Bishop R.H.: Modern Control System ; Addison – Wisley 6. Bolton: Industrial Control & Instrumentation, Orient Longman 7. Nakra: Theory & Applications of Automatic Control, New Age International 8. Gopal: Modern Control System Theory, New Age International 9. Gopal: Digital Control Engineering, New Age International 10.Sinha: Control Systems, New Age International
Electronics & Communication Engg
Propagation & Antenna Lab: Code EC: 592 Contacts: 3P Credits: 2 Name of the experiments : 1. 2. 3. 4.
Standing wave pattern study of RF transmission line . Guide wavelength & VSWR measurement of a rectangular waveguide . Radiation pattern study (gain & bandwidth measurement) of a simple dipole antenna. Radiation pattern study (gain & bandwidth measurement) of a folded dipole Antenna. 5. Radiation pattern study ( gain & bandwidth measurement) of a Yagi antenna . 6. Radiation pattern study ( gain & bandwidth measurement) of a log periodic antenna . 7. Radiation pattern study ( gain & bandwidth measurement) of a horn antenna .
Electronics & Communication Engg
Microprocessor and Micro-controller Lab Code: Contacts:
EI 592 3P
Credits:
2
Sl. No.
Name of the Experiments
No. of hours 3
1.
Familiarization with 8085 register level architecture and trainer kit components, including the memory map. Familiarization with the process of storing and viewing the contents of memory as well as registers.
2.
a) Study of prewritten programs on trainer kit using the basic instruction set ( data transfer, Load/Store, Arithmetic, Logical) b) Assignments based on above.
3
3.
a) Familiarization with 8085 simulator on PC. c) Study of prewritten programs using basic instruction set ( data transfer, Load/Store, Arithmetic, Logical) on the simulator. b) Assignments based on above
3
4.
Programming using kit/simulator for i) table look up ii) Copying a block of memory iii) Shifting a block of memory iv) Packing and unpacking of BCD numbers v) Addition of BCD numbers vi) Binary to ASCII conversion vii) String Matching viii) Multiplication using Booth’s Algorithm
9
5.
Program using subroutine calls and IN/OUT instructions using 8255 PPI on the trainer kit eg, subroutine for delay, reading switch state & glowing LEDs accordingly, finding out the frequency of a pulse train etc
3
6.
Interfacing any 8-bit Latch (eg, 74LS373) with trainer kit as a peripheral mapped output port with absolute address decoding
3
7.
Interfacing with I/O modules: a) ADC b) Speed control of mini DC motor using DAC c) Keyboard d) Multi-digit Display with multiplexing e) Stepper motor
8.
Writing programs for ‘Wait Loop (busy waiting)’ and ISR for vectored interrupts (eg, counting number of pulses within specified time period)
12
3
Electronics & Communication Engg 9.
Study of 8051 Micro controller kit and writing programs for the following tasks using the kit a) Table look up b) Basic arithmetic and logical operations c) Interfacing of Keyboard and stepper motor
6
10.
Familiarization with EPROM programming and Erasing
3
Linear & Digital Control System Lab: Code: EE 583 Contacts: 3P Credits: 2 1. Familiarization with MATLAB Control System tool Box, MATLAB- SIMULINK tool box & PSPICE. 2. Determination of step response for 1st order & 2nd order system with amity feedback on CRO & calculation of control system specifications for variations of system design. 3. Simulation of step response & impulse response for Type-II, Type-I & Type-2 system with unity feedback using MATLAB & PSPICE. 4. Determination of root locus, Bode-plot, Nyquist Plot, using MATLAB control system toolbox for a given 2nd order transfer function & determination of different control system specifications. 5. Determination of PI, PD, PID controller action on 1st order simulated process. 6. Determination of approximate transfer function experimentally using Bode Plot. 7. Evaluation of steady-state error, setting time, percentage peak overshoots, gain margin, phase margin with addition of lead compensator in forward path transfer functions using MATLAB & PSPICE. 8. Study of position control system using servomotor. Audio & Video Engineering Lab: Code : EC 593 Contacts: 3P Credits: 2 1. Voltage & frequency calibration of an audio function generator using a commercial function generator & a CRO. 2. Level & total harmonic distortion measurement of different audio waveforms ( sine, triangular & square) from a commercial audio function generator using a level & distortion meter. 3. Output power, frequency response, and efficiency & distortion measurement of a push-pull power amplifier. 4. Directivity & frequency response measurement of a microphone. 5. Directivity & frequency response measurement of a loudspeaker.
Electronics & Communication Engg 6. Study of different components of a B/W TV receiver & measurement of different waveforms from a pattern generator. 7. Study of waveforms on a CRO for different patterns from a pattern generator applied to a B/W TV receiver & measurement of a H, V, Hsigma, Vsigma & P/S ratio. 8. Study of waveforms on a CRO for different patterns ( V-bar, Yellow, Green, cyan, Magenta, Blue, Red etc.) from a color pattern generator applied to a colour TV receiver & measurement of luminosity level, color sub-carrier souting, and color burst amplitude.
Sixth Semester
Electronics & Communication Engg INDUSTRIAL MANAGEMENT Code: HU-601
Basic concepts of management, objectives, classification and hierarchy, different schools of management thought, principal functions of management, Management as an organizing and directing force, Structure of the management decision making process, Organization structure, authority and responsibility, Organization dynamics, Managerial leadership, communication systems, Managing human factors in business and industry, Industrial relation, Union activities, trade union acts, collective bargaining, disciplinary procedure. Organizational objectives and long range forecasting, planning, organizing, programming and controlling process, managerial control strategies; quantity and quality control, cost benefit analysis, present work and breakeven analysis, budgetary control, use of management science for the efficient administration of economic units, production, financial and marketing management. Adoption of statistical and computer methods and techniques to managerial research and managerial decision making and general management. Books: 1. Essentials of Mgmt, Koontz, TMH 2. Industrial Management - S C Jain, W S Bawa, Dhanpat Rai & Co. (P) Ltd. 3. Industrial Management, Vol.1 L.C. Jhamb, EPH, 4. Industrial Engineering & Production Management - Martand Telsang, S. Chand 5. Industrial & Business Management - Martand T. Telsang, S. Chand 6. Introduction to Materials Management - J Tony Arnold & Stephen N. Chapman, Pearson Education Asia 7. Production & Operations Management – Adam, Pearson Education /PHI 8. Altekar, Production Management, Jaico 9. Industrial Relations, Trade Unions & Labour Legislation - Sinha, Pearson Education Asia 10. Business Organisation & Management - Tulsian, Pearson Education Asia.
RF & Microwave Engineering Total lectures : 40 periods (minimum) EC-602
Electronics & Communication Engg Introduction – RF and microwave spectrum, historical background, application of RF and microwave.
1L
Microwave Impedance Matching – Unknown impedance measurement using shift in minima technique and impedance matching using single and double stub matching 4L Microwave waveguides and components – Rectangular waveguide and circular waveguide – mode structure, cutoff frequency, wall current, attenuation; microwave cavities – rectangular cavity resonator, Q factor, scattering matrix and transmission matrix, attenuator, phase shifter, directional coupler, Bethe hole coupler, magic tee, hybrid ring, circulator, isolator, Antennas 8L Planar structures – Strip line, microstrip line, coplanar structure - circulator, rat race, proximity coupler 3L Microwave Tubes – Limitations of conventional tubes, Multicavity Klystron, Reflex Klystron, Magnetron, Travelling Wave Tube, Backward Wave Oscillator 5L Semiconductor Microwave Devices – Tunnel diode, Gunn diode and their waveguide mounts, Avalanche diodes – IMPATT, TRAPATT, Microwave bipolar transistor, heterojunction bipolar transistor, Microwave field effect transistor – JFET, MOSFET, MESFET, Parametric amplifier 8L Applications of microwave – Radar systems, Satellite Communication System, Industrial Applications of microwave 3L Microwave Measurement – VSWR measurement, power measurement, impedance measurement, frequency measurement 3L RF Circuits –
Low pass filter, high pass filter, band pass filter, RF amplifier 2L EMI / EMC – EMI standard, radiated and conducted EMI and susceptibility, wire antenna, EMI sensor, antenna factor, cable to cable coupling, electrostatic discharge 3L Textbooks -[1] Matthew M Radmanesh, Radio Frequency and Microwave Electronics Illustrated, Pearson Education Asia [2] David M Pozar, Microwave Engineering, John Willy & Sons, Inc. [3] Peter A. Rizzi, Microwave Engineering – Passive Circuits, Prentice Hall of India [4] M L Sisodia, Microwave Active Devices – Vacuum and Solid State, New Age Int. Publication [5] Kraus, Antennas, TMH [6] S Y. Liao, Microwave Devices and Circuits, Pearson Education/PHI. [7] M.N.O Sadiqu, Elements of Electromagnetism, Oxford [8] K. C. Gupta, Microwaves, New Age Int. Publication [9] M I Skolnik, Introduction to Radar Systems – Tata-McGraw-Hill
Electronics & Communication Engg
Optoelectronic Devices and Circuits Total lectures : 40 periods (minimum) EC-601 Introduction –
Optical processes in semiconductors, radiative and non-radiative recombination processes, Einstein’s relations for spontaneous and stimulated emissions and absorption, direct and indirect band-gap semiconductors, ternary and quaternary materials, heterojunctions, coherence properties of light, light as an electromagnetic radiation 6L Light Emitting Diodes – Electroluminescent process, Injection efficiency, recombination efficiency, LED materials, LED construction, device configuration and efficiency, LED structures – planar, dome shaped, hetero junction, surface emitting, edge emitting LED; device performance, drive circuitry, spectral response 5L Laser – Principle of operation, population inversion, gain, lasing threshold condition, semiconductor laser structures – Buried heterostructure laser, distributed feedback laser, quantum well laser; gas lasers, mode locking, Q switching, tunable semi-conductor lasers 7L Photodetectors – Photoconductors, Photodiodes – pn, pin, hetero junction photodiodes, avalanche photodiodes, comparison of different photodiodes, photo transistor 5L Optoelectronic Modulation and Display Device – Electro-optic and acousto-optic modulators, liquid crystal displays, solar cells 3L Optical Fibers – Introduction, optical fiber as waveguide, principle of ray propagation (ray theory), material and structure, meridional and skew rays, numerical aperture, step index and graded index fibers, electromagnetic wave propagation in step and graded index fibers, single mode and multimode fibers, normalized frequency, mode volume, mode field diameter, cut-off wavelength 10L Optoelectronic Integrated Circuits – Hybrid and monolithic integration, application of OEIC, integrated transmitter and receiver, Introduction to optical integrated devices 4L Text books – [1] J. Wilson & J.F.B Hawkes, Optoelectronics – an introduction, Prentice Hall of India. [2] Pallab Bhattacharya, Semiconductor Optoelectronic Devices, Prentice Hall of India [3] Jasprit Singh, Optoelectronics – an introduction to materials and devices, McGraw Hill. [4] John M. Senior, Optical fiber communication, Prentice Hall of India
Electronics & Communication Engg [5] Keiser, Optical fiber communication, Tata McGraw Hill. [6] Prince S, Optical & Optoelectronic Devices, Scitech
Digital Communication System Total lectures: 40 periods (minimum) EC-603 1.
2.
3.
4.
5.
6.
7.
Introduction A historical perspective in the development of digital communication. Elements of digital communication system. Source encoding Pulse code modulation, quantization noise, linear and non linear quantization, companding. Differential pulse code modulation, delta modulation, adaptive delta modulation, Delta sigma modulation, linear predictive coders. Multiplexing: Introduction to different type of multiplexing, Frequency Division & Time Division Multiplexing: multiplexing hierarchy, synchronous and asynchronous multiplexing, pulse staffing and word staffing. Baseband transmission Baseband signal receiver: integrate and dump type filter probability of error calculations, optimum filters, coherent reception, matched filter and its transfer function. Probability of error of matched filter. Regenerative repeater, Bit synchronization, Inphase and midphase synchronizer. Early late gate synchronizer. Frame synchronization. Different type of line coding – UPNRZ, UPRZ, PNRZ, PRZ, Manchester, differential encoding and their spectral characteristic, self synchronization properties of some of the encoded signal.. Equalization Inter symbol interference (ISI), Purpose of equalization, Eye pattern, Nyquiest criterion for zero ISI, fixed equalizer. Design of equalizer, Adaptive equalizer, Decision directed equalizer, Adaptive decision directed equalizer, Partial response signaling. Digital modulation techniques
1L
5L
4L
6L
2L
6L
6L
Electronics & Communication Engg BPSK, DPSK. BFSK, MARY-PSK & -FSK, QPSK, MSK principles, QASK, Error calculation. 8.
9.
Spread-spectrum modulation Pseudo-Noise Sequence, A notion of Spread Spectrum, Direct-Sequence Spread-Spectrum with Coherent Binary Phase-Shift Keying, Processing Gain, Probability of Error, Frequency-hop Spread Spectrum, Code-Division Multiplexing. Information theory and coding Concept and measure of information, Entropy, Discrete and continuous messages, Message source, zero memory source, extension of zero memory source, Markov source and their entropy, Channel with and without memory, Channel capacity, Hartlay and Shannon’s law. Properties of code: Uniquely decodable codes, Instantaneous codes, Kraft inequality and Macmillion inequality, Construction of instantaneous codes, Hoffman and Shannon – Fano coding.
3L
7L
Text Books : 1. 2.
Taub & Schilling, Principle of Communication System, Tata McGraw Hill. B.P. Lathi, Modern Digital and Analog Communication System, Oxford University press. 3. Simon Haykin, Communication System, John Wiley & Sons, 4. L.W. Couch II, Modern Communication System, Prentice Hall India. 5. Roden, Analog & Digital Communication Systems, 5e, SPD 6. Dungan,Electronics Communication System, Vikas 7. Zeimer & Tarnter, Principles of Communication, Jaico 8. Rekha, Digital Communications, Scitech Reference: 1. J.G. Proakis, Digital Communications, McGraw Hill. 2. J.Das, S.K. Mullick, P.K. Chatterjee, Principle of Digital Communication, Wiley Eastern Limited.
Microelectronics Technology & Circuits Total lectures : 40 periods (minimum) EC-604 1. 2.
Introduction Discrete & Integrated Circuit, TTL, MOS & CMOS IC. Process Technology Clean environment, Wafer preparation, oxidation, diffusion, Ion implantation, plasma etching & deposition,
4L 10L
Electronics & Communication Engg 3.
4. 5.
6.
lithography, Metallization contact & interconnects, bipolar & CMOS processing Basic Devices BJT models, Ebers-Moll & Gummel-Poon models, C-V behavior of an ideal MOS System, Capacitance of the MOS system, MOS capacitors and charge-coupled devices, Long channel and short channel MOSFETS, CMOS design, CMOS Latch-up. MOS Inverters Definition & properties, MOS & CMOS inverter Analogue Circuits Differential amplifies, Comparators, Integrators, Filters, DAC & ADC Circuits, Casecode amplifiers, design of twostate & cascode op-amplifier. BI CMOS Circuit Technique BI CMOS Device & Technology – basic analog sub-circuit
10L
4L 6L
6L
Text Books : [1] S.M.Sze – VLSI Technology, TMH [2] Cambell – Microelectronics Science & Engineering. Fabrication, Oxford University Press. [3] Demicheli, Synthesis & Optimization of Digital Circuits, TMH [4] S.K. Gandhi – VLSI Fabrication Principles, John Wiley & Sons.
Microwave Engineering Lab EC 692 (Students are required to perform at least ten experiments taking all from group A and any two from group B)
Group A 1.Measurement of wavelength, guided wavelength and frequency using waveguide test bench (WR 90) . Calculation of broad wall dimension of waveguide & ω − β plot
2.Calibration of attenuator, measurement of AD and AR using waveguide test bench (WR 90) and Smith Chart 3.Calibration of a crystal detector using waveguide test bench (WR 90)
Electronics & Communication Engg 4.Measurement of coupling and directivity of directional coupler using calibrated attenuator 5 Study of characteristics of Gunn oscillator using power meter with bolometer and frequency meter 6.Measurement of unknown impedance (inductive, capacitive and resonat windows) 7. Klystron characteristics (static method and dynamic method) using power meter with bolometer and frequency meter 8. Measurement of reflection coefficient without using slotted line (using two directional couplers and calibrated attenuator)
Group B 1.Measurement of dielectric constant using waveguide test bench (WR 90) 2.Scattering matrix of a magic tee / E plane tee / H plane tee using waveguide test bench (WR 90) 3.Measurement of phase shifter of a phase shift oscillator 4.Measurement of radiated emission in open area test side (OAT) 5.Frequency response of low pass filter, high pass filter, band pass filter using Spectrum Analyzer with tracking generator 6.Frequency response of RF amplifier using Spectrum Analyzer with tracking generator 7. Measurement of conduction EMI using LISN and Spectrum Analyzer
Digital Communication Systems Lab EC 693
(Students are required to perform at least ten experiments taking 3 from Group A, 3 from Group B, 3 from Group C and 1 from Group D) GROUP - A 1. 2.
3.
Design, implementation and studies of the properties of 15 bit P.N. Sequence using shift register Studies of the properties of A/D and D/A converter (AD7820/ADC0820 and ICL 8018A/8019A/8020A). (Properties like transfer characteristics, code central line method of nonlinearty study, differential nonlinarity, integral nonlinearity, resolution etc). Study of pulse amplitude modulation and demodulation. (Studies of distortion factor of the constructed signal as a function of signal frequency & amplitude. Further study of distortion factor of filtered reconstructed signal as a function of sampling frequency and thus verify the sampling theorem).
Electronics & Communication Engg 4.
5. 6.
7.
Studies of PCM transmitter and receiver. (To measure the bit rate, bandwidth requirement and distortion factor of the reconstructed signal in presence of channel noise). Study of line coders : UPNRZ, PRZ, BPRZ, PNRZ (To study the nature of waveform in CRO and its spectrum by spectrum analyzer. At least any one of the line coders has to designed, fabricated and tested). Studies of Manchester coding and decoding technique. (Studies of the nature of waveform, spectrum and self synchronizing characteristic). GROUP - B Studies of PSK modulator and demodulator, connected by either physical or simulated channel.
8.
Studies on FSK modulator and demodulator, connected by either physical or simulated channel
9.
Studies on ASK modulator and demodulator, connected by either physical or simulated channel
10.
Studies on QPSK modulator and demodulator, connected by either physical or simulated channel
(In all above experiments, nature of the modulated waveform is to be studied by a CRO. The spectrum is to be studied with a spectrum analyzer and the essential bandwidth is to be determined; finally the reception quality is to be analyzed by cross co-relation characteristics and measurement of bit error rate in presence of channel noise). GROUP - C 11. 12. 13. 14. 15.
16. 17. 18. 19.
Studies on Delta modulator & Demodulator Studies on Adaptive delta modulation Studies on delta signal modulation Studies on PCM/TDM system (Multiplexing/Demultiplexing) (Object is to measure distortion factor of the demodulated signal with variable signal amplitude and frequency, measure the essential B.W. of the modulated signal Studies of PCM/TDM system (Multiplexer & Demultiplexer) (To study the interchannel interference and synchronization problem in multiplexer and demultiplexer system GROUP - D Studies of direct sequence spread spectrum modulation and demodulation Studies of frequency hopped spread spectrum modulation and demodulation (To study spreading and dispersing, effect of channel noise, single tone interference etc. Study of features of ISDN network. Study of ISDN Emulator and its programming, using appropriate communication software (like protocol analyzer software).
Electronic Design LAB EC-683
Electronics & Communication Engg Objective: To impart the essential knowledge of electronic circuit design and fault analysis, to enhance hands on experience and to encourage innovativeness. Modus operandi: The subject will be a sessional subject so that students can employ all their resources in order to excel. Total 15 designs have been indicated in the syllabus classified in 3 groups. Each student has to complete at least 6 designs in a semester taking two from each group. At the end of the semester, the student will be interviewed by a panel of examiners, constituted by the head of the department/institution. Guidelines: Each design given in the syllabus indicates the basis. On this basis, the teacher will prepare an exact design problem with specified parameters and assign to the student. Objective of the job in brief is also given in the syllabus. As such the teacher can further elaborate or specialize the problem creating enough room for the student to learn and innovate. If same job is assigned to more than one student/group, it must be with different parameter values. The students will find their own design solutions with minimum input from the teacher. Of course there can be more than one solution but the student should ultimately know their comparative merits/demerits. The hardware assembly and testing has to be done only during assigned class hours under general supervision of a teacher. The student must always make a comparative study between the theoretical and measured performance parameters and analyze their causes. At the end of each job, the student will prepare a report including detail technical specification of his design, circuit diagram, design calculations, theoretical & measured values, graphs, references etc. Scoring: The total score of 100 will be in two parts, e.g. a) continuous evaluation-60 and b) semester end viva-40. A full mark of 10 is allotted to each job. At the end of each job, the teacher will evaluate the performance on the basis of initiative, innovativeness, speed and insight. The sum of 6 such evaluations will make the total for continuous evaluation. At end semester, each student will be interviewed to assess his expertise in various facets of electronic design, and a score out of 40 will be allotted. A. DISCRETE ANALOG CIRCUITS. 1. Rectifiers. (To design a rectifier for a given average output dc voltage and a given load resistance, compare between the theoretical values of Vdc, Vrms, RF, HD, output regulation, transformer utility factor etc. with the measured values, and thus comprehend the relevance/effect of these various parameters.)
Electronics & Communication Engg 2. DC power supply regulation and protection circuits. (To learn designing a series transistor based output regulation circuit, an output current limiting circuit, fold back circuit needed for a given output parameters.) 3. Single stage audio frequency voltage amplifier with BJT for a given A v, Zin and Zout and maximum symmetrical out put swing. (To learn basic design principles, different methods of biasing, bias stability, selection of transistor from data manuals and effect of ac coupling on bandwidth.) 4. Single stage audio frequency emitter follower with JFET for a given Av, Zin and Zout and maximum symmetrical out put swing. (To learn the design principles and applications of an emitter follower.) 5. Complimentary symmetry power amplifier with pre amplifier, if necessary, for a given out put power to a given load with single ended power supply. (To learn the distinction of a power amplifier over and above a voltage or current amplifier, its design principles, issues like, efficiency, cross over distortion etc.) 6. RC phase shift Oscillator , Wien Bridge oscillator, Hartley and Colpitt oscillator ( To learn the design of oscillators and measuring the frequency and amplitude of oscillations) B. OPAMP BASED ANALOG CIRCUITS
1. Inverting and non-inverting amplifier of given dc gain, input impedance and output impedance. (To learn the basic design, inter relation between the dc gain and input/output impedances, offset balance and the relation between feedback and GBW.) 2. Adder and subtractor. (To learn the basic design and function of a multi input adder/subtractor (with ac and dc inputs present simultaneously). 3. Comparator/voltage level detector for a given upper threshold level and a given lower threshold level with facility of independent adjustment of hysteresis and center point. (To learn the design and the technique of independent adjustment of both hysteresis and center point.) 4. Active filters: LP, BP, HP, 1st order, 2nd order. (To learn the design of a filter and it’s inherent phase shifting characteristics.) 5. 555 based monostable and astable of duty cycle below and above 50%. (To learn designing 555 based timer circuits.)
C. DIGITAL LOGIC CIRCUITS
Electronics & Communication Engg 1. Design and implement a BCD to 7-segment decoder with basic and universal gates. (To understand clearly the method of writing a truth table, use of K-map, simplifying a logic function and optimum design with minimum number of ICs and inputs.) 2. Design and implement a 4-digit frequency counter with a clock generator. (To learn designing a digital circuit using available standard gate, FF, counter and display Ics.) 3. Designing logic circuits using multiplexers, demultiplexers and gates to implement logic functions. (To learn the use multiplexers and demultiplexers) 4. Design and implement a sequence detector. (To learn designing a sequential circuit, whose output is 1 or 0 when any input bit is preceded or succeeded by a predefined binary sequence. To define the input & output sequence from a given physical problem, to prepare a state diagram, derive a minimal state table, to find the simplified state equation, to implement the same & verify the result) 5. To design and implement a combination of a logic circuit and a RAM in order to generate a 4-bit data after simplifying a logic expression, to store the output data at a predefined location in the RAM, to retrieve the same and verify. (To comprehend the structure and operating principle of memory devices.)
Group Discussion Seminar EC-682 (Objectives – To encourage in-depth study, practice oration and instill a habit of participation) About 20 minutes presentation / lecture on any topic covered in the first to sixth semester syllabus followed by 5 minutes interaction / discussion session. Seminar topic would be selected in consultation with teacher guide and a report to be submitted at least seven days before the presentation. The presentation should be in front of teachers and students of the class. The observer-students should take active participation in the presentation for which there is marks. Evaluation should be based on the following parameters of the students: Presentation skill, Delivery of the speech, Depth and breadth of the subject matter presented. The attendance of other students in the seminar will be recorded and their participation should also be assessed for evaluation of their participations
****************************** .
Electronics & Communication Engg
Seventh Semester
EC 701
Digital Signal Processing
Contact: 3L + 1T Credit: 4
Introduction, Overview of digital signal processing. Discrete – Time linear system, Sequences, arbitrary sequences, linear time invariant system, causality, stability. Difference equation, relation between continuous and discrete system. Classifications of sequence, recursive and non-recursive system.
2L 8L
Mathematical operations on sequences: Convolution, graphical and analytical techniques, overlap and add methods, matrix method, some examples and solutions of LTI systems, MATLAB examples (Tutorial)
4L
Z-transform: Definition, relation between Z transform and Fourier transform of a sequence, properties of Z transform, mapping between S-plane and Z-plane. Unit circle, convergence and ROC, Inverse z-transform, solution of difference equation using the one sided Z-transform MATLAB examples (Tutorial).
6L
Discrete Fourier transform: Definition, inverse discrete Fourier transform (IDFT) Twiddle factor, linear transformation, basic properties, circular convolution, multiplication of DFT, linear filtering using DFT, filtering of long data sequences, overlap add and save method. Computation of DFT, Fast Fourier transform (FFT), FFT algorithm, Radix 2 algorithm. Decimation-in-time and decimation-infrequency algorithm, signal flow graph, butterflies, Chirp z-transform algorithm, MATLAB examples (Tutorial).
10L
Digital filter realization: Principle of digital filter realization, structures of All-zero filters. Design of FIR (Finite impulse response) filters, linear phase, windowsrectangular, Berlitt, Hanning, Hamming and Blackman. Design of infinite impulse response filters (IIR) from analog filters. Bilinear transformation, Butterworth, Chebyshev, Elliptic filters. Optimisation method of IIR filters. Some example of practical filter design. Computer aided filter design, MATLAB examples (Tutorial).
10L
Electronics & Communication Engg
Books: 1. L.R. Rabiner & B.Gold, Theory and Application of Digital Signal Processing., PHI 2. J.G. Proakis & D.G. Manolakis, Digital Signal Processing, Principles, Algorithms and Applications.,PHI/Pearson 3. Chen, Digital Signal Processing, OUP 4. Meyer-Basse U, Digital Signal Processing with FPGA, Spriger India 5. Ingle, Digital Signal Processing using MATLAB, Vikas 6. Babu R, Digital Signal Processing , Scitech 7. S. Salivahanan et al, Digital Signal Processing, TMH 8. S.K.Mitra, Digital Signal Processing - A Computer based approach, TMH 9. Xavier, Digital Signal Processing, S. Chand 10. Emmanual C. Ifeachor et. Al., Digital Signal Processing : A Practical approach, Pearson Education, 2nd edition. 11.Pradhan, Digital Signal Processing Applications, Jaico
EC 702
VLSI Design
Contact:
Credit:
3L + 1T
4
Analog VLSI Circuit Design: i) Review of MOSFET characteristics, scaling and small-geometry effects, MOSFET capacitances.
3L
ii) MOS resistor, MOS current source, current mirror circuits. MOS voltage source Linear voltage and current converters.
4L
iii) CMOS operational amplifier (OPAMP) design: - Differential amplifier, level shifter, source follower, output stage voltage and power amplifiers. Cascode OPAMP. Compensation techniques.
6L
iv) Analog Filters: - Switched capacitor (SC) fundamentals, first order SC circuits, second-order SC circuits and cascade design.
4L
Electronics & Communication Engg v) Analog to digital and digital to analog converters, speed of conversion and over sampling issues.
4L
vi) VLSI Interconnects: - distributed RC model, transmission line model. Future inter connect technologies.
2L
Digital VLSI Circuit Design: i) MOS inverters, CMOS inverter, state characteristics, switching characteristics, power dissipation issues.
3L
ii) CMOS logic gates: NAND, NOR, XOR, CMOS logic design of half and full adders. CMOS transmission gates, pseudo-nMOS, domino logic gates.
5L
iii) Sequential MOS Logic Circuits: The SR latch circuit, clocked latch and flipflop, CMOS D-latch and edge-triggered circuits, Schmitt trigger circuit, Comparator.
4L
iv) Dynamic Logic Circuits: Pass transistor logic, synchronous dynamic circuit techniques.
3L
v) Semiconductor Memories: ROM circuits, SRAM circuits, DRAM circuits, drivers and buffers, Buffer scaling and design issues.
5L
CAD Tools for VLSI Design: -
i) SPICE: Element lines, Control lines, Command lines, Types of analysis, Models and model parameters, Sub circuits and Macros.
3L
ii) Layout design rules, Layout of inverters, NAND, NOR gates using LASI.
3L
ii) VHDL Syntax: Basic concepts in VHDL and VHDL grammar, Structural specification, VHDL description of Inverter, NAND gate, Full adder.
3L
Books: 1. 2. 3. 4. 5. 6. 7. 8.
Analog VLSI Signal and Information Processing - M.Ismail and T. Fietz. VLSI Design Techniques for Analog and Digital Circuits - R.L. Geiger, P.E. Allen and N.R. Strader, MGH CMOS Analog VLSI Design - P.E. Allen and D.R. Holberg, OUP. Ken Martin, Digital Integrated Circuit Design, OUP CMOS Digital Integrated Circuits - S.M. Kang and Y. Leblebici, TMH Digital Integrated Circuits - J.M. Rabaey, PHI. Introduction to Digital Systems - M. Ercegovac, T. Lang and J.H. Moreno. CMOS Circuit Design, Layout and Simulation - R.J.Baker, H.W. Li and D.E. Boyce,PHI
Electronics & Communication Engg
EC 703
System Programming & Operating Systems
Contact:
Credit:
3L + 1T
4
Assemblers: - Elements of Assembly Language Programming; Pass Structure of Assemblers; Two Pass Assembler
4L
Compilers and Interpreters: - Aspect of Compilation; Memory Allocation; Compilation of Expressions; Compilation of Control Structures; Code Optimization; Interpreters.
5L
Linkers: - Relocation and Linking Concepts; Design of A Linker; SelfRelocating Programs.
3L
Software Tools: - Editors; Debuggers.
3L
Introduction to Operating Systems: - OS Functions; Evolution of OS Functions; Batch Processing Systems; Multiprogramming Systems; Time Sharing Systems.
4L
Scheduling: - Scheduling Policies; Job Scheduling; Process Scheduling; Process Management in UNIX.
4L
Deadlocks: - Definitions; Resource Status Modeling; Handling Deadlocks; Deadlock Detection and Resolution; Deadlock Avoidance.
3L
Process Synchronization: - Process Definition; Process Control; Implementing Control Synchronization; Classical Problems; Semaphores.
5L
Memory Management: - Preliminaries; Contiguous Memory Allocation; Noncontiguous Memory Allocation; Virtual Memory Using Paging; Virtual Memory Using Segmentation
5L
I/O Organization: - IO Organization; IO Devices; file Organizations; Directory Structures; File Sharing.
3L
Protection and Security: - Encryption of Data; Protection and Security Mechanisms; Protection of User Files.
3L
Distributed Operating Systems: - Definitions and Examples; Design Issues in Distributed Operating Systems.
3L
Books:
Electronics & Communication Engg 1. Systems Programming and Operating Systems by D.M. Dhamdhere; Second Revised Edition, Tata McGraw-Hill. 2. System Programming by J.J. Donovan; Tata McGraw-Hill. 3. An Introduction to System Programming by L.L. Beck; Addison Wesley. 4. Operating System & System Programming , Prasad, Scitech 5. Guide to Operating System , Palmer, Vikas 6. Operating System Concepts by A. Silberschatz and Galvin; Addison Wesley. 7. Operating Systems by W. Stallings; Pearson. 8. Operating Systems: Concepts and Design by Milan Milenković; Tata McGraw-Hill. 9. Operating Systems by Stuart E. Madnick and John J. Donovan; Tata McGraw-Hill. 10. Operating Systems: A Design-Oriented Approach - by Charles Crowley; Tata McGraw-Hill. 11. Advanced Concepts in Operating Systems - by Mukesh Singhal and Niranjan G. Shivaratri; Tata McGraw-Hill. References: 1. Schaum’s Outlines Operating Systems by J. Archer Harris; Tata McGraw-Hill. 2. Unix Systems V.4 Concept and Application by S. Das; Tata McGraw-Hill. 3. The Unix Programming, by B.W. Kernigham; Tata McGraw-Hill. 4. The Design of Unix Operating System by M.J. Bach; Prentice-Hall India. 5. Operating Systems With Case Studies in UNIX, NetWare, Windows NT by Achyut S. Godbole; Tata McGraw-Hill.
EC 791
Digital Signal Processing Lab
Contact:
Credit:
3P
2
All the students shall perform first five experiments and the remaining three shall be given as mini- projects. 1. 2. 3. 4. 5. 6. 7. 8.
Sine wave generation using C. Designing an FIR Filter using MATLAB and DSP KIT Designing of an IIR Filter using MATLAB & DSP Kit Fourier analysis of periodic signal Time and frequency domain properties of different windows using MATLAB Development of a DTMF Tone Generator using DSP Kits and Code composer A-Law and µ-Law Companding implementations using the TMS320C54x Implementation of the Double-Precision Complex FFT for the TMS320C54x DSP
EC 792
VLSI Design Lab
Electronics & Communication Engg Contact:
Credit:
3P
2
Each student need to complete both experiments of group-A, any two from group-B and any one from group-C Group-A:
1. Design layout of a two input CMOS NAND gate using LASI (Use Mead Conway design rules of any standard 2. Using LASI, draw the layout of a simple CMOS amplifier Group-B: 1. Using SPICE, simulate a CMOS inverter. Obtain the transfer characteristics for different values of βn/βp 2. Using SPICE, simulate a simple CMOS amplifier and obtain the transfer characteristics and frequency response 3. Using SPICE, simulate a CMOS differential amplifier with a current source. Use <.SUBCKT> command of SPICE 4. Draw a full adder using AND/OR/INVERT gates in schematic editor Group-C: 1. a) Use VHDL/VERILOG to describe the carry function of a full adder b) Create a VHDL test bench for the above circuit, perform timing simulation & observe the waveform
2.
a) Design a 4-bit counter using VHDL, simulate and observe the wave form b) Down load the above in any FPGA and test the circuit.
EC 793 Contact:
Credit: • • • •
Project-I 3P
2
Students (preferably not more than four in each group) need to complete one project during 7th & 8th semester together. It is suggested that the project involves investigative study over & above the routine curriculum and also hardware activity. It should be result oriented and should explore newer topics. Students will finally prepare a comprehensive project report and give a demonstration & presentation of their project to the class of students and the review committee as nominated by the university. Total score of 200 (credit = 6) is distributed in 7th & 8th semester. Depending on the progress and quality, each student will be given a score out of 100 at the end of 7 th semester, and at the end of 8th semester.
Electronics & Communication Engg EC 794
Group Discussion
Contact:
Credit: • • • •
3P
2
Purpose: - To train the students in the art & science of professional speaking and also in presenting themselves properly to their prospective employers. They need to communicate with clarity, structure and conciseness in both one to one and group situations. They have to gear their presentations to the level of the listener. The institute may choose any appropriate method available with them to train the students on this very important aspect. The evaluation should be continuous during the semester and at the end, a total score out of 100 will allotted to each student.
EC 704A
Advanced Antenna Engineering
Contact:
Credit:
3L + 1T
4
Antenna fundamental and radiation mechanism
2L
Vector potential concept, Gain, Effective aperture
3L
Wire antenna, Loop antenna
3L
Aperture antenna
2L
Reflector antenna, Cassegrain antenna, Gregorian antenna
4L
Planar antenna
2L
Lens antenna
1L
Broadband antenna
2L
Frequency independent antenna
2L
Antenna synthesis
3L
Near field – Far field transformation
3L
Antenna arrays, Grating lobes
6L
Electronics & Communication Engg Antenna for mobile communication
3L
Antenna measurements: Radiation pattern, Gain and Radiation impedance.
6L
Text Books: 1 2 3 4 5 6 7 8
Antennas and Wave Propagation, G. S. N Raju, Pearson Education. Electromagnetic Waves and Radiating Systems, 2nd edition, by C. Jordan & Keith G. Balmain, Published by – 1968 by PHI Antenna Theory Analysis and Design Constantine by A. Balabis, Published by 1982,1977. John Wiley & Sons INC. Hoboken, Newyork, U.S.A. Antenna Theory and Design Revised Edition by Robert S. Elliott, Pulished 2003 IEEE Press, John Willey & Sons, Hoboken, U. S. A. Electromagnetics with applications, Fifth Edition by Kraus / Eleisch, Electromagnetics with applications, International Edition 1999, Mc. Graw Hill, Book co- Singapore. Introduction to RADAR Systems , 3rd Edition. Merrill I. Skolink, Published by – McGraw- Hill Companies, INC- New York, TMH Adaptive Antenna arrays, Satish Chandran, Springer Verlag Finite Element Method for Electro Magnetics, Volakis, University Press
EC 704B
Advanced Semiconductor Devices
Contact: 3L + 1T Credit:
4
Review of Semiconductor properties: - Crystal structure of semiconductors, band theory, occupation statistics, electrical properties, optical properties, recombination kinetics, avalanche process in semiconductors, photon statistics; MOSFET: - Analysis of MOSFET parameters; short channel and narrow width effects; hot electron effects MESFET: - Transport in two dimensional structures HEMT: - Hetero junction BJT, MODFETS Design of high frequency amplifiers and oscillators Resonant tunneling structures, RTD oscillators
Electronics & Communication Engg Inter valley scattering, Gunn diodes, IMPATT diodes, TRAPATT, BARPATT, mixer diodes, Step recovery diodes Outline of numerical approach to 2D and 3D device models Introduction to device simulation programs
Books: 1. D.J Roulston, Bipolar Semiconductor Devices, McGraw Hill 2. S.M.Sze, Physics of Semiconductor, John Wiley 3. Hamaguchhi, Basic Semiconductor Devices, Springer India 4. Dimitrizev, Understanding Semiconductor Devices, OUP 5. Jasprit Singh, Physics of Semiconductors and Their Heterostructures,MH 6. S.M.Sze, High Speed Semiconductor Devices, John Wiley 7. B.G.Streetman & S. Banerjee, Solid State Electronic Devices, Pearson 8. Dilip Kr. Roy, Physics of Semiconductor Devices, University Press EC 704C
Advanced Mathematics for Electronics Engineering
Contact: 3L + 1T Credit:
4
Complex variable, Cauchy Riemann eqns, Residue calculus technique, Pole at infinity, Contour integral, Jordon’s lemma
6L
Conformal mapping and Conformal transformation W = A ln Z, Z = k Cosh W, Z a W = A ln Z a
6L
Series evaluation using contour integration
3L
Partial differential equation A) Transform techniques B) Green’s function techniques
6L
Fourier series and Fourier transform
4L
Sampling techniques
2L
Special functions, Bessel and Hankel functions, Fourier Bessel series
6L
Electronics & Communication Engg Method of Moments, Evaluation of capacitance of a square plate.
6L
Text Books: • •
•
Gustafson, advanced mathematics Engineering, Springer India Advanced Engineering Mathematics by Erwin Kreyzig, Published 1962 John Willey and Sons, INC, New York M. D. Greenberg, Advanced Engineering Mathematics, Pearson Education. Jordon & Smith, Mathematical Techniques, OUP Field Computation by Method of Moments by RF Harrington Published 1968 Robert E. Krieger Publishing Company, Malabar, Florida. Engineering Mathematics , Vol. 1 & Vol.2, Sastry, PHI
•
Advanced Engineering Mathematics, Willey, TMH
• • •
EC 704D
Computer Communication & Networking
Contact: 3L + 1T Credit:
4
Introduction to computer network, classification of networks (WAN, MAN, LAN), distributed systems, digital signals and data rates, bit stream, symbols and band rate, transmission media, modems, structure of computer network, circuit, packet, message switching topological design, back bone design OSI, reference model.
8L
Physical and data link layer, bit communication between DTE and DCE, RS232C, novel modem Terminal handling, multiplexing and concentration data link layer service and design issues, errors detection and correction, retransmission strategies, sliding window protocols, satellite and packet radio networks, pure Aloha protocols, slotted Aloha protocol, satellite networks, reservation Aloha protocol, DES, PCEM, packet radio networks.
10L
Network layer, basic design issues, network layer services, connection oriented and connection less services, routing, static multi path, centralized isolated distributed hierarchical broadcast, flow based routing, congestion deadlocks ratio, concept of
12L
Electronics & Communication Engg Ethernet LAN topology and architecture CSMA/CD protocol, token ring LAN, token bus LAN, Fiber optic LAN bridges, transparent bridge source routing bridges, gateway, gateway design issues x25 internet working. ISDN, B-ISDN and ATM, evolution of ISDN services, ISDN system architecture and network terminating devices, ISDN interface, ISDN signaling, broad band ISDN, Asynchronous transfer modem, ATM adaptation layer, transport layer, OSI transport protocol, session layer designing issues, data exchange, OSI session layer primitives, transport protocol TCP.
10L
Presentation layer, abstract syntax notation, data compressed on oxyptography, application layer OST, service elements ASCE and CCR, the transfer access and management, concurrence control nistual terminals, electronic mail directory services distributed systems, formal protocol modules, network management, mobile networking.
10L
Books: 1. 2. 3. 4. 5. 6. 7. 8. 9.
Tanenbaum, Computer Network, PHI/ Pearson B. A. forouzan, Data communication and networking, TMH, 3rd edition. Zheng, Networks for Scientists & Engineering, OUP Keizer, LANs, TMH Stalling W., Computer Networks, PHI/ Pearson Miller, Data Communication & Networks, Vikas Miller, Data Communication & Networks, Jaico ISDN: Stalling W., PHI/ Pearson Murty, Data communication and networking, Himalaya
EC 704E
Object Orient Programming
Contact: 3L + 1T Credit:
4
Introduction: - Why object orientation, History and development of Object Oriented Programming language, concepts of object oriented programming language.
8L
Object oriented design: - Major and minor elements, Object, Class, relationships among objects, aggregation, links, relationships among classes- association, aggregation, using, instantiation, meta-class, grouping constructs.
16L
Basic concepts of object oriented programming using Java: - Object, class, message passing, encapsulation, polymorphism, aggregation, threading, applet
16L
Electronics & Communication Engg programming, difference between OOP and other conventional programmingadvantages and disadvantages. Books: 1. Ali Bahrami, - “Object –Oriented System Development” - Mc Graw Hill. 2. Rambaugh, James Michael, Blaha - “Object Oriented Modelling and Design” Pearson 3. Patrick Naughton, Herbert Schildt – “The complete reference-Java2” - Tata Mc graw Hill. 4. M. P. Bhave et al, Object Oriented Programming with C++, Pearson Education. 5. Doke, Object Orient Programming with JAVA, Vikas 6. Somsundaram, programming in Java 2, Jaico 7. Horton, Beginning Java 2, SDK 1.4, SPD 8. Xavier, Programming with JAVA 2, Scitech EC 704F
Data Base Management Systems
Contact: 3L + 1T Credit:
4
Introduction: - Overview; Data Models; Database Languages; Database Users and Administrators; Database System Structure; Application Architectures.
4L
Entity-Relationship Model: - Basic Concepts; Constraints; Keys; Design Issues; Entity-Relationship Diagram; Weak Entity Sets; Extended E-R Features.
6L
Relational Model: - Structure of Relational Databases; The Relational Algebra; Extended Relational Algebra Operations; The Relational Calculus; Modification of the Database; Views.
5L
SQL: - Basic Structure; Data-definition language; Data-manipulation language; Set Operations; Aggregate Functions; Null Values; Nested Sub queries; Views; Modification of the Database; Embedded SQL; Dynamic SQL.
4L
Integrity and Security: - Domain Constraints; Referential Integrity; Assertions; Triggers; Authorization; Authentication.
4L
Relational Database Design: - First Normal Form, Second Normal Form, Third Normal Form, Boyce-Codd Normal Form, Fourth Normal Form; Functional Dependencies, Decomposition, Desirable Properties of Decomposition.
10L
Transactions and Concurrency Control: - Concept of a Transaction, Transaction State, Properties of a Transaction and their Implementations; Serialisability; Recoverability; Concurrency Control and Recovery Management: Lock-Based
7L
Electronics & Communication Engg Protocols; Two-Phase Locking; Deadlock Handling. Books: 1. Database System Concepts by A. Silberschatz, H. Korth, S. Sudarsan; Fourth Edition, McGraw-Hill. 2. Fundamentals of Database Systems by R. Elmasri & S. Navathe; Fourth Edition, Pearson Education. 3. Database Management Systems, Leon & Leon, Vikas 4. Database Management Systems,Evan Bayross, SPD 5. Inside Relational Databases, Whitehorn, Springer India 6. An Introduction to Database Systems by C.J. Date; Seventh Edition, Pearson Education. 7. Database Systems: The Complete Book by H. Garcia-Molina, J.D. Ullman, J. Widom; First Indian Reprint 2004 Edition, Pearson Education. 8. Database Management Systems by R. Ramakrishnan and J. Gehrke; Third Edition, McGraw-Hill. 9. Database Systems: A Practical Approach to Design, Implementation and Management by T. Connolly and C. Begg; Third Edition, Pearson Education. References: 1. Oracle Forms Developer’s Handbook by A. Lulushi, Seventh Indian Reprint 2004 Edition, Pearson Education. 2. SQL, Nagpal, S. Chand 3. Oracle 9i Development by Example by D. Hotka, First Indian Reprint 2003 Edition, Pearson Education. 4. Database Management Systems: Designing & Building Business Applications by G.V. Post; Second Edition, Tata McGraw-Hill. 5. Oracle PL/SQL Programming, Feurstein, SPD
EC 704G
EMI / EMC Techniques & Management
Contact:
Credit:
3L + 1T
4
Introduction to EMC
2L
Common EMC units
2L
Signal source specifications
2L
Electronics & Communication Engg EMC requirements for electronics systems
2L
Measurement of commercial product
2L
Emissions for verification of compliance, radiated emissions, conducted emissions, radiated susceptibility, conducted susceptibility, electrostatic discharge
6L
Dipole antennas, antenna arrays, antenna factor, broadband measurement antennas
6L
Non-ideal behaviour of components
4L
Effect of component leads
1L
Signal spectra
3L
Spectrum analysis
1L
Line Impedance Stabilisation Network
1L
Network Chokes, Pads, Filters
4L
Three conductor lines & cross-talk
4L
Shielding
4L
Text Books: 1 2 3 4 5
EMI/EMC Computational Modeling Hand Book, by Archambeult. Introduction to Electromagnetic Compatibility, by Clayton R. Paul, Published by – John Wiley & Sons INC EMC Analysis Methods & Computational Models, by – Frederick M, Tesche, Michel V. Ianoz, Torbjorn Karlsson,Published by – John Wiley & Sons, INC Electrostatic Discharge in Electronics, by – Willian D. Greason, Published by – John Wiley & Sons INC The ARIAL RFI Book by Hare, W1RFI Published by – The American Radio Relay League Newington CT 06111-14941
EC 704H
Process Control Engineering
Electronics & Communication Engg Contact: 3L + 1T Credit:
4
Transfer function from process analysis: - Heating process, mixing process, DC motor
2
Process modeling via experimental tests, via study of frequency response
5
Review of response characteristics of 1st & 2nd order system
2
Controllability & Stability – a qualitative study: • Proportional control factor, deviation reduction factor, subsistence ratio, process reaction curve, dead time • Self regulation in a process • Concept of stability with poles & zeroes
4
Control schemes & controllers: • On/OFF control, • P, PI, PID control, related terminologies, parameter adjustments and implications • Electronic P, PI & PID controller.
7
Various principles of process control: - ratio control, feed forward control, cascade control Common process control loops: - Flow, pressure, level, temperature
5
Computer aided process control: • Data acquisition, set point control, direct digital control • Review of Z-transform theory and its application in digital control • Digital PID algorithms
6
A typical process control systems: - Boiler
4
5
Books: 1. “Principles of Process Control’ 2nd ed. by D.Patranabis, TMGH 2. “Process Control Instrumentation Technology” 7th ed. by Curtis D Johnson, PHI 3. “A Text Book of Instrumentation & Control” by D.Patranabis, Umesh Publication. 4. “Industrial Process Control Systems” Dale Patrick, Thomson Delmar
EC 704I
Industrial Electronics
Electronics & Communication Engg Contact: 3L + 1T Credit:
4
Basic Power Devices: Power diode: • Special features of construction & v-i characteristics • Turn on & turn off characteristics, reverse recovery time, reverse recovery current
2L
Power BJT: • Construction, working principle • Special features like low , quasi saturation, primary breakdown, secondary breakdown
2L
Power MOSFET: • Construction, working principle, special features of construction • Special properties of power MOSFET with V-groove structure
2L
IGBT: Construction & working principle.
1L
Comparative study of important performance parameters of power BJT, MOSFET & IGBT
1L
Thyristors • Construction, working principle • di/dt & dv/dt protection, snubber circuit • Series & parallel operation, static & dynamic equalization network • Commutation circuits: - natural commutation & self commutation
6L
AC voltage controllers (AC/AC) • Single phase half wave & full wave controllers • Single phase cycloconverter • Single phase PWM AC voltage controllers
2L
Controlled rectifiers (AC/DC): - Single phase semi converter, full converter, dual converter. Choppers/Switched mode converters (DC/DC) • Principle of step up/step down operation • Classifications – A.B.C.D.E • Buck, boost, buck-boost, Cuk regulators • Principle of operation (qualitative) of full bridge converter
2L 3L
Electronics & Communication Engg PWM switch mode inverters (DC/AC) • Principle of operation • Harmonic profile: - harmonic factor for nth harmonic (HFn), Total harmonic distortion (THD), Distortion factor (DF), Lowest order harmonic (LOH) • Single phase bridge inverter: - operating principle & harmonic profile • Voltage control of single-phase bridge inverter: - single pulse width modulation, multiple pulse width modulation, sinusoidal pulse width modulation; - estimation of RMS output and harmonic factor in each case. Power supplies: • Overview of SMPS, its merits over linear regulated DC power supplies • Working principle of various techniques of SMPS, - fly back, feed forward, push-pull, half bridge & full bridge • UPS – operating principle Control of DC motors: • Basic characteristics of DC motors • Operating modes in four quadrants • Match between the motor & the electronic control • Application of different single phase converters and chopper drives in motor control • Principle of closed loop speed control & phase locked loop control Float cum boost charger Time delay relays, sequential timers, synchronous timers Industrial heating: Induction heating, dielectric heating; - principle, characteristic features & control
4L
4L
6L
2L 1L 2L
Books: 1. Krein, Elements of Power Electronics, OUP 2. Power Electronics (Converters, Applications & Design) – Mohan, Undeland, Robbins – John Wiley 3. Power Electronics, Jacob, Vikas 4. Power Electronics (Circuits, Devices & Applications) – M H Rashid – Pearson 5. Power Electronics – M D Singh & K B Khanchandani – TMH 6. Modern Power Electronics, B.K. Bose, Jaico 7. Modern Power Electronics – P C Sen – Wheeler Publishing 8. Power Electronics, Dr. P.C. Sen, S.Chand 9. Industrial Electronics – S N Biswas – Dhanpat Rai & Co. 10. Industrial Electronics & Control” – S K Bhattacharya & S Chatterjee (TTTI, Chandigarh) - TMH
EC 704J
Numerical Techniques for RF Systems
Electronics & Communication Engg Contact: 3L + 1T Credit:
4
Finite difference methods
6L
Variational and Perturbational methods
6L
Methods of Moments for evaluation of capacitance of a conducting and multiple bodies
8L
Methods of Moments for evaluation current on a wire antenna
6L
Finite elements method
6L
Finite difference time domain techniques
8L
Text Books: 1. Numerical Techniques in Eletromagnetics, 2nd Edition by Matthew N. O. Sadiku, Published by CRC Press, Bocca Raton 2. Time domain Electromagnetics, by S. M. Rao Academic Press. 3. HPNEFF JR, Basic Electromagnetic Fields Harper & Row Publishers, New York EC 704K
Pattern Recognition & Machine Intelligence
Contact: 3L + 1T Credit:
4
Introduction 1L Recognition as a classification process. Decision theoretic classification. Hyper 15L plane properties and decision functions. Minimum distance pattern classification with simple and multiple prototypes. Clustering-K means and isodata algorithm, Pattern classification by likely hood functions, Bayes classifier, Syntactic classification. Learning through clustering, Convex and concave decision regions. Hearing and estimation of mean vector and covariance matrix. Linear and nonlinear seperability. Trainable pattern classtier-Gradient technique, Robbins-Monre algorithm, Potential functions and least mean square error.
8L
Feature selection by entropy minimization, Karhuner-Lucke expansion and divergence minimization.
4L
Electronics & Communication Engg Image representation, digitization, quantization, Compression and coding, Transfer for image processing, Restoration, Enhancement, Segmentation, thining. Description of lines and shape. Statistical and syntactic models of image classification. Morphological method of image analysis.
10L
Application of speech recognition, Image understanding and territory planning for mobile robots.
10L
Books: 1. 2. 3. 4. 5. 6. 7.
Sonka, Image processing & Machine Vision, Vikas Duda and Hard: Pattern classification and scene analysis, Addison Wesley. Marques, Pattern recognition, Concepts , methods & applications, Springer India Poole, Computational Intelligence, OUP Tou & Gonzalez, Pattern recognition principle, Addison Wesley. E. Hall, Digital Image Processing, Academic Press. A. Reserfeld: Digital Image processing, Vol. I & II, Academic Press.
EC 704L
Computer Vision
Contact: 3L + 1T Credit:
4
Discrete geometry & quantisation
2L
Length estimations
1L
Automated visual inspection
2L
Object recognition & matching
3L
Depth perception problems
2L
Stereo geometry & correspondence
4L
Motion analysis
3L
Optical flow
2L
Application of computer vision
4L
Electronics & Communication Engg Remote sensing
4L
Bio-medical imaging
4L
Document processing
4L
Target tracking
4L
Books: 1. 2. 3. 4.
“Machine Vision” by Jain; MGH “Computer Vision- A modern Approach”, by Forsyth; Prentice Hall “Three dimensional Computer Vision” by Faugeras; Artificial Intelligence, MIT Press “Introduction Techniques for 3-D Computer Vision” by Trucco, Prentice Hall
Values of Ethics of Profession Contact: 3L + 0T Credit: 3
Science, Technology and Engineering as knowledge and as Social and Professional Activities Effects of Technological Growth: Rapid Technological growth and depletion of resources, Reports of the Club of Rome. Limits of growth: sustainable development Energy Crisis: Renewable Energy Resources Environmental degradation and pollution. Eco-friendly Technologies. Environmental Regulations, Environmental Ethics Appropriate Technology Movement of Schumacher; later developments Technology and developing notions. Problems of Technology transfer, Technology assessment impact analysis. Human Operator in Engineering projects and industries. Problems of man, machine, interaction, Impact of assembly line and automation. Human centered Technology. Ethics of Profession: Engineering profession: Ethical issues in Engineering practice, Conflicts between business demands and professional ideals. Social and ethical responsibilities of Technologists. Codes of professional ethics. Whistle blowing and beyond, Case studies. Profession and Human Values:
Electronics & Communication Engg Values Crisis in contemporary society Nature of values: Value Spectrum of a good life Psychological values: Integrated personality; mental health Societal values: The modern search for a good society, justice, democracy, secularism, rule of law, values in Indian Constitution. Aesthetic values: Perception and enjoyment of beauty, simplicity, clarity Moral and ethical values: Nature of moral judgements; canons of ethics; ethics of virtue; ethics of duty; ethics of responsibility. References: 1. Stephen H Unger, Controlling Technology: Ethics and the Responsible Engineers, John Wiley & Sons, New York 1994 (2nd Ed) 2. Deborah Johnson, Ethical Issues in Engineering, Prentice Hall, Englewood Cliffs, New Jersey 1991. 3. A N Tripathi, Human values in the Engineering Profession, Monograph published by IIM, Calcutta 1996. EC 802
Optical Fibre Communication
Contact:
Credit:
3L + 1T
4
Introduction to optical fiber communication – principles and systems
2L
Fiber optic transmitters using LEDs and Laser diodes, Bias stabilization of LEDs and Lasers, Driver circuits for analog and digital modulation, Temperature stabilization of laser diodes, Modulation bandwidths of lasers and LEDs
5L
Fiber optic receivers using PIN and APD photodiodes, photo-diode amplifiers, SNR in PID and APD receivers, Receiver sensitivity, Eye diagram
5L
Coupling mechanisms of optical power from source to fiber and fiber to photodetector, Transmission characteristics of fibers and their effects on system performance, Selection of optical fiber types for short-haul, long-haul and high speed data links, optical power budget calculations of a fiber optic communication link
6L
Fiber optic interconnective devices for fiber optic communication links and networks : Optical isolators, polarizers, circulators, attenuators, Bragg grating filters, add/drop multiplexers, WDM MUX / DEMUX, fiber amplifiers, guided wave devices as external optical modulators
8L
Fiber optic analog modulation methods, Sub-carrier multiplexed analog
10L
Electronics & Communication Engg communication principles, IM-DD systems, Fundamentals of optical coherent detection, Optical pulse format for digital communication systems, Performance of a 10 Mb/s digital fiber optic link and a 10 Gb/s data link, Effects of charp and linewidths of lasers on system performance Fiber optic networks for LAN, MAN and WAN – a brief study
4L
Text books: [1] John. M. Senior, Optical fiber communications: principles and practice, Prentice Hall of India. [2] Gerd Keiser, Optical fiber communications, McGraw Hill, 3rd edition. [3] D. K. Mynbaev, L. L. Scheiner, Fiber optic communication technology, Pearson Technology [4] R. P. Khare, Fiber optic and optoelectronics, Oxford University press. [5]John Gowar, Optical Communication Systems, Prentice Hall of India. [6] Selverajan, Kar, Srinivas, Optical fiber communicaion : principles and systems, Tata McGraw Hill. EC 803
Wireless Communication
Contact:
Credit:
3L + 1T
4
Introduction to Wireless Communication Systems – evolution of mobile radio communications, mobile radio systems around the world, radio communication systems – paging systems, cordless telephone systems, cellular telephone systems; comparison of common wireless communications, trends in cellular radio and personal communication, second generation (2G) cellular networks, third generation (3G) wireless networks, introduction to radio wave propagation, free space propagation model
4L
Basics of mobile communication – Limitations of conventional mobile system, mobile cellular communication – introduction, concept of frequency reuse, cluster size, cellular system architecture – mobile station, base station, MSC, channel assignment strategies, call handover strategies, interference and system capacity, improving capacity in cellular systems – cell splitting, sectoring, repeaters, microcell zone concept.
8L
Global system for mobile communication – GSM services and features, system architecture, GSM radio subsystem, GSM channel types, location updating and call setup, introduction to CDMA digital cellular standard, comparison between GSM and CDMA.
6L
Wireless networking – wireless local area network standards, technology – RF and IR wireless LAN, diffuse, quasi-diffuse and point-to-point IR wireless LAN, advantages and applications of Wireless LAN, introduction to WI-FI, Bluetooth, 3G and 4G wireless systems
3L
Electronics & Communication Engg Introduction to satellite communication - brief history and overview of satellite communication
2L
Orbital mechanics and launchers – equations of the orbit, orbital elements, look angles, sub-satellite points, satellite launching and launch vehicles
2L
Satellite description – communication subsystem, telemetry, command and ranging subsystem, attitude control subsystem, electrical power subsystem
6L
Satellite transponder – Transponder model, channelisation, frequency plan, processing
3L
Satellite link design – basic transmission theory, system noise temperature and G/T ration for earth stations, design of uplink and downlink, atmospheric and ionospheric effects on satellite link
3L
Earth station – description, earth station antenna, low noise amplifier, upconverter, down converter, monitoring and control, VSAT
3L
Text books: 1. Theodore S. Rappaport, Wireless communications: principles and practice, Pearson education. 2. William C. Y. Lee, Mobile cellular telecommunication – analog and digital systems, McGraw Hill, 2nd ed. 3. Wang, Wireless communication System,Pearson Education 4. Tri T. Ha, Digital satellite communication, McGraw Hill 5. Aggarwal,Introduction to Wireless & Mobile Systems,Vikas 6. T. Pratt, Charles Bostian, Satellite communication, John Wiley & Sons , 2nd ed. 7. Robert M. Gagliardi, Satellite communication, CBS publishers and distributors 8. D. C. Agarwal, Satellite communication, Khanna publishers References: 1. 2. 3. 4.
A. Santamaria et al, Wireless LAN systems, Artech House. Stallings,Wireless Communication & Networks,Pearson Education K. Feher, Wireless digital communications, Prentice Hall of India. Roy Balke, Wireless communication technology, Thomson Delmer.
EC 891
Advanced Communication LAB (Sessional)
Electronics & Communication Engg Contact: 3P Credit:
2
Students are required to complete minimum 10 experiments, taking at least 4 from each group A. 1. 2. 3. 4. 5. 6. 7. 8.
Optical Communication System: Measurement of numerical aperture of an optical fiber Measurement of propagation loss, bending loss and connector loss in an optical fiber Studies of LASER characteristics Measurement of wavelength of an optical fiber source Setting up a fiber optic analog link, study of PAM Studies of Frequency Division Multiplexing and De multiplexing Setting up a fiber optic data link and study of TDM Setting up a PC to PC communication link using optical fiber
B. Wireless communication System (Experiments are to be performed in simulated platform or in experimental models): 1. Στυδιεσ ον χελλυλαρ µοβιλε χοµµυνιχατιον σψστεµ − το στυδψ σπεχιφιχατιο νσ οφ α Χελλυλαρ Πηονε, ωορκινγ πρινχιπλε, ινπυτ/ουτπυτ σιγναλσ οφ διφφε ρεντ σεχτιονσ, ρινγερ σεχτιον, διαλερ σεχτιον, σπεεχη αµπλιφιερ σεχτιον, τρ ανσµιττερ σεχτιον, ρεχειϖερ σεχτιον, δεταιλσ οφ ΣΙΜ χαρδ, το υνδερστανδ α νδ περφορµ οπερατιοναλ προχεδυρε, δεµονστρατε διφφερεντ τψπεσ οφ φαυλτσ 2. Στυδιεσ ον ΓΣΜ το στυδψ ΓΣΜ τηεορψ ανδ υνδερστανδινγ οφ ΓΣΜ τεχηνολ ογψ, ιτσ νετωορκ, το στυδψ διφφερεντ παρτσ λικε αντεννα, ΡΦ µοδυλε, χοννεχ τορσ, µεασυρεµεντ οφ ϖαριουσ σιγναλσ λικε ΣΙΜ ρεσετ, ΣΙΜ χλοχκ, ΣΙΜ δατ α 3. Studies on satellite communication system – to set up active and passive satellite communication link, to set up an FM / FDM satellite link, to measure the path loss and propagation delay in a satellite link, to communicate voice signal through satellite link, use different combinations of uplink and downlink frequencies to check the communication link, to transmit and receive various waveforms from a function generator through a satellite link 4. Στυδιεσ ον ΓΠΣ σψστεµ Υνδερστανδινγ χονχεπτ οφ ΓΠΣ, εσταβλισηινγ λινκ βετωεεν ΓΠΣ σατελλιτε ανδ ΓΠΣ τραινερ, µεασυρεµεντ οφ λατιτυδε ανδ λονγ ιτυδε 5. Studies on Blue tooth system – to understand concept of Blue tooth technology, to study RF module, RS-232C serial communication, Blue tooth protocol, different types of Blue tooth network
Electronics & Communication Engg 6. Studies on wireless LAN
EC 892
Project-II
Contact: 3P Credit:
4
Students (preferably not more than four in each group) need to complete one project during 7th & 8th semester together. It is suggested that the project involves investigative study over & above the routine curriculum and also hardware activity. It should be result oriented and should explore newer topics. Students will finally prepare a comprehensive project report and give a demonstration & presentation of their project to the class of students and the review committee as nominated by the university. Total score of 200 (credit = 6) is distributed in 7th & 8th semester. Depending on the progress and quality, each student will be given a score out of 100 at the end of 7 th semester, and at the end of 8th semester. EC 893 Credit:
Grand Viva 4
The session of grand viva will be conducted some time during the 8th semester, as suitable for the institute. The institute will form a committee of senior internal/external experts from academia/ Industry/ University for the purpose. Depending upon his/her performance, each student will be allotted a score out of 100 marks.
EC 894 Contact:
Credit:
Seminar-II 3P
4
Electronics & Communication Engg Tenure – The duration of this subject covers both 7th & 8th semester. That means, each student will deliver only one seminar in both semesters together. In order to cover all the students, the session needs to start from 7th semester. But marks will be sent to university at the end of 8th semester. Objectives:– To encourage investigative study of references, journals and other learning materials beyond the boundary of syllabus. Each student will prepare for a seminar on some advanced topic beyond the prescribed curriculum under the guidance of a faculty member. The student will deliver the presentation/lecture to his/her class and the board of examiners (including the guide), as nominated by the university/institution. The presentation will be followed by a question answer session. The student will also prepare a report and submit it well in advance. Evaluation should be based on the following parameters: • Presentation: Delivery of the speech (20), Depth of the subject matter presented (20), handling questions (20). • Report: Overall quality of the report (30). • Attendance during the entire session (10)
EC 804A
Fibre Optic Metrology
Contact:
Credit:
3L + 1T
4
Ιντροδυχτιον: − Βασιχσ οφ Οπτιχαλ βενχη, Φιβρε ενδ πρεπαρατιον οφ φιβρε ενδσ, λαυνχηινγ µεχη
Measuring Instruments: - Lock-in-Amplifier, Monochromator, Infrared viewer, Optical Spectrum Analyser, O Multi-mode fibre: – Parameters for characterisation, Steady-State Power distribution, mode stripper.
Measurements of attenuation: - Loss Mechanisms in Fibre, Calorimetric Method, Absorption & Scattering lo techniques; Numerical Aperture- trigonometric & Scanning methods.
Refractive Index Profile: - Reflection method, Near Field Scanning, Refracted Near Field methods, Interferom Dispersion Measurements: - Time-Domain Method & Frequency Domain Method Geometrical Measurements: - diameter, deformation, eccentricity, ellipticity.
Single–mode Fibre: – Mode Cut-Off wavelength, Mode-field Diameter, Equivalent Step-Index (ESI) Profile, Mechanical Strength of Optical Fibre
Electronics & Communication Engg International Standards for Measurements: World Bodies, RTM, ATM, Recommendations Books: 1. Dietrich Marcuse, Principles of Optical Fibre Measurements, (Academic Press Inc. NY.) 2. Giovanni Cancellieri & Umberto Ravaioli, Measurements of Optical Fibres & Devices, - Theory & Experiments, (Artech House Inc. Dedham, USA) 3. Bishnu Pal, Fundamentals of Fibre Optics in Telecommunication and Sensor Systems, Chapters 10 & 11, (Wiley Eastern Limited) 4. J M Senior, Optical Fibre Communications –Principles and Practice, Chapter 13, (Prentice-Hall of India Pvt, Ltd.) 5. Giovanni Cancellieri (Editor), Single-Mode Optical Fibre Measurements, Characterization & Sensing, (Artech House Inc., Boston) 6. D C Agarwel, Fibre Optic Communication, (Wheeler Publications) EC 804B
RF & Microwave Network
Contact: 3L + IT Credit:
4
Lumped & distributed circuit elements at RF and microwave frequencies
5L
S parameter description of passive & active networks
3L
Network concepts
3L
Obstacles in wave guides e.g. posts, diaphragms etc.
4L
Wave guide junctions
4L
Excitation of wave guides and cavities
5L
Periodic structures & filters
6L
RF & microwave power combiners and dividers
6L
Books: 1. 2. 3. 4.
Secrets of RF Circuit Design, Joseph Carr,TMH Microwave Engineering,Das & Das,TMH “Microwave Engineering” by David M Pozar, 2nd ed.; John Willey & Sons Pvt. Ltd. “Foundation of microwave Engineering” by Robert E Collin, 2nd ed; IEEE Press series of Electromagnetic Wave Theory; John Willey & Sons Pvt. Ltd
Electronics & Communication Engg 5. “Handbook of RF/Microwave Components & Engineering” by KaiChang; Interscience, John Willey & Sons INC, Hoboken, NJ. EC 804C Modern Control Systems
Contact: 3L + 1T Credit:
4
Fuzzy Control: Introduction to the concept of fuzzy logic: Why we need fuzzy logic, an introductory example – fuzzy vs. non-fuzzy, when not to use fuzzy logic. Fuzzy sets and its basic operations: Introduction to classical set, fuzzy set, definition of linguistic values, linguistic hedges, set theoretic operations (union, intersection, complement – different axioms), composition of fuzzy relations – max-min composition, max-product composition. Logical arguments and propositions: Proposition concept, fuzzy If-Then rules, Modus Ponens, Modus Tolens, hypothetical syllogism Fuzzy controller: Block diagram of a fuzzy controller and description of its different blocks like fuzzification, rule base, inference mechanism, defuzzification, case study of fuzzy control system – an inverted pendulum on a cart, OR speed control of running train. Nonlinear Control: Introduction to nonlinear system: Common physical nonlinearities – saturation, friction, backlash, dead zone, relay Definitions: Singular points, nodal point, saddle point, focus point, vortex point, limit cycles. Stability of non linear systems using phase plane method – analytical and graphical methods The describing function method: Derivation of describing function of some common non linearities like dead zone and saturation, relay with dead zone and hysteresis, stability analysis using describing function method Liapunov’s stability criterion: Different stability criteria of Liapunov Digital Control: Introduction to digital control: Z-transforms, sampling and hold, comparison of analog and digital control system, pulse transfer function Stability of sampled data system: Jury’s test Digital controller and its realization: Series, parallel and cascade. Books: 1 Γοπαλ Μ: Χοντρολ Σψστεµσ, Πρινχιπλεσ ανδ ∆εσιγν ΤΜΗ
2 4
2 6
2 2 4 4
2 4 2 2
Electronics & Communication Engg 2 3 4 5 6 7 8 9 10 11 12 13
Γηοση,Χοντρολ Σψστεµ,Πεαρσον Εδυχατιον Κυο Β Χ: Αυτοµατιχ Χοντρολ Σψστεµ ΠΗΙ Κυο Β Χ: ∆ιγιταλ Χοντρολ Σψστεµ Οξφορδ Υνιϖερσιτψ Πρεσσ Ναγρατη Ι ϑ & Γοπαλ Μ: Χοντρολ Σψστεµ Ενγινεερινγ Νεω αγε Ιντερνατι οναλ Ζακ,Σψστεµσ & Χοντρολ, Οξφορδ Υνιϖερσιτψ Πρεσσ Σχηυλζ ∆ Γ & Γοπαλ Μ: Χοντρολ Σψστεµ Ενγινεερινγ Νεω Αγε Ιντερνατι οναλ Σ.Ν. Σιϖανανδαµ, Χοντρολ Σψστεµ Ενγινεερινγ,ςικασ Λι−ΞινΩανγ: Α χουρσε ιν Φυζζψ Σψστεµσ ανδ χοντρολ Πρεντιχε Ηαλλ Ζιµµερµανν Η.Τ.: Φυζζψ σετ τηεορψ ανδ ιτ σ Αππλιχατιονσ Αηµεδ Μ, Ιβραηιµ: Ιντροδυχτιον το Φυζζψ Ελεχτρονιχσ Βηατταχηαρψα, Χοντρολ Σψστεµ Ενγινεερινγ,Πεαρσον Εδυχατιον Α. καυφµανν: Ιντροδυχτιον το τηε τηεορψ οφ φυζζψ συβσετσ,ΠΗΙ
EC 804D
Software Engineering
Contact: 3L + 1T Credit:
4
Introduction: - Emergence of Software Engineering; Control Flow-Based Design, Data Structure-Oriented Design, Data Flow-Oriented Design, ObjectOriented Design; Software Life Cycle Models: Classical Waterfall Model, Iterative Waterfall Model, Prototyping Model, Evolutionary Model, Spiral Model; Comparison of Different Life Cycle Models.
7L
Requirements Analysis and Specification: - Requirements Analysis, Software Requirements Specification: SRS Document, Characteristics of a Good SRS Document, Organization of the SRS Document; Techniques for Representing Complex Logic: Decision Trees and Decision Table.
4L
Software Design: - What is a Good Software Design, Cohesion and Coupling, Neat Hierarchy; Function-Oriented Design: Overview of Structured Analysis/Structured Design Methodology, Structured Analysis, Data Flow Diagrams, Shortcomings of the DFD Model; Structured Design, Flow Chart vs. Structure Chart, Transform Analysis, Transaction Analysis; Functional vs. Object-Oriented Approach.
7L
User Interface Design: - Characteristics of a Good User Interface Design; User Guidance, Graphical User Interface, Types of User Interface; Command Language-Based Interface; Menu-Based Interface; Direct Manipulation Interface; Windowing Systems.
3L
Electronics & Communication Engg Coding, Documentation, Testing: - Coding: Standards and Guidelines, Code Walk-Through, Code Inspection; Software Documentation; Testing: Unit Testing, Black-Box Testing, White-Box Testing, Debugging, Integration Testing, System Testing.
5L
Software Project Management: - Project Planning; Project Size Estimation Metrics: Line of Code, Function Point; Project Estimation Techniques: Empirical Estimation (Expert Judgment, Delphi Cost Estimation), Heuristic (COCOMO), Analytical Estimation (Halstead’s Software Science); Staffing Level Estimation; Scheduling: Work Breakdown Structure, Activity Networks, Gantt Charts, PERT Charts; Organization and Team Structures; Risk Management; Software Configuration Management: Source Code Control System.
7L
Software Reliability and Quality Assurance: - Software Reliability; Software Quality; ISO 9000: What is ISO 9000 Certification, ISO 9000 for Software Industry, Why get ISO 9000 Certification, How to Get ISO 9000 Certification, Summary of ISO 9001 Requirements, Salient Features of ISO 9001 Requirements; SEI Capability Maturity Model.
4L
Computer Aided Software Engineering: - Benefits of CASE; CASE Support in Software Life Cycle; Characteristics of CASE Tools.
3L
Books:
1. Software Engineering: A Practitioner’s Approach by Roger S. Pressman; Fifth Edition, Tata McGraw-Hill. 2. Software Engineering by Ian Sommerville; Sixth Edition, Pearson Education. 3. Software Engineering Fundamentals,Behforooz,Oxford University Press 4. Software Engineering,Principles & Practices,R.Khurana,Vikas 5. Fundamentals of Software Engineering by Rajib Mall; Second Edition, Prentice-Hall India. 6. Software Engineering: Theory and Practice by Shari Lawrence Pfleeger; Second Edition, Pearson Education. 7. Fundamentals of Software Engineering by Carlo Ghezzi, Mehdi Jazayeri, Dino Mandrioli; Second Edition, Prentice-Hall India References: 1. Object-Oriented Analysis and Design with Applications by Grady Booch; Second Edition, Pearson Education. 2. Object-Oriented Analysis and Design by Andrew Haigh; Edition 2001, Tata McGraw-Hill. 3. Software Engineering,Jawadekar,TMH
Electronics & Communication Engg EC 804E
CAD on VLSI
Contact: 3L + 1T Credit:
4
Introduction: Evolution and trends in VLSI CAD. Design process, representations, flow and methodology. Dealing with complexity CAD Tool types. Example of a methodology: synchronous design and RTL modeling.
4L
Digital hardware modeling: Structure modeling: Logic networks, connectivity & netlists, Hypergraphs. Connectivity data structures. Introduction to logic simulation.
4L
Dynamic verification (Simulators): 4L Cycle-based simulation; logic relaxation; event-driven simulator kernels. Value sets. Zero/unit/variable delay simulation & issues. Coverage metrics; instrumentation. Simulation Algorithms: Compiled code & event driven
2L
Static logic verification (Formal): Advantages of static vs. dynamic verification; Logic equivalence checking. Advanced Boolean algebra: Shannon expansion, cofactors and Unate Recursive computation Paradigm
4L
Logic synthesis: 2- level minimization: exact vs. Heuristic, Multilevel minimization. Restructuring heuristics. Technology mapping; cell libraries
4L
Floor planning & placements: Layout elements, representations, methodologies. Floor plan structures. Placement algorithms – local/random search, forcedirected methods.
4L
Routing, compaction, layout verification: Global and detailed routing. Steiner trees, Channel routing; area routing; Wire length Estimators. 1-D layout compaction. Principles of layout verification.
4L
Static timing 6L Principles of static timing analysis; Delay graphs for combinational logic blocks; Arrival times, required times, slack, Basic algorithms for path analysis in combinational logic. False paths; Flip-flops, latches and delay constraints;
Electronics & Communication Engg Clocking methods; Verifying timing of sequential logic; Delay modeling of gates, interconnect and devices. Timing & power driven synthesis: Timing-driven logic synthesis; Timing-driven layout synthesis; Clock skew optimization; Approaches to the timing convergence problem.
4L
Books: 1. An Introduction to VLSI Physical Design, by M. Sarrafzadeh and C.K. Wong, McGraw-Hill. 2. VLSI Physical Design Automation -- Theory and Practice, by S.M. Sait and H. Youssef, World Scientific Publication Company. 3. Algorithms for VLSI Physical Design Automation by N. Sherwani, 3rd ed., Kluwer Academic Publishers, Boston, MA, 1995. 4. On Optimal Interconnections for VLSI by A. B. Kahng and G. Robins, Kluwer Academic Publishers, Boston, MA, 1995. 5. Clock Distribution Networks in VLSI Circuits and Systems by E.G.Friedman ed, IEEE Press, New York, NY, 1995
EC 804F
Coding Theory and Cryptography
Contact: 3L + IT Credit:
4
Introduction: Coding for reliable digital transmission and storage, Types of codes, Types of errors encountered, Error Control Strategies.
5L
Linear block codes: Definition, Syndrome and Error detection, Minimum distance, Error detecting and Error-correcting capabilities, Standard Array and Syndrome decoding, Probability of an undetected error for linear codes over BSC, Hamming code.
8L
Cyclic codes: Description, Generator & parity-check matrices of cyclic codes, Encoding of cyclic codes, Syndrome computation and error detection, Decoding, Cyclic Hamming Codes, Shortended cyclic codes.
8L
BCH codes: Description, Decoding BCH codes, Implementation of error correction, Non binary BCH codes and Reed-solomon codes, Weight distribution and Error detection of Binary BCH codes.
8L
Electronics & Communication Engg Convolutional codes: Encoding, Structural properties, Distance properties, Maximum likelihood decoding of convolutional codes, Viterbi algorithm, Performance bound for convolutional codes, Application of viterbi decoding.
8L
Cryptography: Overview of encryption technique, Encryption algorithm, Symmetric (secret key) cryptography, data encryption standard (DES), International data encryption algorithm (IDEA), RC ciphers, Asymmetric (public key) algorithm, RSA algorithm, Pretty good privacy (PGP), One way hashing structure communication using chaos functions cryptanalysis.
8L
Text books: 1. 2. 3. 4. 5. 6. 7.
Delf,Introduction to Cryptography,Springer Buchman,Introduction to Cryptography,Springer Jones, Information & Coding Theory,Springer Shu Lin & Costello, Jr. D.J., Error Control Coding: Fundamentals and Applications, Prentice Hall. Paterson, W.W. and Weldon, Jr. E.J., Error Correcting Codes; Prentice Hall. Ρανϕαν Βοσε, Ινφορµατιον Τηεορψ, Χοδινγ ανδ Χρψποτογραπηψ, ΤΜΗ Ροφτϑοηαννεσσον ανδΚ Σ Ζιγανγιροϖ, Φυνδαµενταλσ οφ Χονϖολυτιοναλ Χοδινγ, Υνιϖερσιτψ Πρεσσ
EC 804G
Biomedical Electronics
Contact: 3L + IT Credit:
4
Origin of bio-potential: • Electric activity of excitable cells, resting potential, action potential, Nerst equation, propagation of action potential. • Surface map of bio-potential- concept.
2L
Biomedical electrodes: • Electrode theory. • Working principle & application of different bio-potential electrodes & biochemical transducerso Microelectrodes, surface electrodes, needle electrodes o Reference electrode, pH electrode, blood gas electrode o Ion electrode.
4L
Cardiovascular measurements: • Brief description of cardiovascular system.
10L
Electronics & Communication Engg •
• • • •
Electrocardiographyo Sources of cardiac bio-potentials, o Methodology & principle of measurement o Electrocardiograms & their inferences Vector cardiography- concept Principles of direct & indirect measurement of blood pressure Principles of measurement of blood flow/cardiac rate PH & blood gas analyzer
Electroencephalography (EEG): • Sources of action potentials • Methodology & principle of measurement • Electroencephalograms & their inferences
4L
Electromyography: • Sources of action potentials • Methodology & principle of measurement • Electromyograms & their inferences
1L
Respiratory system measurement: • Respiratory mechanism, parameters of respiratory system • Principle of measurement of various parameters, impedance pneumograph, spirometer.
4L
Medical imaging systems: • Working principles of medical X-ray, CT scan, CAT scan, Ultrasound scanning, MRI
6L
Therapeutic & prosthetic devices: Pacemakers, Defibrillators, ventilators, respirators, heamodialysis machine
4L
Medical application of LASER including safety aspects
2L
Fiber optic application in imaging internal organs
1L
Effect of mm wave and microwave on human body
1L
Electrical safety: Physiological effect of electricity, micro shock & macro shock hazards, electrical safety standards for human body, basic approaches to shock protection.
1L
Books:
Electronics & Communication Engg 1. J J Carr & J M Brown – “Introduction to Biomedical Equipment Technology” – Pearson Education, Asia 2. Khandpur,Hand book of Biomedical Instrumentation,TMH 3. John G Webster – “Medical Instrumentation, Application & Design” – John Willey & Sons 4. L Cromwell, F J Weibwell & E A Pfeiffer – “Biomedical Instrumentation & Measurements” - PHI 5. Marvin D Weirs – “Biomedical Instrumentation” – Chilton Book Co, London. 6. S K Venkata Ram- “Biomedical Electronics & Instrumentation” – Galgotia Publications Pvt. Ltd. EC 804H
Data-Communication Sytems
Contact: 3L + IT Credit:
4
Basic data communication concepts: Host computers and terminal, modems, parallel and serial transmission, Asynchronomy and Synchronous transmission, Simplex, Half duplex and Duplex communication. Front end processor, Port-sharing device, Line splitters and remote intelligent controllers, Multiplexer: TDM, FDM, WDM. Data compression devices, Demultiplexer.
10Λ
Data Interfaces and transmission: Digital interface standards: RS-232C standard, hand shaking, connecting a DTE in RS-232C, RS-449, RS-422A and RS-432A standards. High-speed desktop serial interfaces. Remote digital transmission: T carrier ISDN, Packet data networks, Digital access, Data Communication Efficiency: Modems, Multi-speed modems, high speed modems, Error Correcting modems Data compression in modems. Short-wave modems, Facsimile and Fax modems.
8L
Data Integrity and Security: Data Integrity, Source of error control approaches, Implementation of error control, Echo checking, parity checking and cyclical purity, Hammering code, Checksums, Cyclical Redundancy check, Security and security measuring.
6L
Architectures and Protocols: OSI model, Traditional communications architectures: Systems network, architecture and other communication architecture protocols: Polling and selecting, automatic repeat request, common link level protocols. Binary synchronous communications, characters in a BSC frame, Synchronous data link control, Protocols Converters and Code Converters TCP/IP protocols, UDP.
8L
Electronics & Communication Engg Data transport layer: Service provided to the upper layers, Element of transport protocol: Addressing, establishing and releasing connections. Flow control and buffering, Multiphase crash recovery.
8L
Books: 1. 2. 3. 4. 5. 6. 7. 8.
Tanenbam: Computer Network, Pearson Education B. A. forouzan, Data communication and networking, TMH, 3rd edition. Bertsekas & Gallanger : Data network, PHI, 2nd Ed. Lack: Computer Network: Protocols, Standards and Interface, PHI, 2nd Ed. Wiliam A, S Hay, Understanding Data Communication Network. Michael, A. Miller, Data & Network Communication, Vikas Publishing. Zheng & Akhtar, Computer Networks for Scientists & Engineers,OUP Stallings, Data & Computer Communication, Pearson Education
EC 804I
Internet Technology
Contact: 3L + IT Credit:
4
Ιντερνετ αρχηιτεχτυρε & τοπολογψ: Ηιστορψ, Αρχηιτεχτυρε οϖερϖιεω, ΙΣΠ, Ρουτερσ, ∆ΝΣ, ΥΡΛ, ∆οµ Internet connectivity: Dial-up, ISDN, DSL, SONET, ATM, Wireless Internet Applications: FTP, Telnet, IMAP, POP3, SMTP, WAP, HTTP Mobile IP, VoIP, Multimedia over IP
Ιντερνετ Σεχυριτψ: Σεχυριτψ πολιχψ, Ρισκ ασσεσσµεντ, Υνιξ νετωορκ σεχυριτψ ισσυεσ, φιλε σψστ ∆ιγιταλ χερτιφιχατεσ, Φιρεωαλλ. Internet Programming: HTML, CGI script, Java Script
Text Books: 1. Practical Unix and Internet Security, by Garfinkel & Spafford, SPD O’Reilly 2. HTML & XHTML: The Definitive Guide, 4th Ed. By Musciano & Kenedy, SPD O’ Reilly. 3. Javascript: the Definitive Guide 3rd Ed., by D. Flanagan SPD O’ Reilly.
Electronics & Communication Engg EC 804J
Distributed Computing
Contact: 3L + IT Credit:
4
Introduction: - Definition, Goals: Connecting Users and Resources, Transparency, Openness, Scalability; Hardware Concepts; Software Concepts: Distributed Operating Systems, Network Operating Systems, Middleware; The Client-Server Model.
3L
Communication: - Layered Protocols; Remote Procedure Call: Basic RPC Operation, Parameter Passing, Extended RPC Models; Remote Object Invocation; Message-Oriented Communication.
5L
Processes: - Threads; Clients: User Interfaces, Client-Side Software for Distribution Transparency; Servers: General Design Issues, Object Servers; Code Migration; Software Agents.
6L
Naming: - Naming Entities: Names, Identifiers, & Addresses, Name Resolution, The Implementation of a Name Space, The Domain Name System, X.500.
3L
Synchronization: - Clock Synchronization; Logical Clocks; Global State; Election Algorithms: The Bully Algorithm, A Ring Algorithm; Mutual Exclusion: A Centralized Algorithm, A Distributed Algorithm, A Token Ring Algorithm, A Comparison of the Three Algorithms; Distributed Transactions: The Transaction Model, Classification Transactions, Implementation, Concurrency Control.
6L
Consistency and Replication: - Introduction: Reason for Replication, Object Replication; Data-Centric Consistency Models: Strict Consistency, Linearizability and Sequential Consistency, Causal Consistency, FIFO Consistency, Weak Consistency, Release Consistency, Entry Consistency; Client-Centric Consistency Models: Eventual Consistency, Monotonic Reads, Monotonic Writes, Read Your Writes, Writes Follow Reads; Distribution Protocols: Replica Placement, Update Propagation; Consistency Protocols: Primar-Based Protocols, Replicated-Write Protocols.
7L
Fault Tolerance: - Basic Concepts, Failure Models, Failure Masking by Redundancy; Process Resilience: Design Issues, Failure Masking and Replication; Reliable Client-Server Communication: Point-to-Point Communication, RPC Semantics in the Presence of Failures; Reliable Group Communication: Basic Reliable-Multicasting Schemes; Distributed Commit: Two-Phase Commit; Recovery: Check pointing.
6L
Distributed Object-Based Systems: - CORBA; Distributed COM.
4L
Electronics & Communication Engg Books: 1. Distributed Systems: Principles and Paradigms by Andrew S. Tanenbaum and Maarten van Steen; Second Indian Reprint 2003 Edition, Pearson Education. 2. Distributed Systems: Concepts and Design by George Coulouris, Jean Dollimore, Tim Kindberg; Third Edition, Pearson Education. 3. Distributed Computing,Liu, Pearson Education 4. Distributed Systems & Networks,Buchanan,TMH References: 1. Distributed Computing: A Practical Synthesis by Amjad Umar; Prentice-Hall. 2. Readings in Distributed Computing Systems by Thomas S. Casavant and Mukesh Singhal; IEEE Computer Society Press 1994 Edition, IEEE, Los Alamitos, California.
EC 804K
Digital Image Processing
Contact: 3L + IT Credit:
4
Digital image fundamentals: - Image digitization
1L
Sampling & quantisation
1L
Image resolution
1L
Colour perception & processing
1L
Image processing: - Pixel based transformation
1L
Geometric transformation
1L
Local processing: - Edge detection, subpixel location estimation Restoration: - Degradation, inverse fitting, Wiener filtering
1L
Binary image processing: - Thresholding, run length encoding
2L
Distance transforms, Medial axis transforms
2L
Morphological operations
1L
Region segmentation & Representation: - Split & merge algorithm
1L
Region growing
1L
Electronics & Communication Engg Image filtering: - Histogram modification
1L
Linear & Gaussian filters
2L
Contours: - Digital curves
3L
Poly line splitting
2L
Hop along algorithm
2L
Conic & Splines Hough transform
2L
Fourier description
2L
Textures: - Statistical syntactic & model based methods
2L
Image transforms: - Fourier, Hadamard, Discrete Cosine
2L
Wavelets & other orthogonal transforms
2L
Compression of image: - Predictive compression methods, vector quantisation, hierarchical & progressive methods, JPEG, MPEG
3L
Case studies
3L
Books: 1. “Fundamentals of Digital Image Processing” by Jain, Pearson Education 2. “Digital Image Processing”,Jahne,Springer 3. “Digital Image Processing” by Gonzalez, 2nd ed., Pearson 4. “Image Processing for Computer Graphics” by Gomes, Springer 5. “Digital Image Processing” by Pratt, 2nd ed., Willey 6. “Algorithms for Image Processing and Computer Vision” by Parker, Willey 7. “Digital Image Processing using MATLAB” by Gonzalez, Pearson Education 8. “Practical Algorithms for Image Analysis” by Seul, Cambridge University Press 9. “Digital Image Processing” by Castleman, Prentice Hall 10. “Pattern Classification” by Duda, 2nd ed., Willey 11. “Image Processing – Analysis & Machine Version” by Sonka, Brooks Cole
Electronics & Communication Engg
FIRST YEAR FIRST SEMESTER A.
THEORY CODE
SL .N O. 1
Hu 101
2 3 4 5
Ph 101 M 101 ME 101 EE 101
6
Ch 101
THEORY
English Language & Communication Engineering Physics Mathematics Mechanical Sciences Basic Electrical Engineering Environment & Ecology
CONTACTS (PERIODS/WEEK) L T P T OTA L 2 1 3 3 3 3 3
1 1 1 1
7 8 9 10
3
4 4 4 4
4 4 4 4
3
3
22
22
3 3
3 3
2 2
3 3
3 3 12
2 2 8
3
Total of Theory B.
CREDITS
PRACTICALS Ph 191 EE 191
Engineering Physics Lab Electrical Engineering Lab ME 191 Engineering Graphics ME 192 Workshop Practical Total of Practical Total of Semester
34
30
Electronics & Communication Engg
FIRST YEAR SECOND SEMESTER
A.
THEORY CODE
SL .N O. 1 2 3 4
Ph 201 M 201 ME 201 CS 201
5 6
EC 201 Ch 201
THEORY
Engineering Physics Mathematics Mechanical Sciences Introduction to Computing Basic Electronics Engg. Engineering Chemistry
CONTACTS (PERIODS/WEEK) L T P TOTAL 3 3 3 2 3 3
3 4 3 3
3 4 3 3
4 3
4 3
20
20
3
3/ 2
1
2 3
3/ 2
1
3 3
3 3
2 2
3 3
3 3 15
2 2 10
1 1 1
Total of Theory B.
PRACTICALS
7
Ph 291
Engineering Physics Lab
8
Ch 291
Engineering Chemistry Lab
9 10 11 12
CREDITS
CS 291 EC 291
Computing Lab Electronics Engineering Lab ME 291 Engineering Graphics ME 292 Workshop Practical Total of Practical Total of Semester
2
35
30
Electronics & Communication Engg SECOND YEAR FIRST SEMESTER
A. Theory Sl. Code No. 1. 2. 3. 4. 5. 6.
M 302 EE 301 EC 301 CS 302 CS 312 EE 302
B. Practicals EE391 CS382 EE392 CS392
Subject Mathematics Circuit Theory & Networks Solid State Devices & Circuit Data Structure & Algorithms Numerical Methods & Programming Electrical and Electronic Measurement Total Theory
Circuit & Network Lab Numerical Methods & Programming Lab Electrical and Electronic Measurement Lab Data Structure Lab
Total Practical Total of Semester
Contacts Periods/Week L T P 3 1 -3 1 -3 0 -3 1 -3 0 -3 1 --
-----
-----
3 3 3 3
Credits Total 4 4 3 4 3 4
4 4 3 4 3 4
22
22
3 3 3 3
2 2 2 2
12 34
6 30
Electronics & Communication Engg Second Year Second Semester A.THEORY: Code
EC 401 EC 402 CS 404 EC 403 EI 402
A. Theory Theory Contacts Credits Periods/Week T P Total L Analog Electronic Circuits 0 0 3 3 Digital Electronics & 3 1 0 4 4 Integrated Circuits Computer Organization & 3 0 0 3 3 Architecture Analog Communication 0 0 3 3 3 Electronic measurements 0 0 3 3 & Instrumentation 3 3 Total Theory
16
16
B. PRACTICAL: Code EC 491 EC 492 EC 493 EI 492
B. Practicals Practicals Contacts Periods/Week L T P Analog Electronic 0 0 3 Circuits Lab Digital Electronics & 0 0 3 Integrated Circuits Lab Analog Communication Lab
0
0 Electronic Measurements & Instrumentation Lab Total Practical
Credits Total 3 3
2 2
0
3
3
2
0
3
3
2
12
8
C. SESSIONAL: HU 481
Technical Report writing & / Language Practice Lab
0
0
0
3
2
Electronics & Communication Engg TOTAL OF SESSIONAL
3 31
TOTAL of Semester :
2 26
Third Year First Semester THEORY SL NO.
CODE
1
EC 501
2
EC 502
3
EC 503
4
EC 513
5
EI 502
THEORY
Line Communication System EM Theory, Propagation & antenna Audio & Video Engineering Linear & Digital Control Systems Microprocessor & Microcontroller TOTAL THEORY
CONTACT PERIODS PER WEEK
TOTAL
CREDITS
L 3
T 0
P 0
3
3
3
1
0
4
4
3
0
0
3
3
3
1
0
4
4
3
1
0
4
4
18
18
TOTAL
CREDITS
PRATICAL SL NO.
CODE
1 2 3
EC 592 EC 593 EC 583
4
EI 592
PRACTICAL
CONTACT PERIODS PER WEEK
Propagation & Antenna Lab Audio & Video Engg. Lab Linear & Digital Control System Lab Microprocessor & Micro controller Lab
L
T
P
0 0 0
0 0 0
3 3 3
3 3 3
2 2 2
0
0
3
3
2
12
8
Total Practical Total of Semester:
30
26
C. SESSIONALS 0 Total of Sessionals Total of Semester -
0
0 0 30
0 0 26
Electronics & Communication Engg Third Year Second Semester A. Theory Code HU 601 EC 601 EC 602 EC 603 EC 604
Theory Industrial Management Optoelectronic Devices & Circuits RF & Microwave Engineering. Digital Communication Systems Microelectronic Technology and Circuits Total of Theory
L 3 3 3 3 3
T 0 1 1 1 1
P 0 0 0 0 0
Total 3 4 4 4 4
Credits 3 4 4 4 4
19
19
B. Practical Code EC 692 EC 693
Code EC 683 EC 682
Practicals Microwave Engineering. Lab Digital Comm. Systems Lab Total of Practicals
L 0 0
T 0 0
P 2 2
Total 2 2 4
Credits 2 2 4
C. Sessional Sessionals L Electronic Design Lab 0 Group Discussion & Seminar 0
T 0 0
P 5 3
Total 5 3 8 31
Credits 4 2 6 29
Total of Sessionals
Total of Semester
6 –Week Industrial Training during Summer Vacation
Electronics & Communication Engg
FOURTH YEAR FIRST SEMESTER – 7th A. Theories
Sl. No. 1 2 3 4
Code
Subject
ΕC 701 Digital Signal Processing EC702 VLSI Design EC703 System Programming & Operating Systems EC 704 Elective-I
Contacts Periods/Week L T P 3 1 0 3 1 0 3 1 0
Total
Credit
4 4 4
4 4 4
4 16
4 16
Contacts Periods/Week L T P 0 0 3 0 0 3
Total
Credit
3 3 6
2 2 4
Contacts Periods/Week L T P 0 0 3 0 0 3
Total
Credit
3 3 6
2 4 6
3
1
0
Total of theory
B. Practicals
Sl. No. 1 2
Code ΕC791 EC792
Subject Digital Signal Processing Lab VLSI Design Lab Total of practical
C. Sessionals
Sl. No. 1 2
Code ΕC793 EC794
Subject Project-I Group discussion Total of sessionals Total credit of semester
26 Elective-I
1 2 3 4 5 6 7
Code ΕC704 Α EC704B EC704C EC704D EC704E EC704F EC704G
Subject Advanced Antenna Engineering Advanced Semiconductor Advanced Mathematics for Electronic Engineering Computer Communication & Networking Object Orient Programming Data Base Management Systems ΕΜΙ / ΕΜΧ Techniques & Management
Electronics & Communication Engg 8 9 1 0 11 1 2
EC704H Process Control Engineering EC704I Industrial Electronics EC704J Numerical Techniques for RF Systems EC704K Pattern Recognition & Machine Intelligence EC704L Computer Vision
FOURTH YEAR SECOND SEMESTER – 8th A. Theories
Sl. No. 1 2 3 4
Code ΗΥ 801 EC 802 EC 803
Subject Values of Ethics of Profession
Optical Fibre Communication Wireless Communication Elective – II
Contacts Periods/Week L T P 3 0 0 3 1 0 3 1 0 3 1 0
Total
Credit
3 4 4 4 15
3 4 4 4 15
Contacts Periods/Week L T P 0 0 3
Total
Credit
3
2
3
3
3
3 9
4 4 4 14
Total of theory
C. Sessionals
Sl. No.
Code
Subject
1
ΕΧ891
Αδϖανχεδ Χοµµυνιχατιον ΛΑ Β
2 3 4
EC892 EC893 EC894
Project-II Grand Viva Seminar-II Total of sessionals
0
Total credit of semester
Elective-II
1 2 3 4 5 6 7 8
Χοδε ΕΧ804Α EC804B EC804C EC804D EC804E EC804F EC804G EC804H
Συβϕεχτ Φιβρε Οπτιχ Μετρολογψ RF & Microwave Network Modern Control Systems Software Engineering CAD VLSI Coding Theory & Cryptography Biomedical Electronics Data-Communication Systems
0
29
Electronics & Communication Engg 9 EC804I 1 EC804J 0 11 EC804K
Internet Technology Distributing Computing Digital Image Processing
DETAILS OF CURRICULUM ENGLISH LANGUAGE & COMMUNICATION Code : Hu 101 Contact : 2L + I T = 3 Credits: 3
Guidelines for Course Execution Objective of the Course To impart basic skills of communication in English through intensive practice to the first year UG students of Engineering so as to enable them to function confidently and effectively in that language in the professional sphere of their life. Desired Entry Behaviour The student must have some basic command of English that is must be able to : 1. Write reasonably grammatically 2. Understand ( if not use ) at least some 2500 general purpose words of English to express himself in writing and 1500 words to talk about day-to-day events and experiences of life. 3. Understand slowly-delivered spoken material in Standard Indian English , and 4. Speak reasonably clearly ( if not fluently ) on routine matters with his fellow students. Strategies for Course Execution • • • • • •
The topics must be conveyed through plenty of examples. Lecture classes must be conducted as lecture-cum-tutorial classes. It is a course that aims to develop skills. It is therefore “practical” in orientation. Plenty of exercises of various kinds must be done by the students both inside and outside the classroom. The teacher must not depend on a single or a set of two or three text books. He must choose his materials from diverse sources. Keeping in view the requirements of his students , the teacher may have to prepare some teaching and exercise material. For practice in listening , good tape recorders can be used if the more advanced facilities ( for example , language laboratory ) are not available. In fact they can be used very fruitfully. The teacher must function as a creative monitor in the class-room.
Electronics & Communication Engg •
Minimum time should be spent in teaching phonetic symbols , stress , intonation , etc. The aim should be to enable the students to find out for himself the correct pronunciation of a word from a learner’s dictionary. In teaching speaking, emphasis should be on clarity , intelligibility and reasonable fluency rather than on “ correct “ pronunciation of words. Classroom presentation and group discussion sessions should be used to teach speaking.
End Results from the Course Some Key Concepts Communication as sharing; context of communication; the speaker / writer and the listener / reader; medium of communication; barriers to communication; brevity, clarity and appropriateness in communication.
Writing Selecting material for expository, descriptive , and argumentative pieces, business letters; formal report; summarizing and abstracting ; expressing ideas within a restricted word limit; paragraph division; the introduction and the conclusion; listing reference material; use of charts, graphs and tables ; punctuation and spelling; semantics of connectives, modifiers and modals; variety in sentences and paragraphs.
Reading Comprehension Reading at various speeds ( slow , fast , very fast ) ; reading different kinds of texts for different purposes (for example , for relaxation , for information , for discussion at a later stage , etc.) ; reading between the lines.
Speaking Achieving desired clarity and fluency ; manipulating paralinguistic features of speaking ( voice quality , pitch , tone , etc. ) pausing for effectiveness while speaking ; task-oriented , interpersonal , informal and semiformal speaking ; task-oriented, interpersonal , informal and semiformal speaking; making a short , classroom presentation.
Group Discussion Use of persuasive strategies including some rhetorical devices ( for emphasizing , for instance; being polite and firm; handling questions and taking in criticism of self; turn-taking strategies and effective intervention ; use of body language. Telephonic Conversation.
Listening Comprehension
Electronics & Communication Engg Achieving ability to comprehend material delivered at relatively fast speed; comprehending spoken material in Standard Indian English, British English and American English ; intelligent listening in institutions such as an interview in which one is a candidate.
Syllabus Details: Grammar – Correction of sentence, Vocabulory / word formation, Single word for a group of words, Fill in the blank, transformation of sentences, Structure of sentences – Active / Passive Voice – Direct / Indirect Narration ( 5 lectures) Essay – Descriptive – Comparative – Argumentative – Thesis statement- Structure of opening / concluding paragraphs – Body of the essay ( 7 lectures) Reading Comprehension – Global – Contextual – Inferential – Select passages from recommended text ( 8 lectures) Business Correspondence – Letter Writing – Formal. Drafting. Biodata- Resume′Curriculum Vitae ( 7 lectures) Report Writing – Structure , Types of report – Practice Writing ( 8 lectures) Communication / Public Speaking skills , Features of effective speech, verbalnonverbal ( 7 lectures) Group discussion – principle – practice
( 6 lectures)
Distribution of marks: Examination Letters including official Precis Comprehension (chart / graph) Report writing including technical/scientific Essay Grammar
Assessment
10 10 10 10 10 20 70
Electronics & Communication Engg Class tests
10 Unit Tests
Reading ability Speaking ability Group Discussion Formal conversation
5 5 5 5 30
References / Books: 1. Mark MaCormack : “Communication” 2. John Metchell “ How to write reports” 3. S R Inthira & V Saraswathi “ Enrich your English – a) Communication skills b) Academic skills “ Publisher CIEFL & OUP 4. R.C. Sharma and K.Mohan , “Business Correspondence and Report Writing “ , Tata McGraw Hill , New Delhi , 1994 5. L.Gartside , “Model Business Letters” , Pitman , London , 1992 6. Longman , “Longman Dictionary of Contemporary English” ( or ‘Oxford Advanced Learner’s Dictionary of Current English’ , OUP , 1998. 7. Maxwell Nurnberg and Rosenblum Morris , “All About Words” , General Book Depot, New Delhi , 1995 8. A Text Book for English foe Engineers & Technologists 9. Written Communication in English by Sara-Freeman – Orient Longman 10. English skills for Technical Students by British Council 11. The Young Writer’s TheraurusS by A.J.Koutsoukis – Orient Longman 12. Communicating at Work by Alder & Elmhorst – McGraw-Hills International 13. Succeeding Through Communication – Subhash Jagota, EXCEL BOOKS 14. Art of Effective Communication – Charles J Margerison, EXCEL BOOKS 15. Communication Skill For Effective Management – A.Ghanekar.EPH 16. Communication Skill – L.M.Shaikh.EPH 17. Communication Skill for Technical Students – Faratullah, Orient Longman 18. English Skills for Technical Students – Orient Longman 19. English Online – Jayasree Mohan Raj, Orient Longman 20. Spoken English – R.K.Bansal, Orient Longman 21. English for Engineers & Technologists Vol.1 & 2 – Orient Longman 22. Speak English (with Audio Cassettes Vol.1 – Vol.8) – Don Dallas,Orient Longman
ENGINEERING PHYSICS Code : Ph 101 Contacts: 3L + 1 T = 4 Credits : 4
Electronics & Communication Engg Total lecture & theoretical classes needed = 43 Theory of Relativity 7L Galilean transformation , Inertial frame of reference , Non inertial frames and fictitious forces (Centrifugal and Coriolis forces – deviation of the path of a freely falling body) , Outline of Relativity (shortcomings of Newtonian Relativity), MichelsonMorley experiment, Postulates of Special Theory of Relativity, Lorentz transformation of space and time , length contraction , variation of mass with velocity , addition of velocities, equivalence of mass and energy.
Geometrical Optics
5L
Introduction to Matrix Algebra, Combination of thin lenses , cardinal points of coaxial system of thin lenses , thick lenses, location and properties of cardinal points . Matrix method in paraxial rays - introduction, effect of translation and refraction. Imaging by a spherical Refracting surface, Imaging by a co-axial optical system (thick lens & lens formulae), unit planes, Nodal planes Physical Optics Interference 5L Huygen’s Principle, relation between phase and path difference, Secondary waves, Coherence (Spatial & Temporal) Analytical treatment of interference , Intensity distribution of fringe system , Coherent and non-coherent sources , Fundamental conditions of interference , Fresnel’s biprism , Displacement of fringes , Wedge shaped films , Newton’s rings Diffraction 4L Concept of diffraction, classification of diffraction (Fraunhofer and Fresnel class), Single slit and Double slit diffraction, diffraction grating ,reflection (introduction) and transmission (detailed theory)), resolution (Rayleigh criterion), Limit of resolution , resolving power of grating . Polarisation 7L Concept of polarization, Brewster’s law , double refraction , geometry of calcite crystal , optic axis, Nicol prism, circularly and elliptically polarized light , retardation plates (half wave and quarter wave) , analytical treatment of production of polaristaion, polarimeter. Laser: Spontaneous, absorption and stimulated emission of radiation – Einstein A,B coefficients, Population Inversion – He Ne Laser, Ruby Laser –application, Basic principle and application of optical fibres.
4L
Acoustics
7L
Simple Harmonic motion – free, damped vibration (analogy with electric circuits), Damped Harmonic motion, Forced vibration Amplitude resonance, velocity resonance and energy intake. Transverse vibrations and longitudinal vibrations, wave equation,
Electronics & Communication Engg sound absorption and reverberation, Sabine's formula. Production and applications of Ultrasonics , Acoustics of buildings. Dynamics of Fluids
4L
Elementary treatment (no vector method used),Continuity equation , Bernoulli’s theorem and its applications, Torcelli’s theorem, Viscosity, flow of liquid through a capillary tube, capillaries in series and parallel, Poiseullie's formula, Stoke’s formula, rotation viscometer.
References / Books 1. 2. 3. 4. 5. 6.
Optics by A.K.Ghatak Mechanics by D.S.Mathur Physics of Waves and Oscillations by Bajaj TMH A treatise on heat by Saha and Srivastava Physics of Oscillations and Waves by R.B.Singh Jenkins and White , “Optics, McGraw-Hill Book Company Introduction to special Realtivity by Robert Resnick 7. Optics by P.K.Cahkraborty 8. Optics (Teach yourself Physics) by A.Yadav (Bharati Bhawan) 9. Acoustics by D.P.Roy Chowdhury 10. Waves and Oscillations- Brijlal, Vikas 11. Text Book of Sound- Brijlal, Vikas 12. Engineering Physics- Basavraj,Vikas 13. Applied Physics- Rajasekran, Vikas 14. Waves & Oscillations – Chaudhari R.N (New Age International) 15. Physics for Engineers – Srinivasan M.R. (New Age International) 16. Lasers & Non – Linear Optics – Laud B.B. (New Age International) 17. Acoustics Waves & Oscillations – Sen S.N. (New Age International) 18. Optoelectronics & Fibre Optics Communication – Sarkar C.K. (New Age Inter.) 19. Introduction to Modern Physics – Singh R.B. (New Age International) 20. Basic Fluid Mechanics – Kothandaraman C.P. (New Age International) 21. Fluid Mechanics & its Applications – Gupta V. (New Age International) 22. Geometrical & Physical Optics – R.S.Longhurst (Orient Longman) 23. Wave Optics & its Applications – R.S.Sirohi (Universities Press) 24. Oscillations & Waves – Reddy K.R. (Universities Press) 25. Optical Communication – Mukunda Rao (Universities Press)
MATHEMATICS Code: M 101 Contacts: 3L + 1 T = 4 Credits: 4 Calculus of Functions of One Variable Review of limit and continuity and differentiability.
1L
Electronics & Communication Engg Successive differentiation, Libnitz’s theorem ( without proof but with problems of the type of recurrence relations in derivatives of different orders and also to find (yn)n ): 3L Rolle’s theorem (statement only), Mean Value Theorem (Lagrange & Cauchy), Taylor’s theorem (without proof and problems in respect of direct use and applications of the theorem only),Maclaurin’s expansion in infinite series of the functions: log(1+x)n , ex , sinx/cosx, (a+x)n , n being a negative integer or a fraction. 5L Newton’s method for approximate solution – This is included in the Numerical Analysis in 2nd Sem (M 201) and so should be extended from M101 and instead of this we may teach L’Hospital Rule. 1L Fundamental theorems of integral calculus (Statement and related problems) 1L Elementary Reduction Formulae for Integrals.(Problems of the type π/2 n
n
∫ sec xdx, ∫ tan xdx, Integral 2L
π/2 0
n
cos xdx , Integral
0
cosn xdx )
Applications. Calculation of length (assuming formulae for Cartesian only) Moment of Inertia and C.G. Volume and surface of revolution. 5L
Infinite Series: Concepts of Sequence, Convergence and Divergence of Infinite series – and typical examples of convergent and divergent series. 1L Comparison test and related problems (statement only) Ratio test and related problems (statement only)
1L 1L
Cauchy’s root test , Cauchy’s integral test and related problems( statements only) 1L Alternating series, Leibnitz’s theorem (without proof), absolute and conditional convergence and related problems. 2L Expansions of functions into Taylor and Maclaurin series.
1L
Electronics & Communication Engg Calculus of Functions of Several Variables Introduction of Function of several variables and examples. 2L Knowledge of limit and continuity. Partial derivative & related problems. Euler’s Theorem & Problems upto 3 variables. 1L Chain rules and related problems. Differentiation of implicit functions & related problems.
1L
Total differentials and related problems. Jacobian – Definition and related problems for two variables.
2L
Tangent planes and normals and related problems. 1L Maxima , minima and saddle points – definition , condition of extrema & problems for two variables. Lagrange’s multiplier method – problems related to three variables. 2L Double Integrals, Triple Integral – Discussion w.r.t. different type of limits and problems. 3L Transformations, applications to areas and volumes, surface area of revolution. 2L Vector Calculus Scalar and vector fields – Definition (terminologies, products: dot,cross,box,vector triple product) 1L Gradient , directional derivative,divergence , curl. (with problems). 2L Lines and Surface integrals with examples. 2L
Green’s theorem with problems Divergence theorem do Stoke’s theorem do
4L
TOTAL = 48L
Electronics & Communication Engg References / Books: 1. G.B.Thomas and R.L. Finney , “Calculus and Analytic Geometry”, 6th edition, Addison Wesley / Narosa, 1985. 2. Piskunov, “Differential and Integral Calculus”, Vol-I & II , Mir Publishers , Moscow , 1979 3. B.S. Grewal “Engineering Mathematics”, S. Chand & Co., New Delhi. 4. Integral Calculus , Das & Mukherjee 5. An Introduction to Real Analysis- S.K.Mapa 6. Higher Algebra – Lahiri & Roy 7. Higher Algebra , Ghosh & Chakraborty 8. Higher Algebra, Bernard & Child 9. Differential Calculus, Maity & Ghosh 10. Integral Calculus , Maity & Ghosh 11. Engineering Mathematics, Prof.T.Majumdar 12. An Introduction to Analysis , Mallick & Arora 13. Undergraduate Engg Math- Jana, Vikas 14. Engineering Math Vol 1,2,3- Lakshami, Vikas 15. Calculus of One Vairable – Pandey G.S. (New Age International) 16. Differential Calculus – Dhami H.S. (New Age International) 17. Integral Calculus – Dhami H.S. (New Age International) 18. Numerical Methods for Engineers – Gupta S.K. (New Age International) MECHANICAL 19. A Textbook of Engg Maths Vol.1 &SCIENCES Vol.2 – Dutta D. (New Age Inter.) 20. Advanced Engg. Mathematics By D.P. Das, Cyber Tech Code: ME 101 Contacts: 3L + 1 T = 4 Credits: 4
Force systems & Equilibrium: Types of forces- concurrent, coplanar, distributed, spatial, resultant of a force about an axis, concept of equilibrium. 1L Moment and couple, Principles of Transmissibility.
1L
Lamis and Varignon’s theorem + 1T
1L
Resultant of a coplanar force system into a single force and a couple. 1L Computation of centroids, centre of gravity 1T
2L
+
Moment of inertia of areas and masses 2L Concepts of friction. Laws of coulomb Problems- applications to wedges- square threaded screws and bolts. 3L Applications of Simple Structures 2L + 1T Analysis of plane pin joints, trusses and frames, Methods of joints, sections and members.
Electronics & Communication Engg Virtual works- Principle of virtual work Simple applications to machines, mechanical efficiency Potential energy and equilibrium.
1½L 2L + 1T 1½L
Total : 18L + 4T
Mechanics of Materials Concepts of stress and strains- Internal and external forces 1L Stress-normal, shearing and bearing Deformations Strain-Normal, shearing and bearing Stress-strain diagram
1L
Elastic and plastic behaviour, elastic constants and their mutual relations 2L St.Venaut’s principle Thermal stresses Shearing force and bending moments 2T Shear and Bending moment diagrams and their applications
2L
+
Deflections of beams. (Double Integration Method)
1½L
Principal stresses, graphical representation by Mohr’s circle (two dimensional) 1L Computations of stress and strain in simple structure and thin walled pressure vessels, Principle of strain energy. Hoop stress 1 ½ L + 1T Total : 10L + 3T
Kinematics and Kinetics Rectilinear and curvilinear motion of particles 2L Translation and rotation of rigid bodies
1L
General plane motions, equations of motions in non-inertial frames of reference 1L
Electronics & Communication Engg Inertia force, D’Alembert’s principle 1T
1L
+
Principle of work and energy, application to plane motion of particles and rigid bodies, conservation of energy, power, efficiency. 2L + 1T Principle of impulses and momentum, application to plane motion of particles and rigid bodies. 1L Mechanical vibrations: Introduction to free forced and damped vibrations. 2L + 1T Total = 38L + 10T
References / Books: 1. 2. 3. 4. 5. 6. 7.
Timoshenko & Young- “Engineering Mechanics”- McGraw Hill, 4th Ed K.L.Kumar-“Engineering Mechanics”-Tata McGraw Hill, New Delhi Beer , F.P. and Johnston. F.R. , “Mechanics for Engineering “, McGraw Hill Shames I.H., “Engineering Mechanics”, Prentice Hall of India. Meriam , J.L., “Statics”, John Wiley Meriam , J.L., “Dynamics”, John Wiley Y.N.Walawalkar – Engineering Mechanics. EPH 8 .Suman Chakraborty– Fundamental Concept In Engineering Mechanics,(Statisc, Strength of Materials, Dyanmics ).(EPH.) 9 .Ferdinand, P.Beer & E. Russel Johnston Jr.-“Mechanics for Engineers (statics)”- McGraw Hill Book Co. 10. Ferdinand, P.Beer & E. Russel Johnston Jr.-“Mechanics for engineers(dynamics)”- McGraw Hill 11. Ferdinand, P.Beer & E. Russel Johnston Jr.-“Mechanics of Materials”- McGraw Hill Book Co. 12. Irvin L. Shames-“Engineering Machines”-Printice Hall of India 13. Strength Of Materials – B.L. Singhal. EPH. 14. Strength of Matreials- Bahvikati ,Vikas 15. Engineering Mechanics- Rajasekran, Vikas 16. Engineering Mechanics- Stat and Dynamics, Vikas 17. Engineering Mechanics – Bhavikatti S.S., New Age International 18. Problems & Solutions in Engg Mechanics – Bhavikatti S.S., New Age International 19. Introduction to Mechanical Engineering – Chandra S.,New Age International 20. Mechanical Measurements – Sirohi R.S., New Age International 21. Non Linear Mechanical Vibrations – Srinivasan P., New Age Inter. 22. Mechanism & Machine Theory – Rao J.S., New Age International 23. Strength of Materials Vol.1 – Prakash Rao D, Universities Press 24. Introduction to Strength of Materials – Prakash Rao D.,Universities Press
Electronics & Communication Engg 25. Engineering Thermodynamics (through Examples) – Y.V.C.Rao, Universities Press
BASIC ELECTRICAL ENGINEERING Code: EE 101 Contacts: 3L + 1T = 4 Credits: 4 Coulomb’s law, Gauss’s theorem (proof), capacitance calculation for plates, concentric spheres and co-axial cylinders, dielectrics, stored energy, electrostatic precipitator, electrostatic photocopying ( Xerox ). 6L Ohm’s law, Kirchhoff’s laws, mesh current and node voltage methods, Delta-star and star-Delta conversion, superposition theorem; Thevenin’s and Norton’s theorems (with independent sources), Maximum power transfer theorem (with proof) 5L Magnetism as a Relativistic effect; Biot-savart law, Ampere’s circuital law, magnetic field due to long straight conductors, coils and solenoids; magnetic forces : Lorentz /Ampere force, force production in simple systems (as in PMMC) 5(4) L B-H characteristics of ferromagnetic materials, Magnetic circuits, Faraday’s law, self and mutual inductance, Energy stored in a magnetic field, lifting power of electromagnet, Hysteresis and Eddy current losses. 3L D.C. Machines: Construction , Characteristics of D.C.generators and D.C. motors( qualitative and only for shunt & series machines), starting (by 3-point starter) and speed control of D.C. machines (armature voltage and field current control) 5(4) L
D.C. transients in R-L, R-C and R-L-C circuits 3(2) L A.C. generation ,waveforms, average and RMS values, peak-factor, R-L, R-C and R-L-C circuits, symbolic notations, j-operator, complex representation of impedances, power factor, active and reactive power, series, parallel and series parallel circuits, series and parallel resonance, Q-factor ; application of circuit theorems.Maximum power transfer theorem in A.C. circuits. 7(6) L Three phase power supplies, Delta and star connection, line and phase quantities, solution of 3-phase circuits for balanced voltage and balanced loads, phasor diagrams, 3 phase, 4 wire circuits, power measurement by two wattmeter method. General structure of electrical power systems, Power transmission & distribution
Electronics & Communication Engg through overhead lines & underground cables.(single line diagram only) 5L Single phase Transformers : Core and shell type construction, EMF equation, no load and on load operation, open and short circuit tests, equivalent circuit, regulation and efficiency calculations. 3L 3 Phase Induction Motors: Construction, Production of rotating field, principle of operation ratings. Torque –speed characteristics ( qualitative only).Starters for squirrel cage and wound rotor Induction motors. Speed Control (only voltage control and frequency control) References / books: 1. Nagrath I J – “Basic Electrical Engineering” Tata McGraw Hill Pub. Co. 2. Kamaleshaiah and Naidu – “Introduction to Electrical Engineering” Tata McGraw Hill Pub. Co 1995. 3. Edward Hughes ( revised by Ian McKenzie Smith) , “Electrical Technology “ , Seventh Ed. , English Language Book Society Publication with Longman , 1995. 4. Vincent Del Torro , “Electrical Engineering Technology “ , Second Edition, Prentice Hall of India Pvt. Ltd. , 1994 5. Principles and Applications Of Electrical Engineering by Rizzoni TMH 6. H.Cotton , “Advanced Electrical Technology “ , Issac Pitman , London 7. Theodore Wildi, “Electrical Machines, Drives and Power Systems”, Second Ed. , Prentice Hall, 1996. 8. J.R. Cogdell , “ Foundations of Electrical Engineering “ , Second Ed. , Prentice Hall, 1996 9. Cotton H – “Electrical Technology”- Wheeler, 1989. 10. Parker Smith S – Problems in Electrical Engineering , CBS, 9th Edn, ‘81 11. JR Cogdell, Foundations of Electrical Engineering . PHI 12. McGraw Hill Encyclopedai of Science & Technology , Vol.6 & 13 13. Theory And Problems Of Elements Of Electrical Engineering – Vaidya,Bhagwat, EPH. 14. Basic Electrical Science and Technology- Murgesh Kumar, Vikas 15. Experiments in Basic Electrical Engg – Bhattacharya S.K., New Age International 16. Fundamentals of Electrical Machines – Gupta B.R., New Age International 17. Engineering Basics – Thyagarajan T., New Age International 18. Electrical Machine Design Data Book – Shanmugasundaram A., New Age Inter. ENVIRONMENT & ECOLOGY Code: Ch 101 Contacts: 3L = 3 Credits: 3 General
Electronics & Communication Engg Basic ideas of environment, basic concepts related to environmental perspective, man, society and environment, their inter relationship. 1L Mathematics of population growth and associated problems, definition of resource, types of resource, renewable, nonrenewable, potentially renewable, effect of excessive use vis-à-vis population growth, definition of pollutant and contaminant. Environmental impact assessment. 2L Environmental degradation: Acid rain, toxic element, particulates, noise pollution , air pollution and its effect on man. 1L Overall methods for pollution prevention, environmental problems and sustainable development , components of environment 1L Ecology Elements of Ecology : System, open system, closed system, definition of ecology, species, population, community, definition of ecosystem, biotic and abiotic components. Ecological balance and consequence of change: Effect of abiotic factor on population, flow chart of different cycles with only elementary reaction [oxygen, nitrogen, phosphate, sulphur], food chain [definition and one example of each food chain] 3L Air Pollution and Control Atmospheric Composition: Troposphere, stratosphere, stratopause and mesopause 1L
mesosphere,
thermosphere,
tropopause,
Energy Balance: Conductive and convective heat transfer, radiation heat transfer, simple global temperature modal [Earth as a black body, earth albedo]), problems. 3L
Green-house effects: Definition, impact of greenhouse gases on the global climate and consequently on sea water level, agriculture and marine food. 1L
Climate , weather:
Electronics & Communication Engg Difference between climate and weather Global warming and its consequence: 2L Adiabatic lapse rate, atmospheric stability, temperature inversion, radiation inversion Atmospheric dispersion: Maximum mixing depth, ventilation coefficient, smokestack plumes and atmospheric lapse rate. 1L The point-source Gaussian plume model excluded. Source and effect of pollutants: Toxic chemicals in the environment , toxic chemicals in air , suspended particulate matter, carbon dioxide, sulphur dioxide, nitric oxide, lead, carbon monoxide. 2L Primary and secondary pollutants: Emission standard, criteria pollutant, oxides of carbon, oxide of nitrogen, oxide of sulphur, particulate, PAN Depletion Ozone layer: CFC, destruction of ozone lair by CFC, impact of other greenhouse gases, effect of ozone modification. 1L Standards and control measures: Industrial, commercial and residential air quality air quality standard, Control measure (ESP, Cyclone separator, bag house, catalytic converter, scrubber (ventury). Statement with brief reference) 1L Water Pollution and Control Hydrosphere: Hydrological cycle
1L
Natural water Pollutants : their origin and effects : Oxygen demanding wastes, pathogens, nutrients, salts, thermal application, heavy metals, pesticides, volatile organic compounds 1L River / lake / ground water pollution River DO, 5day BOD test, BOD reaction rate constants, temperature dependents of BOD, effect of oxygen demanding wastes on river [Deoxygenation, reaeration], COD , Oil, Grease, pH. 2L Lake Eutrophication [Definition, source and effect] 1L Ground Water:
Electronics & Communication Engg Aquifers, hydraulic gradient, ground water flow. (Definition only)
1L
Standard and control: Waste water standard [BOD,COD,Oil, Grease], Water treatment system [coagulation and flocculation, sedimentation and filtration, disinfection, hardness and alkalinity, softening], wastewater treatment, primary treatment , secondary treatmens [Trickling filters, rotating biological contractor, activated sludge, sludge treatment, oxidation ponds], tertiary treatment definition. 3L Arsenic pollution : Biochemical effect, contamination, speciation
2L
Land Pollution Lithosphere Composition Pollutants Municipal, industrial, commercial, agricultural, hazardous solid wastes Recovery and conversion method Waste and waste management Land filling, incineration, composting
1L 2L
Noise Pollution 2L Cources, effects Definition of noise, effect of noise pollution , noise classification, transport noise, occupational noise, neighbourhood noise, definition of noise intensity, noise threshold limit value. References / Books: 1. Masters , G.M., “Introduction to Environmental Engineering and Science”, Prentice –Hall of India Pvt. Ltd. , 1991 2. Basak: Environmental Engineering TMH 3. Nebel , B.J., “Environmental Science”, Prentice –Hall Inc., 1987 4. Odum , E.P., “Ecology: The Link between the natural and social sciences” , IBH Publishing Com. , Delhi 5. Dash: Fundamentals Of Ecology TMH 6. Environmental Management – N.K. Uberoi, EXCEL BOOKS 7. Fundamentals of environmental studies by D.K.Sinha, & A.D.Mukherjee 8. Introduction to Environmental Engineering Sc. by G.Mmasters 9. Environmental Chemistry by A.K.De, New Age International 10. Environmental Management- Mukherjee, Vikas 11. Environmental Management- Pandey, Vikas 12. Environmental Chemistry – Sindhu P.S., New Age International 13. Water Pollution & Management – Varshney C.K., New Age International 14. Water Chemistry – Venkateswarlu K.S., New Age International 15. Water Pollution: Causes, Effects & Control – Goel P.K., New Age International ENGINEERING PHYSICS LABORATORY 16. Environmental Pollution Control Engg – Rao C.S., New Age International 17. Land Treatment of Waste Water – Gohil M.B., New Age International 18. Environmental Pollution Analysis – Khopkar S.M., New Age International 19. Soil Erosion & Conservation – Tripathi R.P., New Age International 20. Environmental Studies – De A.K., New Age International 21. Environmental Impact Assessment – Barthwal R.R., New Age International 22. Man, Nature & Environment – De A.K., New Age International
Electronics & Communication Engg Code: Ph 191 Contacts: 3P Credits: 2 Suggested List of Experiments 1. 2. 3. 4.
To determine the coefficient of viscosity of water by capillary flow To determine the wave length of light by Newton’s ring method. To determine the wave length of light by Fresnel’s biprism. To determine the dispersive coefficient of the given material of the prism. 5. To determine the focal length of combination of two thin lenses by nodal slide assembly and its verification. 6. Determination of e/m by J.J.Thomson’s method. 7. Use of Carry Foster bridge 8. Study of electromagnetic induction 9. Study of electromagnetic damping and determination of terminal velocity reached by a magnet falling in a metallic tube 10. Laser Diffraction 11. Determination of Plank’s Constant using photocells. 12. Determination of Hall Co-efficient of Semiconductors. 13. Determination of band-gap 14. Determination of resistance of a ballistic galvanometer and study the variation of logarithmic decrement with resistance.
BASIC ELECTRICAL ENGINEERING LABORATORY Code: EE 191 Contacts: 3 P Credits: 2 Suggested List of Experiments 1. To measure the armature and field resistance of a DC machine. 2. To calibrate a test ( moving iron) ammeter and a ( dynamometer) wattmeter with respect to standard ( DC PMMC) ammeter and voltmeters. 3. Verification of circuit theorems , Thevenin’s and Superposition theorems ( with DC sources only). 4. Voltage-current characteristics of incandescent lamps and fusing time-current characteristics of fuse wire. 5. Measurement of current, voltages and power in R-L-C series circuit excited by ( single phase) AC supply. 6. Open circuit and short circuit tests on a single phase transformer. 7. Connection and starting of a three phase induction motor using direct on line ( DOL) , or star delta starter. 8. Connection and measurement of power consumption of a fluorescent lamp. 9. Determination of open circuit characteristics ( OCC ) of a DC machine. 10. Starting and speed control of a DC shunt motor. 11. Connection and testing of a single phase energy meter ( unity power factor load only) 12. Two wattmeter method of measuring power in three phase circuit ( resistive load only)
Electronics & Communication Engg 13. Measurement of thermo emf between different types of thermocouples as a function of temperature difference between the junction , measurement of an unknown temperature. 14. Design and use of potentiometer 15. Study of LCR circuits with AC current.
ENGINEERING GRAPHICS Code: ME 191 Contacts: 3 P Credits: 2 1.
LINE LETTERING DIMENSIONING, COPYING FIG
1L + 2 Sessionals
Class sessional work : Different type of lines lettering, Dimensioning, Copying, Different figures Home assignment Rest of lettering both (5:4, 7:4, Mechanical type) Dimensioning (One-aligned system, one-unidrectional system) copying two figures. 2.
SCALE
1L + 1 Sessionals
Class sessional work: Plain scale, Diagonal scale, Comparative scale, Vernier scale
Home assignment PROB 3.
Plain scale-One PROB. Diagonal scale-Two PROBS. Comparative scale-One PROB. Vernier One CURVES
1L + 2 Sessionals
CLASS SESSIONAL WORK Parabolla, Hyperbolla, ellipse, Rectangular hyperbolla, Cycloid, Involute, Archemedian spiral, Logerithm spiral, Hellix HOME ASSIGNMENT Hyperbolla, Ellipse-Two methods, Two problems. Involute-One PROBLEM. Hellix –One PROBLEM.
Electronics & Communication Engg 4.
PROJECT OF POINTS, LINES, SURFACES
1L + 3 Sessionals
Class sessional work
Home assignment Projection of lines including H.T & V.T – Two PROBS. Projection of lines including sideview – Two PROBS Projection of surfaces – i) Pentagon-One PROB. ii) Hexagon-One PROB. 5.
PROJECTION OF SOLIDS
1L + 2 Sessionals
Home assignment Cube-One problem involving solid diagonal Pyramid-One PROBLEM, Prism-One PROB.
References / Books: 1. Narayana, K.L. and Kannaiah, P. “Engineering Graphics” , Tata McGraw Hill , New Delhi, 1988 2. Bhatt , N.D. “Elementary Engineering Drawing” , Charotar Book Stall , Anand, 1998 3. Lakshminarayanan, V. and Vaish Wanar , R.S., “Engineering Graphics” , Jain Brothers, New Delhi, 1998 4. Singh: Understanding AutoCAD 2000 5. Jeyapoovan- Engineering Graphics using Autocad 2000, Vikas 6. Engineering Graphics – Venugopal K, New Age International 7. Engineering Drawing & Graphics + Auto CAD – Venugopal K, New Age International
WORKSHOP PRACTICAL Code: ME 192 and ME 292 Contacts: 3P for Semester I and 3P for Semester II
Electronics & Communication Engg Credits:
2 for Semester I and 2 for Semester II
Carpentry Timber , definition, Engineering applications , seasoning and preservation, plywood and plyboards Metal Joining Definitions of welding , brazing and soldering processes , and their applications. Oxyacetylene glass welding process, equipment and techniques, types of flames and their applications. Manual metal arc welding technique and equipment, AC and DC welding, electrodes, constituents and functions of electrode coating. Welding positions. Types of weld joint. Common welding defects such as cracks , undercutting , slag inclusion, porosity. Metal Cutting Introduction to machining and common machining operations. Cutting tool materials. Definition of machine tools , specification and block diagram of lathe, shaper,milling, drilling machine and grinder. Common lathe operations such as turning , parting , chamfering and facing. Quick return mechanism of shaper. Difference between drilling and boring. Files-material and classification. List of Jobs to be Made in the Workshop Group A T-Lap joint and Bridle joint ( Carpentry shop) 4 hrs Group B 1) a) Gas welding practice by students on mild steel flat 2 hrs b) Lap joint by Gas welding 2) a) MMA welding practice by students b) Square butt joint by MMA Welding
2 hrs
a) Lap joint by MMA Welding b) Demonstration of brazing
1 hr 1 hr
3)
4) Tin smithy for making mechanical joints and soldering of joints 2 hrs Group C 1) Job on lathe with one step turning and chamfering operations 2 hrs. 2) Job on shaper and milling machine for finishing two sides of a job 2 hrs. 3) a) Drilling two holes of size 5 and 12 mm diameter on job used / to be used for shaping b) Grinding a corner of above job on bench grinder 2 hrs. 4) Finishing of two sides of a square piece by filing.
Electronics & Communication Engg References / Books: 1. M.L. Begeman and B.H. Amstead , “Manufacturing Process”, John Wiley , 1968 2. W.A.J. Chapman and E.Arnold , “Workshop Technology “, Vol. I & III, Viva Low Priced Student Ed. , 1998 3. B.S. Raghuwanshi, “Workshop Technology “, Vol. I & II, Dhanpat Rai and Sons , 1998 4. Hajra Choudhary , “Elements of Workshop Technology “, Media Promoters & Publishers, 1997 5. Khanna , O.P. “Workshop Technology “,Dhanpat Rai Publications , 1998 6. S.Crawford, “Basic Engineering Processes”, Hodder & Stoughton, 1985 7. Jeyapoovan- Workshop Practics, Vikas 8. Fundamentals of Metal Cutting & Machine Tools – Juneja B.L., New Age International 9. Kuppuswamy G – Principle of Metal Cutting, Universities Press/Orient Longman INTRODUCTION TO COMPUTING Code : CS 201 Contacts : 2L + 1T = 3
Credits : 3 Fundamentals of Computer: History of Computer, Generation of Computer, Classification of Computers
2L
Basic Anatomy of Computer System, Primary & Secondary Memory, Processing Unit, Input & Output devices
3L
Binary & Allied number systems representation of signed and unsigned numbers. BCD, ASII. Binary Arithmetic & logic gates
6L
Assembly language, high level language, compiler and assembler (basic concepts) 2L Basic concepts of operating systems like MS DOS, MS WINDOW, UNIX, Algorithm & flow chart C Fundamentals: The C character set identifiers and keywords, data type & sizes, variable names, declaration, statements Operators & Expressions: Arithmetic operators, relational and logical operators, type, conversion, increment and decrement operators, bit wise operators, assignment operators and expressions, precedence and order of evaluation. Input and Output: Standard input and output, formatted output -- printf, formatted input scanf. Flow of Control: Statement and blocks, if - else, switch, loops - while, for do while, break and
2L 3L
5L
Electronics & Communication Engg continue, go to and labels
2L
Fundamentals and Program Structures: Basic of functions, function types, functions returning values, functions not returning values, auto, external, static and register variables, scope rules, recursion, function prototypes, C preprocessor, command line arguments.
6L
Arrays and Pointers: One dimensional arrays, pointers and functions, multidimensional arrays.
6L
Structures Union and Files: Basic of structures, structures and functions, arrays of structures, bit fields, formatted and unformatted files.
5L
Recommended reference Books: Kerninghan, B.W. Yourdon, E. Schied F.S. Gottfried Kerninghan B.W. & Ritchie D.M. Rajaraman V. Balaguruswamy Kanetkar Y.
The Elements of Programming Style Techniques of Program Structures and Design Theory and Problems of Computers and Programming Programming with C Schaum The C Programming Language Fundamental of Computers Programming in C Let us C
M.M.Oka Leon LeonRam B. Ravichandran D. Xavier C. Xavier C. Rao S.B.
Computer Fundamentals,EPH Introduction to Computers,Vikas Fundamental of Information Technology,Vikas Computer Fundamentals, New Age International Programming in C, New Age International C Language & Numerical Methods, New Age Inter. Introduction to Computers, New Age International Numerical Methods with Programs in Basic Fortran Pascal & C++, Universities Press Computer Programming & Numerical Analysis, Universities Press Computer Fundamentals Computer Concepts & C Program, Scitech
Dutta N. Bhanu Pratap Rajaram
BASIC ELECTRONICS ENGINEERING
Electronics & Communication Engg Code : EC 201 Contacts : 3L + 1T = 4 Credits : 4 Introduction: Crystalline material: mechanical properties, energy band theory, Fermi levels
2L
Conductors, Semiconductors and Insulators: electrical properties, band diagrams. Semiconductors: intrinsic and extrinsic, energy band diagram, electrical conduction phenomenon, P-type and N-type semiconductors, drift and diffusion carriers, mass action law and continuity equation (statement only)
6L
Formation of P-N junction, energy band diagram, built-in-potential forward and reverse biased P-N junction, formation of depletion zone, V-I characteristics, Zener breakdown, Avalanche breakdown and its reverse characteristics, junction capacitance and varactor diode.
6L
Simple diode circuits, load line, linear piecewise model; rectifiers: half wave, full wave, its PIV, DC voltage and current, ripple factor, efficiency Clipper and Clamper circuits
5L
Introduction to Transistors: Formation of PNP / NPN junctions, energy band diagram; transistor mechanism and principle of transistors, CE, CB, CC configuration, Ebers-Moll model of transistor; transistor characteristics: cut-off active and saturation mode, early effect.
4L
Biasing and Bias stability: calculation of stability factor with variation of Ico Different operating modes; CE, CB, CC and their properties; small signal low frequency operation of transistors; equivalent circuits h parameters as a two port network.
4L
Transistors as amplifier: expression of voltage gain, current gain, input impedance and output impedance, frequency response for CE amplifier with and without source impedance (qualitative)
4L
Introduction to Field Effect Transistor: Construction and characteristics of JFET (N channel only), Transfer characteristics; construction and characteristics of MOSFET (N channel only), depletion and enhancement type; CS, CG, CD configuration
5L
Feed Back Amplifier: Concept (Block diagram), properties, positive and negative feed back, loop gain, open loop gain, feed back factors; topologies of feed back amplifier; effect of feed back on gain, output impedance, input impedance, sensitivities (qualitative), bandwidth stability; effect of positive feed back: instability and oscillation, condition of oscillation, Barkhausion criteria.
5L
Operational Amplifier: Introduction to integrated circuits, properties, specification of M741
2L
operational
amplified
and
its
terminal
Application of operational amplified: concept of virtual earth, inverting and noninverting mode of operation, voltage summing, difference, constant gain multiplier,
Electronics & Communication Engg voltage follower, comparator, integrator, differentiator.
3L
Special Semiconductor devices: Silicon Controlled Rectifier (SCR): constructional features, physical operation, characteristics, simple application (Saw tooth generator); concept of TRIAC, DIAC and UJT; insulated gate bipolar transistor (IGBT)
4L
Cathode Ray Oscilloscope: Construction features of cathode ray tube, concept of dual beam CRO; application of CRO for different electrical measurements: amplitude frequency and phase of sine wave, Lissajous figure.
3L
Recommended reference Books: Malvino
Electronic Principle
Millman & Halkias
Integrated Electronics
Mottershed
Electronics Devices & Circuits
Millman & Grabal
Microelectronics
Schilling & Belove
Electronics Circuits
Salivahanan
Electronics Devices & Circuits
Manish Mukherjee Bhargava Rakshit & Chattopadhyay
Foundation Of Electronics Devices &Circuits. Basic Electronics and Linear Circuits Foundation of Electronics
Storey
Electronics
S.C.Sarkar
Electronics Devices And Circuits. Vol. I&II.EPH
Basavrag
Basic Electronics,Vikas
Mann, K.
Introductory A.C. Circuits Theory, Universities Press
Ray Dilip Kumar
Physics of Semiconductor Devices, Universities Press
Chattopadhyay & Rakshit
Electronics :Fundamentals & Application, New Age
Paul P. John
Electronics Devices & Circuits,New Age
Poornachandra
Electronics Devices & Circuits
MECHANICAL SCIENCES Code : ME 201
Contacts : 3L = 3 Credits : 3
Electronics & Communication Engg Thermodynamics: Introduction; first law for closed and open systems; flow processes and control volume; analysis of difference non-flow and flow processes: limitations of first law of thermodynamics; perpetual motion machine (PMM) of the first kind.
6L
Power producing and power absorbing devices; second law of thermodynamics; introduction of Carnot cycle; practical thermodynamic cycles; PMM II, Corollaries of second law.
4L
Clausius inequality, reversibility, entropy and disorder, basic concept of avalability; temperature entropy diagram, properties of vapour of saturated steam.
3L
Use of Mollier Chart and Steam Tables; Ranking cycle, reheat and regenerative cycles; Airline cycles.
5L
Fluid Mechanics: .Properties of Fluid, Classifications; ideal fluid, Newtonian and non-Newtonian fluids, Inviscid fluid; Newton's law of viscosity.
3L
Fluid Statics; fluid pressure and its variation within fluid at rest; measurement of fluid pressure
4L
Fluid Kinetics; principles of fluid flow; rate of flow, average velocity, steady and unsteady flow; One, two and three dimensional flow; laminar and turbulent flow.
3L
Fluid dynamics: one dimensional equation of motion; integration of equation of motion; Bernoulli's equation; application of Bernoulli's equation.
4L
Dynamic Fluid Pressure: conservation of linear momentum and its application; study of viscous flow; laminar and turbulent flow through circular and non-circular conduits. Flow through open channel: Chezy's equation; compressible fluid; compressibility factor; stagnation enthalpy, temperature, pressure & density. Recommended reference Books: Nag P. K. Van Wylen G. J. & Sentag R. E. Arora C. P. Cengel Som & Biswas Streeter U.L. and Wylie E. B. Roy D. N. Bansal R. K. G.B.Deshpande Ramadurgaiah Rao Y.V.C. Rao Y.V.C. Garde Gupta V. New Age Kapoor B.S. International Rao Y.V.C. New Age
6L
4L
Engineering Thermodynamics Fundamentals of Classical Thermodynamics Thermodynamics Thermodynamics Fluid Mechanics and Machinery Fluid Mechanics Fluid Mechanics Fluid Mechanics and Hydraulic Machines Fluid Mechanics.EPH Fluid Mechanics & Machinery, New Age International Thermodynamics, Universities Press Engineering Thermodynamics, Universities Press Engineering Fluid Mechanics,Scitech Fluid Mechanics & its Applications, Fluid Mechanics, New Age An Introduction to Thermodynamics,
Electronics & Communication Engg ENGINEERING CHEMISTRY Code : Ch 201
Contacts : 3L = 3 Credits : 3 Chemical Thermodynamics: Concept of Thermodynamic System: diathermal wall, adiabatic wall, isolated system, closed system, open system, extensive property, intensive property Introduction to first law of thermodynamics: different statements, mathematical form; internal energy: physical significance, mathematical expression (ideal and real gas), Enthalpy: physical significance, mathematical expression
3L
Cp and Cv: definition and relation; adiabatic changes; reversible and irreversible processes; application of first law of thermodynamics to chemical processes: exothermic, endothermic processes, law of Lovoisier and Laplace, Hess's law of constant heat summation, Kirchoff's law
3L
Second law thermodynamics; Joule Thomson and throttling processes; inversion temperature; evaluation of entropy: characteristics and expression, entropy change in irreversible process, entropy change for irreversible isothermal expression of an ideal gas, entropy change of a mixture of gases
2L
Work function and free energy: physical significance, mathematical expression for ideal and real gases obeying Vander Waals' equation, Gibbs Helmholtz equation
2L
Condition of spontaneity and equilibrium; non ideal systems, activity and activity coefficient, partial molar properties, chemical potential to multicomponent systems, Gibbs Duhem relation; application of thermodynamics to phase transition
4L
Atoms and Molecules: Homonuclear and heteronuclear diatomics, covalent bonds, ionic bonds and electronegativity concepts, hybridzation and shapes of molecules, non-covalent interaction (Vander Waals and hydrogen bonding).
3L
Solid State Chemistry: Introduction to stoichiometric defects (Schottky & Frenkel) and non-stoichiometric defects (Metal excess and metal deficiency); role of silicon and germanium in the field of semiconductor, transistors, rectifier and photovoltaic cells; the process for preparing microminiaturized semiconductor devices: integrated circuits
Instrumental Methods of Analysis: Introduction to instrumental metals such as IR, UV,-Vis, NMR and Mass spectrometry. Reaction Dynamics: Reaction laws: rate and order; molecularity; first and second order kinetics;
5L
1L
Electronics & Communication Engg mechanism and theories of equation)
reaction rates (Transition state theory, Arrhenius
Transition and Metal Chemistry: Structures of coordination compounds corresponding to coordination number 6; types of ligands; isomerism (geometrical, optical, ionization, linkage and coordination).
2L
2L
Structure and Reactivity of Organic Molecule: Inductive effect; resonance; hyperconjugatin; electromeric effect; carbanion and free radicals; brief study of some addition, elimination and substitution reactions
4L
Polymerization: Concepts, classifications and industrial applications; polymerization processes, degree of polymerization (addition and condensation polymerization); preparation, structure and use of some common polymers: plastic (PE, PP, PVC bakelite), rubber (natural rubber, SBR, NBR), fibre (nylon 6,6, polyester); conducting and semiconducting polymers
6L
Industrial Chemistry: Solid, liquid and gaseous fuels; constituents of coal, carbonization of coal, coal analysis, proximate and ultimate analysis; classification of coal Petroleum, gasoline, octane number, aviation fuel, diesel, cetane number; natural gas, water gas.
5L
Electrochemistry: Conductance of electrolytic solutions, specific conductance, equivalent conductance, molar conductance and ion conductance; effect of temperature and concentration; basic ideas and inter ionic attractions; transport numbers and hydration ions, electrochemicals cells; cell emf and its thermodynamic significance; single electrode potentials and its applications; hydrogen half cell and calomel half cell; conductometric titrations: SA vs SB & SA vs WB; precipitation titration KCL vs AgNO3
5L
Recommended reference Books: Rakshit P. C. Physical Chemistry Dutta R. L. Inorganic Chemistry Levine Physical Chemistry Finar I. L. Organic Chemistry Sarkar Samir Fuels and Combustion Carey Organic Chemistry Glasston Samuel Text Book of Physical Chemistry Lee J. D. Concise Inorganic Chemistry Ghosh P. Polymer Science and Technology of Plastics & Rubbers GopalanApplied Chemistry for Engineers,Vikas GopalanConcise coordination Chemistry,Vikas Sharma Physical Chemistry,Vikas Raman Physical Chemistry,Vikas Rao Y.V.C. Chemical Engineering Thermodynamics, Univs Press Moore W.J. Physical Chemistry, Orient Longman Satyanarayan Rao V. Polarography & Allied Techniques, Universities Press Mann F.G. Practical Organic Chemistry, Orient Longman Sykes,P. Guidebook to Mechanism in Org.Chems. Orient Longman Sathyaranarana , D.N. Electronic Absorptions Spectrocopy & Related Techniques, Univs Press
Electronics & Communication Engg Negi A.S.
A Textbook of Physical Chemistry, New Age International
Chakraborty D.K.
Solid State Chemistry, New Age International
Singh S.K Gupta M.C.
Fundamentals of Engg Chemistry, New Age Inter. Atomic & Molecular Spectroscopy, New Age
Gowarikar V.R. Mishra G.S. Mukherji S.M.
Polymer Science, New Age Introductory Polymer Chemistry, New Age Organic Chemistry Vol.1,2,3, New Age
Nasipuri D. Kalsi P.S
Stereochemistry of Organic Compounds, New Age
Kalsi P.S. Bansal R.K. Chakraborty D.K.
Organic Reactions & their Mechanism, New Age A Textbook of Organic Chemistry, New Age Absorption & Catalysis by Solids, New Age
Kalidas C. Reddy K.H.
Chemical Kinetic Methods, New Age Bioinorganic Chemistry
Spectroscopy of Organic Compounds, New Age
ENGINEERING PHYSICS Code : Ph 201 Contacts : 3L
Credits : 3 Vector Analysis: Scalar and Vector fields, Gradient of a scalar field, curvilinear co-ordinates in connection with grad, divergence and curl of a vector field, line integral of a vector field, gauss-divergence theorem Stoke's theorem. Electromagnetism: Quantization & Conservation of charge, Coulomb's law (vectorial from) and superposition principle, concept of electric lines, flux of E-field, Gauss's law, electric potential energy and potential (problems on spherical and cylindrical symmetry), conductors, capacitors (parallel plates, spherical and cylindrical symmetry) and dielectric materials (frequency dependence of such materials), magnetic field, force on a moving charge in a magnetic field, force on current element, torque on current loop, Biot Savart's Law (concept of B and vector potential A), Ampere's law, electromagnetic induction and Faraday's law, magnetism in materials (relation among B, H and M), Maxwell's equation in differential and integral form, electromagnetic waves. Thermoelectricity: Seebeck effect, law of successive temperatures, law of intermediate metals, peltier effect, Thomson effect, thermoelectric power. Modern Physics: Limitations of classical physics and its failure, blackbody radiation, photoelectric effect, compton effect (derivation of wave length shift), X-ray diffraction and Bragg's law, wave particle duality, Davisson-Germer experiment, Heisenberg's
3L
10L
3L
Electronics & Communication Engg uncertainty relation (Thought experiment y-ray experiment, elementry proof), Schrodinger's equation (time dependent and time independent), wave function and its normalisation, probability density and expectation values, operators in quantum mechanics (brief introduction), particle in a box (one dimensional (infinite square well potential) three dimensional also to be discussed), hydrogen atom problemtransformation of Schrodinger equation to spherical polar to-ordinate, discussion of the solution of the equation in polar coordinates, space quantisation, orbital & spin angular momentum, normal zeeman effect, exclusion principle. Thermal Physics: Introduction to Statistical Physics, Maxwell-Boltzmann distribution, application to ideal gas molecules, distribution of molecular speeds, mean, rms and most probable velocity, law of equipartition of energy, Fermi-Dirac statistics, calculation of total number of free electrons in a metal, evaluation of Fermi energy of electrons in a metal at absolute zero temperature (short derivation), Bose-Einstin statistics, Plans's radiation law, Wien's displacement law and Stefan-Boltzmann law.
14L
10L
Solid State Physics: Crystal class and their symmetries, Bravais lattice, unit cell fcc, bcc, hcp crystal, Miller indices and applications, Band theory of solids, conductor, semiconductor and insulators, Brillouin zones.
6L
Nuclear Physics: Nuclear binding energies, nuclear forces and their short range character, balance of mass and energy in nuclear reactions-Q-value of reaction, threshold energy in endothermic reactions, nuclear fission and fusion: fundamentals, nuclear reactors.
6L
Recommended reference Books: Speigal M. Mahajan Beiser
Vector Algebra Electricity and Magnetism Concepts of Modern Physics
Fewkes & Yarwood Ghoshal S. N. Eisberg & Resnick Wehr, Richards & Adair Brijlal & Subrahmanyam Dekker A. J. Kaplan I. Fewkes & Yarwood Gupta A. B & Ghosh D. GuptaPillai S.O. Singh R.B. Ashraf Ali Roy S.K. Roy R.R.,Nigam Hans H,S Patel S.B. Sarawate V.V. Laud B.B. Henderson H.
Electricity and Magnetism (Vol. I) Introduction to Quantum Mechanics Quantum Physics Physics of the Atom Thermal and Statistical Physics Solid State Physics Nuclear Physics Atomic Physics (Vol II) Atomic & Nuclear Physics Mathematical Physics,Vikas Solid State Physics, New Age Introduction to Modern Physics, New Age Vector Analysis with Applications,N.Age Thermal Physics & Stats Mechanics,New Age Nuclear Physics,New Age Nuclear Physics, New Age Nuclear Physics: An Introduction,New Age Electromagnetic Fields & Waves, New Age Electromagnetics, New Age International Nuclear Physics, Universities Press
Electronics & Communication Engg Rao Y.V.C. Sukatme
Heat Transfer, Universities Press Textbook of Heat Transfer, Universities Press
MATHEMATICS Code : M 201 Contacts : 3L + 1T = 4 Credits : 4 Linear Algebra: Vector Spaces: definition of vector spaces over the field of real numbers; definition of south face of a vector space and a criterion for a sub space; definition of linear combination, linear independence and linear dependence of vectors with examples. Definition of basis and dimension of vector space; example of vector space which has more than one basis.
3L
Introduction to the idea of a matrix; equality of matrices; special matrices. Algebraic operations of matrices: commutative property, associative property and distributive property. Transpose of matrix (properties (At)t = A, (A+B)t = At + Bt , (cA)t = cAt, (AB)t = BtAt to be stated (without proof) and verified by simple examples. Symmetric and skew symmetric matrices.
2L
Properties of determinant (statement only); minus, co-factors and Laplace expansion of determinant; Cramer's rule and its application in solving system of linear equations.
2L
Singular and non-singular matrices; adjoint matri; inverse of a matrix [(AB)-1 = B-1A1 to be stated and verified by example. Elementary row and column operations on matrices; definition of rank of a matrix; determination of rank of (2x2) matrix using definition; determination of rank of a rectangular matrix.
2L
Systems of linear equations: consistency and inconsistency.
1L
Eigen values and Eigen vectors of a matrix; diagonalization of a matrix; Gauss elimination process for solving a system of linear equations.
2L
Linear transformation: definition of kernel and image of a linear transformation; kernel and images of a linear transformation forming sub-spaces; nullity and rank of a linear transformation; Dimker T + Dim lm T = Dim V; definition of inner product space, norm of a vector, orthogonal and ortho-normal set of vectors. Ordinary Differential Equations: Definition of order and degree; ODE of the first order: first order first degree (equation solvable by separation and variables, homogeneous equations, nonhomogeneous equations that can be reduced to homogeneous equations, exact equations; definition and use of integrating factors; linear equation and Bernoulis' equation ODE of first order but not of first degree, simple problems General ODE of nth order: operator method for solving equations with constant
1L
3L
Electronics & Communication Engg coefficients, method of variation of parameters and method of undetermined coefficients for solving equations with variable coefficients; Cauchy-Euler homogeneous linear equations.
4L
Solution of simple simultaneous linear equations; Legendre and Bessel' functions and their properties
2L
Laplace Transforms: Definition; existence of LT; LT of elementary functions; first and second shifting properties; change of scale property; L.T. of derivatives Corresponding theorems for multiplication by t" and division by t; L.T. of periodic functions; unit step functions Inverse L.T.; solution of ODE's using L.T. Numerical Methods: Estimation of error; difference operator (forward, backward, central, sift and average operators); Newton's forward and backward interpolation; Lagrange interpolation and corresponding error formulae. Newton's forward formula, Newton's backward formula and Lagrange formula; numerical integration (Trapezoidal rule and Simpson's rule); Recommended reference Books: Kreyszig E. Krishnamurthy V., Mainra V.P. and Arora J.L. Boyce and Diprima Grewal B.S. S.K.Rathor Lakshmninarayn Jana Chakraborty A. Bhattacharya P.B. Rao Sarveswar A. Gupta S.K. Jain M.K. Jain M.K. Balachandra Rao Dutta N. Rao S.B. Murray D.A. Bagchi S.C. Arumugam
4L 4L
5L 4L
Advance Engineering Mathematics An Introduction to Linear Algebra Elementary Differential Equations and Boundary Value Problems Engineering Mathematics Higher Engineering Mathematics II.EPH Engg Math,Vikas UG Engg. Mathematics,Vikas Elements of Ord.Diff. Equations,New Age First Course in Linear Algebra,New Age Engineering Mathematics, Universities Press Numerical Methods for Engineers, New Age Numerical Methods for Sc. & Engg Computation, New Age International Numerical Solutions of Differential Equations Numerical Methods with Programs in Basic, Fortran Pascal and C++ Computer Programming & Numerical Analysis: An Integral Approach,Universities Press Differential Equations with Applications & Programs, Universities Press Introductory Course in Differential Equations First Course on Representation Theory & Linear Lie Groups, Universities Press Engineering mathematics,I,II & III, Scitech
Electronics & Communication Engg ENGINEERING PHYSICS LABORATORY Code: Ph 291 Contacts: 3/2 P Credits: 1 1. To determine the thermal conductivity of a bad conductor by Lee’s method. 2. To determine the thermal conductivity of a good conductor by Searl’s method. 3. Measurement of thermo emf between different types of thermocouples as a function of temperature between the junctions, measurement of an unknown temperature. 4. Verification of Hooke’s law and determination of Young’s modulus. 5. Determination of Bending Moment and Shear Force of beam by Travelling Microscope. 6. Determination of rigidity modulus. 7. Determination of Spring Constant of a Spiral Spring & helical spring. 8. To determine the dielectric constant of a given dielectric material 9. To determine the Rydberg Constant by studying Hydrozen Spectrum 10. To find the Lande'g-factor with Electron-Spin Resonence Spectrometer 11. Study the current-Voltage,poweroutput vs. load, areal characteristics,and Spectral Response of the Photovoltaic Solar cell.
ENGINEERING CHEMISTRY LABORATORY Code : Ch 291 Contacts : 3/2 P Credits: 1 Suggested List of Experiments 1. Acid –base titration ( estimation of commercial caustic soda) 2. Redox titration (estimation of iron using permanganometry) 3. Complexometric titration ( estimation of hardness of water using EDTA titration) 4. Preparation and analysis of a metal complex ( for example thiourea / copper sulfate or nickel chloride / ammonia complexes) 5. Chemical Kinetics (determination of relative rates of reaction of iodide with H2O2 at room temperature (clock reaction) 6. Heterogeneous equilibrium (determination of partition coefficient of acetic acid between n-butanol and water) 7. Photochemical oxidation-reduction (study of photochemical reduction of ferric salt) 8. Viscosity of solutions (determination of percentage composition of sugar solution from viscosity) 9. Conductometric titration for determination of the strength of a given HCl solution by titration against a standard NaOH solution
Electronics & Communication Engg 10. pH- metric titration for determination of strength of a given HCl solution against a standard NaOH solution. COMPUTING LAB Code: CS 291 Contacts: 3 P Credits: 2 Exercises should include but not limited to: 1. DOS System commands and Editors ( Preliminaries) 2. UNIX system commands and vi ( Preliminaries) 3. Simple Programs: simple and compound interest. To check whether a given number is a palindrome or not, evaluate summation series, factorial of a number , generate Pascal’s triangle, find roots of a quadratic equation 4. Programs to demonstrate control structure : text processing, use of break and continue, etc. 5. Programs involving functions and recursion 6. Programs involving the use of arrays with subscripts and pointers 7. Programs using structures and files.
BASIC ELECTRONICS ENGINEERING LAB Code: EC 291 Contacts: 3P Credits: 2 1. Familiarization with Electronic components such as Resistors, Capacitors, Diodes, Transistors etc. 2. Familiarization with electrical devices and measuring equipment like DC power supply, Multimeter, Trainer kit etc. 3. Familiarization with measuring and testing equipment like CRO, Signal generator. 4. Study on V-I characteristics of Junction Diode. 5. Study on V-I characteristics of Zener Diode. 6. Study on Half Wave and Full Wave rectifiers. 7. Study on characteristics of Field Effect Transistors. 8. Determination of Input offset voltage, Input Bias current, Slew rate of Op-Amp. 9. Determination of Common Mode Rejection Ratio, Bandwidth, Offset null of OpAmp. 10. Characteristics Curve for common base emmitor & common collector transducers 11. Study of working of data acquisition system. ENGINEERING GRAPHICS Code: ME 291 Contacts: 3 P Credits: 2
Electronics & Communication Engg ISOMETRIC VIEW AND ISOMETRIC PROJECTION
Class sessional work
2L + 4 Sessionals
2 PROBS
Home assignment2 PROBS
SECTIONAL VIEW, TRUE SHAPE OF A SECTION
Class sessional work
Home assignment
2L + 4 Sessionals
1 PROB EACH
1 PROB EACH
RIVET HEADS, RIVETED JOINTS
2L + 4 Sessionals
Class sessional work cover)
Rivet heads, types, lap-joint, butt joint (single
Home assignment
Remaining heads butt-joint (Double cover)
THREADS, NUT-BOLT KEY AND COTTER JOINT
Class sessional work: Home-work-threads-2types, hexagonal bolt, fitted with a SQ. nut-plan and elevation. Home-work –two views each- 2 probs Home assignment: Remaining threads. SQ. Head bolt and Hexagonal head nut. – 2 probs
DEVELOPMENT
1L + 3 Sessionals
Electronics & Communication Engg Class sessional work
Two PROBS
Home assignment
Two PROBS
INTERPENETRATION
2L + 3 Sessionals
Class sessional : From orthographic view- plan , elevation and side view-1 PROB. Home assignment : 1 PROB MACHINE PARTS
1L + 5 Sessionals
Home assignment: 1 PROB BUILDING DRAWING (CIVIL – R.C.C.) 1 L + 5 Sessionals
Class sessional work Front line plan to draw plan-elevation .A Brick Foundation showing all components.
Home assignment: 2 probs Computer Aided Drafting
3L + 3 Sessionals
Introduction .Cartesian and Polar Co-ordinate system, Absolute and Relative Coordinates; Basic Editing Commands : Line, Point, Trace, Rectangle, Polygon, Circle, Arc, Ellipse, Polyline; Basic Editing Commands : Basic Object Selection Methods, Window and Crossing Window, Erase, Move, Copy, Offset, fillet, Chamfer, Trim, Extend, Mirror; Display Commands : Zoom, Pan, Redraw, Regenerate; Simple dimensioning and text. Simple exercises and practice problems.
Electronics & Communication Engg References/ Books: 1. French and Vireck , “The Fundamental of Engineering Drawing and Graphic Technology “, McGraw Hill, 4th Ed., 1978 2. “IS:696 ( 1972) Code of Practice for General Engineering Drawing”, ISI New Delhi 3. P.S.Gill, “ A Text Book of Machine Drawing”, Katson Publishing House, Ludhiana, 1980 4. Giesecke , Mitchell, Spener, Hill and Dygon, “Technical Drawing”, McMillan & Co. , 7 th Ed., 1980 5. George Omura, “Mastering AUTOCAD”, B.P.B. Publication, New Delhi , 1994 6. Venugopal K. :Engineering Drawing & Graphics + Auto CAD, New Age International 7. Venugopal K. : Engineering Graphics, New Age International
Third Semester
Electronics & Communication Engg Mathematics Code : M 302 Contacts : 3L + 1T Credits: 4 Fourier Series, Integrals and Transforms : Properties, Inverse, Fourier Transform of Derivative, Convolution, use of Fourier Series and Transforms in solving Partial Differential Equations. Partial Differential Equations : Boundary and Initial Conditions, Solution of Laplace's and Heat Conduction Equations Complex Analysis : Functions, Limits and Continuity, Analytic Functions, Cauchy Riemann Conditions, Analytic Continuation, Complex Integration and Cauchy's Theorem, Cauchy's Integral Formula, Taylor's and Laurent Series, Reside Theorem and it's application to evaluation of integral, Introduction to Conformal Mapping. Probability and Statistics : Mean, Median, Mode, Standard Deviation, Moments, Skewness, Kurtosis. Definition of Laws of Probability, Conditional probability, Multiplication, Independence of Events, Bayes' Rule, Sample Space, Random Variable, Discrete and Continuous Probability Distributions - Cumulative Distribution Functions-Mathematics Expectancy, Standard Probability Models - Binomial, Poisson, Normal, Sampling and its Distribution, Correlation and Regression, Method of Least Square - Fittings. Graph Thoery : Graphs, Digraphs, Isomorphism, Walks, Paths, Circuits, Shortest Path Problem, Dijkstra's Algorithm, Trees, Properties of Trees, Cotrees and Fundamental Circuits, Shortest Spanning Trees - Kruskal's Algorithm, Cut Sets, Fundamental Cut Sets and Cut Vertices, Planar and Dual Graphs, Metric Representation of Graphs, Networks, Flow Augmenting Path, Ford-Fulkerson Algorithm for Maximum Flow. Text Books : 1. Gupta S . C and Kapoor V K : Fundamentals of Mathematical Statistics - Sultan Chand & Sons. 2. Lipschutz S: Theory and Problems of Probability (Schaum's Outline Series) McGraw Hill Book. Co. 3. Spiegel M R : Theory and Problems of Probability and Statistics (Schaum's Outline Series) - McGraw Hill Book Co. 4. Veerarajan :Probability &statistics 2/e TMH 5. Goon A. M., Gupta M K and Dasgupta B: An Outline of Statistical Theory-Vol.I The World Press Pvt. Ltd. 6. Goon A.M., Gupta M K and Dasgupta B: Fundamental of Statistics - The World Press Pvt. Ltd.
Electronics & Communication Engg 7. Spiegel M R : Theory and Problems of Complex Variables (Schaum's Outline Series) - McGraw Hill Book Co. 8. Bronson R: Differential Equations (Schaum's Outline Series) - McGraw Hill Book Co. 9. Ross S L : Differential Equations - John Willey & Sons. 10. Sneddon I. N. : Elements of Partial Differential Equations - McGraw Hill Book Co. 11. West D.B. : Introduction to Graph Theory - Prentice Hall 12. Deo N: Graph Theory with Applications to Engineering and Computer Science Prentice Hall. 13. Grewal B S : Higher Engineering Mathematics (thirtyfifth edn) - Khanna Pub. 14. Kreyzig E: Advanced Engineering Mathematics - John Wiley and Sons.
15. Discrete Structure And Graph Theory.- Rathor / Chaudhuri,EPH. 16. Jana- Undergraduate Engg. Math,Vikas 17. Lakshminarayan- Engg. Mathematics 1,2,3 ,Vikas 18. Gupta- Matehmatical Physics ,Vikas 19. Subir Das- Key to Differential Equations (EPH)
Circuit Theory & Networks Code: EE 301 Contact: 3L + IT Credit: 4 Different types of systems & networks: continuous & Discrete, Fixed and Time varying, Linear and Non-linear, Lumped and distributed, Passive & Active Networks & Systems Laplace transform of impulse and sinusoidal steps waveforms for RL, RC, LC and RLC Circuits. Transient analysis of different electrical circuits with and without initial conditions, Fourier Series and Fourier Transform Network theorems and their applications in circuit analysis, Formulation of network equations, Source transformations, Loop variable analysis and node variable analysis Graph of network, concept of tree branch, tree link. Incidence matrix, Tie-set matrix and loop currents, Cut set matrix and node pair potentials Two port networks, Open circuit Impedance and Short circuit Admittance parameters, Transmission parameters, hybrid parameters, and their inter-relations Indefinite admittance matrix- their applications to the analysis of active network Active filter analysis and synthesis using operational amplifier SPICE: How SPICE works. Model statement, models for passive and active device, D.C. circuits analysis, small signal analysis, capacitors and inductors in D.C. Circuits, steady state and transient, plotting and printing, input and output Impedance, D.C. sensitivity analysis, harmonic decomposition (Fourier Series), Harmonic re-composition, voltage controlled components
Text books :
Electronics & Communication Engg 1. Sudhakar:Circuits & Networks:Analysis & Synthesis 2/e TMH New Delhi 2. Valkenburg M. E. Van, “Network Analysis”, Prentice Hall. 3. Engineering circuit analysis with PSPICE and probe-Roger 4. Engg Circuit Analysis,: Hayt 6/e Tata Mcgraw-Hill 5. A. Chakravarty: Networks, Filters & Transmission Lines 6. D.Chattopadhyay and P.C.Rakshit: Electrical Circuits 7. A.V. Oppenheimer and A.S.Wilsky: Signals & Systems, PHI 8. R.V.Jalgaonkar.: Network Analysis & Synthasis.EPH. 9 . Sivandam- Electric Circuits and Analysis, Vikas 10. V.K. Chandna, A Text Book of Network Theory & Circuit Analysis, Cyber Tech
References : 1.Reza F. M. and Seely S., “Modern Network Analysis”, Mc.Graw Hill Book Company 2.Roy Choudhury D., “Networks and Systems”, New Age International Publishers. 3.Kuo F. F., “Network Analysis & Synthesis”, John Wiley & Sons.
Solid State Devices & Circuits Code: EC 301 Contacts: 3L
Credits: 3 Transport phenomena in solids – drift and diffusion. Properties of p-n and metal semiconductor junctions, rectifier and detector diodes, photovoltic effect-solar cells, zener and tunnel diodes Varactor gunn and impatt diodes, Bipolar transistor – physical mechanism, current gain, punch-through and avalanche effect High voltage and high power transistors Field effect transistors –JFETS and IJFETS. MOS-capacitors-flat band and threshold voltages –P-and Nchannel MOSFETS, CMOS and VLSI MOSFETS, Semi conductor sensors and detectors. LEDs & LCDs, Elements of device fabrications technology Different configurations of feedback amplifiers-voltage series, voltage shunt, current series and current shunt, effects on gain, i/p and o/p impedance’s, positive feedback and oscillator circuits- phase shift, wien bridge, hartlay, colpit and crystal oscillators. Books : 1. Millman & Halkias Integrated Electronics, THH 2. Millman & Grabel, MGH Micro-Electronics 3. Neamen: Semiconductor Physics &devices TMH 4. Malvino Principle of Electronics, TMH 5. Chattopadhyay, Rakshit, Saha & Purkait, 2nd, Edn -Foundation of Electronics
1. Prof. Manis Mukherjee -- Foundation Of Electronics Devices And Circuits. EPH. 2. Kasap:Principles of Electronic Materials &devices Tata Mcgrawhill
Electronics & Communication Engg Data Structures and Algorithms Code: CS 302 Contact: 3L + IT Credit: 4 Overview of C language Time and Space analysis of Algorithms - Order Notations. Linear Data Structures - Sequential representations - Arrays and Lists, Stacks, Queues and Dequeues, strings, Application. Linear Data Structures - Link Representation - Linear linked lists, Circularly linked lists. Doubly linked lists, application. Recursion - Design of recursive algorithms, Tail Recursion, When not to use recursion, Removal of recursion. Non-linear Data Structure : Trees - Binary Trees, Traversals and Threads, Binary Search Trees, Insertion and Deletion algorithms, Height-balanced and weight-balanced trees, B-trees, B+ -trees, Application of trees; Graphs - Representations, Breadth-first and Depth-first Search. Hashing - Hashing Functions, collision Resolution Techniques. Sorting and Searching Algorithms - Bubble sort, Selection Sort, Insertion Sort, Quicksort, Merge Sort, Heapsort and Radix Sort. File Structures - Sequential and Direct Access. Relative Files, Indexed Files - B+ tree as index. Multi-indexed Files, Inverted Files, Hashed Files. Text books: 1. Data Structures and Algorithms- O.G.Kadke and U.A.Deshpandey, ISTE/EXCEL 2. Aho Alfred V., Hopperoft John E., UIlman Jeffrey D., “Data Structures and Algorithms”, Addison Wesley 3. Ajoy Agarwal.: Data Structures Through C.Cybertech. 4.
Lipschutz: Data Structures TMH
References : 1.Heileman: Data structures,algorithims &OOP Tata McGraw Hill 2. Data Structures Using C, M.Radhakrishnan and V.Srinivasan, ISTE/EXCEL BOOKS 3.Weiss Mark Allen, “Algorithms, Data Structures, and Problem Solving with C++”, Addison Wesley. 4. Horowitz Ellis & Sartaj Sahni, “Fundamentals of Data Structures”, Galgotria Pub. 5. Tanenbaum A. S. , “Data Structures using ‘C’ ”
Electronics & Communication Engg
Numerical Methods and Programming Code : CS 312 Contacts : 3L Credits : 3 Approximation in numerical computation, Truncation and rounding errors; Interpolation: Lagrange’s Interpolation, Newton forward & backward differences Interpolation, Newton divided difference; Numerical Integration: Trapezoidal, Rule, Simson’s 1/3 Rule, Weddle’ Rule; Numerical Solution of a system of linear equation Gauss elimination method, Matrix Inversion, LU Factorization method, Gauss Jacobi method, Gauss Seidal method; Algebraic Equation: Bisection method, Secant method, Regular-Falsi method, NewtonRaphson method; Numerical solution of ordinary differential equation: Taylor’s series method, Euler’s method, Runge-kutta method, Predictor-Corrector method; C Language Overview: Loop, recursion, function, array, pointers, structures, various types of file access methods: Sequential, Indexed Sequential, Random; Various types of files in C and various types file handling statements in C Implementation above Numerical & Statistical Problems in C Language;
Books: 1.Numerical Analysis and Algorithms by Pradeep Niyogi TMH 1. Numerical Mathematical Analysis by J.B.Scarborough 2. C Language and Numerical Methods by C.Xavier 3. Introductory Numerical Analysis by Dutta & Jana 4. Balagurusamy :Numerical methods 5. Numerical Methods (Problems and Solution) by Jain, Iyengar , & Jain 6. Numerical Methods In Computer Applications. : P.U.Wayse.EPH
ELECTRICAL AND ELECTRONIC MEASUREMENT Code : EE 302 Contacts : 3L + 1T Credits :4 General features – Construction and principle of operation of moving coil, moving iron, Dynamometer, Thermal and Rectifier type deflecting instruments. Deflecting, controlling and damping torques, extension of instrument ranges using shunts, multipliers and instrument transformers. Measurement of low, medium and high resistances, Kelvins double bridge, multimeters, megger, localization of cable faults.
Electronics & Communication Engg D.C. and A.C. potentiometers, Measurement of high voltage, Electrostatic instruments, measurement of inductances, capacitance and frequency by A.C. Bridges. Measurement of power in polyphase circuits, various wattmeter connections. A.C. and D.C. energy meters. C.R.O. construction & principle measurement of voltage, current, frequency and phase by oscilloscope.
Electronic voltmeters – analog and digital. Digital multimeters, Audio oscillators, signal generators and frequency counter. Text Books: 1. Electronic Instrumentation – H.S. Kalsi, ISTE/EXCEL BOOKS 2.Golding E.W. & Wides F.C. : Electrical Measuring Instruments & Measurements ; Wheeler 3.Kalsi:Electronic Instrumentation 4.Industrial Instrumentation & Control : SK Singh Tata McGraw Hill.New Delhi 5.Sawhney A K : A course in Electrical & Electronic Measurements & Instruments, Dhanpat Rai & Co. 6.Heltrick A.D. & Cooper W.D. : Modern Electronic Instrumentation & Measuring Instruments; Wheeler 7.Patranabis D: Sensors & Transducers, Wheeler 96
Circuits & Networks Lab
Code: EE 391 Contact: 3P Credit:
2
List of Experiments:
2 3 4
1. Transient response in R-L and R-C Network: Simulation/hardware 2. Transient response in R-L-C Series & Parallel circuits Network: Simulation/hardware 3. Determination of Impedance (Z) and Admittance(Y) parameters of two port network 4. Frequency response of LP and HP filters 5. Frequency response of BP and BR filters 6. Generation of Periodic, Exponential, Sinusoidal, Damped sinusoidal, Step, Impulse, Ramp signals using MATLAB in both discrete and analog form 7. Evaluation of convolution integral, Discrete Fourier transform for periodic & non-periodic signals and simulation of difference equations using MATLAB Representation of poles and zeros in z-plane, determination of partial fraction expansion in z-domain and cascade connection of second order system using MATLAB Determination of Laplace transform and inverse Laplace transformation using MATLAB Spectrum analysis of different signals
Note: An Institution/College may opt for some other software or hardware simulation wherever possible in place of MATLAB
Electronics & Communication Engg
Numerical Methods & Programming Lab Code: CS 382 Contact: 3P Credit: 2 1. Assignments on Interpolation: Newton forward & backward, Lagrange 2.Assignments on Numerical Integration: Trapezoidal Rule, Simson’s 1/3 Rule, Weddle’s Rule 1. Assignments on Numerical solution of a system of linear equation: Gauss elimination, Gauss Jacobi, Matrix Inversion, Gauss Seidal 2. Assignments on Algebric Equation: Bisection, Secant, Regular-falsi, Newton Raphson 3. Assignments on Ordinary Differential Equation: Taylor Series, Euler’s method, Runga-Kutta 4. Assignments on Statistical Problem: Mean, Median, Mode, Standard deviation ( for simple & frequency type data), Correlation & Regression
Electrical and Electronic Measurement Lab Code: EE 392 Contact: 3P Credit: 2 List of Experiments: 1. Instrument workshop- observe the construction of PMMC, Dynamometer, Electro thermal and Rectifier type instrument, Oscilloscope and digital multimeter 2. Calibrate moving iron and electrodynamometer type ammeter/volmeter by potentiometer 3. Calibrate dynamometer type Wattmeter by potentiometer 4. Calibrate A.C. energy meter 5. Measure the resistivity of material using Kelvin Double Bridge
Electronics & Communication Engg 6. Measurement of Power using Instrument transformer 7. Measurement of Power in Polyphase circuits 8. Measurement of Frequency by Wien Bridge using Oscilloscope 9. Measurement of Inductance by Anderson Bridge 10. Measurement of Capacitance by De Sauty Bridge
Data Structure Lab Code: CS 392 Contact: 3P Credit: 2 Experiments should include but not limited to : Implementation of array operations : Stacks and Queues : adding, deleting elements Circular Queue : Adding & deleting elements Merging Problem : Evaluation of expressions operations on Multiple stacks & queues : Implementation of linked lists: inserting, deleting, inverting a linked list. Implementation of stacks & queues using linked lists: Polynomial addition, Polynomial multiplication Sparse Matrices: Multiplication, addition. Recursive and Non-recursive traversal of Trees Threaded binary tree traversal. AVL tree implementation. Application of Trees, Application of sorting and searching algorithms Hash tables implementation: searching, inserting and deleting, searching & sorting techniques.
Electronics & Communication Engg
Fourth Semester ANALOG ELECTRONIC CIRCUITS Code : EC 401 Contacts : 3L Credits :3 Transistor Biasing and Stability: Self Bias-CE, CC, Compensation techniques. Voltage, current, transresistance & transconductance amplifier. High frequency model of transistor. Power amplifiers – Class A, B, AB, C, Tuned amplifier. Different stages of Operational Amplifier: Differential Amplifier, Constant current source (current mirror etc.), level shifter, Ideal and practical OpAmp. Comparator, Schmitt Trigger. Instrumentation Amplifier, Log & Anti-log amplifiers, Transconductance multiplier, Precision Rectifier Multivibrator – Monostable, Bistable, Astable. Timer. Monostable and astable operation using 555 timer. Linear voltage regulator : series and shunt. Switched mode power supply. Function generator, wave shapers. V-I, I-V, V-F & F-V converters. VCO, PLL lock-in amplifier. Text Book: 1. Millman & Halkias – Integrated El;ectronics, Tata McGraw Hill. 2. Franco—Design with Operational Amplifiers & Analog Integrated Circuits , 3/e,TMH 3. Schilling & Belone—Electronic Circuit:Discrete & Integrated , 3/e ,TMH 4. Gayakwad R.A -- OpAmps and Linear IC’s, PHI 5. Coughlin and Drisscol – Operational Amplifier and Linear Integrated Circuits – Pearson Education Asia. Reference: 1. 2.
Malvino—Electronic Principles , 6/e ,TMH Millman & Taub- Pulse, Digital & switching waveforms- TMH
Electronics & Communication Engg 3. 4. 5. 6. 7. 8.
Horowitz & Hill- The Art of Electronics; Cambridge University Press. Hayes & Horowitz- Student Manual for The Analog Electronics; Cambridge University Press. Boyle’stead & Nashelsky: Electronic Devices & Circuit theory, PHI. Millman & Halkias: Basic Electronic Principles; TMH. Tobey & Grame – Operational Amplifier: Design and Applications, Mc Graw Hill. Tushar Jadhab – Linear Integrated Circuits, Everest Publishing House
DIGITAL ELECTRONICS & INTEGRATED CIRCUITS Code : EC 402 Contacts : 3L + 1T Credits :4
Data and number systems, Binary representation, Codes and their conversions: BCD, Octal, Hexadecimal, ASCII, EBDIC, Gray, Signed binary number representation with 1’s and 2’s complement methods, Binary arithmetic. Boolean algebra, Venn diagram, logic gates and circuits, Minimization of logic expressions by algebraic method, K-map method and Quine Mc Clauskey method Combinational circuits- adder, subtractor, encoder, decoder, comparator, multiplexer, demultiplexer, parity generator, etc Design of combinational circuits-Programming logic devices and gate arrays. Sequential Circuits- Flip Flops, various types of Registers and counters and their design, Irregular counter, State table and state transition diagram, sequential circuits design methodology. Different types of A/D and D/A conversion techniques. Different Logic families- TTL, ECL, MOS and CMOS, their operation and specifications. Memory Systems: RAM, ROM, EPROM,EEROM Textbooks: 1. Jain—Modern Digital Electronics, 2/e ,TMH 2. Leach & Malvino—Digital Principles & Application, 5/e, TMH 3. Digital Logic Design- Morries Mano, PHI. Reference: 1. Digital Integrated Electronics- H.Taub & D.Shilling, Mc Graw Hill. 2. Givone—Digital Principles & Design, TMH 3. Digital Technology- Virendra Kumar, New Age. 4. Digital Circuit & Design- S.Aligahanan, S.Aribazhagan, Bikas Publishing House. 5. Fundamentals of Digital Electronics & Microprocessor- Anokh Singh, A.K. Chhabra, S.Chand. 6. Introduction to Digital Computer Design 4th Ed.- V.Rajaraman & T. Radhakrishnan, P.H.I.
Electronics & Communication Engg
Computer Organization & Architecture CS-404 Contacts: 3L Credits: 3 Concepts & Terminology: Digital computer concepts; Von-Neumann concept ; Hardware & Software and their nature ; structure & functions of a computer system , Role of operating system. Memory Unit : Memory classification , characteristics ; Organization of RAM , address decoding ROM/PROM/EEPROM ; Magnetic memories , recording formats & methods , Disk & tape units; Concept of memory map , memory hierarchy , Associative memory organization ; Cache introduction , techniques to reduce cache misses , concept of virtual memory & paging. CPU Design: The ALU – ALU organization , Integer representation , 1s and 2s complement arithmetic ; Serial & Parallel Address; implementation of high speed Address Carry Look Ahead & carry Save Address; Multiplication of signed binary numbers-Booth’s algorithm ; Divide algorithms- Restoring & Non-Restoring ; Floating point number arithmetic; Overflow detection , status flags. Instruction Set Architecture- Choice of instruction set ; Instruction word formats ; Addressing modes. Control Design – Timing diagrams; T-States , Controlling arithmetic & logic instruction , control structures ; Hardwired & Micro programmed, CISC & RISC characteristics. Pipelining-general concept , speed up , instruction & arithmetic pipeline; Examples of some pipeline in modern processors , pipeline hazards; Flynn’s classification –SISD ,SIMD , MISD , MIMD architectures-Vector and Array processors & their comparison , Concept of Multiprocessor; Centralized & distributed architectures. Input/output Organization : Introduction to Bus architecture , effect of bus widths , Programmed & Interrupt I/O , DMA.
Text: 1.Hayes-- Computer Architecture & Organization,3/e ,MH 2.Carter—Computer Architecture (Schaum Series), TMH 3.Mano M.M—“Computer System Architecture” 4.Chaudhury P. Pal—“ Computer Organization & Design” , PHI Reference:
Electronics & Communication Engg 1.Hamacher—Computer Organization, 5/e, MH 2.Stallings W—“ Computer Organization & Architecture” , MH
ANALOG COMMUNICATION EC 403 Contacts: 3L Credits: 3 Introduction to analog communication: 1. Types and reasons for modulation 2. Transmitters, transmission channels and receivers. Spectral Analysis 1. Review of Fourier Transform theory, energy,power,parseval’s theorem 2. Power spectral density functions (PSDF), Analog spectrum analysis 3. The auto correlation functions, relationship between the PSDF and the auto correlation functions, PSDF’s of harmonic signals and uncorrelated (white) signals. 4. Review of signal transfer in linear systems, the ideal low pass filters and distortionless transmission, importance of channel bandwidth. Continuous wave linear modulars 1. Amplitude modulation(AM), Time domain expression and modulation index., frequency domain(spectral) representations, transmission bandwidth foR am. 2. AM for a single tone message, phasor diagram of an AM signal, illustration of the carrier and side band components. 3. Transmission requirements for AM, normalized power and side band power. 4. Double side band suppressed carrier (DSB) modulation, time and frequency domain expressions. 5. Transmission requirements for DSB , bandwidth and transmission power for DSB. 6. Methods of generating ASM and DSB, squre law modulators, balanced modulators, ring modulators. 7. Single side band modulation(SSB), generation of SSB using a side band filter, indirect generation of SSB. 8. Representation off SSB signals. 9. Transmission requirements for SSB, transmit band width and power, side band filter examples. 10. Vestegial side band modulation (VSB) Demodulation for linear modulation 1. Demodulation of AM signals, square law and envelope detectors 2. The superheterodyne receiver for standard AM radio. 3. Synchronous demodulation of AM,DSB and SSB using synchronous detection 4. Effects of frequency and phase errors in the local oscillator in DSB and SSB 5. Demodulation of SSB using carrier reinsertion and the use of SSB in telephony. 6. Carrier recovery circuits 7. Introduction to Phase-Locked Loop( PLL) Frequency modulation (FM) and Phase modulation (PM)
Electronics & Communication Engg 1. Instantaneous frequency instantaneous phase, time domain repesentation for FM and PM, Phasor diagram for FM and Pm. 2. FM and PM signals for a single tone message, the modulation index and phasor diagrams. 3. Spectral representation of FM and PM for a single tone message, Bessel’s functions and Fourier series. 4. Generation of FM using Armstrong method, commercial FM requirements. 5. Demodulation of FM and Pm signals, the limiter discriminator.’ 6. Commercial FM radio and stereo Fm radio. 7. Demodulation of PM using phase locked loop. Frequency division multiplexing (FDM) systems 1. FDM in telephony, telephone hierarchy an examples of group and super group generation. 2. Satellite system and applications and frequency division multiple access (FDMA) systems. 3. Filters and oscillator requirement in FDM. Representation of random signals and noise in communication system 1. Signal power and spectral representations, the auto-correlation and power spectral density function (PSDP) 2. White noise, thermal noise, PSDF of white signals. 3. Input and output relationship for random signals and noise passed through a linear invariant system, band limited noise, ARC filtering of white noise. 4. The noise bandwidth of a linear time invariant system and its use in communication 5. Narrow band noise representation , generation of narrow band noise and PSDF time domain expression for narrow band noise. Noise 1. 2. 3.
performance of Analog Communication systems Signal-to-noise ratio in linear modulation, synchronous detection of DSB Signal-to-noise ratio for AM and SSB, comparison of DSB, SSB and AM Effect of noise in envelope and square law detection of AM, threshold effects in nonlinear detectors. 4. Signal-to-noise ration for FM,SNR improvement using pre-emphasis and deemphasis networks. 5. FM threshold effects, noise clicks in FM system. 6. Comparison of linear and exponential modulation system for additive white band-limited noise channels.
Text Books: 1. Taub and D.LSchilling , “Principles of Communication Systems”, 2nd ed., McGraw Hill Book Co. 2. Carlson—Communication System,4/e ,TMH References: 1. Singh—Communication Systems: Analog & Digital, TMH 2. L.W.Couch Ii, “Digital and Analog Communication Systems”, 2nd Edition, Macmillan Publishing Co., New York, 1987
Electronics & Communication Engg
ELECTRONIC MEASUREMENT AND INSTRUMENTATION EI 402 Contacts: 3L
Credits: 3 Basis Measurement Techniques for Analog and Digital Measurements Units and standards of physical quantities. Documentation standards. Block diagram of Instrumentation schemes – Static and Dynamic.
Accuracy, Precision, Fidality, speed of response, Linearization of techniques. Errors in measurement : Classifications of errors, Statistical Analysis, Introduction to Reliability. Digital Multimeters, Theory of Operational and Constructinal Details SHE, A-D-C D-A-C, Multiplexing, Data Acquisition Systems, Actuator, Elements of Transducer, Analog Multiplier, R M S and Average value detectors, Wave and Spectrum Analysers, Q-meters. Measurement of high frequencies RF and VHF Text: 1.Jain—Digital Electronics, 2/e,TMH 2.Malvino & Leach – Digital Principles & Application , 5/e,TMH 3.Helric A.D & Cooper W.D—Modern Electronic Instrumentation & Measuring Instruments, Wheeler Pub. 4.Dhir S.M—Applied Electronics & Instrumentation, TMH Reference: 1. Taub & Schilling – Digital Integrated Electronics,TMH 2. Givone—Digital Principles & Design,TMH 3. Shawney A.K—A course in Electrical & Electronic Measurements, Dhanpat Rai & Sons.
Electronics & Communication Engg
EC 491 ANALOG ELECTRONIC CIRCUITS LAB Contacts: 3P Credits: 2
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12.
Introduction: Study of characteristics curves of B.J.T & F.E.T . Construction of a two-stage R-C coupled amplifier & study of it’s gain & Bandwidth. Study of class A & class B power amplifiers. Study of class C & Push-Pull amplifiers. Realization of current mirror & level shifter circuit using Operational Amplifiers. Study of timer circuit using NE555 & configuration for monostable & astable multivibrator. Construction & study of Bistable multivibrator using NE555. Study of Switched Mode Power Supply & construction of a linear voltage regulator using regulator IC chip. Construction of a simple function generator using IC. Realization of a V-to-I & I-to-V converter using Op-Amps. Realization of a Phase Locked Loop using Voltage Controlled Oscillator (VCO). Study of D.A.C & A.D.C.
Electronics & Communication Engg
EC 492 DIGITAL ELECTRONIC & INTEGRATED CIRCUITS LAB Contacts: 3P Credits: 2
1. Realization of basic gates using Universal logic gates. 2. Code conversion circuits- BCD to Excess-3 & vice-versa. 3 .4-bit parity generator & comparator circuits. 4. Construction of simple Decoder & Multiplexer circuits using logic gates. 5. Design of combinational circuit for BCD to decimal conversion to drive 7-segment display using multiplexer. 6. Construction of simple arithmetic circuits-Adder, Subtractor. 7. Realization of RS-JK & D flip-flops using Universal logic gates. 8. Realization of Universal Register using JK flip-flops & logic gates. 9. Realization of Universal Register using multiplexer & flip-flops. 10. Construction of Adder circuit using Shift Register & full Adder. 11. Realization of Asynchronous Up/Down counter. 12. Realization of Synchronous Up/Down counter. 13. Design of Sequential Counter with irregular sequences. 14. Realization of Ring counter & Johnson’s counter. 15. Construction of adder circuit using Shift Register & full Adder.
Electronics & Communication Engg
ANALOG COMMUNICATION LAB EC 493 Contacts: 3P
Credits: 2 1. Study of Amplitude Modulation & Demodulation techniques. 2. Study of Double Side Band Suppressed Carrier (DSB-SC) & Demodulation technique. 3. Study of Single Side Band Suppressed Carrier (SSB-SC) & Demodulation technique. 4. Study of Frequency Modulation & Demodulation. 5. Study of VCO (Voltage controlled oscillator) & PLL (Phase Locked Loop). 6. Study of Time Division Multiplexing (TDM) & Demultiplexing. 7. Study of Noise Effect in Audio circuits & in communication system. Determination of Signal to Noise Ratio (SNR). 8. Study Frequency Division Multiplexing (FDM) & Demultiplexing. 9. Study of a Superhetrodyne Receiver.
Electronics & Communication Engg
Electronic Measurements and Instrumentation Lab Code: EI 492 Contacts: 3P Credits: 2 1. Study of static characteristics (accuracy, precision, hysteresis, repeatability, linearity) of a measuring instrument.
2. Study of dynamic characteristic (fidelity, speed of response) 3. Acquaintance with basic structure of DMM and measurement of different electrical parameters 4. Statistical analysis of errors in measurement using computer simulation 5. Study of A/D converter along with its associate circuitry 6. Study of D/A converter 7. Realization of Data Acquisition system 8. Wave and spectrum analysis using Q meter 9. Measurement of HF and VHF
Electronics & Communication Engg TECHNICAL REPORT WRITING & / LANGUAGE PRACTICE LABORATORY Code: HU 481
Contact: 3 Credits: 2 Topics to be covered and number of hours required for it: 1. Introductory lecture is to be given to the students so that they get a clear idea of the syllabus and understand the need for having such a practice lab in the first place(3 hours) 2. Conversion practice is done on given situation topics. The students are also made to listen to pre-recorded cassettes produced by British Council and also by the Universities of Oxford and Cambridge (6 hours) 3. Group Discussions:- The students are made to understand the difference between the language of conversion and group discussion. Strategies of such discussions are to teach to them. It is also helpful to use videocassettes produced by the U.G.C. on topics like groupdiscussion. After wards the class is divided into groups and the students have to discuss on given topics on current socio-economic-political-educational importance(12 hours) 4. Interview sessions-students are taught the do’s and don’ts of facing a successful interview. They then have to face rigorous practices of mock-interviews. There simulations of real life interview sessions where students have to face an interview panel(12 hours) 5. Presentations: The secrets of an effective presentation are taught to the students. Then each and every student has to make lab presentations with the help of the Overhead projector/ using power point presentation and other audio-visual aids in the laboratory. They also have to face the question answer sessions at the end of their presentation (12 hours) 6. Classes are also allotted to prepare the students for competitive examinations like the T.O.E.F.L. by making the students listen to specially produced C.D. cassettes of such examinations (3 hours) The overall aim of this course is to inculcate a sense of confidence in the students and help them to become good communicators in their social as well as professional lives. Text: 1. Sharma—Business Correspondence & Report Writing, TMH 2. Prasad—Group Discussion & Interview (With Audio Cassette) , TMH Reference: 1. Sashi Kumar—Spoken English (with Cassette) , TMH
Fifth Semester
Electronics & Communication Engg Line Communication System
Code: EC 501 Contacts: 3L Credits: 3 Introduction: Evolution of Telecommunication, Basics of Switching System, Classification of Switching System, limitation of Manual Switching System, Evolution of Automatic Switching System, Principle of Operation of Stronger & Crossbar Electromechanical Systems, pulse dialing & tone dialing, Circuit Switching & Packet Switching. Electronic Switching: Stored program control, centralized SPC, distributed SPC, software architecture, application software. Traffic Engineering: Blocking network, blocking probability, grade of service, traffic load, Erlang-B congestion formula. Time Division Switching: Basic time division space switching, Basic time division time switching, time multiplexed space switching, time multiplexed time switching, combination switching, Frequency division switching, grouping. Transmission Lines: Transmission line equations, characteristic impedance, propagation constant , group & phase velocities, voltage-current distribution. Telephone Networks: Subscriber loop systems, Switching hierarchy & routing, transmission systems, charging plan, signaling techniques-in channel & common channel signaling. ISDN: Introduction, ISDN channels & access arrangements, ISDN service capabilities, usernetwork interfaces, drawbacks of ISDN, introduction to B-ISDN. Text Books: 1. T. Viswanathan, “ Telecommunications Switching Systems & Networks”, PHI 2. Tannenbaum, “ Computer Network”, PHI 3. J. Ryder, “ Networks, lines & fields”, PHI References: 1. H. Taub & D.T. Schiling, “ Principles of Communication System “, MGH 2. S. Rambhandran, “ Telecommunication Principles, Circuits & Systems”, Khanna Publishers 3. G. Kennedy, Electronic Communication System”, TMH
Electronics & Communication Engg EM Theory , Propagation & Antenna Code : EC 502 Contacts : 3L + 1T Credits 4 EM Theory : Ampere’s law , magnetic vector potential , Maxwell’s equation: time varying electric & magnetic field , Faraday’s law , displacement current, electromagnetic radiation, uniform plane wave equation & solution , skin depth , Poynting theorem , Poynting vector, reflection & refraction of plane waves , RF lines , smith chart. Propagation : Different modes of radio wave propagation , ionospheric propagation , MUF, critical frequency, skip distance, duct propagation, troposphere propagation. Antenna : Antenna parameters: Directivity, beam width , gain, radiation resistance, short dipole antenna , thin linear antenna , antenna array, pattern multiplication, Yagi -Uda array , loop antenna , log periodic antenna, Friss transmission formula , horn antenna , parabolic reflector & its feed , cassegrain feed , Antenna for mobile communication. References : 1. Hayt: Engineering Electromagnetics TMH 2. Jordan E.C & Balmain K.G , “ Electromagnetic Waves and Radiating systems “ Prentice Hall of India , 1971. 3. Kennedy G. “ Electronic Communication Systems “ 4th ed. , McGraw Hill Book Co ., 1985. 4. John D. Ryder , “ Network Lines & Fields “ , 2nd ed., Prentice Hall of India,1984. 5. J.D Kraus , “Antennas “, McGraw Hill,3rd ed. 6. J.D Kraus , “ Electromagnetics with Applications “ , McGraw Hill,5th ed..
Electronics & Communication Engg Audio & Video Engineering Code: EC 503 Contacts: 3L Credits: 3 Audio: Acoustical systems & its electrical equivalent circuits; Microphones, loud speakers, recording & reproduction of sound; high fidelity stereophonic systems; compact disc. Video: TV fundamentals, scanning, synchronization & blanking, composite video, video bandwidth consideration, vestigial side brand transmission, channel bandwidth including sound & colour transmission; standard channel, different TV systems, allocation of frequency bands, TV standards, Monochrome & colour camera system, vidicon & plumbicon, solid-state camera; picture tubes, characteristics of phosphor screen, persistence, roll of aluminized coating & shadow mask; gama corrections. Block diagram of TV transmitter & receiver, short description of each block; characteristics of TV transmission & transmitting antenna; characteristics of receiving antenna, balun, VHF & UHF tuners, electronic tuning, video IF amplifier characteristics, trap frequencies & VSB correction, video detector & amplifier characteristics, role of AGC sync. Separation, & generation of deflecting signals, role of AFC, EHT circuits, & other receiver power supplies, FM detection, role of limiter & deemphasis circuits, fundamentals of colour signal transmission & reception, frequency interleaving, distinction between NTSC & PAL systems video recording & reproduction, cable & satellite TV. HDTV: Introduction, Principle, Standards, applications Text Books: 1. D. P. Roychowdhury, “ Advanced Acoustics”, The New Book Stall 2. R.R. Gultari, “ Monochronic & Colour Television”, References: 1. M. Dhake,” TV & Video Engineering”, TNH 2. K. Blair Benson & Donald G. Fink, “ HDTV”, Advanced television for 1990’s, MGH
Electronics & Communication Engg Microprocessor and Microcontrollers Code: EI 502 Contacts: 3L + 1T Credits:4 Introduction to 8085A CPU architecture-register organization, addressing modes and their features. Software instruction set and Assembly Language Programming. Pin description and features. Instruction cycle, machine cycle, Timing diagram. Hardware Interfacing: Interfacing memory, peripheral chips (IO mapped IO & Memory mapped IO). Interrupts and DMA. Peripherals: 8279, 8255, 8251, 8253, 8237, 8259, A/D and D/A converters and interfacing of the same. Typical applications of a microprocessor. 16 bit processors: 8086 and architecture, segmented memory has cycles, read/write cycle in min/max mode. Reset operation, wait state, Halt state, Hold state, Lock operation, interrupt processing. Addressing modes and their features. Software instruction set (including specific instructions like string instructions, repeat, segment override, lock prefizers and their use) and Assembly Language programming with the same. Brief overview of some other microprocessors (eg. 6800 Microprocessor).
References: 1. Microprocessor architecture, programming and applications with 8085/8085A, Wiley eastern Ltd, 1989 by Ramesh S. Gaonkar. 2. Intel Corp: The 8085 / 8085A. Microprocessor Book – Intel marketing communication, Wiley inter science publications, 1980. 3. An introduction to micro computers Vol. 2 – some real Microprocessor – Galgotia Book Source, New Delhi by Adam Osborne and J. Kane 4. Advanced Microprocessors by Ray and Bhurchandi - TMH 5. Intel Corp. Micro Controller Handbook – Intel Publications, 1994. 6. Microprocessors and Interfacing by Douglas V. Hall, McGraw Hill International Ed. 1992 7. Assembly Language Programming the IBM PC by Alan R. Miller, Subex Inc, 1987 8. The Intel Microprocessors: 8086/8088, 80186, 80286, 80386 & 80486, Bary B. Brey, Prentice Hall, India 1996.
Electronics & Communication Engg Linear & Digital Control Systems Code: EE 513 Contacts: 3L+1T Credits: 4 Basic components, open & closed loop, effect of feedback; mathematical models, differential equations, state equations, state diagram, linear, non-linear, time invariant & time-varying systems; impulse response, transfer functions of linear systems, signal flow graph, Mason’s Gain formula, state space representation , stability analysis, state transmission matrix, eigen value. Modeling of Electrical & Mechanical systems, DC motor, error Detector, tachometer. Characteristics of control systems; first & second order systems, transient response, steady-state error, stability of linear system; Routh-Hurwitz criterion; Root-locus method, principle & properties; frequency response plot: Bode Plot, Nyquist criterion, Grain & Phase margin, transient & error function analysis, type of a system & its effect on error function. Design of Control Systems, lead-lag compensation , proportional, proportional-integral (PI), PID controller. Digital Control Systems, effect of Sampling rate on stability, transient response & steady state error. BOOKS ;
1. Kuo B.C. Automatic Control System, PHI 2. Das Gupta S : Control System Theory ; Khanna Pub. 3. Nagrath I J & Gopal M : Control Systems Engineering, New Age International Pub. 4. Ogata K : Modern Control Engg. PHI 5. Dorf R C & Bishop R.H.: Modern Control System ; Addison – Wisley 6. Bolton: Industrial Control & Instrumentation, Orient Longman 7. Nakra: Theory & Applications of Automatic Control, New Age International 8. Gopal: Modern Control System Theory, New Age International 9. Gopal: Digital Control Engineering, New Age International 10.Sinha: Control Systems, New Age International
Electronics & Communication Engg
Propagation & Antenna Lab: Code EC: 592 Contacts: 3P Credits: 2 Name of the experiments : 1. 2. 3. 4.
Standing wave pattern study of RF transmission line . Guide wavelength & VSWR measurement of a rectangular waveguide . Radiation pattern study (gain & bandwidth measurement) of a simple dipole antenna. Radiation pattern study (gain & bandwidth measurement) of a folded dipole Antenna. 5. Radiation pattern study ( gain & bandwidth measurement) of a Yagi antenna . 6. Radiation pattern study ( gain & bandwidth measurement) of a log periodic antenna . 7. Radiation pattern study ( gain & bandwidth measurement) of a horn antenna .
Electronics & Communication Engg
Microprocessor and Micro-controller Lab Code: Contacts:
EI 592 3P
Credits:
2
Sl. No.
Name of the Experiments
No. of hours 3
1.
Familiarization with 8085 register level architecture and trainer kit components, including the memory map. Familiarization with the process of storing and viewing the contents of memory as well as registers.
2.
a) Study of prewritten programs on trainer kit using the basic instruction set ( data transfer, Load/Store, Arithmetic, Logical) b) Assignments based on above.
3
3.
a) Familiarization with 8085 simulator on PC. c) Study of prewritten programs using basic instruction set ( data transfer, Load/Store, Arithmetic, Logical) on the simulator. b) Assignments based on above
3
4.
Programming using kit/simulator for i) table look up ii) Copying a block of memory iii) Shifting a block of memory iv) Packing and unpacking of BCD numbers v) Addition of BCD numbers vi) Binary to ASCII conversion vii) String Matching viii) Multiplication using Booth’s Algorithm
9
5.
Program using subroutine calls and IN/OUT instructions using 8255 PPI on the trainer kit eg, subroutine for delay, reading switch state & glowing LEDs accordingly, finding out the frequency of a pulse train etc
3
6.
Interfacing any 8-bit Latch (eg, 74LS373) with trainer kit as a peripheral mapped output port with absolute address decoding
3
7.
Interfacing with I/O modules: a) ADC b) Speed control of mini DC motor using DAC c) Keyboard d) Multi-digit Display with multiplexing e) Stepper motor
8.
Writing programs for ‘Wait Loop (busy waiting)’ and ISR for vectored interrupts (eg, counting number of pulses within specified time period)
12
3
Electronics & Communication Engg 9.
Study of 8051 Micro controller kit and writing programs for the following tasks using the kit a) Table look up b) Basic arithmetic and logical operations c) Interfacing of Keyboard and stepper motor
6
10.
Familiarization with EPROM programming and Erasing
3
Linear & Digital Control System Lab: Code: EE 583 Contacts: 3P Credits: 2 1. Familiarization with MATLAB Control System tool Box, MATLAB- SIMULINK tool box & PSPICE. 2. Determination of step response for 1st order & 2nd order system with amity feedback on CRO & calculation of control system specifications for variations of system design. 3. Simulation of step response & impulse response for Type-II, Type-I & Type-2 system with unity feedback using MATLAB & PSPICE. 4. Determination of root locus, Bode-plot, Nyquist Plot, using MATLAB control system toolbox for a given 2nd order transfer function & determination of different control system specifications. 5. Determination of PI, PD, PID controller action on 1st order simulated process. 6. Determination of approximate transfer function experimentally using Bode Plot. 7. Evaluation of steady-state error, setting time, percentage peak overshoots, gain margin, phase margin with addition of lead compensator in forward path transfer functions using MATLAB & PSPICE. 8. Study of position control system using servomotor. Audio & Video Engineering Lab: Code : EC 593 Contacts: 3P Credits: 2 1. Voltage & frequency calibration of an audio function generator using a commercial function generator & a CRO. 2. Level & total harmonic distortion measurement of different audio waveforms ( sine, triangular & square) from a commercial audio function generator using a level & distortion meter. 3. Output power, frequency response, and efficiency & distortion measurement of a push-pull power amplifier. 4. Directivity & frequency response measurement of a microphone. 5. Directivity & frequency response measurement of a loudspeaker.
Electronics & Communication Engg 6. Study of different components of a B/W TV receiver & measurement of different waveforms from a pattern generator. 7. Study of waveforms on a CRO for different patterns from a pattern generator applied to a B/W TV receiver & measurement of a H, V, Hsigma, Vsigma & P/S ratio. 8. Study of waveforms on a CRO for different patterns ( V-bar, Yellow, Green, cyan, Magenta, Blue, Red etc.) from a color pattern generator applied to a colour TV receiver & measurement of luminosity level, color sub-carrier souting, and color burst amplitude.
Sixth Semester
Electronics & Communication Engg INDUSTRIAL MANAGEMENT Code: HU-601
Basic concepts of management, objectives, classification and hierarchy, different schools of management thought, principal functions of management, Management as an organizing and directing force, Structure of the management decision making process, Organization structure, authority and responsibility, Organization dynamics, Managerial leadership, communication systems, Managing human factors in business and industry, Industrial relation, Union activities, trade union acts, collective bargaining, disciplinary procedure. Organizational objectives and long range forecasting, planning, organizing, programming and controlling process, managerial control strategies; quantity and quality control, cost benefit analysis, present work and breakeven analysis, budgetary control, use of management science for the efficient administration of economic units, production, financial and marketing management. Adoption of statistical and computer methods and techniques to managerial research and managerial decision making and general management. Books: 1. Essentials of Mgmt, Koontz, TMH 2. Industrial Management - S C Jain, W S Bawa, Dhanpat Rai & Co. (P) Ltd. 3. Industrial Management, Vol.1 L.C. Jhamb, EPH, 4. Industrial Engineering & Production Management - Martand Telsang, S. Chand 5. Industrial & Business Management - Martand T. Telsang, S. Chand 6. Introduction to Materials Management - J Tony Arnold & Stephen N. Chapman, Pearson Education Asia 7. Production & Operations Management – Adam, Pearson Education /PHI 8. Altekar, Production Management, Jaico 9. Industrial Relations, Trade Unions & Labour Legislation - Sinha, Pearson Education Asia 10. Business Organisation & Management - Tulsian, Pearson Education Asia.
RF & Microwave Engineering Total lectures : 40 periods (minimum) EC-602
Electronics & Communication Engg Introduction – RF and microwave spectrum, historical background, application of RF and microwave.
1L
Microwave Impedance Matching – Unknown impedance measurement using shift in minima technique and impedance matching using single and double stub matching 4L Microwave waveguides and components – Rectangular waveguide and circular waveguide – mode structure, cutoff frequency, wall current, attenuation; microwave cavities – rectangular cavity resonator, Q factor, scattering matrix and transmission matrix, attenuator, phase shifter, directional coupler, Bethe hole coupler, magic tee, hybrid ring, circulator, isolator, Antennas 8L Planar structures – Strip line, microstrip line, coplanar structure - circulator, rat race, proximity coupler 3L Microwave Tubes – Limitations of conventional tubes, Multicavity Klystron, Reflex Klystron, Magnetron, Travelling Wave Tube, Backward Wave Oscillator 5L Semiconductor Microwave Devices – Tunnel diode, Gunn diode and their waveguide mounts, Avalanche diodes – IMPATT, TRAPATT, Microwave bipolar transistor, heterojunction bipolar transistor, Microwave field effect transistor – JFET, MOSFET, MESFET, Parametric amplifier 8L Applications of microwave – Radar systems, Satellite Communication System, Industrial Applications of microwave 3L Microwave Measurement – VSWR measurement, power measurement, impedance measurement, frequency measurement 3L RF Circuits –
Low pass filter, high pass filter, band pass filter, RF amplifier 2L EMI / EMC – EMI standard, radiated and conducted EMI and susceptibility, wire antenna, EMI sensor, antenna factor, cable to cable coupling, electrostatic discharge 3L Textbooks -[1] Matthew M Radmanesh, Radio Frequency and Microwave Electronics Illustrated, Pearson Education Asia [2] David M Pozar, Microwave Engineering, John Willy & Sons, Inc. [3] Peter A. Rizzi, Microwave Engineering – Passive Circuits, Prentice Hall of India [4] M L Sisodia, Microwave Active Devices – Vacuum and Solid State, New Age Int. Publication [5] Kraus, Antennas, TMH [6] S Y. Liao, Microwave Devices and Circuits, Pearson Education/PHI. [7] M.N.O Sadiqu, Elements of Electromagnetism, Oxford [8] K. C. Gupta, Microwaves, New Age Int. Publication [9] M I Skolnik, Introduction to Radar Systems – Tata-McGraw-Hill
Electronics & Communication Engg
Optoelectronic Devices and Circuits Total lectures : 40 periods (minimum) EC-601 Introduction –
Optical processes in semiconductors, radiative and non-radiative recombination processes, Einstein’s relations for spontaneous and stimulated emissions and absorption, direct and indirect band-gap semiconductors, ternary and quaternary materials, heterojunctions, coherence properties of light, light as an electromagnetic radiation 6L Light Emitting Diodes – Electroluminescent process, Injection efficiency, recombination efficiency, LED materials, LED construction, device configuration and efficiency, LED structures – planar, dome shaped, hetero junction, surface emitting, edge emitting LED; device performance, drive circuitry, spectral response 5L Laser – Principle of operation, population inversion, gain, lasing threshold condition, semiconductor laser structures – Buried heterostructure laser, distributed feedback laser, quantum well laser; gas lasers, mode locking, Q switching, tunable semi-conductor lasers 7L Photodetectors – Photoconductors, Photodiodes – pn, pin, hetero junction photodiodes, avalanche photodiodes, comparison of different photodiodes, photo transistor 5L Optoelectronic Modulation and Display Device – Electro-optic and acousto-optic modulators, liquid crystal displays, solar cells 3L Optical Fibers – Introduction, optical fiber as waveguide, principle of ray propagation (ray theory), material and structure, meridional and skew rays, numerical aperture, step index and graded index fibers, electromagnetic wave propagation in step and graded index fibers, single mode and multimode fibers, normalized frequency, mode volume, mode field diameter, cut-off wavelength 10L Optoelectronic Integrated Circuits – Hybrid and monolithic integration, application of OEIC, integrated transmitter and receiver, Introduction to optical integrated devices 4L Text books – [1] J. Wilson & J.F.B Hawkes, Optoelectronics – an introduction, Prentice Hall of India. [2] Pallab Bhattacharya, Semiconductor Optoelectronic Devices, Prentice Hall of India [3] Jasprit Singh, Optoelectronics – an introduction to materials and devices, McGraw Hill. [4] John M. Senior, Optical fiber communication, Prentice Hall of India
Electronics & Communication Engg [5] Keiser, Optical fiber communication, Tata McGraw Hill. [6] Prince S, Optical & Optoelectronic Devices, Scitech
Digital Communication System Total lectures: 40 periods (minimum) EC-603 1.
2.
3.
4.
5.
6.
7.
Introduction A historical perspective in the development of digital communication. Elements of digital communication system. Source encoding Pulse code modulation, quantization noise, linear and non linear quantization, companding. Differential pulse code modulation, delta modulation, adaptive delta modulation, Delta sigma modulation, linear predictive coders. Multiplexing: Introduction to different type of multiplexing, Frequency Division & Time Division Multiplexing: multiplexing hierarchy, synchronous and asynchronous multiplexing, pulse staffing and word staffing. Baseband transmission Baseband signal receiver: integrate and dump type filter probability of error calculations, optimum filters, coherent reception, matched filter and its transfer function. Probability of error of matched filter. Regenerative repeater, Bit synchronization, Inphase and midphase synchronizer. Early late gate synchronizer. Frame synchronization. Different type of line coding – UPNRZ, UPRZ, PNRZ, PRZ, Manchester, differential encoding and their spectral characteristic, self synchronization properties of some of the encoded signal.. Equalization Inter symbol interference (ISI), Purpose of equalization, Eye pattern, Nyquiest criterion for zero ISI, fixed equalizer. Design of equalizer, Adaptive equalizer, Decision directed equalizer, Adaptive decision directed equalizer, Partial response signaling. Digital modulation techniques
1L
5L
4L
6L
2L
6L
6L
Electronics & Communication Engg BPSK, DPSK. BFSK, MARY-PSK & -FSK, QPSK, MSK principles, QASK, Error calculation. 8.
9.
Spread-spectrum modulation Pseudo-Noise Sequence, A notion of Spread Spectrum, Direct-Sequence Spread-Spectrum with Coherent Binary Phase-Shift Keying, Processing Gain, Probability of Error, Frequency-hop Spread Spectrum, Code-Division Multiplexing. Information theory and coding Concept and measure of information, Entropy, Discrete and continuous messages, Message source, zero memory source, extension of zero memory source, Markov source and their entropy, Channel with and without memory, Channel capacity, Hartlay and Shannon’s law. Properties of code: Uniquely decodable codes, Instantaneous codes, Kraft inequality and Macmillion inequality, Construction of instantaneous codes, Hoffman and Shannon – Fano coding.
3L
7L
Text Books : 1. 2.
Taub & Schilling, Principle of Communication System, Tata McGraw Hill. B.P. Lathi, Modern Digital and Analog Communication System, Oxford University press. 3. Simon Haykin, Communication System, John Wiley & Sons, 4. L.W. Couch II, Modern Communication System, Prentice Hall India. 5. Roden, Analog & Digital Communication Systems, 5e, SPD 6. Dungan,Electronics Communication System, Vikas 7. Zeimer & Tarnter, Principles of Communication, Jaico 8. Rekha, Digital Communications, Scitech Reference: 1. J.G. Proakis, Digital Communications, McGraw Hill. 2. J.Das, S.K. Mullick, P.K. Chatterjee, Principle of Digital Communication, Wiley Eastern Limited.
Microelectronics Technology & Circuits Total lectures : 40 periods (minimum) EC-604 1. 2.
Introduction Discrete & Integrated Circuit, TTL, MOS & CMOS IC. Process Technology Clean environment, Wafer preparation, oxidation, diffusion, Ion implantation, plasma etching & deposition,
4L 10L
Electronics & Communication Engg 3.
4. 5.
6.
lithography, Metallization contact & interconnects, bipolar & CMOS processing Basic Devices BJT models, Ebers-Moll & Gummel-Poon models, C-V behavior of an ideal MOS System, Capacitance of the MOS system, MOS capacitors and charge-coupled devices, Long channel and short channel MOSFETS, CMOS design, CMOS Latch-up. MOS Inverters Definition & properties, MOS & CMOS inverter Analogue Circuits Differential amplifies, Comparators, Integrators, Filters, DAC & ADC Circuits, Casecode amplifiers, design of twostate & cascode op-amplifier. BI CMOS Circuit Technique BI CMOS Device & Technology – basic analog sub-circuit
10L
4L 6L
6L
Text Books : [1] S.M.Sze – VLSI Technology, TMH [2] Cambell – Microelectronics Science & Engineering. Fabrication, Oxford University Press. [3] Demicheli, Synthesis & Optimization of Digital Circuits, TMH [4] S.K. Gandhi – VLSI Fabrication Principles, John Wiley & Sons.
Microwave Engineering Lab EC 692 (Students are required to perform at least ten experiments taking all from group A and any two from group B)
Group A 1.Measurement of wavelength, guided wavelength and frequency using waveguide test bench (WR 90) . Calculation of broad wall dimension of waveguide & ω − β plot
2.Calibration of attenuator, measurement of AD and AR using waveguide test bench (WR 90) and Smith Chart 3.Calibration of a crystal detector using waveguide test bench (WR 90)
Electronics & Communication Engg 4.Measurement of coupling and directivity of directional coupler using calibrated attenuator 5 Study of characteristics of Gunn oscillator using power meter with bolometer and frequency meter 6.Measurement of unknown impedance (inductive, capacitive and resonat windows) 7. Klystron characteristics (static method and dynamic method) using power meter with bolometer and frequency meter 8. Measurement of reflection coefficient without using slotted line (using two directional couplers and calibrated attenuator)
Group B 1.Measurement of dielectric constant using waveguide test bench (WR 90) 2.Scattering matrix of a magic tee / E plane tee / H plane tee using waveguide test bench (WR 90) 3.Measurement of phase shifter of a phase shift oscillator 4.Measurement of radiated emission in open area test side (OAT) 5.Frequency response of low pass filter, high pass filter, band pass filter using Spectrum Analyzer with tracking generator 6.Frequency response of RF amplifier using Spectrum Analyzer with tracking generator 7. Measurement of conduction EMI using LISN and Spectrum Analyzer
Digital Communication Systems Lab EC 693
(Students are required to perform at least ten experiments taking 3 from Group A, 3 from Group B, 3 from Group C and 1 from Group D) GROUP - A 1. 2.
3.
Design, implementation and studies of the properties of 15 bit P.N. Sequence using shift register Studies of the properties of A/D and D/A converter (AD7820/ADC0820 and ICL 8018A/8019A/8020A). (Properties like transfer characteristics, code central line method of nonlinearty study, differential nonlinarity, integral nonlinearity, resolution etc). Study of pulse amplitude modulation and demodulation. (Studies of distortion factor of the constructed signal as a function of signal frequency & amplitude. Further study of distortion factor of filtered reconstructed signal as a function of sampling frequency and thus verify the sampling theorem).
Electronics & Communication Engg 4.
5. 6.
7.
Studies of PCM transmitter and receiver. (To measure the bit rate, bandwidth requirement and distortion factor of the reconstructed signal in presence of channel noise). Study of line coders : UPNRZ, PRZ, BPRZ, PNRZ (To study the nature of waveform in CRO and its spectrum by spectrum analyzer. At least any one of the line coders has to designed, fabricated and tested). Studies of Manchester coding and decoding technique. (Studies of the nature of waveform, spectrum and self synchronizing characteristic). GROUP - B Studies of PSK modulator and demodulator, connected by either physical or simulated channel.
8.
Studies on FSK modulator and demodulator, connected by either physical or simulated channel
9.
Studies on ASK modulator and demodulator, connected by either physical or simulated channel
10.
Studies on QPSK modulator and demodulator, connected by either physical or simulated channel
(In all above experiments, nature of the modulated waveform is to be studied by a CRO. The spectrum is to be studied with a spectrum analyzer and the essential bandwidth is to be determined; finally the reception quality is to be analyzed by cross co-relation characteristics and measurement of bit error rate in presence of channel noise). GROUP - C 11. 12. 13. 14. 15.
16. 17. 18. 19.
Studies on Delta modulator & Demodulator Studies on Adaptive delta modulation Studies on delta signal modulation Studies on PCM/TDM system (Multiplexing/Demultiplexing) (Object is to measure distortion factor of the demodulated signal with variable signal amplitude and frequency, measure the essential B.W. of the modulated signal Studies of PCM/TDM system (Multiplexer & Demultiplexer) (To study the interchannel interference and synchronization problem in multiplexer and demultiplexer system GROUP - D Studies of direct sequence spread spectrum modulation and demodulation Studies of frequency hopped spread spectrum modulation and demodulation (To study spreading and dispersing, effect of channel noise, single tone interference etc. Study of features of ISDN network. Study of ISDN Emulator and its programming, using appropriate communication software (like protocol analyzer software).
Electronic Design LAB EC-683
Electronics & Communication Engg Objective: To impart the essential knowledge of electronic circuit design and fault analysis, to enhance hands on experience and to encourage innovativeness. Modus operandi: The subject will be a sessional subject so that students can employ all their resources in order to excel. Total 15 designs have been indicated in the syllabus classified in 3 groups. Each student has to complete at least 6 designs in a semester taking two from each group. At the end of the semester, the student will be interviewed by a panel of examiners, constituted by the head of the department/institution. Guidelines: Each design given in the syllabus indicates the basis. On this basis, the teacher will prepare an exact design problem with specified parameters and assign to the student. Objective of the job in brief is also given in the syllabus. As such the teacher can further elaborate or specialize the problem creating enough room for the student to learn and innovate. If same job is assigned to more than one student/group, it must be with different parameter values. The students will find their own design solutions with minimum input from the teacher. Of course there can be more than one solution but the student should ultimately know their comparative merits/demerits. The hardware assembly and testing has to be done only during assigned class hours under general supervision of a teacher. The student must always make a comparative study between the theoretical and measured performance parameters and analyze their causes. At the end of each job, the student will prepare a report including detail technical specification of his design, circuit diagram, design calculations, theoretical & measured values, graphs, references etc. Scoring: The total score of 100 will be in two parts, e.g. a) continuous evaluation-60 and b) semester end viva-40. A full mark of 10 is allotted to each job. At the end of each job, the teacher will evaluate the performance on the basis of initiative, innovativeness, speed and insight. The sum of 6 such evaluations will make the total for continuous evaluation. At end semester, each student will be interviewed to assess his expertise in various facets of electronic design, and a score out of 40 will be allotted. A. DISCRETE ANALOG CIRCUITS. 1. Rectifiers. (To design a rectifier for a given average output dc voltage and a given load resistance, compare between the theoretical values of Vdc, Vrms, RF, HD, output regulation, transformer utility factor etc. with the measured values, and thus comprehend the relevance/effect of these various parameters.)
Electronics & Communication Engg 2. DC power supply regulation and protection circuits. (To learn designing a series transistor based output regulation circuit, an output current limiting circuit, fold back circuit needed for a given output parameters.) 3. Single stage audio frequency voltage amplifier with BJT for a given A v, Zin and Zout and maximum symmetrical out put swing. (To learn basic design principles, different methods of biasing, bias stability, selection of transistor from data manuals and effect of ac coupling on bandwidth.) 4. Single stage audio frequency emitter follower with JFET for a given Av, Zin and Zout and maximum symmetrical out put swing. (To learn the design principles and applications of an emitter follower.) 5. Complimentary symmetry power amplifier with pre amplifier, if necessary, for a given out put power to a given load with single ended power supply. (To learn the distinction of a power amplifier over and above a voltage or current amplifier, its design principles, issues like, efficiency, cross over distortion etc.) 6. RC phase shift Oscillator , Wien Bridge oscillator, Hartley and Colpitt oscillator ( To learn the design of oscillators and measuring the frequency and amplitude of oscillations) B. OPAMP BASED ANALOG CIRCUITS
1. Inverting and non-inverting amplifier of given dc gain, input impedance and output impedance. (To learn the basic design, inter relation between the dc gain and input/output impedances, offset balance and the relation between feedback and GBW.) 2. Adder and subtractor. (To learn the basic design and function of a multi input adder/subtractor (with ac and dc inputs present simultaneously). 3. Comparator/voltage level detector for a given upper threshold level and a given lower threshold level with facility of independent adjustment of hysteresis and center point. (To learn the design and the technique of independent adjustment of both hysteresis and center point.) 4. Active filters: LP, BP, HP, 1st order, 2nd order. (To learn the design of a filter and it’s inherent phase shifting characteristics.) 5. 555 based monostable and astable of duty cycle below and above 50%. (To learn designing 555 based timer circuits.)
C. DIGITAL LOGIC CIRCUITS
Electronics & Communication Engg 1. Design and implement a BCD to 7-segment decoder with basic and universal gates. (To understand clearly the method of writing a truth table, use of K-map, simplifying a logic function and optimum design with minimum number of ICs and inputs.) 2. Design and implement a 4-digit frequency counter with a clock generator. (To learn designing a digital circuit using available standard gate, FF, counter and display Ics.) 3. Designing logic circuits using multiplexers, demultiplexers and gates to implement logic functions. (To learn the use multiplexers and demultiplexers) 4. Design and implement a sequence detector. (To learn designing a sequential circuit, whose output is 1 or 0 when any input bit is preceded or succeeded by a predefined binary sequence. To define the input & output sequence from a given physical problem, to prepare a state diagram, derive a minimal state table, to find the simplified state equation, to implement the same & verify the result) 5. To design and implement a combination of a logic circuit and a RAM in order to generate a 4-bit data after simplifying a logic expression, to store the output data at a predefined location in the RAM, to retrieve the same and verify. (To comprehend the structure and operating principle of memory devices.)
Group Discussion Seminar EC-682 (Objectives – To encourage in-depth study, practice oration and instill a habit of participation) About 20 minutes presentation / lecture on any topic covered in the first to sixth semester syllabus followed by 5 minutes interaction / discussion session. Seminar topic would be selected in consultation with teacher guide and a report to be submitted at least seven days before the presentation. The presentation should be in front of teachers and students of the class. The observer-students should take active participation in the presentation for which there is marks. Evaluation should be based on the following parameters of the students: Presentation skill, Delivery of the speech, Depth and breadth of the subject matter presented. The attendance of other students in the seminar will be recorded and their participation should also be assessed for evaluation of their participations
****************************** .
Electronics & Communication Engg
Seventh Semester
EC 701
Digital Signal Processing
Contact: 3L + 1T Credit: 4
Introduction, Overview of digital signal processing. Discrete – Time linear system, Sequences, arbitrary sequences, linear time invariant system, causality, stability. Difference equation, relation between continuous and discrete system. Classifications of sequence, recursive and non-recursive system.
2L 8L
Mathematical operations on sequences: Convolution, graphical and analytical techniques, overlap and add methods, matrix method, some examples and solutions of LTI systems, MATLAB examples (Tutorial)
4L
Z-transform: Definition, relation between Z transform and Fourier transform of a sequence, properties of Z transform, mapping between S-plane and Z-plane. Unit circle, convergence and ROC, Inverse z-transform, solution of difference equation using the one sided Z-transform MATLAB examples (Tutorial).
6L
Discrete Fourier transform: Definition, inverse discrete Fourier transform (IDFT) Twiddle factor, linear transformation, basic properties, circular convolution, multiplication of DFT, linear filtering using DFT, filtering of long data sequences, overlap add and save method. Computation of DFT, Fast Fourier transform (FFT), FFT algorithm, Radix 2 algorithm. Decimation-in-time and decimation-infrequency algorithm, signal flow graph, butterflies, Chirp z-transform algorithm, MATLAB examples (Tutorial).
10L
Digital filter realization: Principle of digital filter realization, structures of All-zero filters. Design of FIR (Finite impulse response) filters, linear phase, windowsrectangular, Berlitt, Hanning, Hamming and Blackman. Design of infinite impulse response filters (IIR) from analog filters. Bilinear transformation, Butterworth, Chebyshev, Elliptic filters. Optimisation method of IIR filters. Some example of practical filter design. Computer aided filter design, MATLAB examples (Tutorial).
10L
Electronics & Communication Engg
Books: 1. L.R. Rabiner & B.Gold, Theory and Application of Digital Signal Processing., PHI 2. J.G. Proakis & D.G. Manolakis, Digital Signal Processing, Principles, Algorithms and Applications.,PHI/Pearson 3. Chen, Digital Signal Processing, OUP 4. Meyer-Basse U, Digital Signal Processing with FPGA, Spriger India 5. Ingle, Digital Signal Processing using MATLAB, Vikas 6. Babu R, Digital Signal Processing , Scitech 7. S. Salivahanan et al, Digital Signal Processing, TMH 8. S.K.Mitra, Digital Signal Processing - A Computer based approach, TMH 9. Xavier, Digital Signal Processing, S. Chand 10. Emmanual C. Ifeachor et. Al., Digital Signal Processing : A Practical approach, Pearson Education, 2nd edition. 11.Pradhan, Digital Signal Processing Applications, Jaico
EC 702
VLSI Design
Contact:
Credit:
3L + 1T
4
Analog VLSI Circuit Design: i) Review of MOSFET characteristics, scaling and small-geometry effects, MOSFET capacitances.
3L
ii) MOS resistor, MOS current source, current mirror circuits. MOS voltage source Linear voltage and current converters.
4L
iii) CMOS operational amplifier (OPAMP) design: - Differential amplifier, level shifter, source follower, output stage voltage and power amplifiers. Cascode OPAMP. Compensation techniques.
6L
iv) Analog Filters: - Switched capacitor (SC) fundamentals, first order SC circuits, second-order SC circuits and cascade design.
4L
Electronics & Communication Engg v) Analog to digital and digital to analog converters, speed of conversion and over sampling issues.
4L
vi) VLSI Interconnects: - distributed RC model, transmission line model. Future inter connect technologies.
2L
Digital VLSI Circuit Design: i) MOS inverters, CMOS inverter, state characteristics, switching characteristics, power dissipation issues.
3L
ii) CMOS logic gates: NAND, NOR, XOR, CMOS logic design of half and full adders. CMOS transmission gates, pseudo-nMOS, domino logic gates.
5L
iii) Sequential MOS Logic Circuits: The SR latch circuit, clocked latch and flipflop, CMOS D-latch and edge-triggered circuits, Schmitt trigger circuit, Comparator.
4L
iv) Dynamic Logic Circuits: Pass transistor logic, synchronous dynamic circuit techniques.
3L
v) Semiconductor Memories: ROM circuits, SRAM circuits, DRAM circuits, drivers and buffers, Buffer scaling and design issues.
5L
CAD Tools for VLSI Design: -
i) SPICE: Element lines, Control lines, Command lines, Types of analysis, Models and model parameters, Sub circuits and Macros.
3L
ii) Layout design rules, Layout of inverters, NAND, NOR gates using LASI.
3L
ii) VHDL Syntax: Basic concepts in VHDL and VHDL grammar, Structural specification, VHDL description of Inverter, NAND gate, Full adder.
3L
Books: 1. 2. 3. 4. 5. 6. 7. 8.
Analog VLSI Signal and Information Processing - M.Ismail and T. Fietz. VLSI Design Techniques for Analog and Digital Circuits - R.L. Geiger, P.E. Allen and N.R. Strader, MGH CMOS Analog VLSI Design - P.E. Allen and D.R. Holberg, OUP. Ken Martin, Digital Integrated Circuit Design, OUP CMOS Digital Integrated Circuits - S.M. Kang and Y. Leblebici, TMH Digital Integrated Circuits - J.M. Rabaey, PHI. Introduction to Digital Systems - M. Ercegovac, T. Lang and J.H. Moreno. CMOS Circuit Design, Layout and Simulation - R.J.Baker, H.W. Li and D.E. Boyce,PHI
Electronics & Communication Engg
EC 703
System Programming & Operating Systems
Contact:
Credit:
3L + 1T
4
Assemblers: - Elements of Assembly Language Programming; Pass Structure of Assemblers; Two Pass Assembler
4L
Compilers and Interpreters: - Aspect of Compilation; Memory Allocation; Compilation of Expressions; Compilation of Control Structures; Code Optimization; Interpreters.
5L
Linkers: - Relocation and Linking Concepts; Design of A Linker; SelfRelocating Programs.
3L
Software Tools: - Editors; Debuggers.
3L
Introduction to Operating Systems: - OS Functions; Evolution of OS Functions; Batch Processing Systems; Multiprogramming Systems; Time Sharing Systems.
4L
Scheduling: - Scheduling Policies; Job Scheduling; Process Scheduling; Process Management in UNIX.
4L
Deadlocks: - Definitions; Resource Status Modeling; Handling Deadlocks; Deadlock Detection and Resolution; Deadlock Avoidance.
3L
Process Synchronization: - Process Definition; Process Control; Implementing Control Synchronization; Classical Problems; Semaphores.
5L
Memory Management: - Preliminaries; Contiguous Memory Allocation; Noncontiguous Memory Allocation; Virtual Memory Using Paging; Virtual Memory Using Segmentation
5L
I/O Organization: - IO Organization; IO Devices; file Organizations; Directory Structures; File Sharing.
3L
Protection and Security: - Encryption of Data; Protection and Security Mechanisms; Protection of User Files.
3L
Distributed Operating Systems: - Definitions and Examples; Design Issues in Distributed Operating Systems.
3L
Books:
Electronics & Communication Engg 1. Systems Programming and Operating Systems by D.M. Dhamdhere; Second Revised Edition, Tata McGraw-Hill. 2. System Programming by J.J. Donovan; Tata McGraw-Hill. 3. An Introduction to System Programming by L.L. Beck; Addison Wesley. 4. Operating System & System Programming , Prasad, Scitech 5. Guide to Operating System , Palmer, Vikas 6. Operating System Concepts by A. Silberschatz and Galvin; Addison Wesley. 7. Operating Systems by W. Stallings; Pearson. 8. Operating Systems: Concepts and Design by Milan Milenković; Tata McGraw-Hill. 9. Operating Systems by Stuart E. Madnick and John J. Donovan; Tata McGraw-Hill. 10. Operating Systems: A Design-Oriented Approach - by Charles Crowley; Tata McGraw-Hill. 11. Advanced Concepts in Operating Systems - by Mukesh Singhal and Niranjan G. Shivaratri; Tata McGraw-Hill. References: 1. Schaum’s Outlines Operating Systems by J. Archer Harris; Tata McGraw-Hill. 2. Unix Systems V.4 Concept and Application by S. Das; Tata McGraw-Hill. 3. The Unix Programming, by B.W. Kernigham; Tata McGraw-Hill. 4. The Design of Unix Operating System by M.J. Bach; Prentice-Hall India. 5. Operating Systems With Case Studies in UNIX, NetWare, Windows NT by Achyut S. Godbole; Tata McGraw-Hill.
EC 791
Digital Signal Processing Lab
Contact:
Credit:
3P
2
All the students shall perform first five experiments and the remaining three shall be given as mini- projects. 1. 2. 3. 4. 5. 6. 7. 8.
Sine wave generation using C. Designing an FIR Filter using MATLAB and DSP KIT Designing of an IIR Filter using MATLAB & DSP Kit Fourier analysis of periodic signal Time and frequency domain properties of different windows using MATLAB Development of a DTMF Tone Generator using DSP Kits and Code composer A-Law and µ-Law Companding implementations using the TMS320C54x Implementation of the Double-Precision Complex FFT for the TMS320C54x DSP
EC 792
VLSI Design Lab
Electronics & Communication Engg Contact:
Credit:
3P
2
Each student need to complete both experiments of group-A, any two from group-B and any one from group-C Group-A:
1. Design layout of a two input CMOS NAND gate using LASI (Use Mead Conway design rules of any standard 2. Using LASI, draw the layout of a simple CMOS amplifier Group-B: 1. Using SPICE, simulate a CMOS inverter. Obtain the transfer characteristics for different values of βn/βp 2. Using SPICE, simulate a simple CMOS amplifier and obtain the transfer characteristics and frequency response 3. Using SPICE, simulate a CMOS differential amplifier with a current source. Use <.SUBCKT> command of SPICE 4. Draw a full adder using AND/OR/INVERT gates in schematic editor Group-C: 1. a) Use VHDL/VERILOG to describe the carry function of a full adder b) Create a VHDL test bench for the above circuit, perform timing simulation & observe the waveform
2.
a) Design a 4-bit counter using VHDL, simulate and observe the wave form b) Down load the above in any FPGA and test the circuit.
EC 793 Contact:
Credit: • • • •
Project-I 3P
2
Students (preferably not more than four in each group) need to complete one project during 7th & 8th semester together. It is suggested that the project involves investigative study over & above the routine curriculum and also hardware activity. It should be result oriented and should explore newer topics. Students will finally prepare a comprehensive project report and give a demonstration & presentation of their project to the class of students and the review committee as nominated by the university. Total score of 200 (credit = 6) is distributed in 7th & 8th semester. Depending on the progress and quality, each student will be given a score out of 100 at the end of 7 th semester, and at the end of 8th semester.
Electronics & Communication Engg EC 794
Group Discussion
Contact:
Credit: • • • •
3P
2
Purpose: - To train the students in the art & science of professional speaking and also in presenting themselves properly to their prospective employers. They need to communicate with clarity, structure and conciseness in both one to one and group situations. They have to gear their presentations to the level of the listener. The institute may choose any appropriate method available with them to train the students on this very important aspect. The evaluation should be continuous during the semester and at the end, a total score out of 100 will allotted to each student.
EC 704A
Advanced Antenna Engineering
Contact:
Credit:
3L + 1T
4
Antenna fundamental and radiation mechanism
2L
Vector potential concept, Gain, Effective aperture
3L
Wire antenna, Loop antenna
3L
Aperture antenna
2L
Reflector antenna, Cassegrain antenna, Gregorian antenna
4L
Planar antenna
2L
Lens antenna
1L
Broadband antenna
2L
Frequency independent antenna
2L
Antenna synthesis
3L
Near field – Far field transformation
3L
Antenna arrays, Grating lobes
6L
Electronics & Communication Engg Antenna for mobile communication
3L
Antenna measurements: Radiation pattern, Gain and Radiation impedance.
6L
Text Books: 1 2 3 4 5 6 7 8
Antennas and Wave Propagation, G. S. N Raju, Pearson Education. Electromagnetic Waves and Radiating Systems, 2nd edition, by C. Jordan & Keith G. Balmain, Published by – 1968 by PHI Antenna Theory Analysis and Design Constantine by A. Balabis, Published by 1982,1977. John Wiley & Sons INC. Hoboken, Newyork, U.S.A. Antenna Theory and Design Revised Edition by Robert S. Elliott, Pulished 2003 IEEE Press, John Willey & Sons, Hoboken, U. S. A. Electromagnetics with applications, Fifth Edition by Kraus / Eleisch, Electromagnetics with applications, International Edition 1999, Mc. Graw Hill, Book co- Singapore. Introduction to RADAR Systems , 3rd Edition. Merrill I. Skolink, Published by – McGraw- Hill Companies, INC- New York, TMH Adaptive Antenna arrays, Satish Chandran, Springer Verlag Finite Element Method for Electro Magnetics, Volakis, University Press
EC 704B
Advanced Semiconductor Devices
Contact: 3L + 1T Credit:
4
Review of Semiconductor properties: - Crystal structure of semiconductors, band theory, occupation statistics, electrical properties, optical properties, recombination kinetics, avalanche process in semiconductors, photon statistics; MOSFET: - Analysis of MOSFET parameters; short channel and narrow width effects; hot electron effects MESFET: - Transport in two dimensional structures HEMT: - Hetero junction BJT, MODFETS Design of high frequency amplifiers and oscillators Resonant tunneling structures, RTD oscillators
Electronics & Communication Engg Inter valley scattering, Gunn diodes, IMPATT diodes, TRAPATT, BARPATT, mixer diodes, Step recovery diodes Outline of numerical approach to 2D and 3D device models Introduction to device simulation programs
Books: 1. D.J Roulston, Bipolar Semiconductor Devices, McGraw Hill 2. S.M.Sze, Physics of Semiconductor, John Wiley 3. Hamaguchhi, Basic Semiconductor Devices, Springer India 4. Dimitrizev, Understanding Semiconductor Devices, OUP 5. Jasprit Singh, Physics of Semiconductors and Their Heterostructures,MH 6. S.M.Sze, High Speed Semiconductor Devices, John Wiley 7. B.G.Streetman & S. Banerjee, Solid State Electronic Devices, Pearson 8. Dilip Kr. Roy, Physics of Semiconductor Devices, University Press EC 704C
Advanced Mathematics for Electronics Engineering
Contact: 3L + 1T Credit:
4
Complex variable, Cauchy Riemann eqns, Residue calculus technique, Pole at infinity, Contour integral, Jordon’s lemma
6L
Conformal mapping and Conformal transformation W = A ln Z, Z = k Cosh W, Z a W = A ln Z a
6L
Series evaluation using contour integration
3L
Partial differential equation A) Transform techniques B) Green’s function techniques
6L
Fourier series and Fourier transform
4L
Sampling techniques
2L
Special functions, Bessel and Hankel functions, Fourier Bessel series
6L
Electronics & Communication Engg Method of Moments, Evaluation of capacitance of a square plate.
6L
Text Books: • •
•
Gustafson, advanced mathematics Engineering, Springer India Advanced Engineering Mathematics by Erwin Kreyzig, Published 1962 John Willey and Sons, INC, New York M. D. Greenberg, Advanced Engineering Mathematics, Pearson Education. Jordon & Smith, Mathematical Techniques, OUP Field Computation by Method of Moments by RF Harrington Published 1968 Robert E. Krieger Publishing Company, Malabar, Florida. Engineering Mathematics , Vol. 1 & Vol.2, Sastry, PHI
•
Advanced Engineering Mathematics, Willey, TMH
• • •
EC 704D
Computer Communication & Networking
Contact: 3L + 1T Credit:
4
Introduction to computer network, classification of networks (WAN, MAN, LAN), distributed systems, digital signals and data rates, bit stream, symbols and band rate, transmission media, modems, structure of computer network, circuit, packet, message switching topological design, back bone design OSI, reference model.
8L
Physical and data link layer, bit communication between DTE and DCE, RS232C, novel modem Terminal handling, multiplexing and concentration data link layer service and design issues, errors detection and correction, retransmission strategies, sliding window protocols, satellite and packet radio networks, pure Aloha protocols, slotted Aloha protocol, satellite networks, reservation Aloha protocol, DES, PCEM, packet radio networks.
10L
Network layer, basic design issues, network layer services, connection oriented and connection less services, routing, static multi path, centralized isolated distributed hierarchical broadcast, flow based routing, congestion deadlocks ratio, concept of
12L
Electronics & Communication Engg Ethernet LAN topology and architecture CSMA/CD protocol, token ring LAN, token bus LAN, Fiber optic LAN bridges, transparent bridge source routing bridges, gateway, gateway design issues x25 internet working. ISDN, B-ISDN and ATM, evolution of ISDN services, ISDN system architecture and network terminating devices, ISDN interface, ISDN signaling, broad band ISDN, Asynchronous transfer modem, ATM adaptation layer, transport layer, OSI transport protocol, session layer designing issues, data exchange, OSI session layer primitives, transport protocol TCP.
10L
Presentation layer, abstract syntax notation, data compressed on oxyptography, application layer OST, service elements ASCE and CCR, the transfer access and management, concurrence control nistual terminals, electronic mail directory services distributed systems, formal protocol modules, network management, mobile networking.
10L
Books: 1. 2. 3. 4. 5. 6. 7. 8. 9.
Tanenbaum, Computer Network, PHI/ Pearson B. A. forouzan, Data communication and networking, TMH, 3rd edition. Zheng, Networks for Scientists & Engineering, OUP Keizer, LANs, TMH Stalling W., Computer Networks, PHI/ Pearson Miller, Data Communication & Networks, Vikas Miller, Data Communication & Networks, Jaico ISDN: Stalling W., PHI/ Pearson Murty, Data communication and networking, Himalaya
EC 704E
Object Orient Programming
Contact: 3L + 1T Credit:
4
Introduction: - Why object orientation, History and development of Object Oriented Programming language, concepts of object oriented programming language.
8L
Object oriented design: - Major and minor elements, Object, Class, relationships among objects, aggregation, links, relationships among classes- association, aggregation, using, instantiation, meta-class, grouping constructs.
16L
Basic concepts of object oriented programming using Java: - Object, class, message passing, encapsulation, polymorphism, aggregation, threading, applet
16L
Electronics & Communication Engg programming, difference between OOP and other conventional programmingadvantages and disadvantages. Books: 1. Ali Bahrami, - “Object –Oriented System Development” - Mc Graw Hill. 2. Rambaugh, James Michael, Blaha - “Object Oriented Modelling and Design” Pearson 3. Patrick Naughton, Herbert Schildt – “The complete reference-Java2” - Tata Mc graw Hill. 4. M. P. Bhave et al, Object Oriented Programming with C++, Pearson Education. 5. Doke, Object Orient Programming with JAVA, Vikas 6. Somsundaram, programming in Java 2, Jaico 7. Horton, Beginning Java 2, SDK 1.4, SPD 8. Xavier, Programming with JAVA 2, Scitech EC 704F
Data Base Management Systems
Contact: 3L + 1T Credit:
4
Introduction: - Overview; Data Models; Database Languages; Database Users and Administrators; Database System Structure; Application Architectures.
4L
Entity-Relationship Model: - Basic Concepts; Constraints; Keys; Design Issues; Entity-Relationship Diagram; Weak Entity Sets; Extended E-R Features.
6L
Relational Model: - Structure of Relational Databases; The Relational Algebra; Extended Relational Algebra Operations; The Relational Calculus; Modification of the Database; Views.
5L
SQL: - Basic Structure; Data-definition language; Data-manipulation language; Set Operations; Aggregate Functions; Null Values; Nested Sub queries; Views; Modification of the Database; Embedded SQL; Dynamic SQL.
4L
Integrity and Security: - Domain Constraints; Referential Integrity; Assertions; Triggers; Authorization; Authentication.
4L
Relational Database Design: - First Normal Form, Second Normal Form, Third Normal Form, Boyce-Codd Normal Form, Fourth Normal Form; Functional Dependencies, Decomposition, Desirable Properties of Decomposition.
10L
Transactions and Concurrency Control: - Concept of a Transaction, Transaction State, Properties of a Transaction and their Implementations; Serialisability; Recoverability; Concurrency Control and Recovery Management: Lock-Based
7L
Electronics & Communication Engg Protocols; Two-Phase Locking; Deadlock Handling. Books: 1. Database System Concepts by A. Silberschatz, H. Korth, S. Sudarsan; Fourth Edition, McGraw-Hill. 2. Fundamentals of Database Systems by R. Elmasri & S. Navathe; Fourth Edition, Pearson Education. 3. Database Management Systems, Leon & Leon, Vikas 4. Database Management Systems,Evan Bayross, SPD 5. Inside Relational Databases, Whitehorn, Springer India 6. An Introduction to Database Systems by C.J. Date; Seventh Edition, Pearson Education. 7. Database Systems: The Complete Book by H. Garcia-Molina, J.D. Ullman, J. Widom; First Indian Reprint 2004 Edition, Pearson Education. 8. Database Management Systems by R. Ramakrishnan and J. Gehrke; Third Edition, McGraw-Hill. 9. Database Systems: A Practical Approach to Design, Implementation and Management by T. Connolly and C. Begg; Third Edition, Pearson Education. References: 1. Oracle Forms Developer’s Handbook by A. Lulushi, Seventh Indian Reprint 2004 Edition, Pearson Education. 2. SQL, Nagpal, S. Chand 3. Oracle 9i Development by Example by D. Hotka, First Indian Reprint 2003 Edition, Pearson Education. 4. Database Management Systems: Designing & Building Business Applications by G.V. Post; Second Edition, Tata McGraw-Hill. 5. Oracle PL/SQL Programming, Feurstein, SPD
EC 704G
EMI / EMC Techniques & Management
Contact:
Credit:
3L + 1T
4
Introduction to EMC
2L
Common EMC units
2L
Signal source specifications
2L
Electronics & Communication Engg EMC requirements for electronics systems
2L
Measurement of commercial product
2L
Emissions for verification of compliance, radiated emissions, conducted emissions, radiated susceptibility, conducted susceptibility, electrostatic discharge
6L
Dipole antennas, antenna arrays, antenna factor, broadband measurement antennas
6L
Non-ideal behaviour of components
4L
Effect of component leads
1L
Signal spectra
3L
Spectrum analysis
1L
Line Impedance Stabilisation Network
1L
Network Chokes, Pads, Filters
4L
Three conductor lines & cross-talk
4L
Shielding
4L
Text Books: 1 2 3 4 5
EMI/EMC Computational Modeling Hand Book, by Archambeult. Introduction to Electromagnetic Compatibility, by Clayton R. Paul, Published by – John Wiley & Sons INC EMC Analysis Methods & Computational Models, by – Frederick M, Tesche, Michel V. Ianoz, Torbjorn Karlsson,Published by – John Wiley & Sons, INC Electrostatic Discharge in Electronics, by – Willian D. Greason, Published by – John Wiley & Sons INC The ARIAL RFI Book by Hare, W1RFI Published by – The American Radio Relay League Newington CT 06111-14941
EC 704H
Process Control Engineering
Electronics & Communication Engg Contact: 3L + 1T Credit:
4
Transfer function from process analysis: - Heating process, mixing process, DC motor
2
Process modeling via experimental tests, via study of frequency response
5
Review of response characteristics of 1st & 2nd order system
2
Controllability & Stability – a qualitative study: • Proportional control factor, deviation reduction factor, subsistence ratio, process reaction curve, dead time • Self regulation in a process • Concept of stability with poles & zeroes
4
Control schemes & controllers: • On/OFF control, • P, PI, PID control, related terminologies, parameter adjustments and implications • Electronic P, PI & PID controller.
7
Various principles of process control: - ratio control, feed forward control, cascade control Common process control loops: - Flow, pressure, level, temperature
5
Computer aided process control: • Data acquisition, set point control, direct digital control • Review of Z-transform theory and its application in digital control • Digital PID algorithms
6
A typical process control systems: - Boiler
4
5
Books: 1. “Principles of Process Control’ 2nd ed. by D.Patranabis, TMGH 2. “Process Control Instrumentation Technology” 7th ed. by Curtis D Johnson, PHI 3. “A Text Book of Instrumentation & Control” by D.Patranabis, Umesh Publication. 4. “Industrial Process Control Systems” Dale Patrick, Thomson Delmar
EC 704I
Industrial Electronics
Electronics & Communication Engg Contact: 3L + 1T Credit:
4
Basic Power Devices: Power diode: • Special features of construction & v-i characteristics • Turn on & turn off characteristics, reverse recovery time, reverse recovery current
2L
Power BJT: • Construction, working principle • Special features like low , quasi saturation, primary breakdown, secondary breakdown
2L
Power MOSFET: • Construction, working principle, special features of construction • Special properties of power MOSFET with V-groove structure
2L
IGBT: Construction & working principle.
1L
Comparative study of important performance parameters of power BJT, MOSFET & IGBT
1L
Thyristors • Construction, working principle • di/dt & dv/dt protection, snubber circuit • Series & parallel operation, static & dynamic equalization network • Commutation circuits: - natural commutation & self commutation
6L
AC voltage controllers (AC/AC) • Single phase half wave & full wave controllers • Single phase cycloconverter • Single phase PWM AC voltage controllers
2L
Controlled rectifiers (AC/DC): - Single phase semi converter, full converter, dual converter. Choppers/Switched mode converters (DC/DC) • Principle of step up/step down operation • Classifications – A.B.C.D.E • Buck, boost, buck-boost, Cuk regulators • Principle of operation (qualitative) of full bridge converter
2L 3L
Electronics & Communication Engg PWM switch mode inverters (DC/AC) • Principle of operation • Harmonic profile: - harmonic factor for nth harmonic (HFn), Total harmonic distortion (THD), Distortion factor (DF), Lowest order harmonic (LOH) • Single phase bridge inverter: - operating principle & harmonic profile • Voltage control of single-phase bridge inverter: - single pulse width modulation, multiple pulse width modulation, sinusoidal pulse width modulation; - estimation of RMS output and harmonic factor in each case. Power supplies: • Overview of SMPS, its merits over linear regulated DC power supplies • Working principle of various techniques of SMPS, - fly back, feed forward, push-pull, half bridge & full bridge • UPS – operating principle Control of DC motors: • Basic characteristics of DC motors • Operating modes in four quadrants • Match between the motor & the electronic control • Application of different single phase converters and chopper drives in motor control • Principle of closed loop speed control & phase locked loop control Float cum boost charger Time delay relays, sequential timers, synchronous timers Industrial heating: Induction heating, dielectric heating; - principle, characteristic features & control
4L
4L
6L
2L 1L 2L
Books: 1. Krein, Elements of Power Electronics, OUP 2. Power Electronics (Converters, Applications & Design) – Mohan, Undeland, Robbins – John Wiley 3. Power Electronics, Jacob, Vikas 4. Power Electronics (Circuits, Devices & Applications) – M H Rashid – Pearson 5. Power Electronics – M D Singh & K B Khanchandani – TMH 6. Modern Power Electronics, B.K. Bose, Jaico 7. Modern Power Electronics – P C Sen – Wheeler Publishing 8. Power Electronics, Dr. P.C. Sen, S.Chand 9. Industrial Electronics – S N Biswas – Dhanpat Rai & Co. 10. Industrial Electronics & Control” – S K Bhattacharya & S Chatterjee (TTTI, Chandigarh) - TMH
EC 704J
Numerical Techniques for RF Systems
Electronics & Communication Engg Contact: 3L + 1T Credit:
4
Finite difference methods
6L
Variational and Perturbational methods
6L
Methods of Moments for evaluation of capacitance of a conducting and multiple bodies
8L
Methods of Moments for evaluation current on a wire antenna
6L
Finite elements method
6L
Finite difference time domain techniques
8L
Text Books: 1. Numerical Techniques in Eletromagnetics, 2nd Edition by Matthew N. O. Sadiku, Published by CRC Press, Bocca Raton 2. Time domain Electromagnetics, by S. M. Rao Academic Press. 3. HPNEFF JR, Basic Electromagnetic Fields Harper & Row Publishers, New York EC 704K
Pattern Recognition & Machine Intelligence
Contact: 3L + 1T Credit:
4
Introduction 1L Recognition as a classification process. Decision theoretic classification. Hyper 15L plane properties and decision functions. Minimum distance pattern classification with simple and multiple prototypes. Clustering-K means and isodata algorithm, Pattern classification by likely hood functions, Bayes classifier, Syntactic classification. Learning through clustering, Convex and concave decision regions. Hearing and estimation of mean vector and covariance matrix. Linear and nonlinear seperability. Trainable pattern classtier-Gradient technique, Robbins-Monre algorithm, Potential functions and least mean square error.
8L
Feature selection by entropy minimization, Karhuner-Lucke expansion and divergence minimization.
4L
Electronics & Communication Engg Image representation, digitization, quantization, Compression and coding, Transfer for image processing, Restoration, Enhancement, Segmentation, thining. Description of lines and shape. Statistical and syntactic models of image classification. Morphological method of image analysis.
10L
Application of speech recognition, Image understanding and territory planning for mobile robots.
10L
Books: 1. 2. 3. 4. 5. 6. 7.
Sonka, Image processing & Machine Vision, Vikas Duda and Hard: Pattern classification and scene analysis, Addison Wesley. Marques, Pattern recognition, Concepts , methods & applications, Springer India Poole, Computational Intelligence, OUP Tou & Gonzalez, Pattern recognition principle, Addison Wesley. E. Hall, Digital Image Processing, Academic Press. A. Reserfeld: Digital Image processing, Vol. I & II, Academic Press.
EC 704L
Computer Vision
Contact: 3L + 1T Credit:
4
Discrete geometry & quantisation
2L
Length estimations
1L
Automated visual inspection
2L
Object recognition & matching
3L
Depth perception problems
2L
Stereo geometry & correspondence
4L
Motion analysis
3L
Optical flow
2L
Application of computer vision
4L
Electronics & Communication Engg Remote sensing
4L
Bio-medical imaging
4L
Document processing
4L
Target tracking
4L
Books: 1. 2. 3. 4.
“Machine Vision” by Jain; MGH “Computer Vision- A modern Approach”, by Forsyth; Prentice Hall “Three dimensional Computer Vision” by Faugeras; Artificial Intelligence, MIT Press “Introduction Techniques for 3-D Computer Vision” by Trucco, Prentice Hall
Values of Ethics of Profession Contact: 3L + 0T Credit: 3
Science, Technology and Engineering as knowledge and as Social and Professional Activities Effects of Technological Growth: Rapid Technological growth and depletion of resources, Reports of the Club of Rome. Limits of growth: sustainable development Energy Crisis: Renewable Energy Resources Environmental degradation and pollution. Eco-friendly Technologies. Environmental Regulations, Environmental Ethics Appropriate Technology Movement of Schumacher; later developments Technology and developing notions. Problems of Technology transfer, Technology assessment impact analysis. Human Operator in Engineering projects and industries. Problems of man, machine, interaction, Impact of assembly line and automation. Human centered Technology. Ethics of Profession: Engineering profession: Ethical issues in Engineering practice, Conflicts between business demands and professional ideals. Social and ethical responsibilities of Technologists. Codes of professional ethics. Whistle blowing and beyond, Case studies. Profession and Human Values:
Electronics & Communication Engg Values Crisis in contemporary society Nature of values: Value Spectrum of a good life Psychological values: Integrated personality; mental health Societal values: The modern search for a good society, justice, democracy, secularism, rule of law, values in Indian Constitution. Aesthetic values: Perception and enjoyment of beauty, simplicity, clarity Moral and ethical values: Nature of moral judgements; canons of ethics; ethics of virtue; ethics of duty; ethics of responsibility. References: 1. Stephen H Unger, Controlling Technology: Ethics and the Responsible Engineers, John Wiley & Sons, New York 1994 (2nd Ed) 2. Deborah Johnson, Ethical Issues in Engineering, Prentice Hall, Englewood Cliffs, New Jersey 1991. 3. A N Tripathi, Human values in the Engineering Profession, Monograph published by IIM, Calcutta 1996. EC 802
Optical Fibre Communication
Contact:
Credit:
3L + 1T
4
Introduction to optical fiber communication – principles and systems
2L
Fiber optic transmitters using LEDs and Laser diodes, Bias stabilization of LEDs and Lasers, Driver circuits for analog and digital modulation, Temperature stabilization of laser diodes, Modulation bandwidths of lasers and LEDs
5L
Fiber optic receivers using PIN and APD photodiodes, photo-diode amplifiers, SNR in PID and APD receivers, Receiver sensitivity, Eye diagram
5L
Coupling mechanisms of optical power from source to fiber and fiber to photodetector, Transmission characteristics of fibers and their effects on system performance, Selection of optical fiber types for short-haul, long-haul and high speed data links, optical power budget calculations of a fiber optic communication link
6L
Fiber optic interconnective devices for fiber optic communication links and networks : Optical isolators, polarizers, circulators, attenuators, Bragg grating filters, add/drop multiplexers, WDM MUX / DEMUX, fiber amplifiers, guided wave devices as external optical modulators
8L
Fiber optic analog modulation methods, Sub-carrier multiplexed analog
10L
Electronics & Communication Engg communication principles, IM-DD systems, Fundamentals of optical coherent detection, Optical pulse format for digital communication systems, Performance of a 10 Mb/s digital fiber optic link and a 10 Gb/s data link, Effects of charp and linewidths of lasers on system performance Fiber optic networks for LAN, MAN and WAN – a brief study
4L
Text books: [1] John. M. Senior, Optical fiber communications: principles and practice, Prentice Hall of India. [2] Gerd Keiser, Optical fiber communications, McGraw Hill, 3rd edition. [3] D. K. Mynbaev, L. L. Scheiner, Fiber optic communication technology, Pearson Technology [4] R. P. Khare, Fiber optic and optoelectronics, Oxford University press. [5]John Gowar, Optical Communication Systems, Prentice Hall of India. [6] Selverajan, Kar, Srinivas, Optical fiber communicaion : principles and systems, Tata McGraw Hill. EC 803
Wireless Communication
Contact:
Credit:
3L + 1T
4
Introduction to Wireless Communication Systems – evolution of mobile radio communications, mobile radio systems around the world, radio communication systems – paging systems, cordless telephone systems, cellular telephone systems; comparison of common wireless communications, trends in cellular radio and personal communication, second generation (2G) cellular networks, third generation (3G) wireless networks, introduction to radio wave propagation, free space propagation model
4L
Basics of mobile communication – Limitations of conventional mobile system, mobile cellular communication – introduction, concept of frequency reuse, cluster size, cellular system architecture – mobile station, base station, MSC, channel assignment strategies, call handover strategies, interference and system capacity, improving capacity in cellular systems – cell splitting, sectoring, repeaters, microcell zone concept.
8L
Global system for mobile communication – GSM services and features, system architecture, GSM radio subsystem, GSM channel types, location updating and call setup, introduction to CDMA digital cellular standard, comparison between GSM and CDMA.
6L
Wireless networking – wireless local area network standards, technology – RF and IR wireless LAN, diffuse, quasi-diffuse and point-to-point IR wireless LAN, advantages and applications of Wireless LAN, introduction to WI-FI, Bluetooth, 3G and 4G wireless systems
3L
Electronics & Communication Engg Introduction to satellite communication - brief history and overview of satellite communication
2L
Orbital mechanics and launchers – equations of the orbit, orbital elements, look angles, sub-satellite points, satellite launching and launch vehicles
2L
Satellite description – communication subsystem, telemetry, command and ranging subsystem, attitude control subsystem, electrical power subsystem
6L
Satellite transponder – Transponder model, channelisation, frequency plan, processing
3L
Satellite link design – basic transmission theory, system noise temperature and G/T ration for earth stations, design of uplink and downlink, atmospheric and ionospheric effects on satellite link
3L
Earth station – description, earth station antenna, low noise amplifier, upconverter, down converter, monitoring and control, VSAT
3L
Text books: 1. Theodore S. Rappaport, Wireless communications: principles and practice, Pearson education. 2. William C. Y. Lee, Mobile cellular telecommunication – analog and digital systems, McGraw Hill, 2nd ed. 3. Wang, Wireless communication System,Pearson Education 4. Tri T. Ha, Digital satellite communication, McGraw Hill 5. Aggarwal,Introduction to Wireless & Mobile Systems,Vikas 6. T. Pratt, Charles Bostian, Satellite communication, John Wiley & Sons , 2nd ed. 7. Robert M. Gagliardi, Satellite communication, CBS publishers and distributors 8. D. C. Agarwal, Satellite communication, Khanna publishers References: 1. 2. 3. 4.
A. Santamaria et al, Wireless LAN systems, Artech House. Stallings,Wireless Communication & Networks,Pearson Education K. Feher, Wireless digital communications, Prentice Hall of India. Roy Balke, Wireless communication technology, Thomson Delmer.
EC 891
Advanced Communication LAB (Sessional)
Electronics & Communication Engg Contact: 3P Credit:
2
Students are required to complete minimum 10 experiments, taking at least 4 from each group A. 1. 2. 3. 4. 5. 6. 7. 8.
Optical Communication System: Measurement of numerical aperture of an optical fiber Measurement of propagation loss, bending loss and connector loss in an optical fiber Studies of LASER characteristics Measurement of wavelength of an optical fiber source Setting up a fiber optic analog link, study of PAM Studies of Frequency Division Multiplexing and De multiplexing Setting up a fiber optic data link and study of TDM Setting up a PC to PC communication link using optical fiber
B. Wireless communication System (Experiments are to be performed in simulated platform or in experimental models): 1. Στυδιεσ ον χελλυλαρ µοβιλε χοµµυνιχατιον σψστεµ − το στυδψ σπεχιφιχατιο νσ οφ α Χελλυλαρ Πηονε, ωορκινγ πρινχιπλε, ινπυτ/ουτπυτ σιγναλσ οφ διφφε ρεντ σεχτιονσ, ρινγερ σεχτιον, διαλερ σεχτιον, σπεεχη αµπλιφιερ σεχτιον, τρ ανσµιττερ σεχτιον, ρεχειϖερ σεχτιον, δεταιλσ οφ ΣΙΜ χαρδ, το υνδερστανδ α νδ περφορµ οπερατιοναλ προχεδυρε, δεµονστρατε διφφερεντ τψπεσ οφ φαυλτσ 2. Στυδιεσ ον ΓΣΜ το στυδψ ΓΣΜ τηεορψ ανδ υνδερστανδινγ οφ ΓΣΜ τεχηνολ ογψ, ιτσ νετωορκ, το στυδψ διφφερεντ παρτσ λικε αντεννα, ΡΦ µοδυλε, χοννεχ τορσ, µεασυρεµεντ οφ ϖαριουσ σιγναλσ λικε ΣΙΜ ρεσετ, ΣΙΜ χλοχκ, ΣΙΜ δατ α 3. Studies on satellite communication system – to set up active and passive satellite communication link, to set up an FM / FDM satellite link, to measure the path loss and propagation delay in a satellite link, to communicate voice signal through satellite link, use different combinations of uplink and downlink frequencies to check the communication link, to transmit and receive various waveforms from a function generator through a satellite link 4. Στυδιεσ ον ΓΠΣ σψστεµ Υνδερστανδινγ χονχεπτ οφ ΓΠΣ, εσταβλισηινγ λινκ βετωεεν ΓΠΣ σατελλιτε ανδ ΓΠΣ τραινερ, µεασυρεµεντ οφ λατιτυδε ανδ λονγ ιτυδε 5. Studies on Blue tooth system – to understand concept of Blue tooth technology, to study RF module, RS-232C serial communication, Blue tooth protocol, different types of Blue tooth network
Electronics & Communication Engg 6. Studies on wireless LAN
EC 892
Project-II
Contact: 3P Credit:
4
Students (preferably not more than four in each group) need to complete one project during 7th & 8th semester together. It is suggested that the project involves investigative study over & above the routine curriculum and also hardware activity. It should be result oriented and should explore newer topics. Students will finally prepare a comprehensive project report and give a demonstration & presentation of their project to the class of students and the review committee as nominated by the university. Total score of 200 (credit = 6) is distributed in 7th & 8th semester. Depending on the progress and quality, each student will be given a score out of 100 at the end of 7 th semester, and at the end of 8th semester. EC 893 Credit:
Grand Viva 4
The session of grand viva will be conducted some time during the 8th semester, as suitable for the institute. The institute will form a committee of senior internal/external experts from academia/ Industry/ University for the purpose. Depending upon his/her performance, each student will be allotted a score out of 100 marks.
EC 894 Contact:
Credit:
Seminar-II 3P
4
Electronics & Communication Engg Tenure – The duration of this subject covers both 7th & 8th semester. That means, each student will deliver only one seminar in both semesters together. In order to cover all the students, the session needs to start from 7th semester. But marks will be sent to university at the end of 8th semester. Objectives:– To encourage investigative study of references, journals and other learning materials beyond the boundary of syllabus. Each student will prepare for a seminar on some advanced topic beyond the prescribed curriculum under the guidance of a faculty member. The student will deliver the presentation/lecture to his/her class and the board of examiners (including the guide), as nominated by the university/institution. The presentation will be followed by a question answer session. The student will also prepare a report and submit it well in advance. Evaluation should be based on the following parameters: • Presentation: Delivery of the speech (20), Depth of the subject matter presented (20), handling questions (20). • Report: Overall quality of the report (30). • Attendance during the entire session (10)
EC 804A
Fibre Optic Metrology
Contact:
Credit:
3L + 1T
4
Ιντροδυχτιον: − Βασιχσ οφ Οπτιχαλ βενχη, Φιβρε ενδ πρεπαρατιον οφ φιβρε ενδσ, λαυνχηινγ µεχη
Measuring Instruments: - Lock-in-Amplifier, Monochromator, Infrared viewer, Optical Spectrum Analyser, O Multi-mode fibre: – Parameters for characterisation, Steady-State Power distribution, mode stripper.
Measurements of attenuation: - Loss Mechanisms in Fibre, Calorimetric Method, Absorption & Scattering lo techniques; Numerical Aperture- trigonometric & Scanning methods.
Refractive Index Profile: - Reflection method, Near Field Scanning, Refracted Near Field methods, Interferom Dispersion Measurements: - Time-Domain Method & Frequency Domain Method Geometrical Measurements: - diameter, deformation, eccentricity, ellipticity.
Single–mode Fibre: – Mode Cut-Off wavelength, Mode-field Diameter, Equivalent Step-Index (ESI) Profile, Mechanical Strength of Optical Fibre
Electronics & Communication Engg International Standards for Measurements: World Bodies, RTM, ATM, Recommendations Books: 1. Dietrich Marcuse, Principles of Optical Fibre Measurements, (Academic Press Inc. NY.) 2. Giovanni Cancellieri & Umberto Ravaioli, Measurements of Optical Fibres & Devices, - Theory & Experiments, (Artech House Inc. Dedham, USA) 3. Bishnu Pal, Fundamentals of Fibre Optics in Telecommunication and Sensor Systems, Chapters 10 & 11, (Wiley Eastern Limited) 4. J M Senior, Optical Fibre Communications –Principles and Practice, Chapter 13, (Prentice-Hall of India Pvt, Ltd.) 5. Giovanni Cancellieri (Editor), Single-Mode Optical Fibre Measurements, Characterization & Sensing, (Artech House Inc., Boston) 6. D C Agarwel, Fibre Optic Communication, (Wheeler Publications) EC 804B
RF & Microwave Network
Contact: 3L + IT Credit:
4
Lumped & distributed circuit elements at RF and microwave frequencies
5L
S parameter description of passive & active networks
3L
Network concepts
3L
Obstacles in wave guides e.g. posts, diaphragms etc.
4L
Wave guide junctions
4L
Excitation of wave guides and cavities
5L
Periodic structures & filters
6L
RF & microwave power combiners and dividers
6L
Books: 1. 2. 3. 4.
Secrets of RF Circuit Design, Joseph Carr,TMH Microwave Engineering,Das & Das,TMH “Microwave Engineering” by David M Pozar, 2nd ed.; John Willey & Sons Pvt. Ltd. “Foundation of microwave Engineering” by Robert E Collin, 2nd ed; IEEE Press series of Electromagnetic Wave Theory; John Willey & Sons Pvt. Ltd
Electronics & Communication Engg 5. “Handbook of RF/Microwave Components & Engineering” by KaiChang; Interscience, John Willey & Sons INC, Hoboken, NJ. EC 804C Modern Control Systems
Contact: 3L + 1T Credit:
4
Fuzzy Control: Introduction to the concept of fuzzy logic: Why we need fuzzy logic, an introductory example – fuzzy vs. non-fuzzy, when not to use fuzzy logic. Fuzzy sets and its basic operations: Introduction to classical set, fuzzy set, definition of linguistic values, linguistic hedges, set theoretic operations (union, intersection, complement – different axioms), composition of fuzzy relations – max-min composition, max-product composition. Logical arguments and propositions: Proposition concept, fuzzy If-Then rules, Modus Ponens, Modus Tolens, hypothetical syllogism Fuzzy controller: Block diagram of a fuzzy controller and description of its different blocks like fuzzification, rule base, inference mechanism, defuzzification, case study of fuzzy control system – an inverted pendulum on a cart, OR speed control of running train. Nonlinear Control: Introduction to nonlinear system: Common physical nonlinearities – saturation, friction, backlash, dead zone, relay Definitions: Singular points, nodal point, saddle point, focus point, vortex point, limit cycles. Stability of non linear systems using phase plane method – analytical and graphical methods The describing function method: Derivation of describing function of some common non linearities like dead zone and saturation, relay with dead zone and hysteresis, stability analysis using describing function method Liapunov’s stability criterion: Different stability criteria of Liapunov Digital Control: Introduction to digital control: Z-transforms, sampling and hold, comparison of analog and digital control system, pulse transfer function Stability of sampled data system: Jury’s test Digital controller and its realization: Series, parallel and cascade. Books: 1 Γοπαλ Μ: Χοντρολ Σψστεµσ, Πρινχιπλεσ ανδ ∆εσιγν ΤΜΗ
2 4
2 6
2 2 4 4
2 4 2 2
Electronics & Communication Engg 2 3 4 5 6 7 8 9 10 11 12 13
Γηοση,Χοντρολ Σψστεµ,Πεαρσον Εδυχατιον Κυο Β Χ: Αυτοµατιχ Χοντρολ Σψστεµ ΠΗΙ Κυο Β Χ: ∆ιγιταλ Χοντρολ Σψστεµ Οξφορδ Υνιϖερσιτψ Πρεσσ Ναγρατη Ι ϑ & Γοπαλ Μ: Χοντρολ Σψστεµ Ενγινεερινγ Νεω αγε Ιντερνατι οναλ Ζακ,Σψστεµσ & Χοντρολ, Οξφορδ Υνιϖερσιτψ Πρεσσ Σχηυλζ ∆ Γ & Γοπαλ Μ: Χοντρολ Σψστεµ Ενγινεερινγ Νεω Αγε Ιντερνατι οναλ Σ.Ν. Σιϖανανδαµ, Χοντρολ Σψστεµ Ενγινεερινγ,ςικασ Λι−ΞινΩανγ: Α χουρσε ιν Φυζζψ Σψστεµσ ανδ χοντρολ Πρεντιχε Ηαλλ Ζιµµερµανν Η.Τ.: Φυζζψ σετ τηεορψ ανδ ιτ σ Αππλιχατιονσ Αηµεδ Μ, Ιβραηιµ: Ιντροδυχτιον το Φυζζψ Ελεχτρονιχσ Βηατταχηαρψα, Χοντρολ Σψστεµ Ενγινεερινγ,Πεαρσον Εδυχατιον Α. καυφµανν: Ιντροδυχτιον το τηε τηεορψ οφ φυζζψ συβσετσ,ΠΗΙ
EC 804D
Software Engineering
Contact: 3L + 1T Credit:
4
Introduction: - Emergence of Software Engineering; Control Flow-Based Design, Data Structure-Oriented Design, Data Flow-Oriented Design, ObjectOriented Design; Software Life Cycle Models: Classical Waterfall Model, Iterative Waterfall Model, Prototyping Model, Evolutionary Model, Spiral Model; Comparison of Different Life Cycle Models.
7L
Requirements Analysis and Specification: - Requirements Analysis, Software Requirements Specification: SRS Document, Characteristics of a Good SRS Document, Organization of the SRS Document; Techniques for Representing Complex Logic: Decision Trees and Decision Table.
4L
Software Design: - What is a Good Software Design, Cohesion and Coupling, Neat Hierarchy; Function-Oriented Design: Overview of Structured Analysis/Structured Design Methodology, Structured Analysis, Data Flow Diagrams, Shortcomings of the DFD Model; Structured Design, Flow Chart vs. Structure Chart, Transform Analysis, Transaction Analysis; Functional vs. Object-Oriented Approach.
7L
User Interface Design: - Characteristics of a Good User Interface Design; User Guidance, Graphical User Interface, Types of User Interface; Command Language-Based Interface; Menu-Based Interface; Direct Manipulation Interface; Windowing Systems.
3L
Electronics & Communication Engg Coding, Documentation, Testing: - Coding: Standards and Guidelines, Code Walk-Through, Code Inspection; Software Documentation; Testing: Unit Testing, Black-Box Testing, White-Box Testing, Debugging, Integration Testing, System Testing.
5L
Software Project Management: - Project Planning; Project Size Estimation Metrics: Line of Code, Function Point; Project Estimation Techniques: Empirical Estimation (Expert Judgment, Delphi Cost Estimation), Heuristic (COCOMO), Analytical Estimation (Halstead’s Software Science); Staffing Level Estimation; Scheduling: Work Breakdown Structure, Activity Networks, Gantt Charts, PERT Charts; Organization and Team Structures; Risk Management; Software Configuration Management: Source Code Control System.
7L
Software Reliability and Quality Assurance: - Software Reliability; Software Quality; ISO 9000: What is ISO 9000 Certification, ISO 9000 for Software Industry, Why get ISO 9000 Certification, How to Get ISO 9000 Certification, Summary of ISO 9001 Requirements, Salient Features of ISO 9001 Requirements; SEI Capability Maturity Model.
4L
Computer Aided Software Engineering: - Benefits of CASE; CASE Support in Software Life Cycle; Characteristics of CASE Tools.
3L
Books:
1. Software Engineering: A Practitioner’s Approach by Roger S. Pressman; Fifth Edition, Tata McGraw-Hill. 2. Software Engineering by Ian Sommerville; Sixth Edition, Pearson Education. 3. Software Engineering Fundamentals,Behforooz,Oxford University Press 4. Software Engineering,Principles & Practices,R.Khurana,Vikas 5. Fundamentals of Software Engineering by Rajib Mall; Second Edition, Prentice-Hall India. 6. Software Engineering: Theory and Practice by Shari Lawrence Pfleeger; Second Edition, Pearson Education. 7. Fundamentals of Software Engineering by Carlo Ghezzi, Mehdi Jazayeri, Dino Mandrioli; Second Edition, Prentice-Hall India References: 1. Object-Oriented Analysis and Design with Applications by Grady Booch; Second Edition, Pearson Education. 2. Object-Oriented Analysis and Design by Andrew Haigh; Edition 2001, Tata McGraw-Hill. 3. Software Engineering,Jawadekar,TMH
Electronics & Communication Engg EC 804E
CAD on VLSI
Contact: 3L + 1T Credit:
4
Introduction: Evolution and trends in VLSI CAD. Design process, representations, flow and methodology. Dealing with complexity CAD Tool types. Example of a methodology: synchronous design and RTL modeling.
4L
Digital hardware modeling: Structure modeling: Logic networks, connectivity & netlists, Hypergraphs. Connectivity data structures. Introduction to logic simulation.
4L
Dynamic verification (Simulators): 4L Cycle-based simulation; logic relaxation; event-driven simulator kernels. Value sets. Zero/unit/variable delay simulation & issues. Coverage metrics; instrumentation. Simulation Algorithms: Compiled code & event driven
2L
Static logic verification (Formal): Advantages of static vs. dynamic verification; Logic equivalence checking. Advanced Boolean algebra: Shannon expansion, cofactors and Unate Recursive computation Paradigm
4L
Logic synthesis: 2- level minimization: exact vs. Heuristic, Multilevel minimization. Restructuring heuristics. Technology mapping; cell libraries
4L
Floor planning & placements: Layout elements, representations, methodologies. Floor plan structures. Placement algorithms – local/random search, forcedirected methods.
4L
Routing, compaction, layout verification: Global and detailed routing. Steiner trees, Channel routing; area routing; Wire length Estimators. 1-D layout compaction. Principles of layout verification.
4L
Static timing 6L Principles of static timing analysis; Delay graphs for combinational logic blocks; Arrival times, required times, slack, Basic algorithms for path analysis in combinational logic. False paths; Flip-flops, latches and delay constraints;
Electronics & Communication Engg Clocking methods; Verifying timing of sequential logic; Delay modeling of gates, interconnect and devices. Timing & power driven synthesis: Timing-driven logic synthesis; Timing-driven layout synthesis; Clock skew optimization; Approaches to the timing convergence problem.
4L
Books: 1. An Introduction to VLSI Physical Design, by M. Sarrafzadeh and C.K. Wong, McGraw-Hill. 2. VLSI Physical Design Automation -- Theory and Practice, by S.M. Sait and H. Youssef, World Scientific Publication Company. 3. Algorithms for VLSI Physical Design Automation by N. Sherwani, 3rd ed., Kluwer Academic Publishers, Boston, MA, 1995. 4. On Optimal Interconnections for VLSI by A. B. Kahng and G. Robins, Kluwer Academic Publishers, Boston, MA, 1995. 5. Clock Distribution Networks in VLSI Circuits and Systems by E.G.Friedman ed, IEEE Press, New York, NY, 1995
EC 804F
Coding Theory and Cryptography
Contact: 3L + IT Credit:
4
Introduction: Coding for reliable digital transmission and storage, Types of codes, Types of errors encountered, Error Control Strategies.
5L
Linear block codes: Definition, Syndrome and Error detection, Minimum distance, Error detecting and Error-correcting capabilities, Standard Array and Syndrome decoding, Probability of an undetected error for linear codes over BSC, Hamming code.
8L
Cyclic codes: Description, Generator & parity-check matrices of cyclic codes, Encoding of cyclic codes, Syndrome computation and error detection, Decoding, Cyclic Hamming Codes, Shortended cyclic codes.
8L
BCH codes: Description, Decoding BCH codes, Implementation of error correction, Non binary BCH codes and Reed-solomon codes, Weight distribution and Error detection of Binary BCH codes.
8L
Electronics & Communication Engg Convolutional codes: Encoding, Structural properties, Distance properties, Maximum likelihood decoding of convolutional codes, Viterbi algorithm, Performance bound for convolutional codes, Application of viterbi decoding.
8L
Cryptography: Overview of encryption technique, Encryption algorithm, Symmetric (secret key) cryptography, data encryption standard (DES), International data encryption algorithm (IDEA), RC ciphers, Asymmetric (public key) algorithm, RSA algorithm, Pretty good privacy (PGP), One way hashing structure communication using chaos functions cryptanalysis.
8L
Text books: 1. 2. 3. 4. 5. 6. 7.
Delf,Introduction to Cryptography,Springer Buchman,Introduction to Cryptography,Springer Jones, Information & Coding Theory,Springer Shu Lin & Costello, Jr. D.J., Error Control Coding: Fundamentals and Applications, Prentice Hall. Paterson, W.W. and Weldon, Jr. E.J., Error Correcting Codes; Prentice Hall. Ρανϕαν Βοσε, Ινφορµατιον Τηεορψ, Χοδινγ ανδ Χρψποτογραπηψ, ΤΜΗ Ροφτϑοηαννεσσον ανδΚ Σ Ζιγανγιροϖ, Φυνδαµενταλσ οφ Χονϖολυτιοναλ Χοδινγ, Υνιϖερσιτψ Πρεσσ
EC 804G
Biomedical Electronics
Contact: 3L + IT Credit:
4
Origin of bio-potential: • Electric activity of excitable cells, resting potential, action potential, Nerst equation, propagation of action potential. • Surface map of bio-potential- concept.
2L
Biomedical electrodes: • Electrode theory. • Working principle & application of different bio-potential electrodes & biochemical transducerso Microelectrodes, surface electrodes, needle electrodes o Reference electrode, pH electrode, blood gas electrode o Ion electrode.
4L
Cardiovascular measurements: • Brief description of cardiovascular system.
10L
Electronics & Communication Engg •
• • • •
Electrocardiographyo Sources of cardiac bio-potentials, o Methodology & principle of measurement o Electrocardiograms & their inferences Vector cardiography- concept Principles of direct & indirect measurement of blood pressure Principles of measurement of blood flow/cardiac rate PH & blood gas analyzer
Electroencephalography (EEG): • Sources of action potentials • Methodology & principle of measurement • Electroencephalograms & their inferences
4L
Electromyography: • Sources of action potentials • Methodology & principle of measurement • Electromyograms & their inferences
1L
Respiratory system measurement: • Respiratory mechanism, parameters of respiratory system • Principle of measurement of various parameters, impedance pneumograph, spirometer.
4L
Medical imaging systems: • Working principles of medical X-ray, CT scan, CAT scan, Ultrasound scanning, MRI
6L
Therapeutic & prosthetic devices: Pacemakers, Defibrillators, ventilators, respirators, heamodialysis machine
4L
Medical application of LASER including safety aspects
2L
Fiber optic application in imaging internal organs
1L
Effect of mm wave and microwave on human body
1L
Electrical safety: Physiological effect of electricity, micro shock & macro shock hazards, electrical safety standards for human body, basic approaches to shock protection.
1L
Books:
Electronics & Communication Engg 1. J J Carr & J M Brown – “Introduction to Biomedical Equipment Technology” – Pearson Education, Asia 2. Khandpur,Hand book of Biomedical Instrumentation,TMH 3. John G Webster – “Medical Instrumentation, Application & Design” – John Willey & Sons 4. L Cromwell, F J Weibwell & E A Pfeiffer – “Biomedical Instrumentation & Measurements” - PHI 5. Marvin D Weirs – “Biomedical Instrumentation” – Chilton Book Co, London. 6. S K Venkata Ram- “Biomedical Electronics & Instrumentation” – Galgotia Publications Pvt. Ltd. EC 804H
Data-Communication Sytems
Contact: 3L + IT Credit:
4
Basic data communication concepts: Host computers and terminal, modems, parallel and serial transmission, Asynchronomy and Synchronous transmission, Simplex, Half duplex and Duplex communication. Front end processor, Port-sharing device, Line splitters and remote intelligent controllers, Multiplexer: TDM, FDM, WDM. Data compression devices, Demultiplexer.
10Λ
Data Interfaces and transmission: Digital interface standards: RS-232C standard, hand shaking, connecting a DTE in RS-232C, RS-449, RS-422A and RS-432A standards. High-speed desktop serial interfaces. Remote digital transmission: T carrier ISDN, Packet data networks, Digital access, Data Communication Efficiency: Modems, Multi-speed modems, high speed modems, Error Correcting modems Data compression in modems. Short-wave modems, Facsimile and Fax modems.
8L
Data Integrity and Security: Data Integrity, Source of error control approaches, Implementation of error control, Echo checking, parity checking and cyclical purity, Hammering code, Checksums, Cyclical Redundancy check, Security and security measuring.
6L
Architectures and Protocols: OSI model, Traditional communications architectures: Systems network, architecture and other communication architecture protocols: Polling and selecting, automatic repeat request, common link level protocols. Binary synchronous communications, characters in a BSC frame, Synchronous data link control, Protocols Converters and Code Converters TCP/IP protocols, UDP.
8L
Electronics & Communication Engg Data transport layer: Service provided to the upper layers, Element of transport protocol: Addressing, establishing and releasing connections. Flow control and buffering, Multiphase crash recovery.
8L
Books: 1. 2. 3. 4. 5. 6. 7. 8.
Tanenbam: Computer Network, Pearson Education B. A. forouzan, Data communication and networking, TMH, 3rd edition. Bertsekas & Gallanger : Data network, PHI, 2nd Ed. Lack: Computer Network: Protocols, Standards and Interface, PHI, 2nd Ed. Wiliam A, S Hay, Understanding Data Communication Network. Michael, A. Miller, Data & Network Communication, Vikas Publishing. Zheng & Akhtar, Computer Networks for Scientists & Engineers,OUP Stallings, Data & Computer Communication, Pearson Education
EC 804I
Internet Technology
Contact: 3L + IT Credit:
4
Ιντερνετ αρχηιτεχτυρε & τοπολογψ: Ηιστορψ, Αρχηιτεχτυρε οϖερϖιεω, ΙΣΠ, Ρουτερσ, ∆ΝΣ, ΥΡΛ, ∆οµ Internet connectivity: Dial-up, ISDN, DSL, SONET, ATM, Wireless Internet Applications: FTP, Telnet, IMAP, POP3, SMTP, WAP, HTTP Mobile IP, VoIP, Multimedia over IP
Ιντερνετ Σεχυριτψ: Σεχυριτψ πολιχψ, Ρισκ ασσεσσµεντ, Υνιξ νετωορκ σεχυριτψ ισσυεσ, φιλε σψστ ∆ιγιταλ χερτιφιχατεσ, Φιρεωαλλ. Internet Programming: HTML, CGI script, Java Script
Text Books: 1. Practical Unix and Internet Security, by Garfinkel & Spafford, SPD O’Reilly 2. HTML & XHTML: The Definitive Guide, 4th Ed. By Musciano & Kenedy, SPD O’ Reilly. 3. Javascript: the Definitive Guide 3rd Ed., by D. Flanagan SPD O’ Reilly.
Electronics & Communication Engg EC 804J
Distributed Computing
Contact: 3L + IT Credit:
4
Introduction: - Definition, Goals: Connecting Users and Resources, Transparency, Openness, Scalability; Hardware Concepts; Software Concepts: Distributed Operating Systems, Network Operating Systems, Middleware; The Client-Server Model.
3L
Communication: - Layered Protocols; Remote Procedure Call: Basic RPC Operation, Parameter Passing, Extended RPC Models; Remote Object Invocation; Message-Oriented Communication.
5L
Processes: - Threads; Clients: User Interfaces, Client-Side Software for Distribution Transparency; Servers: General Design Issues, Object Servers; Code Migration; Software Agents.
6L
Naming: - Naming Entities: Names, Identifiers, & Addresses, Name Resolution, The Implementation of a Name Space, The Domain Name System, X.500.
3L
Synchronization: - Clock Synchronization; Logical Clocks; Global State; Election Algorithms: The Bully Algorithm, A Ring Algorithm; Mutual Exclusion: A Centralized Algorithm, A Distributed Algorithm, A Token Ring Algorithm, A Comparison of the Three Algorithms; Distributed Transactions: The Transaction Model, Classification Transactions, Implementation, Concurrency Control.
6L
Consistency and Replication: - Introduction: Reason for Replication, Object Replication; Data-Centric Consistency Models: Strict Consistency, Linearizability and Sequential Consistency, Causal Consistency, FIFO Consistency, Weak Consistency, Release Consistency, Entry Consistency; Client-Centric Consistency Models: Eventual Consistency, Monotonic Reads, Monotonic Writes, Read Your Writes, Writes Follow Reads; Distribution Protocols: Replica Placement, Update Propagation; Consistency Protocols: Primar-Based Protocols, Replicated-Write Protocols.
7L
Fault Tolerance: - Basic Concepts, Failure Models, Failure Masking by Redundancy; Process Resilience: Design Issues, Failure Masking and Replication; Reliable Client-Server Communication: Point-to-Point Communication, RPC Semantics in the Presence of Failures; Reliable Group Communication: Basic Reliable-Multicasting Schemes; Distributed Commit: Two-Phase Commit; Recovery: Check pointing.
6L
Distributed Object-Based Systems: - CORBA; Distributed COM.
4L
Electronics & Communication Engg Books: 1. Distributed Systems: Principles and Paradigms by Andrew S. Tanenbaum and Maarten van Steen; Second Indian Reprint 2003 Edition, Pearson Education. 2. Distributed Systems: Concepts and Design by George Coulouris, Jean Dollimore, Tim Kindberg; Third Edition, Pearson Education. 3. Distributed Computing,Liu, Pearson Education 4. Distributed Systems & Networks,Buchanan,TMH References: 1. Distributed Computing: A Practical Synthesis by Amjad Umar; Prentice-Hall. 2. Readings in Distributed Computing Systems by Thomas S. Casavant and Mukesh Singhal; IEEE Computer Society Press 1994 Edition, IEEE, Los Alamitos, California.
EC 804K
Digital Image Processing
Contact: 3L + IT Credit:
4
Digital image fundamentals: - Image digitization
1L
Sampling & quantisation
1L
Image resolution
1L
Colour perception & processing
1L
Image processing: - Pixel based transformation
1L
Geometric transformation
1L
Local processing: - Edge detection, subpixel location estimation Restoration: - Degradation, inverse fitting, Wiener filtering
1L
Binary image processing: - Thresholding, run length encoding
2L
Distance transforms, Medial axis transforms
2L
Morphological operations
1L
Region segmentation & Representation: - Split & merge algorithm
1L
Region growing
1L
Electronics & Communication Engg Image filtering: - Histogram modification
1L
Linear & Gaussian filters
2L
Contours: - Digital curves
3L
Poly line splitting
2L
Hop along algorithm
2L
Conic & Splines Hough transform
2L
Fourier description
2L
Textures: - Statistical syntactic & model based methods
2L
Image transforms: - Fourier, Hadamard, Discrete Cosine
2L
Wavelets & other orthogonal transforms
2L
Compression of image: - Predictive compression methods, vector quantisation, hierarchical & progressive methods, JPEG, MPEG
3L
Case studies
3L
Books: 1. “Fundamentals of Digital Image Processing” by Jain, Pearson Education 2. “Digital Image Processing”,Jahne,Springer 3. “Digital Image Processing” by Gonzalez, 2nd ed., Pearson 4. “Image Processing for Computer Graphics” by Gomes, Springer 5. “Digital Image Processing” by Pratt, 2nd ed., Willey 6. “Algorithms for Image Processing and Computer Vision” by Parker, Willey 7. “Digital Image Processing using MATLAB” by Gonzalez, Pearson Education 8. “Practical Algorithms for Image Analysis” by Seul, Cambridge University Press 9. “Digital Image Processing” by Castleman, Prentice Hall 10. “Pattern Classification” by Duda, 2nd ed., Willey 11. “Image Processing – Analysis & Machine Version” by Sonka, Brooks Cole
Electronics & Communication Engg
