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INDIRA GANDHI NATIONAL OPEN UNIVERSITYSCHOOL OF ENGINEERING AND TECHNOLOGYMAIDAN GARHI, NEW DELHI-110 068
Programme Structure ofVertically Integrated Engineering programmes
Level of Programme : DegreeDiscipline : Electronics & Communication Engineering
PROGRAMME CODE : BTECVI
First Semester
Sl.No.
CourseCode
Course Description CreditLoad per
WeekRemarks
1. ET-101A Mathematics-I 4 4
2. ET-105A Physics 4 4
3. BAS-003 Communication Skills 3 3
4. ET-202A Engineering Mechanics 4 4
5. BAS-005 Engineering Drawing 3 3
6. BASL-001 Lab-I (Applied Science) 1 2
7. BASL-002 Lab-II (Engineering Mechanics) 1 2
TOTAL 20 22
Second Semester
Sl.No.
CourseCode
Course Description CreditLoad per
WeekRemarks
1. BIEL-001 Basics Of Electronics Engineering 4 4
2. BME-003 Manufacturing Technology 4 4
3. BICE-001 Elements of Engineering Science 4 4
4. BIEL-002 Analogue & Integrated Circuit Design 4 4
5. BIEE-001 Basics Of Electrical Engineering 4 4
6. BIELL-001 Lab-IV (Basics Of ElectricalEngineering)
1 2
7. BASL-003 Lab-III (Workshop Practice) 1 3
TOTAL 22 25
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Third Semester
Sl.No.
CourseCode
Course Description CreditLoad per
WeekRemarks
1. ET-101B Mathematics-II 4 4
2. BME-009 Computer Programming andApplications
4 4
3. BME-017 Strength of Materials 4 4
4. ET-524A Principles of EngineeringManagement and Economics
4 4
5. BIEL-003 Digital Electronics 4 4
6. BASL-006 Lab-V (Computer Programming) 1 2
7. BIMEL-002 Lab-VI (Strength of Materials) 1 2
TOTAL 22 24
Fourth Semester
Sl.No.
CourseCode
Course Description CreditLoad per
WeekRemarks
1 BICE-007 Mathematics-III 4 4
2 BIEL-005 Analog Electronics Circuits 4 4
3 BIEL-006 Electromagnetic Field Theory 4 4
4 BIEL-007 Signals and Systems 4 4
5 BIEL-008 Micro Controller 4 4
6 BIELL-003 Lab-VII (Analog Electronics) 1 2
7 BIELL-004 Lab-VIII ( Micro Controller) 1 2
Total 22 24
Fifth Semester
Sl.No.
Course Code Course Description CreditLoad per
WeekRemarks
1 BIEL-009 Electronics Measurements andInstrumentation
4 4
2 BIEL-010 Digital Signal Processing 4 4
3 BIEL-011 Linear Integrated Circuits 4 4
4 BIEL-012 Analog and Mixed Mode VLSIDesign
4 4
5 BIEL-013 Antennas and Propagation 4 4
6 BIELL-005 Lab-IX (Electronics Measurementsand Instrumentation)
1 2
7 BIELL-006 Lab-X (Digital Signal Processing) 1 2
8 BIELL-007 Lab-XI (Linear Integrated Circuits) 1 2
Total 23 26
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Sixth Semester
Sl.No.
CourseCode
Course Description CreditLoad per
WeekRemarks
1 BIEL-014 Analog Communication 4 4
2 BIEL-015 Microprocessor and Its Application 4 4
3 BIEL-016 Microwave and Radar Engineering 4 4
4 BIEL-017 Optical Fiber Communication 4 45 BIEL-018 Wireless Communications 4 4
6 BIELL-008 Lab-XII (Analog Communication) 1 2
7 BIELL-009 Lab-XIII ( Microprocessor) 1 2
8 BIELL-010 Lab- XIV ( Microwave) 1 2
Total 23 26
PLEASE NOTE
1. There may be some compulsory subjects / elective subjects / project where the subjectcodes may be missing. The codes will be uploaded shortly.
2. For further references and supportive study material please visithttp://nptel.iitm.ac.in/
http://nptel.iitm.ac.in/http://nptel.iitm.ac.in/http://nptel.iitm.ac.in/ -
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ET-101A- MATHEMATICS-I
Lectures Tutorials PracticalsCredits Marks
4 ---- -- 4
External:70+Internal:30.Students are required to score 45% marks
individually in both External & Internal and
50% marks in total.
UNIT 1 :
DIFFERENTIAL CALCULUS: Functions of One Variable , Limit, Continuity and Differentiability,
Mean Value Theorems, Applications, Partial Differentiation.
UNIT 2 :
INTEGRAL CALCULUS: Indefinite Integrals, Definite Integrals, Applications, First Order DifferentialEquations.
UNIT 3 :
VECTOR CALCULUS:Vector Algebra,Vector Differential Calculus, Line and Surface Integrals,Volume Integral
UNIT 4 :
MATRICES: Linear Equations and Euclidean Spaces,Linear Transformation and Linear Equations,
Matrices and Determinants, Eigenvalues and Eigenvectors, Canonical Forms.
References:
1. Higher Engineering Mathematics by B.V. Ramana (Tata McGraw-Hill).
2 Advanced Engineering Mathematics by Erwin kreyszig (Wiley Eastern-Ltd).
3. Higher Engineering Mathematics by B.S. Grewal (Khanna Publication, Delhi).
4. Applied Mathematics (Volumes I and II ) by P.N. Wartikar & J.N. Wartikar
5. Advanced Mathematics, 7e, by Peter V. ONeil (Thomson Learning).
6. Advanced Engineering Mathematics, 2e, by M. D. Greenberg (Pearson Education).
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ET-105A-PHYSICS
Lectures Tutorials PracticalsCredits Marks
3 1 -- 4
External:70+Internal:30.Students are required to score
45% marks individually in bothExternal & Internal and 50%
marks in total.
UNIT 1:
PARTICLE MECHANICS: Dynamic of a Particle, Linear and Angular Momentum, Energy,The
Inverse Square Law.
UNIT 2 :
ROTATIONAL DYNAMICS: Systems of Particles, Moment of Inertia and Fixed Axis Rotation,
Rotation of Rigid Bodies
UNIT 3:
OSCILLATIONS AND WAVES: Oscillations,Waves, Superposition of Waves, Interference and
Differaction, Polarisation.
UNIT 4:
ELECTRICITY: Electric Field, Gausss Law, Electric Potential and Capacitance, Electric Circuits.
Unit 5:Electromagnetism:The magnetic field, Lorentz force, Faradays Law, Electromagnetic waves.
Reference:1.University Physics, Young and freedman (pearson Education).
2.Fundamentals of physics, Resnick and Halliday (John Wiley and sons).
3.Principles of physics, Serway and Jewett (Saunders college publishing).
4. Engineering Physics, R.A.Gaur & S.L.Gupta(Dhanpat rai Publications)
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BAS-003 COMMUNICATION SKILLS
Lectures Tutorials PracticalsCredits Marks
4 ---- -- 4
External: 70+Internal:30.Students are required to score 45%
marks individually in both External &
Internal and 50% marks in total.UNIT I
Essentials of Grammar: Parts of Speech, Punctuation, Vocabulary Building, Phonetics. OfficeManagement : Types of Correspondence, Receipt and Dispatch of Mail, Filing Systems,
Classification of Mail, Role & Function of Correspondence, MIS, Managing Computer.
UNIT II
Letter & Resume Writing: Types of Letters-Formal / Informal, Importance and Function,Drafting the Applications, Elements of Structure, Preparing the Resume, Dos & Donts ofResume, Helpful Hints
UNIT III
Presentation Skills: Importance of Presentation Skills, Capturing Data, Voice & PictureIntegration, Guidelines to make Presentation Interesting, Body Language, Voice Modulation,Audience Awareness, Presentation Plan, Visual Aids, Forms of Layout, Styles ofPresentation.
UNIT IV
Interview Preparation: Types of Interview, Preparing for the Interviews, Attending the
Interview, Interview Process, Employers Expectations, General Etiquette, Dressing Sense,Postures & Gestures
UNIT V
Group Discussion & Presentation: Definition, Process, Guidelines, Helpful Expressions,
EvaluationThe student will be evaluated on the basis of:
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1His / Her presentation style2Feedback of Faculty & Students3General Etiquette4Proficiency in Letter Drafting / Interview Preparation5The paper is internal and at least 3 tests will be taken. Best 2 of 3 shall account for final grades
(70% Test & 30% Presentation)
References:1. Shiv Khera, YOU CAN WIN, Macmillan Books. 2003 revised edition.2. Stephen Covey, 7 Habits of highly effective people3. John Collin, Perfect Presentation, Video Arts MARSHAL.4. Jenny Rogers, Effective Interviews, Video Arts MARSHAL.5. Raman, Sharma, Technical Communications, OXFORD.6. Sharon Gerson, Steven Gerson, Technical Writing process and product, Pearson education
Asia, LPE Third Edition.
7. R Sharma, K. Mohan, Business correspondence and Report writing , Tata McGrawHillISBN 0-07-044555-9
8. Videos for Technical Education Catalog, National Education and Information Films Ltd,Mumbai.
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ET-202A: ENGINEERING MECHANICS
Lectures Tutorials PracticalsCredits Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score 45%
marks individually in both External &
Internal and 50% marks in total.
UNIT 1:
STATICS: Coplanar and Non-coplanar Forces, Equilibrium : Free Body Diagram, Friction, Centre of
Gravity and Moment of Inertia.
UNIT 2 :
DYNAMICS: Kinematics, Kinematics of a Particles, Kinematics of Rigid Bodies, Impulse, Momentum,
Work and Energy.
UNIT 3 :
INTRODUCTION TO STRUCTURAL MECHANICS: Axial Force, Shear Force and Bending
Moment Diagrams, Plane Trusses, Simple Stresses and Strains.
Reference:
1.Engineering Mechanics by S. Ramamrutham, Dhanpat Rai Publishing Company.2.Engineering Mechanics statics and dynamics by R. C. Hibbeler McMillan Publication.
3.Mechanics for Engineers- Statics fourth Edition by F. P. Beer and E. R. Johnson, McGraw-Hill
Publication.
4.Mechanics for Engineers- Dynamics Fourth Edition, by F.P. Beer and E. R. Johnson, McGraw-Hill Publication.
5.Engineering Mechanics statics and dynamics by J.L. Meriam and Craige, John Willey and
Sons publication.
6.Engineering Mechanics by S.S. Timoshenko and D.H. Young, McGraw Hill Publication.7.EngineeringMechanics by A.P. Boresi and R.J. Schmidt, Brooks/Cole Publication.
8.Engineering Mechanics by FL Singer, Harper and Rowe publication.
9.Engineering Mechanics by Shames I.H., PHI
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BAS-005 Engineering Drawing
UNIT I
Introduction to Drawing - Drawing Equipments and Instruments, Drawing Sheet and Layout,
Types of Letters and Lettering Standard, Types of Lines and Their Applications, Dimensioningof Drawing, Drawing Scales, Conventional Representation
UNIT II
Geometrical Construction Triangle, Square, Polygon, Pentagon, Hexagon, Circle and Curves,Conic Sections, Ellipse, Parabola, Hyperbola, Cycloid, Epicycloids, Hypocycloid, Tangent and
Normal to Curves
UNIT III
Orthographic Projections I - Orthographic Projection, Projection of Points, Projection ofStraight Lines, Projection of Planes, Orthographic Projections-II - Types of Solid,Orthographic Projections of Solid, Orthographic Projections of Solid when the Axis is
Perpendicular to one of the Principal Plane, Orthographic Projections of Solid when the Axis is
Parallel to Both the H.P. and V.P., Orthographic Projections of Solid when the Axis is Inclinedto One of the Principal Plane and Parallel to the Other Principal Plane, Orthographic Projections
of Solid when the Axis is Inclined to both the Principal Plane, Sections of Solids
UNIT IV
Isometric and Oblique Projections - Classification of Pictorial Drawings, Isometric Projection,
Isometric Drawings of Plane Geometrical Figure, Isometric Projection of Solids, Oblique
ProjectionUNIT V
Surface Development - Geometric Objects, Development of a Surface, Development of a Cube,
Development of a Tetrahedron, Development of an Octahedron, Development of a Prism,
Development of a Pyramid, Development of a Cylinder, Development of a Cone, Developmentof a Sphere.
Unit VI
Lectures Tutorials PracticalsCredits
Marks
3 --- -- 3
External: 70+Internal:30.Students are required to score 45% marks
individually in both External & Internal and
50% marks in total.
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I.S. Conventions Need and Types, conventions existing in countries like Japan, US andGermany.
Unit VII
Standard Machine Components and their I.S. Conventions Constructional features &
Applications of standard machine components like Nuts, Bolts, Screws, Spring etc.
Reference
1. N.D. Bhatt, Elementary Engineering Drawing, Chartor Publishing house, Anand,India.
2. D. N. Johle, Engineering Drawing, Tata Mcgraw-hill Publishing Co. Ltd.3. K. L. Narayana and P. Kannaiah, Machine Drawing New Age International Ltd4. P.S. Gill, Engineering Graphics.5. James H. Earle,Engineering Design Graphics,Addison-Wesley Publishing Co.6. David I. Cook and Robert N. McDongal Engineering Graphics and Design with
Computer Applications Holt-Sounders International Editors7. IS Code SP 468. Warren J. Luzzader, Fundamentals of Engineering Drawing, Prentice Hall of India,
New
Delhi.9. Fredderock E. Giesecke, Alva Mitchell & others, Principles of Engineering Graphics,
Maxwell McMillan Publishing
10 Siddheshwar,Machine Drawing, Tata-McGraw Hill.
11. N. D. Bhat, Machine Drawing, Charotar Publishing Company
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BASL-001 : Lab-I (Applied Science)Lecture Tutorial PracticalCredit
Marks
2 1
External: 30+Internal:70Students are required to score 45% marks
individually in both External & Internal and 50%
marks in total.
List of Practical (Students are required to conduct ANY 8 Experiments out of the following
10 Experiments).1. Use of diffraction grating for the determination of wavelength of a spectral line.
2. Newtons rings experiment. (Wavelength, radius, refractive index, determination)3. Experiment based on ultrasonic waves.
4. Resolving power of a Telescope/Grating.
5. Determination of refractive indices for ordinary, extraordinary rays for a Quartz crystal!
prism.6. Demonstration of Lissajous figures using a CR0 (Principle of Interference).
7. Michelsons Interferometer.
8. Determination of Brewsters angle for glass surface and to determine refractive index ofglass.
9. Determination of Youngs Modulus by Cornus method.
10. To verify cosine square law of Malus for plane polarized light using photo-voltaic cell
.
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BASL-002 :LAB-II (Engineering Mechanics )
List of Practicals in Applied Mechanics (Any Eight out of the following)
1)To determine the verification of law of polygon of force.
2)To determine the funicular polygon3)To determine the Finding coefficient of friction by inclined plane apparatus
4)To determine the Mechanical, Advantage, Velocity ratio & efficiency of a
(a)Simple purchase crab winch
(b)Double purchase crab winch
(c)Gear train etc.
(d)Wheel and axle
(e)Screw Jack
5)To determine the finding forces in members of a cantilever truss
6)To determine the finding forces in members of a general truss
7)To determine the moment of inertia of a flywheel
8)To determine the Example modulus by Searles apparatus,
9)To determine the MA, VR & n of a differential pulley block, warm & warmed
10)To determine the finding expertly Reactions in a Beam
11)To determine Graphically evaluation of forces in a truss
12)To determine the Graphically evaluation of CG of a plane figure
13)To determine the Graphically evaluation MI of a plane figure.
Lecture Tutorial PracticalCredit
Marks
2 1External: 30+Internal:70
Students are required to score 45% marks individua
in both External & Internal and 50% marks in tota
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BIEL-001: Basics of Electronics Engineering
UNIT I
Band theory of solids - Conductors, semiconductors and insulators - energy band diagram. Semi conductor materials and their properties: elemental semiconductors- the energy band model
of semiconductors. Valance band model of semiconductor equilibrium concentration of electronsand holes- the Fermi level and energy distribution of carriers inside the bands- temperature
dependence of carrier concentration inside the bands. - Carrier transport in semi conductors -
drift of carriers in electric fields, carrier flow by diffusion - constancy of Fermi level across
junction , Excess carriers in semi conductors - injection of excess carriers - recombination ofexcess carrierscontinuity equation - current flow equation.
UNIT IIPN junction- Abrupt PN junction - energy band diagram - barrier potential, biasing PN junction,excess carrier calculation - current components diffusion - drift - boundary conditions for long
and short diodes - PN junction characteristics - calculation of diffusion depletion layer
capacitance - simple model - principle of zener and avalanche diodes - photodiodes -LDR -tunnel diode and PIN diode -varactor diode.
UNIT III
Bipolar junction transistors - NPN, PNP types , Basic structures - biasing - mechanism of
carrier flow - current components in transistors boundary conditions in active region - solution
for short base width - basewidth modulation - Transistor configurations - Characteristics
current amplification factors - relations between alpha & beta - comparison Ebbers - Moll modelField effect transistors : JFET - basic structures - principle of operation - Characteristics and
current equation - basic principles of phototransistors - UJT, characteristics.
UNIT IV
MOSFET - semiconductor surfaces - C - V characteristics - the Si - SiO2 System - basic
structures and operating principles - current equation - V-I characteristics - simple model -
CMOS. Compound semiconductor - semiconductor heterojunctions - V-I characteristics - real
Lectures Tutorials PracticalsCredits Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score 45% marks
individually in both External & Internal and
50% marks in total.
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heterojunctions - frequency limitation of transistor - transit time effect - heterojunction bipolartransistor.
UNIT V
DC power supplies - power transformers - rectification - half wave, full wave, bridge expression for ripple factor, efficiency, comparison, diode ratings. Filters - capacitor - inductor
LC filters- use of bleeder resistor - voltage multipliers - dual power supplies - simple voltage
regulator. Series regulators - IC regulators.
REFERENCE BOOKS:
1) Streetman, Solid State Electronics Devices, Pearson Education
2) Electronic Devices, Floyd3) Electronic Devices & Circuits, Millman & Halkias
4) Solid state Electronics IVth edition, George B Rutkowski, Mc Graw Hill
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BME-003: MANUFACTURING TECHNOLOGY (BME 003)
Lectures Tutorials PracticalsCredits
Marks
4 --- -- 4
External: 70+Internal:30.Students are required to score 45% marksindividually in both External & Internal and
50% marks in total.
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UNIT 1 : PRINCIPLE OF METAL CASTING : Metals and Melting Practices, MouldingMaterials, Moulding Processes.
UNIT 2 : METAL FORMING: Plastic Deformation, Bulk Deformation, Sheet Metal FormingProcess.
UNIT 3 : PRINCIPLES OF METAL CUTTING :Tool Geometry ,Force & PowerRequirement, Cutting Conditions, Machining Economics.
UNIT 4 : WELDING TECHNOLOGY: Welding Processes, Welding Stresses, Distortion and
Defects.
References:
1.S. K. Hajra Choudhury,Bose S.K., Elements of Workshop technology, Vol-I, Manufacturing
Process, Media Promoters and Publishers Pvt Ltd.
2.B.S. Raghuwansi, A Course in Workshop Technology, Vol-I, Dhanpat Rai and Co.(P) Ltd
Delhi.
3.K.C. Arora, Workshop Practice, S.K, Kataria and Sons.4. R.K. Singhal, Workshop Practice, S.K. Kataria and Sons.
5.P.N. Rao Manufacturing Technology Vol I & II, Tata McGraw Hill Publishers.
6.P.C. Sharma, Production Engineering, Khanna Publishers.
7.R.K. Jain, Production Technology, Khanna Publishers
8.HMT., Production Technology, Tata McGraw Hill Publishers
9. Hoffman, Introduction to Jigs and Fixtures, Galagotia Publishers
10.S.K. Basu, Fundamentals of Tool Design, Oxford IBH
11.Degarmo, Black and Kosherth, Materials and Processes in Manufacturing 8th
Edition Prentice
Hall of India.
BICE-001: Elements of Engineering Science
Lectures Tutorials PracticalsCredits
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score 45% marks
individually in both External & Internal and
50% marks in total.
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UNIT I
Basic concepts: Concept of electricity, Basic terms- Voltage current, Potential Difference,
Power, energy and their units. Ohms Law Effect of temperature on resistance, temperature
coefficient of resistance. Resistances in series and parallel Kickoffs current law and Kickoffsvoltage law and their applications to simple circuits. Various unit systems. Conversion of energy
theory. Conversion of one form of energy units into electrical and electrical to another form of
energy. Work + Power + Energy concepts. Numerical based on work power energy.
UNIT II
Introduction to Civil Engineering : Basic Areas in Civil Engineering. Roll of civil engineer assite engineer, Roll of civil engineer at different levels of project (such as consultant, as
contractors, as specialized), different types of building and it s various components
UNIT III
Principles of survey, plan, map, plain scale, R.F. sign conventions Use of tapes for distance
measurement, Ranging-by eye and with line ranger. Concepts of base line, tie line, check line,offsets using open cross staff Study of prismatic compass. Types of bearings and reference
meridians. Measurement of bearings and angles Local attraction and its adjustment.
UNIT IV Thermodynamics -Thermodynamics types, system, surrounding work, p-dV work invarious processes, p-V representation of various thermodynamic processes and cycles, Ideal gasequations, Statements of I and II laws of thermodynamics ,Carnot cycle for Heat engine,
Refrigerator and Heat pump.
Heat TransferStatement and explanation of Fouriers law of heat conduction, Newton;s law of
cooling, Stefan Boltzmanns law.
I.C. engines-important parts and working of 2s and 4s petrol and diesel engines.
UNIT V
Design-design process and design cycle, stress and strain and their types, hookes law, stress
strain curve for ductile and brittle materials, mechanical properties of materials ,steels , castirons, non- ferrous alloys.
Introduction to manufacturing processes and Their Applications:
Casting, Sheet metal forming, Sheet metal cutting, Forging, welding and soldering processes.
Machine Tools (Basic elements, Working principle and types of operations)-Lathe Machine Centre Lathe,Drilling Machineradial drilling machine, Grinding machine, Power saw, Milling
Machine
References:
1.Electrical Technology Vol1B.L. Theraja & A.K.TherajaS. Chand
2.Basic Electrical EngineeringNagrath KothariTMH
3.Basic Electrical EngineeringV.K.MehataS Chand
4.Basic Electrical EngineeringVaidya, Bhagwat, Godbole, Bangal
5.Surveying and Leveling---Kanetkar and Kulkarni, PVC Prakashana
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6.Thermal engineering by KhurmiGupta
7.Design of machine elements by Bhandari.
8.Manufacturing processes by Amitabh Ghosh- Mallik.
9.Production technology by R.K.Jain.
BIEL-002: Analog Integrated Circuits Design
Lectures Tutorials PracticalsCredits
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score 45% marks
individually in both External & Internal and
50% marks in total.
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UNIT 1- OP-Amp Fundamentals:Block diagram of Op-Amp (Basic building blocks)Differential amplifier fundamentals- Fundamentals,Types, DC and AC analysis, current sources, Current mirrors, Active load, Differential to single ended
conversion. Additional gain stage. Dc level shifter, Output stage. An overview of different types of op-
amp, their peculiarities and application areas. General purpose, precision, Instrumentation, Isolation,
Power, Comparators, Fast settling time, Fabrication based classification. Ideal Op-amp parameters open
loop and closed loop, Inverting and non-inverting configurations, Concept of virtual short and virtual
grounds. Ideal (AC and DC) Op-amp behavior and its effect on performance.
UNIT-II-Op-Amp Applications:Voltage follower, Summing amplifier, Difference amplifier, its limitations in precision differential
measurements. Offset nulling techniques, Drift parameters and their effect, closed loop stability, power
supply considerations-Single power supply operation.
V to I and I to V converter Instrumentation amplifier and applications (Bridge based circuit), Grounding
and shielding techniques, Integrator, practical considerations Differentiators, Practical considerations.
UNIT-III-Non-linear Applications of Op-Amp:Comparators, Differences between Op-Amp output circuits and comparators output circuit (rail-to- rail
concept), Limitations of Op-amp as Comparator, Schmitt trigger, Comparator IC such as LM339,
Bandwidth and slew rate limitations. Precision rectifiers, peak detector, Sample and hold circuit. Clipperand Clamper.
UNIT-IV-Signal GeneratorsSine wave generation, Multivibrators, Monolithic timers (self study), Triangular wave generators, Saw
tooth generators, V to F and F to V converters.
UNIT V- Active Filter DesignIntroduction, Filter types, Advantages of active filters, Filters order and poles, Filter class-Butterworth,
Realizing practical filters-Sallen and Key VCVS filter Sallen and Key low pass filter Sallen and Key pass
filter(self study) Butterworth filters Low pass filter specifications & design from specifications (up to 4th
order) Low pass filter to band stop filter.
Non-linear Applications and Phase Locked Loops
Introduction to Log/Antilog amplifier and Analog multipliers
Block diagram of PLL-Phase Detector, LPF, VCO, Block diagram of PLL IC 565, Definitions-free running frequencies, lock
range, capture range, pull in time, Transfer characteristics of PLL, Applications of PLL-Frequency
synthesizer, FM demodulator, AM demodulator, and FSK demodulator
References:
1. Sergio Franco, Design with Operational Amplifiers and Analog Integrated Circuits,
TMH, Third Edition.
2. G.B.Clayton, Operational Amplifiers, International Edition
3. Coughlin, Driscoll,Operational Amplifiers and Linear Integrated Circuits,
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4. D.Roy Choudhary, Sahil Jain, Linear Integrated Circuits, New Age International.
5. Ramakan Gaikwad, OP-AMP and Integrated Circuits, PHI.
6. Govind Daryanani, Principles of Active Network Synthesis and Design, John Wiley
and Sons.
7. M.E.Van Valkenburg,Analog Filters Design. PHI
BIEE-001: BASICS OF ELECTRICAL ENGINEERING
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UNIT I
DC CIRCUITS: Concept of electricity, Basic terms- Voltage current, Potential Difference,Power, energy and their units. Ohms Law Effect of temperature on resistance, temperature
coefficient ofresistance. Resistances in series and parallel Kirchoffs current law and Kirchoffsvoltage law and their applications to simple circuits. Conversion of circuits from star to Delta
and Delta to Star. Thevenins Theorem, Superposition theorem, Nortons theorem and their use
to solve simple problems.
UNIT II
BATTERY Basic idea about primary and secondary cells. Construction, working andapplications of Lead and Battery and Nickel Cadmium cells, Silver Oxide cells Charging
methods used for lead acid accumulator Care and maintenance of lead acid battery. Series and
parallel connections of batteries.
UNIT III
Magnetism and Electromagnetism: Introduction to electromagnetism, Magnetic field around astraight current carrying conductor and a solenoid and methods to find its direction, force
between two parallel current carrying conductors. Force on a conductor placed in the magnetic
field. Series and parallel magnetic circuits, simple problems Importance of air gap Concept ofhysterisis and hysterisis loop.
UNIT IV
Electromagnetic Induction: Faradays Laws of electromagnetic induction. Lenzs law and
Flamings Right and left hand rules. Principle of self and mutual induction, self and mutuallyinduced e.m.f, simple numerical problems Energy stored in a magnetic field. Rise and decay of
current in RL and RC circuits.
UNIT V
AC Theory : Concept of anlternating voltage and current Difference between AC and DC,Concept of cycle, frequency period, amplitude, value, average value, r.m.s value, maximum
value, form factor and peak factor. Representation of sinusoidal quantitites by phasors.Derivation of equation of sinusoidal waveform. Physical concept of alternating voltage applied
Lectures Tutorials PracticalsCredits Marks
3 1 -- 4
External: 70+Internal:30.
Students are required to score 45% marksindividually in both External & Internal
and 50% marks in total.
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to a pure resistance, pure inductance and pure capacitance. Inductive reactance, capacitivereactance Alternating voltage applied to resistance and inductance in series Alternating voltage
applied to resistance and capacitance in series. Impedance triangle and phase angle ComplexNumbers-Various forms; addition, subtraction, multiplication and division, addition of
sinusoidal terms Solutions and phasor diagrams for simple practical RLC circuits (series and
parallel). Introduction series and parallel resonance and its conditions Power in pure resistance,
inductance, inductance and capacitance, power in combined RLC circuits, Power factor, activeand reactive currents and their significance, practical importance of power factor, solution of
simple circuits using j-notation. Use of conductance, succeptance and admittance.
UNIT VI
Polyphase System: Concept of polyphase in power system Advantages of 3-phase system oversingle phase system. Generation of 3-phase voltages, relation between phase voltage and line
voltage, phase current, line current and power in a star and delta connected system. Simple
problems on 3-phase balanced loads and concept of unbalanced loads.
Reference Books:
1) A Textbook of Electrical Technology Volume- I B.L.Theraja, S.Chand and Company
Ltd. New Delhi.
2) Basic Electrical Engineering, V.K.Mehta, S.Chand and Company Ltd., New Delhi.
3) Electrical Engineering- G.K.Mittal
4) Theory and problems of Basic Electrical Engineering- I.J.Nagrath and Kothari, Prentice-
Hall of India Pvt. Ltd.
5) Electrical Technology- Edward Hughes, Seventh Edition, Pearson Education
6) Elements of Electrical Technology- H.Cotton, C.B.S. Publications
7) Basic circuits analysis by John Omalley Shawn Mc Graw Hill.
8) Principles of Electrical Engineering by Del. Toro, PH
BASL-003: LAB-III (Workshop Practices)
Lectures Tutorials PracticalsCredits Marks
---- 3 2
External:30+Internal:70
Students are required to score
45% marks individually in both
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External & Internal and 50%
marks in total.Term WorkHere practical of workshop practice must be conducted in such a way that each student must be
able to independently make objects / products which are commercially marketable and useful to
college or society as whole. Instructor must demonstrate making of at least one job from eachcategory.
Students are expected to learn ANY FOUR out of the following skills and must get acquaintedto the tools used and standard procedure used as applicable.Term Work should include
1. CarpentryOne job on wood joints like lap joint, mortise & tendon joint etc. The job
may be making a stool. Demonstration of one job on wood turning operation.
2. Sheet MetalOne job on sheet metal which must contain making any of the
following- tray or dustbin.
3. Fitting One simple job on male female joint which includes drilling and tapping
operations.
4. Smithy and ForgingOne job on forging such as
a. Making one end of the flat bar knife edge and other end vee.
b. Making nails or arrows for surveying, fixing cricket mat etc.
c. Making tools used in gardening.
5. PlumbingOne job on pipe joints. Dummy piping system may be used to explain
Piping joints. Students may be shown industrial or domestic piping so as to
understand the need of piping.
6. Welding- One job on arc welding joints like lap, butt, T joints and one job on gas
welding.
Journal should include report on process sheets of all jobs, description of hand tools &equipments used, various operations performed, safety precautions in workshop.
Instructor must introduce all important parameters of process. At least one demonstration
of making of each job must be shown to students. Finally appropriate marks may be
awarded by evaluating the performance of the student .
BIELL-001: LAB- IV (BASIC ELECTRICAL ENGINEERING)
Lecture Tutorial PracticalCredit Marks
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ET-101 (B): MATHEMATICS-II
Lecture Tutorial PracticalCredit
Marks
4 0 -- 4
External: 70+Internal: 30.Students are required to score 45%
marks individually in both External
& Internal and 50% marks in total.
UNITI:
PROBABILITY CONCEPTS: Introduction to Probability, Theorems of Probability,
Discrete Distributions.
UNIT II:
DISTRIBUTION THEORY: Continuous Distributions, Multivariate
Distributions, Sampling Distributions and Approximations of Distributions.
UNITIII:
ESTIMATION AND TESTS OF HYPOTHESIS: Point Estimation, Interval
Estimation and Testing of Hypothesis, Standard Statistical Tests.
Reference:1.Meyer, P.L, Introduction to Probability and Statistical Applications Addition-Wesley
Publishing company.
2. Trivedi, K.S, Probability and Statistics with Reliability, Queuing and Computer Science
Applications. Prentice Hall of India Ltd, New Delhi.
3.Introduction to probability and Statistical Applications, P.L. Meyer
4.An Outline of Statistical Theory, Vols. I & II by Goon, Gupta and Dasgupta.
5.Introduction to probability and Statistical Applications By Paul L. Meyer
6.An Outline of Statistical Theory, Vol. I & II by Goon Gupta and Guptadas.
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BME-009: COMPUTER PROGRAMMING AND APPLICATION
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal: 30.
Students are required to score 45%
marks individually in both External
& Internal and 50% marks in total.
Block 1 : Basics of C++
Unit 1 : Programming Constructs
Unit 2 : Arrays and Pointers
Unit 3 : Function and Structures
Block 2 : Object Oriented Programming Using C++
Unit 4 : Objects and Classes
Unit 5 : Virtual Functions
Unit 6 : Programming Examples
Block 3 : Numerical Methods
Unit 7 : Number Representation and Errors
Unit 8 : Methods for Finding Roots of Equations
Unit 9 : Direct Methods of Solution for System of Equations
Unit 10 : Iterative Method of Solution of Equation
Unit 11 : Finite Difference Interpolation
Unit 12: Introduction to MSTLAB/Mathematica
References:
1. Programming in C , Balagurusamy Tata Mc-Graw Hill
2. Lets C, Kanetkar BPB.
3. Complete reference in C, Herbert Shildt, Tata Mc-Graw Hill
4. Numerical Methods: Using C, Fourth Edition , 2004, John H. Mathwes and Kurtis D.
Fink,Prentice Hall Publications.
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BME-017: STRENGTH OF MATERIALS (BME 017)
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score 45%
marks individually in both External
& Internal and 50% marks in total.
UNIT I
STRESSES IN SOLIDS: Simple Stresses and Strains, Thermal Stresses, Principal Stresses
and Strains.
UNIT II
FORCES AND STRESSES IN BEAMS: Shear Forces and Bending Moments, Stresses in
Beams, Stress Distribution in Beams, Direct and Bending Stresses, Strain Energy
UNIT III
STRESSES IN SHAFTS AND SHELLS AND THERMAL STRESSES: Deflection of
Beams, Torsion, Thick and Thin Cylinders, Shells, Springs
Reference:
1.Rajput. R.K. Strength of Materials S. Chand & co Lt. New Delhi 1996
2.Jindal U.C. Strength of Materials Asian Books Pvt Ltd, New Delhi 2007
3.Egor.P. Popov Engineering Mechanics of Solids Prentice Hall of India, New Delhi 1997
4.Subramanian R. Strength of Materials Oxford University Press, Oxford Higher
Education series, 2007
5.Hibbeler, R.C, Mechanics of materials, Pearson Education, Low Price Edition, 2007
6.Vazirani, N, ratwani, M. Analysis of Structures Khanna Publishers, New Delhi 2001
ET-524 (A):PRINCIPLES OF ENGINEER
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MANAGEMENT AND ECONOMICS
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal: 30.Students are required to score 45%
marks individually in both External
& Internal and 50% marks in total.
UNIT I
BASIC CONCEPTS: Management : Thought and Functions, Micro-Economics for Engineers,Economic Environment and Policies, Human Behaviour at Work, Staff Training and
Development.
UNIT II
ORGANISATION: Organisation Structure and Compatibility, Power, Authority andDelegation,Organisation DynamicsA Response to Growth and Decay
UNIT III
MANAGERIAL CONTROL STRATEGIES: Management of Quality, Time Valueof Money,Decision Making: Models, Techniques and Processes
UNIT III
INTRODUCTION TO PROJECT MANAGEMENT: Projects : Concept and Phases, ProjectManagement, Value Engineering, Eco-Friendliness of Projects.
References:1. Industrial Management. L.C. Jhamb, Everest Publishing house.
2. Industrial Engineering and management-O.P. Khanna, Dhanapat Rai publications3. Industrial ManagementS.C. Jain, H.S.BAWA, Dhanapat Rai publications
4. Industrial ManagementD.P. Bhivpathak, L.C. Jhamb, JM
5. Industrial ManagementInamdar, AR Bokil, Everest Publishing house.
BIEL-003: DIGITAL ELECTRONICS
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Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score 45%
marks individually in both External
& Internal and 50% marks in total.
UNIT 1
Review of Codes & Logic Simplification Technique : De Morgans Theoram, 1s compliment
2compliment of a number, BCD codes,8421, EXCESS-3, Grey code, ASCII codes, ESCII codeReduction of logic function using Boolean algebra, SOP & POS forms, canonical forms of
SOP& POS equation. Karnaugh map up to 4 variables. Dont core conditions, Algorithmic
approach of reduction technique.
UNIT IICombinational Logic Design : Code conversion, Arithmetic circuits as Half and Full Adders
and sub tractors, Binary Serial and Parallel Adder, IC 7483, BCD Adder, Digital Comparator,Multiplexer, Demultiplexer, Encoder, Priority encoder Decoder, Decoder driver & Multiplexed
Display, other applications. Design of ALU.
UNIT III
Sequential Logic Design: S-R, clocked S-R, JK and Master-Slave JK flip-flops, excitation table
of flip flip-flop, edge triggered flip-flops, design of Algorithmic State Machines (ASM) forsimple applications. Design of ripple and synchronous counters, shift register and pulse train
generator, Pseudo Random Binary Sequencing (PRBS) generator.
UNIT IV
Logic Families: TTL NAND gate, specifications, tristate TTL, bus organized computerprinciple, ECL, MOS, CMOS families and their interfacing. MOSFET as switch, CMOS
transmission gate. Data sheets of IC74LS00, 74C00.
UNIT V
Semiconductor Memories:
Static & Dynamic RAM cell, ROM, PROM, EPROM, FLASHConcept of PLA, PAL
References:
1. R.P. Jain : Modern digital Electronics : TMH
2. Gothman : Digital Electronics-An introduction to theory and practice: PHI
3. Douglas-Hall : Digital Circuits and Systems : McGraw Hill
BASL-006: Lab-V (Computer Programming)
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Lecture Tutorial PracticalCredit
Marks
2 1
External: 30+Internal:70Students are required to score 45% marks
individually in both External & Internal and 50%
marks in total.
List of Practicals
1. Write a program to produce ASCII equivalent of given number2. Write a program to find divisor or factorial of a given number.3. Write a program to evaluate the following algebraic expressions after reading necessary
values from the user
(ax+b)/(ax-b)
2.5 log x-cos 30+|x^2-y^2|+sqrt (2xy)
(x^5+10x^4+8x^3+4x+24. Write a program to find sum of a geometric series5. Write a program to cipher a string
6. Write a program to check whether a given string follows English capitalization rules.7. Write a program to find sum of the following series
1+ + 1/3 +________+1/20
8. Write a program to search whether a given substring exist in an input string or not andthen delete this string from input string.
9. Write a recursive program for tower of Hanoi problem10.The Fibonacci sequence of numbers is 1, 1, 2, 3, 5, 8. Based on the recurrence
relation
F (n) =F (n-1) +F (n-2) for n>2 Write a recursive program to print the first m Fibonaccinumber.
11.Write a menu driven program for matrices to do the following operation depending on
whether the operation requires one or two matricesa) Addition of two matricesb) Subtraction of two matricesc) Finding upper and lower triangular matricesd) Trace of a matrixe) Transpose of a matrixf) Check of matrix symmetryg) Product of two matrices.
12.Write a program that takes two operands and one operator from the user perform theoperation and then print the answer.
13.Write a program to print the following outputs:
1 12 2 2 2
3 3 3 3 3 3
14.Write functions to add, subtract, multiply and divide two complex numbers (x+iy) and(a+ib) Also write the main program.
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15.Write a menu driven program for searching an sorting with following options:-h) Searching (1) Linear searching (2) Binary searchingi) Sorting (1) Insertion sort (2) Selection sorting
16.Write a program to copy one file to other, use command line arguments.17.Write a program to mask some bit of a number (using bit operations)18.An array of record contains information of managers and workers of a company. Print all
the data of managers and workers in separate files.
BIMEL-002: LAB- VI (Strength of Materials )
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Lecture Tutorial PracticalCredit
Marks
2 1
External: 30+Internal:70Students are required to score 45% marks
individually in both External & Internal
and 50% marks in total.
List of Experiments in Strength of Materials (Any Eight)
1. To determine shear force (SF) and Bending moment (BM) diagram at various sections of asimply supported beam loaded with several point load on plain paper.
2. To determine yield stress, ultimate stress, youngs modulus, percentage elongation of a mildsteel rod by Universal testing machine.
3. Determination of bending test on timber.
4. Determination of bending test on floor tiles.
5. Determination of modulus of rigidity of a curve by torsion apparatus.6. Determination of deflection and stiffness of a helical spring.
7. To determine hardness of a plate by Rock wells Brinells hardness testing machine.
8. To determine impact resistance of a material by Izode impact testing machine.
9. To determine compression test on timber, bricks, mild steel and copper.
10.Determination of water absorption test on bricks.
11.Determination of water absorption test on floor tiles.
12.To determine the moisture content and specific gravity of timber.
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BICE-007: MATHEMATICSIII
UnitI: Function of Complex variableAnalytic function, C-R equations, Cauchys integral theorem, Cauchys integral formula for
derivatives of analytic function, Taylors and Laurents series, singularities, Residue theorem,Evaluation of real integrals of the type and
UnitII: Statistical Techniques - I
Moments, Moment generating functions, Skewness, Kurtosis, Curve fitting, Method of least
squares, fitting of straight lines, Polynomials, Exponential curves etc., Correlation, Linear, nonlinear and multiple regression analysis, Probability theory.
UnitIII: Statistical Techniques - II
Binomial, Poisson and Normal distributions, sampling theory (small and large), Tests of
significations: Chisquare test, t-test, Analysis of variance (one way), Application to engineering,medicine, agriculture etc. Time series and forecasting (moving and semi-averages), Statistical
quality control methods, Control charts, R, p, np, and c charts.
UnitIV: Numerical TechniquesIZeroes of transcendental and polynomial equation using Bisection method, Regula-falsi method
and Newton- Raphson method, Rate of convergence of above methods.
Interpolation: Finite differences, difference tables, Newtons forward and backward interpolation
, Lagrangesand Newtons divided difference formula for unequal intervals.Unit V : Numerical TechniquesIISolution of system of linear equations, Gauss- Seidal method, Crout method. Numerical differentiation, Numerical
integration, Trapezoidal, Simpsons one third and three-eight rules, Solution of ordinary differential (first order,
second order and simultaneous) equations by Eulers, Picards and forth-order Runge- Kutta mehthods.
Reference Books:-1. Peter V. ONeil, Advance Engineering Mathematics Thomson (Cengage) Learning, 2007.2. Jain, Iyenger & Jain, Numerical Methods for Scientific and Engineering Computation,
New AgeInternational, New Delhi, 2003.
3. J.N. Kapur, Mathematical Statistics, S. Chand & company Ltd.,20004. R.K. Jain & S.R.K. Iyenger, Advance Engineering Mathematics, Narosa Publication
House, 2002.
5. Chandrika Prasad, Advanced Mathematics for Engineers, Prasad Mudralaya, 1996.6. E. Kreysig, Advanced Engineering Mathematics, John Wiley & Sons, 2005.7. B.S. Grewal, Higher Engineering Mathematics, Khanna Publishers, 2005.8. Devi Prasad, An introduction to Numerical Analysis, Narosa Publication house, New
Delhi 2006.9. T. Veerajan & T. Ramchandrandran, Theory & Problems in Numerical Methods, TMH,
New Delhi, 2004.
10.S.P.Gupta, Statistical Methods, Sultan and Sons, New Delhi, 2004.11.Devore, Probability and Statistics, Thomson(Cengage) Learning, 2007.12.Walpole, Myers, Myers & Ye, Probability and Statistics for Engineers & Scientists,
Pearson Education, 2003.
Lectures Tutorials PracticalsCredits
Marks
3 1 -- 4
External: 70+Internal: 30.Students are required to score 45%
marks individually in both External &
Internal and 50% marks in total.
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BIEL-005: ANALOG ELECTRONIC CIRCUITS
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4External: 70+Internal:30.
Students are required to score 45%
marks individually in both External
& Internal and 50% marks in total.
UNIT I
LOW FREQUENCY TRANSISTOR AMPLIFIER:- Equivalent circuit of BJT using h-
parameter
for CB, CE and CC & configuration, calculation of transistor parameter for CB, CE & CC usingh-parameters,
comparison of transistor amplifier configuration.
UNIT II
MULTISTAGE AMPLIFIER: General cascaded system, RC coupled amplifier and its
frequency
response, merits and demerits, cascode amplifier, Darlington compound configuration,multistage frequency
effect.
UNIT III
HIGH FREQUENCY RESPONSE OF TRANSISTOR AMPLIFIER: High frequency model
forCE configuration, approximate CE high frequency model with resistive load, CE short circuitcurrent gain, HF
current gain with resistive load.
UNIT IV
LARGE SIGNAL AMPLIFIER: Analysis and design of class A,B, AB,C amplifiers, push pull
amplifiers, transformer less output stages, distortion calculations.
UNIT V
TUNED AMPLIFIER: General behavior of tuned amplifiers, resonance-series and parallel
resonantcircuit, calculations of circuit impedance at resonance. Variation of impedance with frequency,
Q-factor of acircuit & coil, Band width of series & parallel resonant circuit, advantages and disadvantages of
tunedamplifiers. Single tuned amplifiers, voltage gain & frequency response of single tuned
amplifiers, double tuned
amplifiers. Analysis & design of class C amplifiers.
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UNIT VI
FEEDBACK AMPLIFIER: Feedback concept, characteristics of negative and positivefeedback. Effect
of negative and positive feedback on input impedance, output impedance, gain, and noise and
frequencyresponse.
UNIT VII
OSCILLATORS Classification of Oscillators, frequency and frequency stability of oscillatory
circuits,
Tuned based Oscillators, Hartley Oscillator, Colpitts Oscillators Clapp Oscillator, Crystal
Oscillator, PhaseShift Oscillator, Wein Bridge Oscillator
UNIT VIIIMULTIVIBRATORS Monostable multi-vibrator, astable multi-vibrator and bistablemultivibrator andtimer applications. Introduction and block diagram of 555 timer and UJT.
REFERENCE BOOKS
1. Integrated devices & circuits by Millman & Halkias.
2. Electronic Devices & circuit theory by R. Boylestad.
3. Electronic Devices & circuit-II by A.P. Godre & U.A. Bakshi.4. Electronic Devices & Circuit by G.K.Mithal
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BIEL-006: ELECTROMAGNETIC FIELD THEORY
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score 45%
marks individually in both External
& Internal and 50% marks in total.
UNIT-I
INTRODUCTION: Review of vector analysis, Scalar & vector products, gradient, divergent
and curl of a vector and their physical explanation-Transformation amongst rectangular,cylindrical and spherical co-ordinate system.
UNIT II
ELECTROSTATICS: Coulomb's law, electric field intensity from point charges, field due toContinuous distribution of charges, gausss law, Electric displacement and displacement densitypotential function, potential field of a point charge, laplaces and poisons equations.
UNIT III
MAGNETOSTATICS:Magnetic field intensity and magneto motive force, Amperes Circuital
law, Energy stored, Biot-savart law, vector potential, magnetic dipole.
UNIT IV
TIME DEPENDENT FIELDS: Ampere's work law in differential vector form, continuity of
Currents, conduction and displacement current. Maxwell's equations and their interpretations,boundary conditions. Wave equations, sinusoidal time varying fields, uniform plane wave in
dielectric and conductor media, skin effect and depth of penetration, reflection and refraction of
plane waves at boundaries for normal and oblique incidence surface impedance.
UNIT VENERGY FLOW AND POYNTING VECTOR: Pointing theorem, interpretation of ExH.
Simple application, complex pointing vector.
UNIT VI
TRANSMISSION LINES: Transmission line theory from the circuit concept, properties;
constants; transmission line equations; infinite line; reflections in transmission lines; voltage,current and impedance relations-open and short circuit lines; Experimental determination of line
constants. Standing wave ratio; impedance matching, quarter and half wave lines single stub and
double stub matching; circle diagramSmith chart.
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UNIT VII
INTRODUCTION TO WAVE GUIDES Waves between parallel plane; Transverse Electricwave, Transverse magnetic waves; characteristics of TE & TM waves; Transverse
Electromagnetic waves; velocity of propagation; Attenuation in parallel plane guides; wave
impedance.
Reference:1. Electromagnetic waves & radio system by Jorden R.F.
2. Principle and applications of Electromagnetic fields by Ptonsey R and Collin R.P3. Applied Electromagnetic by Planus M.A.
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BIEL-007: SIGNALS & SYSTEMS
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score 45%
marks individually in both External
& Internal and 50% marks in total.
UNIT IIntroduction: Definitions of a signal and a system, classification of signals, basic Operations on
signals, elementary signals, Systems viewed as Interconnections of operations, properties ofsystems.
UNIT II
Time-domain representations for LTI systems1: Convolution, impulse response representation,Convolution Sum and Convolution Integral.
UNIT IIITime-domain representations for LTI systems2: properties of impulse response
representation, Differential and difference equation Representations, Block diagram
representations.
UNIT IV
Fourier representation for signals1: Introduction, Discrete time and continuous time Fourier
series (derivation of series excluded) and their properties .
UNIT V
Fourier representation for signals2: Discrete and continuous Fourier transforms(derivations of
transforms are excluded) and their properties.
UNIT VIApplications of Fourier representations: Introduction, Frequency response of LTI systems,
Fourier transform representation of periodic signals, Fourier transform representation of discrete
time signals
UNIT VII
Z-Transforms1: Introduction, Ztransform, properties of ROC, properties of Ztransforms,
inversion of Ztransforms.
UNIT VIIIZ-transforms2: Transform analysis of LTI Systems, unilateral Z- Transform and its application
to solve difference equations.
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TEXT BOOKSimon Haykin and Barry Van Veen Signals and Systems, John Wiley & Sons, 2001.Reprint
2002
REFERENCE BOOKS:
1. Alan V Oppenheim, Alan S, Willsky and A Hamid Nawab, Signals and Systems Pearson
Education Asia / PHI, 2nd edition, 1997. Indian Reprint 20022. H. P Hsu, R. Ranjan, Signals and Systems, Schams outlines, TMH, 2006
3. B. P. Lathi, Linear Systems and Signals, Oxford University Press, 2005
4. Ganesh Rao and Satish Tunga, Signals and Systems, Sanguine Technical Publishers,2004
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BIEL-008: MICROCONTROLLERS
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score 45%
marks individually in both External
& Internal and 50% marks in total.
UNIT IMicroprocessors and microcontroller. Introduction, Microprocessors and Microcontrollers, A
Microprocessors survey. RISC & CISC CPU Architectures, Harvard & Von-Neumann CPU
architecture.The 8051 Architecture: Introduction, 8051 Microcontroller Hardware, Input / Output Pins, Ports
and Circuits External Memory, Counter and Timers, Serial Data Input / Output, Interrupts.
UNIT II
Addressing Modes and Operations: Introduction, Addressing modes, External data Moves, CodeMemory, Read Only Data Moves / Indexed Addressing mode, PUSH and POP Opcodes, Data
exchanges, Example Programs; Byte level logical Operations, Bit level Logical Operations,
Rotate and Swap Operations, Example Programs. Arithmetic Operations: Flags, Incrementing
and Decrementing, Addition, Subtraction, Multiplication and Division, Decimal Arithmetic,Example Programs.
UNIT IIIJump and Call Instructions: The JUMP and CALL Program range, Jumps, calls and Subroutines,
Interrupts and Returns, More Detail on Interrupts, Example Problems
UNIT IV
8051 programming in C: Data types and time delays in 8051C, I/O programming, logicoperations, data conversion programs, accessing code ROM space, data serialization.
UNIT V
Timer / Counter Programming in 8051: Programming 8051 Timers, Counter Programming,
programming timers 0 and 1 in 8051 C
UNIT VI8051 Serial Communication: Basics of Serial Communication, 8051 connections to RS-232,
8051 Serial communication Programming, Programming the second serial port, Serial port
programming in C.
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UNIT VIIInterrupts Programming: 8051 Interrupts, Programming Timer Interrupts, Programming External
Hardware Interrupts, Programming the Serial Communication Interrupts, Interrupt Priority in the8051/52, Interrupt programming in C
UNIT VIII8051 Interfacing and Applications: Interfacing 8051 to LCD, Keyboard, parallel and serial ADC,
DAC, Stepper motor interfacing, DC motor interfacing and PWM
TEXT BOOKS:
1. The 8051 Microcontroller Architecture, Programming & Applications, 2e Kenneth J.Ayala ;, Penram International, 1996 / Thomson Learning 2005
2. The 8051 Microcontroller and Embedded Systems using assembly and C -, Muhammad
Ali Mazidi and Janice Gillespie Mazidi and Rollin D. McKinlay; PHI, 2006 / Pearson, 2006
REFERENCE BOOKS:1. Programming and Customizing the 8051 Microcontroller Predko ;, TMH
2. Microcontrollers: Architecture, Programming, Interfacing and System Design,Raj Kamal,Pearson Education, 2005
3. Microcontrollers- Theory and Applications, Ajay V.Deshmukh; TMH,2005
4. Microcontroller and its applications, Dr.Ramani Kalpathi and Ganesh Raja; SanguineTechnical publishers,Bangalore-2005
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BIELL-004: LABVIII (MICROCONTROLLERS)
Lecture Tutorial PracticalCredit Marks
2 1
External:30+Internal:70Students are required to score 45%
marks individually in both External &
Internal and 50% marks in total.
I. PROGRAMMING
1. Data Transfer - Block move, Exchange, Sorting, Finding largest element in an array.2. Arithmetic Instructions - Addition/subtraction, multiplication and division, square, Cube (16
bits Arithmetic operationsbit addressable).
3. Counters.4. Boolean & Logical Instructions (Bit manipulations).
5. Conditional CALL & RETURN.
6. Code conversion: BCDASCII; ASCIIDecimal; Decimal - ASCII; HEX - Decimal andDecimal - HEX .
7. Programs to generate delay, Programs using serial port and on-Chip timer / counter
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BIEL-009:ELECTRONIC MEASUREMENT & INSTRUMENTATION
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.
Students are required to score45% marks individually in bothExternal & Internal and 50%
marks in total.
1. INSTRUMENTATION SCHEME & CHARACTERISTICS: Definition,
Application and types of measurements, instrument classification, Functional
elements of an instrument, input out put configuration of measuring instruments,
Methods of correction for interfering and modifying inputs, standards, calibration,
introduction to static characteristics and dynamics characteristics, selection ofinstruments, loading effects. Dynamic characteristics of measurement systems, Zero
order, first order and second order systems & their response.
2. ERROR ANALYSIS: Types of errors, Methods of error analysis, uncertainty analysis,
statistical analysis, Gaussian error distribution, chi- square test, correlation
coefficient , students Ttest , method of least square , curve fitting , graphicalanalysis , general consideration in data analysis , design of experiment planning
3. DC & AC MEASUREMENT: DC measurements, Dc voltmeter, Ammeter ohmmeter,
digital type voltmeter, Ammeter ohmmeter, AC measurement, Ammeter, ohmmeter,AC voltmeter using rectifier, true RMS voltmeter, Digital VOM meter.
4. TRANSDUCERS: Principles and classification of transducers, guidelines forselection and application of transducers, basic requirements of transducers. Different
types of transducers, displacement, strain gauge, LVDT, potentiometer, capacitive &
inductive, Piezoelectric, temperature, optical, Hall effect transducers. . Measurementof parameter : Measurement of length ,angle, area , temperature , pressure flow ,
speed force , torque, vibration , level , concentration (conductivity and ph)
measurement .
5. DISPLAY DEVICES AND RECORDERS: Telemetry &Remote sensing, GIS
(Geographical
information System) , various display devices & Recorder , CRO (basic block
diagram , deflection sensitivity , application : voltage ,current ,frequency and phaseangle measurement ) .
6. INDICATING AND RECORDING SYSTEMS: Digital R-L-C meters, digitalfrequency Meter& Universal Counter. X-Y & X-T recorders, General-purpose
Oscilloscopes, Delayed Time Base, Sampling and Digital Storage types.
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7. SIGNAL GENERATORS & ANALYZERS: Sweep frequency generator,frequency synthesized signal generator & function generator; Wave analyzer,
Spectrum analyzer.
Text Books:
1. Electronic Instrumentation& Measurement by WilliamD Cooper & Albert C.Helfric,PHI Pub.
2. Instrumentation, Measurement& Analysis by K K Chaudhury& R C Nakra,TMH
3 Instrumentation, Measurement& Feedback by Barry Jones,PHI
Reference Books:1. Instruments& Measurement for Electronic by Clyde N.Herrick
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BIEL-010:Digital Signal Processing
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score
45% marks individually in bothExternal & Internal and 50%marks in total.
UNIT IDiscrete Fourier Transforms (DFT): Frequency domain sampling and reconstruction of discrete
time signals. DFT as a linear transformation, its relationship with other transforms.
UNIT II
Properties of DFT, multiplication of two DFTs- the circular convolution, additional DFTproperties, use of DFT in linear filtering, overlap-save and overlap-add method.
UNIT IIIFast-Fourier-Transform (FFT) algorithms: Direct computation of DFT, need for efficient
computation of the DFT (FFT algorithms).
UNIT IV
Radix-2 FFT algorithm for the computation of DFT and IDFTdecimation-in-time anddecimation-in-frequency algorithms. Goertzel algorithm, and chirp-z transform
UNIT VIIR filter design: Characteristics of commonly used analog filtersButterworth and Chebysheve
filters, analog to analog frequency transformations.
UNIT VIFIR filter design: Introduction to FIR filters, design of FIR filters using - Rectangular, Hamming,
Bartlet and Kaiser windows, FIR filter design using frequency sampling technique
UNIT VIIDesign of IIR filters from analog filters (Butterworth and Chebyshev) - impulse invariance
method. Mapping of transfer functions: Approximation of derivative (backward difference and
bilinear transformation) method, Matched z transforms, Verification for stability and linearityduring mapping
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UNIT VIIIImplementation of discrete-time systems: Structures for IIR and FIR systems-direct form I and
direct form II systems, cascade, lattice and parallel realization.
TEXT BOOK:
Digital signal processingPrinciples Algorithms & Applications, Proakis & Monalakis, Pearson
education, 4th Edition, New Delhi, 2007.
REFERENCE BOOKS:
1. Discrete Time Signal Processing, Oppenheim & Schaffer, PHI, 2003.2. Digital Signal Processing, S. K. Mitra, Tata Mc-Graw Hill, 2nd Edition, 2004.
3. Digital Signal Processing, Lee Tan: Elsivier publications, 2007
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BIEL-011 : LINEAR INTEGRATED CIRCUIT
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.
Students are required to score
45% marks individually in bothExternal & Internal and 50%
marks in total.
UNIT I
DIFFERENTIAL AND CASCODE AMPLIFIERS: Emitter coupled differential amplifiers &
its circuit
configurations, FET differential amplifier, Differential amplifier with swamping resistor,constant current bias& current mirror. Cascade differential amplifier stages. Level translator. Cascade configuration.
UNIT II
INTRODUCTION TO OPERATIONAL AMPLIFIERS: The basic operational amplifier &
its schematic
symbol, Block diagram representation of OP-AMP, Power supply requirements of an OP-AMP,Evolution of
OP-AMP., Specification of a typical OP-AMP (741).
UNIT III
THE PRACTICAL OP-AMP: Input offset voltage, input bias current, input offset current. total
output
offset voltage, thermal drift, error voltage, variation of OP-AMP parameter with temperature &supply voltage.
Supply voltage rejection ration (SVRR), CMRR-Measurement of OP-AMP parameters.
UNIT IV
FREQUENCY RESPONSE OF AN OP-AMP: Frequency response compensator networks.
Frequency
response of internally compensated OP-AMP & non-compensated OP-AMP. High frequencyOP-AMP
equivalent circuit, open loop voltage gain as a function of frequency. Slew rate, causes of slew
rates and its
effects in application.
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UNIT V
OPERATIONAL AMPLIFIER CONFIGURATIONS & LINEAR APPLICATION:
Open loop OP-AMP configurations- The differential amplifier, inverting amplifier, non-inverting
amplifier,
negative feed back configurations - inverting and non inverting amplifiers, voltage followers &high input
impedance configuration, differential amplifiers, closed loop frequency response & circuit
stability, singlesupply operation of OP-AMP, summing, scaling and averaging amplifier, voltage to current &
current to
voltage converters, integrators & differentiators, logarithmic & anti logarithmic amplifiers
UNIT VI
ACTIVE FILTERS & OSCILLATORS: Advantages of active filters, classification of filters,
response
characteristics of butter worth, chebyshev, causal filters, first order and second order butter worthfilters- lowpass and high pass types. Band pass & band reject filters. Oscillator principles, types of
oscillators - phase shift,
wein bridge & quadrature. square wave, triangular wave and saw tooth wave generators, voltagecontrolled
oscillator.
UNIT VII
COMPARATORS & CONVERTERS: Basic comparator & its characteristics, zero crossing
detector,
voltage limiters, clippers & clampers, small signal half wave & full wave rectifiers, absolutevalue detectors,
sample and hold circuit.
TEXT BOOKS1. OP-AMP and linear integrated circuits 2nd edition, PLHI by Ramakant A. Gayakwad.
2. Design with operation amplifiers and Analog Integrated circuits by Sergei Franco.
3. Integrated Electronics: Analog and Digital circuits & system by Millman & Halkias.4. Linear Integrated Circuits by D.R.Chaudhary (WEL)
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BIEL-012: Analog and Mixed Mode VLSI Design
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score
45% marks individually in bothExternal & Internal and 50%marks in total.
UNIT IData converter fundamentals: Analog versus Digital Discrete Time Signals, Converting Analog
Signals to Data Signals, Sample and Hold Characteristics, DAC Specifications, ADC
Specifications, Mixed-Signal Layout Issues.
UNIT IIData Converters Architectures: DAC Architectures, Digital Input Code, Resistors String, R-2R
Ladder Networks, Current Steering, Charge Scaling DACs, Cyclic DAC, Pipeline DAC, ADC
Architectures, Flash, 2-Step Flash ADC, Pipeline ADC, Integrating ADC, SuccessiveApproximation ADC.
UNIT IIINon-Linear Analog Circuits: Basic CMOS Comparator Design (Excluding Characterization),
Analog Multipliers, Multiplying Quad (Excluding Stimulation), Level Shifting (Excluding Input
Level Shifting For Multiplier).
UNIT IVData Converter SNR: Improving SNR Using Averaging (Excluding Jitter & Averaging
onwards), Decimating Filters for ADCs (Excluding Decimating without Averaging onwards),Interpolating Filters for DAC, B and pass and High pass Sync filters.
UNIT VSu-Microns CMOS circuit design: Process Flow, Capacitors and Resistors, MOSFET Switch
(upto Bidirectional Switches), Delay and adder Elements, Analog Circuits MOSFET Biasing
(upto MOSFET Transition Frequency).
UNIT VIOPAmp Design (Excluding Circuits Noise onwards)
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TEXT BOOK:
1. Design, Layout, Stimulation ,R. Jacaob Baker, Harry W Li, David E Boyce, CMOS Circuit,
PHI Edn, 2005
2. CMOS- Mixed Signal Circuit Design ,R. Jacaob Baker, (Vol ll of CMOS: Circuit Design,Layout and Stimulation), IEEE Press and Wiley Interscience, 2002.
REFERENCE BOOKS:
1. Design of Analog CMOS Integrated Circuits, B Razavi, First Edition, McGraw Hill,2001.
2. CMOS Analog Circuit Design, P e Allen and D R Holberg, Second Edition, OxfordUniversity Press,2002.
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BIEL-013: ANTENNAS AND PROPAGATION
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score
45% marks individually in bothExternal & Internal and 50%marks in total.
UNIT I
ANTENNA BASICS: Introduction, basic Antenna parameters, patterns, beam area, radiationintensity, beam efficiency, diversity and gain, antenna apertures, effective height, bandwidth,
radiation, efficiency, antenna temperature and antenna filed zones.
UNIT II
POINT SOURCES AND ARRAYS: Introduction, point sources, power patterns, powertheorem, radiation intensity, filed patterns, phase patterns. Array of two isotropic point sources,
non-isotropic but similar point sources, principles of pattern multiplication, examples of pattern
synthesis by pattern multiplication, non-isotropic point sources, broad side array with non unipolar amplitude distribution, broad side versus end fire array, direction of maxima fire arrays of
n isotropic point sources of equal amplitude and spacing.
UNIT III
ELECTRIC DIPOLES AND THIN LINEAR ANTENNAS: Introduction, short electric
dipole, fields of a short dipole, radiation resistance of short dipole, radiation resistances of
lambda/2 Antenna, thin linear antenna, micro strip arrays, low side lobe arrays, long wireantenna, folded dipole antennas.
UNITIV&V
LOOP, SLOT, PATCH AND HORN ANTENNA: Introduction, small loop, comparison of far
fields of small loop and short dipole, loop antenna general case, far field patterns of circular
loop, radiation resistance, directivity, slot antenna, Balinets principle and complementaryantennas, impedance of complementary and slot antennas, patch antennas, horn antennas,
rectangular horn antennas.
UNIT VI
ANTENNA TYPES: Helical Antenna, Yagi-Uda array, corner reflectors, parabolic reflectors,
log periodic antenna, lens antenna, antenna for special applicationssleeve antenna, turnstile
antenna, omni directional antennas, antennas for satellite antennas for ground penetrating radars,
embedded antennas, ultra wide band antennas, plasma antenna.
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UNITVII & VIII
RADIO WAVE PROPAGATION: Introduction, Ground wave propagation, free space
propagation, ground reflection, surface wave, diffraction.
TROPOSPHERE WAVE PROPAGATION: Troposcopic scatter, Ionosphere propagation,
electrical properties of the ionosphere, effects of earths magnetic field.
TEXT BOOKS:1.Antennas, John D. Krauss, III (SEI) edition, McGraw-Hill International edition, 2006
2.Antennas and Wave Propagation - Harish and Sachidananda: Oxford Press 2007
REFERENCE BOOKS:
1.Antenna Theory Analysis and Design - C A Balanis, 2nd ED, John Wiley, 19972.Antennas and Propagation for Wireless Communication Systems - Sineon R Saunders,
JohnWiley, 2003.
3.Antennas and wave propagation - G S N Raju: Pearson Education 2005
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BIELL-005 : LABIX (ELECTRONICS MEASUREMENT &
INSTRUMENTATION)
Lecture Tutorial PracticalCredit Marks
2 1
External: 30+Internal:70
Students are required to score 45%marks individually in both
External & Internal and 50%
marks in total..
1. To measure frequency and phase of a signal from a Lissajous Pattern using CRO.
2. To study the characteristics of LDR, Photo-diode and Phototransistors.3. To measure a Water Level using Water Level Sensors.
4. To measure a strain using a strain cantilever.
5. To measure a displacement using LVDT Linear variable Differential Transformer
Transducer.6. To study & determine the characteristics of VDR.
7. To measure a load using Load Cell Transducer.
8. To measure a Temperature using Thermocouple & Thermistor Transducer.9. To measure a Displacement through Inductive Linear transducer.
10. Measurement of velocity through Velocity Transducer.
11. Measurement of temperature through RTD Transducer
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BIELL-006: LAB- X (DIGITAL SIGNAL PROCESSING )
Lecture Tutorial PracticalCredit Marks
2 1
External: 30+Internal:70Students are required to score 45%
marks individually in bothExternal & Internal and 50%
marks in total..
A LIST OF EXPERIMENTS USING MATLAB / SCILAB / OCTAVE / WAB
1. Verification of Sampling theorem.
2. Impulse response of a given system
3. Linear convolution of two given sequences.4. Circular convolution of two given sequences
5. Autocorrelation of a given sequence and verification of its properties.
6. Cross correlation of given sequences and verification of its properties.7. Solving a given difference equation.
8. Computation of N point DFT of a given sequence and to plot magnitude and phase
spectrum.9. Linear convolution of two sequences using DFT and IDFT.
10.Circular convolution of two given sequences using DFT and IDFT
11. Design and implementation of FIR filter to meet given specifications.
12. Design and implementation of IIR filter to meet given specifications.
B. LIST OF EXPERIMENTS USING DSP PROCESSOR
1. Linear convolution of two given sequences.
2. Circular convolution of two given sequences.3. Computation of N- Point DFT of a given sequence
4. Realization of an FIR filter (any type) to meet given specifications .The input can be a signal
from function generator / speech signal.5. Audio applications such as to plot time and frequency (Spectrum) display of Microphone
output plus a cosine using DSP. Read a wav file and match with their respective spectrograms
6. Noise: Add noise above 3kHz and then remove; Interference suppression using 400 Hz tone.
7. Impulse response of first order and second order system
REFERENCE BOOKS:
1. Digital signal processing using MATLAB - Sanjeet Mitra, TMH, 20012. Digital signal processing using MATLAB - J. G. Proakis & Ingale, MGH, 2000
3. Digital Signal Processors, B. Venkataramani and Bhaskar, TMH,2002
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BIELL-007: LAB-XI (LINEAR INTEGRATED CIRCUIT)
Lecture Tutorial PracticalCredit Marks
2 1
External: 30+Internal:70
Students are required to score 45%marks individually in both
External & Internal and 50%marks in total.
1. To demonstrate the relationship between input and output for the inverting and noninverting
configuration of the Op-Amp 741.
2. To verify the function of op-amp as a summer and as a difference amplifier.3. To perform the mathematical operation of integration using basic and practical
circuits of op-amps.
4. To perform the mathematical operation of differentiation using basic and practicalcircuits of op-amps.
5. To study half wave and full wave rectifier circuits using op-amps.
6. To design a second order butter worth low pass filter for cut of frequency of 2 KHzand determining its frequency response.
7. To study the frequency response of a high pass filter(second order).
8. To study fourth order low pass filter and high pass filter.9. To plot the frequency response of the band pass filter for a specified frequency range.
10. To design a square wave and triangular wave generator using Op-amps.
11. To design Wein bridge oscillator using Op-Amp for oscillating frequency 1 KHz.
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BIEL-014: Analog Communication
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score
45% marks individually in bothExternal & Internal and 50%marks in total.
UNIT I
RANDOM PROCESS: Random variables: Several random variables. Statistical averages:
Function of Random variables, moments, Mean, Correlation and Covariance function: Principlesof autocorrelation function, crosscorrelation functions. Central limit theorem, Properties of
Gaussian process.
UNIT II
AMPLITUDE MODULATION: Introduction, AM: Time-Domain description, FrequencyDomain description. Generation of AM wave: square law modulator, switching modulator.
Detection of AM waves: square law detector, envelop detector. Double side band suppressed
carrier modulation (DSBSC): Time-Domain description, Frequency-Domain representation,Generation of DSBSC waves: balanced modulator, ring modulator. Coherent detection of
DSBSC modulated waves. Costas loop.
UNIT III
SINGLE SIDE-BAND MODULATION (SSB): Quadrature carrier multiplexing, Hilbert
transform, properties of Hilbert transform, Pre-envelope, Canonical representation of band pass
signals, Single side-band modulation, Frequency-Domain description of SSB wave, Time-Domain description. Phase discrimination method for generating an SSB modulated wave, Time-
Domain description. Phase discrimination method for generating an SSB modulated wave.
Demodulation of SSB waves.
UNIT IV
VESTIGIAL SIDE-BAND MODULATION (VSB): FrequencyDomain description,Generation of VSB modulated wave, Time - Domain description, Envelop detection of VSB
wave plus carrier, Comparison of amplitude modulation techniques, Frequency translation,
Frequency division multiplexing, Application: Radio broadcasting, AM radio.
UNIT V
ANGLE MODULATION (FM)-I: Basic definitions, FM, narrow band FM, wide band FM,
transmission bandwidth of FM waves, generation of FM waves: indirect FM and direct FM.
UNIT VIANGLE MODULATION (FM)-II: Demodulation of FM waves, FM stereo multiplexing,
Phase-locked loop, Nonlinear model of the phaselocked loop, Linear model of the phaselocked loop, Nonlinear effects in FM systems.
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UNIT VIINOISE: Introduction, shot noise, thermal noise, white noise, Noise equivalent bandwidth,
Narrow bandwidth, Noise Figure, Equivalent noise temperature, cascade connection of two-portnetworks.
UNIT VIII
NOISE IN CONTINUOUS WAVE MODULATION SYSTEMS: Introduction, Receiver
model, Noise in DSB-SC receivers, Noise in SSB receivers, Noise in AM receivers, Threshold
effect, Noise in FM receivers, FM threshold effect, Pre-emphasis and De-emphasis in FM,.
TEXT BOOKS:
1.Communication Systems, Simon Haykins, 3rd Edition, John Willey, 1996.2.An Introduction to Analog and Digital Communication, Simon Haykins, John Wiley,
2003.
REFERENCE BOOKS:1.Modern digital and analog Communication systems B. P. Lathi, 3rd ed 2005 Oxford University
press.
2.Communication Systems, Harold P.E, Stern Samy and A Mahmond, Pearson Edn, 2004.Communication Systems: Singh and Sapre: Analog and
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BIEL-015: MICROPROCESSOR & ITS APPLICATIONS
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score
45% marks individually in both
External & Internal and 50%marks in total.
Introduction To Microprocessor
History and Evolution, types of microprocessors, 8085 Microprocessor, Architecture, BusOrganization, Registers, ALU, Control section, Instruction set of 8085, Instruction format,
Addressing modes, Types of Instructions.
Assembly Language Programming and Timing DiagramAssembly language programming in 8085, Macros, Labels and Directives, Microprocessor
timings,
Micro instructions, Instruction cycle, Machine cycles, T states, State transition diagrams, Timing
diagram for different machine cycles.
Serial I/O, Interrupts and Comparison of Contemporary MicroprocessorsSerial I/O using SID, SOD. Interrupts in 8085, RST instructions, Issues in implementing
interrupts,
Multiple interrupts and priorities, Daisy chaining, Interrupt handling in 8085, Enabling, disabling
and masking of interrupts. Brief comparison of contemporary 8-bit microprocessors like Z-80,
M68000 with 8085.
Data Transfer techniques
Data transfer techniques, Programmed data transfer, Parallel data transfer using 8155.
Programmable parallel ports and handshake input/output, Asynchronous and Synchronous datatransfer using 8251A.
Programmable interrupt controller 8259A. DMA transfer, cycle stealing and burst mode ofDMA, 8255, 8257 DMA controller.
Microprocessor Interfacing Techniques
Interfacing memory and I/O devices, Addressing memory, interfacing static RAMs, Interfacingand refreshing dynamic RAMs, Interfacing a keyboard, Interfacing LED and seven segment
displays,Interfacing a printer, Interfacing A/D converters, D/A converters.
Architecture of typical 16 bit microprocessors (Intel 8086)
Memory address space and data organization - Segment registers and memory segmentation -Generating a memory address - I/O address space - Addressing modes - Comparison of 8086 and
8088 - Basic 8086/8088 configuration - Minimum mode - Maximum mode - System timing.
Introduction to 80186/188, 286, 386 & 486 with Block diagram, features & application.
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Text Books:
1. R.S. GAONKAR, Microprocessor Architecture, Programming and applications with the
8085/8080A, Wiley EasternLtd.
2. A.H. MUHOPADHYAY, Microprocessor Based Laboratory Experiments and Projects,
Wheeler Publishing, 1997.3. YU-Cheng Liu & Glenn A Gibson, Microprocessor System, Architecture Programming &
Design.
REFERENCE BOOKS1. D.V.HALL, Microprocessors and Digital Systems, McGraw Hill
2. INTEL 8086/88, 80186, 286, 386, 486, Pentium Pro & Pentium IV- By Berry.B.Bray.
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BIEL- 016: Microwave & Radar Engineering
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
External: 70+Internal:30.Students are required to score
45% marks individually in bothExternal & Internal and 50%marks in total.
1. Propagation through waveguides:Rectangular waveguide, solution of wave equation in rectangular co-ordintes, Derivation of field
equations for TE & TM modes , degenerate and dominant mode, Power Transmission and Powerloss, Excitation of waveguides, non existence of TEM mode in waveguides, Introduction to
circular Waveguides, Stripline and microstripline.
2. Microwave cavity resonators:
Rectangular and cylindrical cavities, Quality factor, Excitation of cavities.Microwavecomponents: Waveguide couplings, bends and twists, Transitions, Directional couplers, hybrid
couplers, Matched load, Attenuators and phase shifters, E-plane, H-plane and Hybrid Tees,
Hybrid ring, Waveguide discontinuities, Windows, Irises and Tuning screws, Detectors, wavemeters; Isolators and Circulators, tunable detector, slotted line carriage, VSWR meter. Scattering
Matrix.
3. Microwave Measurements:Measurement of frequency, Wave length, VSWR, Impedance, Attenuation, Low and high power.
Radiation pattern.
4. Limitation, of conventional active devices at Microwave
frequency.
5. Microwave Tubes : Klystron, Reflex Klystron, Magnetron, TWT, BWO: Their schematic,
Principle of operation, performance characteristics and application.
6. Microwave Semiconductor Devices:
PIN diode, Tunnel diode, LSA diode, varactor diode, Gunn Devices, IMPATT and TRAPATT,
their Principal of operation, characteristics and applications.
7. Principles of Radar:Radar Block diagram operation, Radar Range equation, Radar Frequencies, Pulse and C.W.
Radar, Introduction to Doppler and M.T. Radar, Applications.
8. Radar Transmitters & Devices:
Block diagram of radar receiver for C.W. and pulse radar, front end amplifier, Receiver noisefigure, Duplexers Radar antennas, Radar Displays, Introduction to Radar clutter.
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Text Book:
1. Liao, S.Y. / Microwave Devices & Circuits; PHI 3rd Ed.2. M.I. Skolnik, Introduction to Radar Engineering; THM
Reference:
1. Collin, R.E. Foundations for Microwave Engineering; TMH 2nd Ed.2. Rizzi, Microwave Engineering: Passive Circuits; PHI.
3. A Das and S.K. Das, Microwave Engineering; TMH.
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BIEL-017: OPTICAL FIBER COMMUNICATION
Lecture Tutorial PracticalCredit
Marks
3 1 -- 4
E