DETAILED SYLLABUS FOR DISTANCE EDUCATION Under Graduate Degree Programmes B.Tech. (Electronics & Communication Engineering) (SEMESTER SYSTEM) COURSE TITLE : B.Tech. (Electronics & Communication Engineering) DURATION : 04 Years (Semester System) TOTAL DEGREE MARKS : 3000 FIRST SEMESTER COURSE TITLE Paper Code MARKS THEORY PRACTICAL TOTAL APPLIED MATHEMATICS -I BTECE-110 100 00 100 APPLIED PHYSICS BTECE-120/ BTECE-120P 50 50 100 APPLIED CHEMISTRY BTECE-130/ BTECE-130P 50 50 100 MANUFACTURING PROCESS BTECE-140 100 00 100 INTRODUCTION TO IT BTECE-150 50 50 100 SECOND SEMESTER COURSE TITLE Paper Code MARKS THEORY PRACTICAL TOTAL COMMUNICATION SKILLS BTECE-210 100 00 100 ENGINEERING MECHANICS BTECE-220/ BTECE-220P 50 50 100 WORKSHOP PRACTICE BTECE-230P 00 100 100 ENGINEERING GRAPHICS BTECE-240P 00 100 100 ELECTRICAL SCIENCE BTECE-250/ BTECE-250P 50 50 100 THIRD SEMESTER COURSE TITLE Paper Code MARKS THEORY PRACTICAL TOTAL APPLIED MATHEMATICS -II BTECE-310 100 00 100 ANALOG ELECTRONICS BTECE-320/ BTECE-320P 50 50 100 CIRUITS & SYSTEMS BTECE-330/ BTECE-330P 50 50 100 CONCEPTS OF OBJECT ORIENTED PROGRAMMING USING C++ BTECE-340 100 00 100 DATA STRUCTURES BTECE-350/ BTECE-350P 50 50 100 FOURTH SEMESTER COURSE TITLE Paper Code MARKS THEORY PRACTICAL TOTAL ELECTRO-MAGNETIC FIELDS & TRANSMISSION LINES BTECE-410 100 00 100 COMMUNICATION SYSTEMS & CIRCUITS BTECE-420/ BTECE-420P 50 50 100 COMPUTER GRAPHICS & MULTIMEDIA BTECE-430/ BTECE-430P 50 50 100 OPERATING SYSTEMS & SYSTEM PROGRAMMING BTECE-440/ BTECE-440P 50 50 100 DIGITAL CIRCUITS & SYSTEMS –I BTECE-450/ BTECE-450P 50 50 100 FIFTH SEMESTER COURSE TITLE Paper Code MARKS THEORY PRACTICAL TOTAL DIGITAL CIRCUITS & SYSTEMS –II BTECE-510/ BTECE-510P 50 50 100 MICROPROCESSOR SYSTEM BTECE-520/ BTECE-520P 50 50 100 COMPUTER SYSTEM ARCHITECTIRE BTECE-530 50 50 100 TELECOMMUNICATION NETWORKS BTECE-540/ BTECE-540P 50 50 100 DATA BASE MANAGEMENT SYSTEM BTECE-550/ BTECE-550P 50 50 100 SIXTH SEMESTER COURSE TITLE Paper Code MARKS THEORY PRACTICAL TOTAL MICROWAVE ENGINEERING BTECE-610/ BTECE-610P 50 50 100 DIGITAL SIGNAL PROCESSING BTECE-620/ BTECE-620P 50 50 100 DATA COMMUNICATION NETWORKS BTECE-630/ BTECE-630P 50 50 100 VLSI DESIGN BTECE-640/ BTECE-640P 50 50 100 PROGRAMMING IN C# BTECE-650/ BTECE-650P 50 50 100 SEVENTH SEMESTER COURSE TITLE Paper Code MARKS THEORY PRACTICAL TOTAL CONTROL SYSTEMS BTECE-710/ BTECE-710P 50 50 100 CONSUMER ELECTRONICS BTECE-720/ BTECE-720P 50 50 100 SATELLITE & MOBILE COMMUNICATION BTECE-730/ BTECE-730P 50 50 100 NETWORK TECHNOLOGY BTECE-740/ BTECE-740P 50 50 100 EIGHTH SEMESTER COURSE TITLE Paper Code MARKS THEORY PRACTICAL TOTAL ELECTIVE –I BTECE-810 -- -- 200 ELECTIVE –II BTECE-820 -- -- 200 INDUSTRIAL TRAINING (PROJECT) BTECE-830P -- 200 200 ELECTIVE –I (SELECT ANY TWO) COURSE TITLE Paper Code MARKS THEORY PRACTICAL TOTAL ADVANCED VLSI DESIGN E I (1)BTECE-810/ E I (1)BTECE-810P 50 50 100 MOBILE COMPUTING E I (2)BTECE-810/ E I (2)BTECE-810P 50 50 100 RELIABILITY ENGINEERING E I (3)BTECE-810/ E I (3)BTECE-810P 50 50 100 POWER ELECTRONICS E I (4)BTECE-810/ E I (4)BTECE-810P 50 50 100 ELECTIVE –II (SELECT ANY TWO) COURSE TITLE Paper Code MARKS THEORY PRACTICAL TOTAL INSTRUMENTATION E II (1)BTECE-820/ E II (1)BTECE-820P 50 50 100 INTEGERATED CIRCUIT TECHNOLOGY E II (2)BTECE-820/ E II (2)BTECE-820P 50 50 100 DIGITAL IMAGE PROCESSING E II (3)BTECE-820/ E II (3)BTECE-820P 50 50 100 MICROWAVE DEVICES E II (4)BTECE-820/ E II (4)BTECE-820P 50 50 100 NETWORK MANAGEMENT & SECURITY E II (5)BTECE-820/ E II (5)BTECE-820P 50 50 100 EMBEDDED SYSTEM E II (6)BTECE-820/ E II (6)BTECE-820P 50 50 100 Note: Theory Paper : 60% Continuous Internal Assessment and 40 % University examination. Practical Paper: 60 % Continuous Internal Assessment and 40 % University examination. Continuous Internal Assessment : 1) Two or three tests out of which minimum two 60% of Continuous Internal Assessment will be considered for Assessment 2) Seminars/Assignments/Quizzes 30% of Continuous Internal Assessment 3) Attendance, class participation and behavior 10% of Continuous Internal Assessment FIRST SEMESTER BTECE-110 APPLIED MATHEMATICS -I Maximum Time : 3 Hrs. University Examination : 40Marks Total Marks : 100 Continuous Internal Assessment : 60 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Calculus of Functions of One Variable: Successive Differentiation, Leibnitz's theorem (without proof). Mean value theorem, Taylor's theorem, Remainder theorem, Asymptotes, Curvature. Infinite Series: Convergence, divergence, Comparison test, Ratio test, Cauchy Leibnitz's theorem (without proof), Absolute and Conditional Convergence. Taylor and Maclaurin series, Power Series, Radius of Convergence. Integral Calculus: Fundamental theorems, Reduction Formulae, Properties of definite Integral, Applications of length, area, volume, surface of revolution, moments, center of gravity. Improper integrals, Beta-Gamma functions, Numerical Integration using Trapezoidal and Simpson's rules. Calculus of Functions of Several Variables Partial derivatives, Chain rule, Differentiation of Implicit functions, Exact differentials. Tangents and Normals. Maxima, Minima and Saddle points. Method of Lagrange multipliers. Errors and Approximations. Differentiation under integral sign Jacobians and transformations of coordinates. Multiple Integrals-Double and Triple integrals. Applications to areas, volumes etc. SECTION B Ordinary Differential Equations: Formation of ODE's, definition of order, degree and solutions. ODE's of first order: Method of separation of variables, homogeneous and nonhomogeneous equations, exactness and integrating factor General linear ODE's of the nth Order: solution of homogeneous and non homogeneous equations, operator method, method of undetermined coefficients and variation of parameters. Solutions of simple simultaneous ODE's . SECTION C Inner product spaces, Matrices and determinates, Linear transformations. Systems of linear equations-consistency and inconsistency, Hermitian, Skew-Hermitian Forms, Eigenvalues and Eigenvectors of matrix, diagonalization of a matrix, Cayley-Hamilton Theorem (without poof) Complex Variables: Curves and Regions in the Complex Plane, Complex Functions, Limits, Derivative, Analytic Function, Cauchy-Riemann Equations, Laplace's Equation, Rational, Exponential, Trigonometric, Hyperbolic Function's Linear Fractional Transformations, Conformal Mapping, Complex Line Integral, Cauchy's Integral Theorem, Cauchy's Integral Formula, Derivatives of Analytic Function, Power Series, Taylor Series, Laurent Series. Methods for obtaining Power Series, Analyticity at Infinity, Zeroes, Singularities, Residues, Residue Theorem, Evaluation of Real Integrals. SECTION D Vector Calculus: Scalar and vector fields, Curves, Arc length, Tangent, Directional Derivative, gradient of Scalar field, divergence and curl of a vector field. Line integrals (independent of path,) Green's theorem, Divergence theorem and Stoke's theorem (without proofs), Surface Integrals. Probability and Statistics : Random Variables, Discrete and Continuous Distribution, Mean and Variance of a Distribution, Moment Generating Functions, Skewness, Kurtosis, Binomial, Poisson, Normal Distributions, Testing of Statistical Hypothesis, F Test, T-Test, X2 test. BTECE-120 APPLIED PHYSICS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Kinematics: Need of frames of reference in describing motion, One Dimensional motion, Two Dimensional motion Dynamics: Central forces, Inverse square force, Satellite including applications in remote sensing and communication. Oscillations, General potential with stable equilibrium point, Solution of differential equation with emphasis on initial conditions, Damped and forced oscillations. Waves: Waves on a stretched string, Differential equation of wave, Description of general solution f(x+vt) Longitudinal and transverse waves, Superposition of waves, Plane monochromatic waves, m =nD , plane, spherical and cylindrical wavefronts. Pressure equation, decibel, reverberation, ultrasonic SECTION B Optics: Optical Instruments – Telescope, Microscope, Radio Telescope, Electron Microscope. Interference of light – Newton's rings, testing of flatness, curved surfaces, alignment. Diffraction, Resolution, Polarisation with application Principle of laser, design of laser, stimulated radiation, population inversion, laser action, properties and application of laser light. Modern physics: Theory of Relativity Elements of Quantum Mechanics including atomic spectra, X-rays, Ultrasound, Infrared radiations, Nuclear radiations and detectors. SECTION C Heat: Temperature measurement and controls, Resistance thermometer, thermo emf, high and Low temperature measurements, thermistor, thermostatic and other temperature control devices. Black body radiation, Kirchoff's Law, Stefan-Boltzman's Law, Wien's Law, Rayleigh jeans's Law, Planck's Law. Ultrasonic: Piezo-electric effect, production-(using Quartz, Ceramics and Magnetostriction), Detection, velocity measurement and application of ultrasonic waves (cavitations, thickness, Echo, chemical reactions). Motion of charged particle in Electric and magnetic fields. Magnetic and electrostatic focussing, Determination of e/m by cathode ray tube, Functions and block diagram of CRO Positive rays, Thomson parabolic method, Isotopes, Mass spectrograph (Aston and Bainbridge). Cyclotron. Semiconductors and Electronics: Characteristics of p-n junction, static and dynamic resistance, Zener diode and LED, diode as a rectifier, Transistor (pnp and npn) characteristics, Current and voltage gain. SECTION D Solid State Physics: Crystal structures, X-Ray diffraction, Superconductivity, Meissner effect, London Equation, BCS theory, Properties and applications of super conductors. Fibre Optics: Type of fibres, step index and graded index, Numerical aperture, Uses of Optical fibres in communication. Heisenberg uncertainty principle, de Broglie's hypothesis (matter waves), Davisson and Germer expt., Development of Schrodinger wave equation, solution of the Sch. Wave eqn for free and bound state, Sch. Wave eqn applied to Metals & Semiconductors, Vector atomic model, Pauli's spin quantum numbers, Stem Garlach expt, Electro-optical Effect (Stark effect), Magneto-optical effect (Zeeman effect) Basic introductory concepts of creation of Universe: Big Bang, Steady state, Pulsating state, Quasars, Pulsars, Black hole BTECE-120 P APPLIED PHYSICS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% Measurement of short time intervals using electronic timer sensors. Study of rotational motion of cycle wheel Study of oscillatory systems Study of stationary waves Use of prism spectrometer Measurement of wavelength of light by bi-prism/Newton rings/Diffraction grating Diffraction of light using Sodium source and Helium Neon source. Study of polarization of light Study of laser parameters/diffraction at a circular aperture Experiment on Ultrasonic. Heat: Platinum resistance thermometer, Calibration of thermocouple, Lee's method, Stefan's Constant, Emissive Power. Optics: Dispersive power of prism, Polarization, He-Ne Laser, fibre optics, Diffraction grating, Newton's rings Sound: Ultrasonic, to find ultrasonic velocity in different materials, ultrasonic diffraction grating Measurement of resistances of various orders, AC and DC voltages using digital millimeters. Measurement of voltage, and frequencies of AC waveform from a function generator using CRO, formation of Lisajous figure. Determination of e/m by J.J. Thomson's method Charging and discharging Measurement of thermo emf between different types of thermocouples as a function of temperature difference between the junction, measurement of an unknown temperature Design and use of potentiometer Use of Carey Foster bridge. BTECE-130 APPLIED CHEMISTRY Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Water : Specifications for water, Analysis of water-Alkalinity, hardness and its determination (EDTA Method only), water for domestic use, Water-softening-Lime-Soda process, Ion exchangers polished water, Boiler-feed water, boiler problems-scale, sludge, priming and foaming, caustic embrittlement and corrosion, their causes and prevention, removal of silice, removal of dissolved gases, carbonates phosphate conditioning, colloidal conditioning, Calgon treatment, conditioning, Numerical problems of Alkalinity, hardness Lime-Soda process and EDTA method. Fuels : Definition and classification, combustion and chemical principles involved in it. Calorific value : Gross and net Calorific values and their determination by Buoy's Gas Calorimeter and Bomb Calorimeter. Solid Fuels : Proximate and ultimate analysis of coal and their importance. Carbonization: High and Low temperature carbonization, coke, its manufacture by Otto Hoffman Oven and uses. Liquid Fuels: Conversion of coal into liquid fuels (Bargius process and Fischer Tropsch Process and mechanism, Petroleum: its Chemical composition and Fractional distillation, Cracking of heavy oil residues : thermal cracking and catalytic cracking, knocking- chemical structure and knocking : Octane and Cetane number and their significance, Power alcohol. Gaseous Fuels: Natural gas, producer gas, water gas, carbureted water gas, coal gas and oil gas, fuel and fuel gases and their analysis by Orsat's apparatus. Numerical on calorific value, combustion, Proximate and ultimate analysis of coal and fuel gas analysis. Nuclear Fuels: Nuclear reaction, nuclear fission and nuclear fusion, Nuclear reactor SECTION B Transition Elements: General Properties with special reference to electronic configuration colour and magnetic properties of transition metal compounds. Inorganic Polymers: Types of polymers, Phosphazenes, polysiloxanes and sulphur containing polymers-their structures and properties Solutions : Ideal and non ideal solutions Raoult's Law. Distillation of binary solutions. Henry's Law, Nernst distribution law, Arrenius theory and special behavior of strong electrolytes. SECTION C Chemical Bonding: Ionic bond energy changes, lattice energy Born Haber Cycle, Covalent bond-energy changes, Potential energy curve for H2 molecule, characteristics of covalent compound, co-ordinate bond-Werner's Theory, effective atomic numbers, isomerism in coordinate compounds. Hydrogen bonding, Vander Waal's forces, hybridization and resonance, Valence Shell Electron Repulsion theory (VSEPR). Discussion of structures of H2O, NH3, BF3 SiF4, Molecular orbital theory, Linear combination of atomic orbitals (LCAO) method. Structure of simple homo nuclear diatomic molecule like H2, N2, O2, F2 Gaseous State: Gas Laws and kinetic theory of gases, Distribution of Molecular velocities, mean free path. Real gases-non ideal behaviours, Causes of deviation from ideal behaviour Vander Waal's equation. Liquefaction of gases. Thermochemistry: Hess's Law, heat of a reaction, effect of temperature on heat of reaction at constant pressure (Kirch off's Equation), heat of dilution, heat of hydration, heat of neutralization and heat of combustion, Flame temperature. SECTION D Catalysis: Criteria for Catalysis- Homogeneous Catalysis, acid-base, Enzymatic catalysis, Catalysis by metal salts, Heterogeneous Catalysis-concepts of promoters, inhibitors and poisoning, physiosorption, Chemisorption, Surface area, Industrially important process, Theories of Catalysis. Plastic: Thermosetting and Thermoplastic, properties and applications. Conducting Polymer-properties and application. Composites: Classification, micro-mechanics of fibre and particle reinforced composites, strength, stiffness and factors affecting failure modes. BTECE-130 P APPLIED CHEMISTRY Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% To determine the percentage composition of a mixture of Sodium hydroxide and Sodium chloride. To determine the amount of Sodium Carbonate in the given mixture of Sodium Carbonate and Sodium bicarbonate. Determine the amount of oxalic acid and Sulphuric acid/Hydrochloric acid in one litre of solution given standard sodium hydroxide and Potassium per magnate. To determine the carbonate, bicarbonate and chloride contents in irrigation water. To determine the number of water molecules of crystallization in Mohr salt provided standard dichromate solution using internal indicator. Determine the amount of Cu in the copper ore solution provided hypo solution Iodiomatic titration of K2Cr2O7 V/S Na2S2O3 to determine the percentage purity of K2Cr2O7 sample. Argentometric titration one each of Vohlard's method and of Mohr's method. Determination of dissolved oxygen in the given sample of water Determine the surface tension of a liquid using drop weight method. Determine the heat of hydration of CuSO4..5H2O/FeSO4, 7H2O Determine the heat of neutralization of Strong Acid (say H2SO4/HCI) with strong base NaOH Determine the heat of Weak Acid with strong base Determine the molecular weight of a substance by Rast method Determination of reaction rate constant for a Ist Order reaction Complexometric titrations To determine the viscosity of the given liquid (density also to be determined) Preparation of Polymer To determine the cell constant of a conductivity cell Titration of strong acid/strong base conductometrically. BTECE-140 MANUFACTURING PROCESS Maximum Time : 3 Hrs. University Examination : 40Marks Total Marks : 100 Continuous Internal Assessment : 60 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Casting Processes : Principles of metal casting: Pattern materials, types and allowance; Study of moulding, sand moulding, tools, moulding materials, classification of moulds, description and operation of cupola: special casting processes e.g. die-casting, permanent mould casting, centrifugal casting, investment casting. Smithy and Forging: Basic operation e.g. upsetting, fullering, flattening, drawing, swaging: tools and appliances: drop forging, press forging. SECTION B Metal joining: Welding principels, classification of welding techniques; Oxyacetylene Gas welding, equipment and field of application, Arc-welding, metal arc, Carbon arc, submerged arc and atomic hydrogen welding, Electric resistance welding: spot, seam, butt, butt seam and percussion welding; Flux; composition, properties and function Electrodes; Types of joints and edge preparation, Brazing and soldering. SECTION C Sheet Metal Work: Common processes, tools and equipments; metals used for sheets, standard specification for sheets SECTION D Bench Work and Fitting: Fitting, sawing, chipping, thread cutting (die), tapping; Study of hand tools, Marking and marking tools. BTECE-150 INTRODUCTION TO IT Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A An Overview of the Computer System-The Processor (CU, ALU) Factors affecting processor speed, The Bus-Data Bus and Address Bus. Memory (RAM, ROM, Registers, Cache). SECTION B I/O Devices (Mouse, Keyboard, Monitors, Printers, Pens, Touch Screens, Microphones and Voice Recognition), Storage Devices (Diskettes, Hard Disc, CD-ROM). Computer Categorization. SECTION C Networks-Uses, Categories & Topologies. System software and Application Software, Operating System-User Interface, Resource Management, Utility Software. Word Processing and Desktop Publishing, Spreadsheets & Basics of Database Management. SECTION D Programming Language: High level language, Low Level Language & Assembly Language. Major Features of the Internet, Working with Graphics, Types of Information Systems & System Development Life Cycle. SECOND SEMESTER BTECE-210 COMMUNICATION SKILLS Maximum Time : 3 Hrs. University Examination : 40Marks Total Marks : 100 Continuous Internal Assessment : 60 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Remedial Grammar, Simple sentences-their phrase structure, Parts of speech, Tense and Concord, Gerunds, Participles and Infinitives, Complex and Compound sentences (Use of connectives), Conditional clauses, Question tags and short responses, Common errors, Vocabulary and Usage, Synonyms and Antonyms, One-word substitutions , Words often confused, Idioms/Idiomatic Expressions, Foreign Phrases (Greek and Latin) SECTION B Presentation of Technical Information, Technical description of -Simple objects, tools, appliances, Processes and operations, Scientific principles Composition: Comprehension unseen passages Precis Writing, Prose, Selected prose pieces from prescribed texts SECTION C Some Key concepts: Communication as sharing; context of communication; the speaker/writer and the listener/reader; medium of communication; barriers to communication; accuracy, 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, 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 purpose (e.g. for relaxation, for information, for discussion at a later stage, etc.); reading between the lines. SECTION D Speaking: Achieving desired clarity and fluency; manipulating paralinguistic features of speaking (voice quality, pitch, tone, etc.) pausing for effectiveness while speaking ,task oriented, interpersonal, information 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). Listening Comprehension: Achieving ability to comprehend material delivered at relatively fast speed. BTECE-220 ENGINEERING MECHANICS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Force system: Free body diagram, Eqilibrium equations and applications. Structure: Plane truss, perfect and imperfect truss, assumption in the truss analysis, analysis of perfect plane trusses by the method of joints, method of section and graphical method. Friction: Static and Kinetic friction, laws of dry friction, co-efficient of friction, angle of friction, angle of repose, cone of friction, friction lock, friction of flat pivot and collared thrust bearings, friction in journal-bearing, friction in screws, Belt drive- derivation of equation. T1/T2 =emq and its application SECTION B Distributed Force: Determination of center of gravity, center of mass and centroid by direct integration and by the method of composite bodies, mass moment of inertia and area moment of inertia by direct integration and composite bodies method, radius of gyration, parallel axis theorem, Pappus theorems, polar moment of inertia. Kinematics of Particles: Rectilinear motion, plane curvilinear motion-rectangular coordinates, normal and tangential component. SECTION C Kinetic of Particles: Equation of motion, rectilinear motion and curvilinear motion, work energy equation, conservation of energy, impulse and momentum conservation of momentum, impact of bodies, co-efficient of restitution, loss of energy during impact. Kinematics of Rigid Bodies: Concept of rigid body, type of rigid body motion, absolute motion, introduction to relative velocity, relative acceleration (Corioli's component excluded) and instantaneous center of velocity, Velocity and acceleration polygons for four bar mechanism and single slider mechanism. SECTION D Kinetics of Rigid Bodies: Equation of motion, translatory motion and fixed axis rotation, application of work energy principles to rigid bodies conservation of energy. Material Testing: Tensile, torsion, hardness and impact testing, creep and fatigue-factors affecting ; ductile and brittle behavior and transition temperature. BTECE-220 P ENGINEERING MECHANICS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% To verify the law of Force Polygon To verify the law of Moments using Parallel Force apparatus. (simply supported type) To determine the co-efficient of friction between wood and various surface (like Leather, Wood, Aluminum) on an inclined plane. To find the forces in the members of Jib Crane. To determine the mechanical advantage, Velocity ratio and efficiency of a screw jack. To determine the mechanical advantage, Velocity ratio and Mechanical efficiency of the Wheel and Axle To determine the MA, VR, h of Worm Wheel ( 2-start) Verification of force transmitted by members of given truss. To verify the law of moments using Bell crank lever To find CG and moment of Inertia of an irregular body using Computation method. BTECE-230 P WORKSHOP PRACTICE Maximum Time : 3 Hrs. University Examination : 40Marks Total Marks : 100 Continuous Internal Assessment : 60 Marks Minimum Pass Marks : 40% Welding : Arc Welding - Joint, Lap Joint, T Joint; Gas Welding - Butt Joint, Lap Joint, Brazing of Broken pieces Foundry - Pulley Block, Lathe Stand Block, Screw Jack Body,Bracket with cores Sheet Metal - Dust Bin, Funnel, Cylindrical Mug with handle Rectangular Box Fitting Shop - Sawing M.S. Steel strip, Filling the Job Marking and Finishing the Job BTECE-240 P ENGINEERING GRAPHICS Maximum Time : 3 Hrs. University Examination : 40Marks Total Marks : 100 Continuous Internal Assessment : 60 Marks Minimum Pass Marks : 40% General: Importance, Significance and scope of engineering drawing, Lettering, Dimensioning, Scales, Sense of proportioning, Different types of projections, Orthographic Projection, B.I.S. Specifications. Projections of Point and Lines: Introduction of planes of projection, Reference and auxiliary planes, projections of points and Lines in different quadrants, traces, inclinations, and true lengths of the lines, projections on Auxiliary planes, shortest distance, intersecting and non-intersecting lines. Planes other than the Reference Planes: Introduction of other planes (perpendicular and oblique), their traces, inclinations etc., Projections of points and lines lying in the planes, conversion of oblique plane into auxiliary Plane and solution of related problems. Projections of Plane Figures: Different cases of plane figures (of different shapes) making different angles with one or both reference planes and lines lying in the plane figures making different given angles (with one of both reference planes). Obtaining true shape of the plane figure by projection. Projection of Solids: Simple cases when solid is placed in different positions, Axis faces and lines lying in the faces of the solid making given angles. Development of Surface: Development of simple objects with and without sectioning. Isometric Projection Nomography : Basic Concepts and use. BTECE-250 ELECTRICAL SCIENCE Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Properties of Conductors and Insulators: Basic laws of Electrical Engineering, Temperature Resistance Coefficients, D.C. Circuits: Network theorems and applications, Division of current, Potentiometer Circuit Parameters, Energy and Power, Superposition Theorem, Thevenin and Reciprocity theorems, Star Delta Transformations SECTION B Alternating Currents: Peak, Average and RMS values for alternating currents Power and Power factor, Resistance, Inductance and Capacitance, Resonance Q Factor SECTION C Electromagnetism: Magnetic Induction, Permeability, Hysteresis, Moving Coil and Moving Iron Instruments, Various types of bridges for measuring resistance, capacitance, Inductance, Galvanometers D.C. Generators & Motors: Principle of Operation of Generators & Motors, Speed Control of Shunt motors, Flux control, Rheostatic control, and voltage control, Speed control of series motors SECTION D A.C. Generators & Motors: Principle of Operation, Revolving Magnetic Field, Squirrel cage and phase wound rotor, Starting of Induction motors, Director on line and Star Delta starters, Synchronous Machines Transformers: Construction, Regulation and Efficiency calculations, Open and short circuit tests. BTECE-250 P ELECTRICAL SCIENCE Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% Verification of Thevenin's theorem Verification of Superposition theorem Phasor Diagram and Power factor of LCR circuit. Measurement of Power and Power factor in single phase Load using three ammeters/voltmeters. Calibration of Energy Meter/Wattmeter/Voltmeter/Ammeter Two wattmeter method of measuring power in three phase circuit (resistive load only) Load test on Single Phase Transformer, Regulation and Efficiency of Transformer Short Circuit/Open Circuit tests on Single Phase transformer Measure the armature and field resistance of a D.C. Machine Connection and starting of a Three Phase Induction Motor using direct on line or Star Delta Starter. Starting and Speed Control of a D.C. shunt motor Resonance THIRD SEMESTER BTECE-310 APPLIED MATHEMATICS Maximum Time : 3 Hrs. University Examination : 40Marks Total Marks : 100 Continuous Internal Assessment : 60 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Laplace Transformation: Laplace Transformation, Inverse Laplace transformation Convolution Theorem, application to linear differential equations with constant coefficients, Unit step function, impulse functions/periodic functions SECTION B Fourier Series: Fourier Series, Euler's formulae, even and odd functions, having arbitrary periods, half range expansion, Harmonic analysis Fourier Transforms: Fourier transform, Sine and Cosine transforms, Application to differential equations SECTION C Special Functions: Beta and Gamma functions, Bessels functions of first kind, Recurrence relations, modified Bessel functions of first kind, Ber and Bei functions, Legendre Polynomial, Rodrigue's formula, orthogonal expansion of function SECTION D Partial Differential Equation: formation of first and second order linear equations, Laplace, Wave and heat conduction equation, initial and boundary value problems. BTECE-320 ANALOG ELECTRONICS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Semiconductor Diodes and Rectifiers: Introduction, general characteristics, energy levels, extrinsic materials n & p type, ideal diode, basic construction and characteristics, DC & AC resistance, equivalent circuits, drift & diffusion currents, transition & diffusion capacitance, reverse recovery times, temperature effects, diode specifications, different types of diodes (Zener, Varactor, Schottky, Power, Tunnel, Photodiode & LED). Half wave & full wave rectifiers. Switched Mode Power Supply Bipolar junction transistor: Introduction, Transistor, construction, transistor operations, BJT characteristics, load line, operating point, leakage currents, saturation and cut off mode of operations Eber-moll's model. Bias stabilization: Need for stabilization, fixed Bias, emitter bias, self bias, bias stability with respect to variations in Ico, VBE & b, Stabilization factors, thermal stability. Small signal amplifiers: CB, CE, CC configurations, hybrid model for transistor at low frequencies, RC coupled amplifiers, mid band model, gain & impedance, comparisons of different configurations, Darlington pair, Hybrid p-model at high frequencies, Cascaded amplifiers. SECTION B Multistage Amplifiers: Cascaded amplifiers, Calculation of gain Impedance and bandwidth, Design of multistage amplifiers. Feedback Amplifiers: Feedback concept, Classification of Feedback amplifiers, Properties of negative Feedback amplifiers, Impedance considerations in different Configurations, Examples of analysis of feedback Amplifiers Field Effect Transistor: Introduction, Classification, FET characteristics, Operating point, Biasing, enhancement & Depletion type MOSFETS. SECTION C Building Blocks of Analog ICs: Differential amplifier, Op-amp Model, op-amp parameters, virtual ground, Inverting and non-inverting amplifiers, differential amp, adders, Voltage to current, current to voltage Converter, Integrators, Differentiators Current mirrors, Active loads, Level shifters and output stages Waveform Generations: Sinewave generator(Phase shift Wein bridge, Hartley & Colpitts), Ramp an sawtooth generators, Linearity of waveforms, Astable multi Vibrators, OTA-C Oscillators, Voltage controlled-oscillators. Power Amplifiers: Power dissipations in transistors, Harmonic distortion, Amplifiers Classification, (Class-A, Class-B, Class-C, Class-AB) Efficiency, Push-pull and complementary Push-pull amplifiers, Tuned amplifiers. SECTION D Linear & Non Linear Waveshaping: Clipping & Clamping Circuits Comparators, log/antilog circuits using Op-amps, precision rectifiers. Active RC Filters: Idealistic & Realistic response of filters(LP, BP, HP), Butter worth & Chebyshev filter functions All pass, Notch Filter, Operational transconductance amplifier (OTA)-C filters. Applications of IC Analog Multiplier: IC phase locked loops, IC voltage regulators, IC function generators. BTECE-320 P ANALOG ELECTRONICS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% To study and draw V-I Characteristics of Junction Diode (Ge, Si) To study and draw reverse Characteristics of Zener diode. To draw i/p and o/p characteristics of Common-Emitter Transistor To draw i/p and o/p characteristics of Common-Base Transistor To draw i/p and o/p characteristics of Common-collector Transistor To study the Rectifier (Half wave, Full wave and Bridge) and Filter circuit. To study the waveform of OP-AMP as Differentiator. To study the waveform of OP-AMP as an Integrator To draw characteristics curve of JFET To draw characteristics curve of MOSFET To verify the following applications of OP-AMP : Subtractor, Adder in both inverting & non-inverting modes. To Calculate the gain and plot the frequency response of Double stage RC coupled amplifier Bias stabilization using various types of stabilizations. To Study and construct class-A and class-B Power amplifier To Study voltage series & element shunt feedback amplifier using BJTS & op-amp To Study & construct IC oscillators (op-amp Hartley & Colpitts oscillators) To Study active (i) low pass, (ii) hard pass and (iii) high pass filters and construct a low pass filter using op-amp To Study RC phase shift and Wein bridge oscillators using Op-amp To design a common emitter amplifier To design a common colletctor amplifier To design a common source (CS) JFET amplifier BTECE-330 CIRCUITS & SYSTEMS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 4. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 5. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Signal: The unit step, unit impulse, unit ramp, sinusoidal and exponential function, Periodic wave forms. Classification of signals and system modeling in terms of differential and difference equation for linear time invariant (LTI) SECTION B Laplace Transform: Applications of Lapace Transform to system Analysis, Waveform synthesis and Laplace Transform of complex waveform, Graph Theory and its applications. Concept of Transform impedance; network function, two port parameters, Interconnection of 2-port network SECTION C Network Theorems: Reciprocity, Millman Theorem, Maximum Power Transfer Theorem, Tellegen's theorem SECTION D Elements of Network Synthesis: Two elements kind one port network, Elementary two port network, Introduction to z-transform and its applications. BTECE-330 P CIRCUITS & SYSTEMS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% To determine a Fourier component of square wave To determine a Fourier component of Clipped Sine waveform To determine z and y Parameters To verify Reciprocity theorem To verify Max Power Transfer theorem To design cascade connection and determine ABCD parameters (Transmission parameter) To design series-series connection and determine z parameters To design parallel-parallel connection and determine y parameters To design series-parallel connection and determine h parameters. BTECE-340 CONCEPTS OF OBJECT ORIENTD PROGRAMMING USING C++ Maximum Time : 3 Hrs. University Examination : 40Marks Total Marks : 100 Continuous Internal Assessment : 60 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Evolution of OOP: Procedure Oriented Programming, OOP Paradigm, Advantages and disadvantages of OOP over Functional Programming Approach. Characteristics of Object Oriented Language: Classes, Objects, Inheritance, Reusability, User defined Data Types, Polymorphism and Exception Handling. Introduction to C++: Structure of C++ Program, Identifier and keywords, Constants, Data Types, C++ Operators, Type Compatibility, Variable Declaration, Reference Variable, Statements, Expressions, Manipulators. Input and Output statements. SECTION B Control Statements: Conditional Expression, Loop Statements, Breaking Control Statements. Storage Class Specifiers: Automatic, Static, Register, Extern. Arrays, Pointer Arithmetic, Structures, Pointers and Structures, Unions, Bit Fields Typed, Enumerations. Functions in C++: Function Prototyping, Defining a function, Types of functions, Methods of parameter passing: by value, by address, by reference, Recursion, Pre- processor. Classes: Data members and member functions, objects, arrays of class objects, Objects as function arguments, nested classes, inline member functions, static data members and static member functions, friend functions, dynamic memory allocation. SECTION C Constructors and destructors: Default, parameterized and copy constructors, multiple constructors in classes, dynamic constructors. Rules for constructors and destructors. Const objects. Inheritance: single inheritance, inheriting private members, types of base classes, types of derivation, multiple inheritance, multilevel inheritance, hierarchical inheritance, hybrid inheritance, container classes, and member access control. Abstract class. SECTION D Polymorphism: Methods of achieving polymorphic behavior. Operator overloading: Overloading unary and binary operators, Operators which can not be overloaded, Rules for operator overloading. Pointers: pointers and classes, pointer to object, this pointer. Function overloading: Early binding, polymorphism with pointers, virtual functions, late binding, pure virtual functions. Virtual Destructors File handling: Classes for file stream operations, Opening and closing of files, stream state member functions, binary file operations, structures and file operations, classes and file operations, random access file processing, error handling during file operations. BTECE-350 DATA STRUCTURES Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Problem solving approaches, Structured Programming Concepts, Guidelines for good Program Structure Arrays, Order List, Multidimensional arrays and their storage in contiguous memory, sparse matrices, Stacks and queue implementation using arrays, Linked list (singly, doubly and circular linked list), Stacks and queue implementation using linked list, Polished expression, Conversion of infix to postfix, Infix to prefix conversion, (and vice versa), Prefix to Postfix conversion using Stacks, Polynomial representation using linked list and basic operation. SECTION B Trees: Definition and concepts, Properties, representation, operations (traversal algorithm) Graphs: Definition and concepts, Properties, representations, operations (traversal algorithm), spanning trees. SECTION C Sorting: Concepts, Selection sort, Double sort, Merge sort, Merge sort, Partition Exchange sort, Shell Sort. Searching : Sequence searching, Binary Searching, Search Trees, height balanced trees, hash function, hashing table, collision resolution techniques. SECTION D File Structures: Sequential File, Index sequential file, Hashed index, Tree index, Random File, Linked organization of file, inverted file. BTECE-350 P DATA STRUCTURES Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-350 FOURTH SEMESTER BTECE-410 ELECTRO-MAGNETIC FIELDS & TRANSMISSION LINES Maximum Time : 3 Hrs. University Examination : 40Marks Total Marks : 100 Continuous Internal Assessment : 60 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Mathematical Orientation Circuits and Fields, Vector Analysis, Physical Interpretation of Gradient, Divergence and Curl, Vector Relations in other Co-ordinate Systems, Integral, theorems, The Direct Delta, Matrices. SECTION B Electrostatics : Fundamental Relations of the electrostatic Field, Gauss's Law, The potential Functions, Field due to a continuous distribution of charge, Equipotential surfaces, Divergence Theorem, Poisson's Equation and Laplace's Equation, Capacitance, Electrostatic Energy, Conditions at a Boundary between Dielectrics, Dirac Delta Representation for a Point Charge, Dirac Delta Representation for an infinitesimal Dipole. SECTION C Magnetostatics: Magnetic Induction and Faraday's Law, Magnetic Flux Density, Magnetic Field Strength H, Ampere, Gauss Law in the Differential Vector Form, Permeability, Energy Stored in a Magnetic Field, Ampere's Law for a Current Element, Volume Distribution of Current and the Dirac Delta, Ampere's Law Force Law, Magnetic Vector Potential, The Far Field of a Current Distribution. Maxwell's Equations: The Equation of Continuity for Time Varying Fields, Inconsistency of Ampere's Law, Maxwell's Equations, Conditions at a Boundary Surface. SECTION D Electromagnetic Waves: Solutions for Free-space conditions, Uniform Plane-wave Propagation, Uniform Plane Waves. The Wave Equations for a Conduction Medium, Sinusoidal Time Variations, Conductors and Dielectrics, Polarization, Direction Cosines, Reflection from different media, Surface Impedance, The Transmission-line Analogy, Poynting's Theorem Transmission Lines: Transmission Line equation, characteristic impedance, propagation constant, attenuation and phase constant, computation of primary and secondary constants, line distortion, Loading of line, artificial lines, reflection coefficient, V.S.W.R., reflection loss, efficiency of transmission, U.H.F. Lines-Smith chart, Quarter wave transformer, single and double stub matching U.H.F. lines as circuit elements, Equalizers- classification, inverse networks, Lattice and Bridge T attenuator equalizers phase equalizer, Attenuator-Symmetrical and asymmetrical, Bridge T and Ladder attenuator, variable attenuator. BTECE-420 COMMUNICATION SYSTEMS & CIRCUITS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Analog Modulation: Amplitude Modulation: Generation & Demodulation of AM waves, DSBSC waves, Coherent Detection of DSBSC Signal, Quardrature-Carrier Multiplexing, Generation of SSB waves, Demodulation of SSB waves. Angle Modulation: Frequency & phase Modulation, narrow & Wide-Band FM, BW of FM waves, Generation & Demodulation of FM waves, S/N ratio, Comparison of AM, FM &PM. SECTION B Random Process : Probability, Random variable, probability density, mean, moments, transformation of random variables, Stationary Process, mean, autocorrelation and covariance functions, ergodicity, power spectral density, response of linear systems to random signals, Gaussian distribution, central limit theorem. Pulse analog Modulation: Sampling theorem, Sampling of Low Pass and band pass signals, Aliasing, Aperture effect, PAM, PWM and PPM generaton and demodulation, TDM, Cross talk, Spectral analysis of PAM, PWM and PPM Waves, S/N ratio for different pulse modulation. SECTION C Pulse-Digital Modulation: Pulse Code modulation signal to quantization noise ratio, Companding, probability of error for PCM in AWGN Channel, DPCM, DM and ADM modulators and demodulators, Prediction Filter, line coding, Inter symbol Interference. Digital transmission through Career Modulation SECTION D Amplitude, Frequency and phase shift keying, Differential phase shift keying, CPFSK, MSK QPSK and QAM modulation & detection, probability of error calculation, Matched Filter. Introduction to Information Theory: Measurement of Information, mutual information Shannon's Theorem Sowzce coding, channel coding and channel capacity theorem. Huffman code, Lempel –ziv code. BTECE-420 P COMMUNICATION SYSTEMS & CIRCUITS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-420 BTECE-430 COMPUTER GRAPHICS & MULTIMEDIA Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Basic raster graphics, algorithms for drawing 2 D Primitives lines, circles, ellipses, arcs, clipping, clipping circles, ellipses & polygon. Polygon Meshes in 3 D, curves, cubic & surfaces, Solid modeling. SECTION B Geometric Transformation: 2 D, 3 D transformations, window to viewport transformations, achromatic and color models. Graphics Hardware: Hardcopy & display techniques, Input devices, image scanners SECTION C Shading Techniques: Transparency, Shadows, Object reflection, Gouraud & Phong shading techniques. Visible surface determination techniques for visible line determination, Z-buffer algorithm, scanline algorithm, algorithm for oct-tres, algorithm for curve surfaces, visible surfaces ray-tracing, recursive ray tracing, radio-city methods. SECTION D Image manipulation & storage: File formats for BMP, GIF, TIFF, IPEG, MPEG-II, & Introduction to animation techniques. Elementary filtering techniques, elementary Image Processing techniques, Geometric & multi-pass transformation mechanisms for image storage & retrieval. Procedural models, fractals, grammar-based models, multi-particle system, volume rendering. BTECE-430 P COMPUTER GRAPHICS & MULTIMEDIA Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-430 BTECE-440 OPERATING SYSTEMS & SYSTEM PROGRAMMING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Overview: Importance of Operating Systems (highlightening the salient features of UNIX) Basic Concepts and Terminology used in OS Functions performed by OS (using case study of UNIX) SECTION B Memory Management: Single Contiguous Allocation: H/W Support, S/W Support, Advantages, Disadvantage: Introduction to Mutiprogramming : Concept of Multiprogramming, Measure of System i/o Wait Percentage, Relevance of Multiprogramming to Memory Management; Partitioned Allocation, Relocatable Partitioned Memory management, Paged Memory management, Demand-Paged Memory management, Segmented Memory Management, Segmented and Demand-Paged Memory Management, Other Memory management Schemes (Swapping, Overlays). Processor Management: State Model: Job Scheduler, Process Scheduling, Job and Process Synchronization, Structure of Processor Management; Job Scheduling: Functions, Policies, Job Scheduling in Nonmultiprogrammed Environment, Job Scheduling in multiprogrammed environment ; Process Scheduling, Multiprocessor Systems: Separate Systems, Coordinated Job Scheduling, Master/Slave Scheduling, Homogeneous Processor scheduling ; SECTION C Process Synchronization : Race Condition, Synchronization Mechanism, Deadly Embrace, Synchronization Performance Considerations. Device Management: Techniques for Device Management: Dedicated Devices, Shared Devices, Virtual Devices; Device Characteristics-Hardware Considerations: Input or SECTION D Output Devices, Storage Devices; Channels and Control Units: Independent Device Operation, Buffering, Multiple Paths, Block Multiplexing; Device Allocation Considerations; Virtual Devices. Information Management: Introduction; A Simple File System; General Model of a File System; Symbolic File System; Basic File System, Access Control Verification; Logical File System; Physical File System. BTECE-440 P OPERATING SYSTEMS & SYSTEM PROGRAMMING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-440 BTECE-450 DIGITAL CIRCUITS & SYSTEMS -I Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Analog & Digital signals, AND, OR, NOT,NAND, NOR & XOR gates, Boolean algebra. Standard representation of Logical functions, K-map representation and simplification of logical functions Don't care conditions, X-OR & X-NOR simplification of K-maps SECTION B Combinational circuits: Multiplexers, demultiplexers, Decoders & Encoders, Adders & Subtractors, Code Converters, comparators, decoder/drivers for display devices, Logic Implementations using ROM, PAL, & PLA. Flip Flops: S-R, J-K, D&T filp-flops, excitation table of a flip-flop, race around condition. SECTION C Sequential circuits: Shift registers, Ripple counter, Synchronous counters. 555 Timer and its application as mono-stable and astable multi-vibrator, A/D and D/A converters. SECTION D TTL and CMOS Logic families Semiconductor Memories: Memory organization & operation, classification and characteristics of memories, RAM,ROM and content addressable memory BTECE-450 P DIGITAL CIRCUITS & SYSTEMS -I Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% To verify Truth table (OR, NOR, NAND, EX-OR) To verify Truth table of half and full adder and subtractor To verify RS Flip flop To verify JK/D Flip flop To design Binary counter To design Synchronous counter To design Ripple counter To convert BCD number in to Excess-3 form To design Decade counter FIFTH SEMESTER BTECE-510 DIGITAL CIRCUITS & SYSTEMS -II Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Introduction: Hardware development language: VHDL Review of sequential circuits. State tables, state diagrams, State Assignment, Digital system design with state Diagrams, Design of Digital Circuits (with Hard Ware Programming Language) like counters, multiplexers, demultiplexers code converters, memory interfaces for DRAM, Timing Diagrams etc SECTION B Introduction to the design of 8-bit Processor. PLD Devices PROM, PAL, EPLD, like, GAL, FPLA, FPGA, etc. and their applications. FPGA Programming. Design exercises like a watch and other digital systems ,ASIC design using CAD tools. Concepts of ASM and realization through Gate, MUX, PLD SECTION C Design of FSM/Microprocessor through Algorithmic state machine concept. Concept of ASM's realizations through GATES, MUX, PLD devices. SECTION D Design of FSM /Microprocessor through Algorithmic State Machine concept. Overview of at least one assembler/compiler like ABEL, PALASAM, VERILOG, SYNOPSIS etc. BTECE-510 P DIGITAL CIRCUITS & SYSTEMS -II Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-510 BTECE-520 MICROPROCESSOR SYSTEM Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Introduction to Microprocessors and microcomputers. Study of 8 bit Microprocessor, its internal architecture, addressing modes, Microprocessor programming System timing, Various data transfer schemes. Interfacing with memory (ROM,SRAM,DRAM etc.) Cache controller and cache memory system. Input/Output Interface (Chips like 8212, 8255, 8155,8279,8237 etc.) SECTION B Interrupts and their processing, 8259, Interrupt interface circuits using 8259. Microcontrollers Interfacing techniques with A/D, D/A, stepper motor, printer, keyboard, output displays etc. Introduction to 16/32, bit processor, Real mode, virtual 808 Protected mode. SECTION C Review of 16/32 bit Microprocessor (8086,8088, 80186, 80286 DX, 80286 SX, 80286 SL, 80386, 80486, 80586 etc.) Review of RISC, CISC architectures. Architecture of 8086/8088, addressing modes and instruction set of 8086. Memory segmentation, SECTION D Assembler and Debugger, System design , PC architecture, 8088 PC/XT Microcomputer system, PC/AT System, various bus protocols like IBM bus, EISA, VESA, EURO, local etc. Multiprocessing, Numeric data processor and its interfacting. Introduction to bit slice processor, Signal processing processors and Transputers. Introduction to Development Tools : MDS, Logic analyzer, in circuit emulators. Introduction to a typical Mother Board design using CAD tools. BTECE-520 P MICROPROCESSOR SYSTEM Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-520 BTECE-530 COMPUTER SYSTEM ARCHITECTURE Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Review of Digital Electronics: Codes, Logic gates, flip flops, registers, counters, multiplexor, demultiplexor, decoders, encoders, adders, subtractors. Block diagram representation of Computer architecture, computer instructions, instruction codes, timing and control, instruction cycles, Memory reference instructions, I/O and interrupts, complete computer description and design of basic computer. SECTION B Hardwired Vs multi-programmed control unit, General register organization, stack organization, instruction format, addressing modes, data transfer and manipulation, program control, RISC, CISC, Computer Arithmetic: addition, subtraction, multiplication and division algorithms, floating point arithmetic operations, decimal arithmetic units and decimal arithmetic operations. SECTION C I/O devices, interface, data transfer schemes (program control, interrupt and DMA) I/O processors, concept of multiprogramming, time sharing and pipelining, parallel processing in a unprocesser system. SECTION D Memory hierarchy, processor vs memory speed, high speed memories, cache memory, associate memory, virtual memory and memory management. BTECE-530 P COMPUTER SYSTEM ARCHITECTURE Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-530 BTECE-540 TELECOMMUNICATION NETWORKS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Evolution of Tele-Communication Networks, Basic Switching System, Simple Tele- phone Communication, Brief Introduction to Electromagnetic Exchanges, Electronic Switching – Space Division Switching Stored Programme Control – Centralized SPC, Distributed SPC, Software Architecture, Application Software – Enhanced Services, Multi Stage Switching Networks. SECTION B Speech Digitization, Quantization Noise, Compounding, Differential Coding, Delta Modulation, Vocodors, Pulse Transmission on Transmission line concepts, Line Coding, NRZ and RZ Codes, Manchester Coding, AMI Coding, Walsh Codes, TDM, Time Division Switching – Time Division space switching, Time Division Time Switching, Time multiplexed space switching, Time multiplexed Time Switching, Combination Switching. SECTION C Traffic Engineering, Grade of Service and Blocking Probabity – Telephone Networks, Subscriber Loops, Switching Hierchy and Routing, Transmission Plans and Systems, Signaling Techniques, In Channel, Common Channel. SECTION D Access Technology; WLL, (Wire less loop), ADSL (Asymmetrical Digital Subscriber Loop) AVCC( Advanced Intelligent Network), BMFB Wired, Wireless, broadcast, point to point, Satellite medium-SCPC, VSAT broadcast medium etc, link budget analysis, Link behavior, Peburst, error, Optimum packet size, error control, Elementary coding ideas , ATM transport mechanism, ISDN. BTECE-540 P TELECOMMUNICATION NETWORKS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-540 BTECE-550 DATA BASE MANAGEMENT SYSTEM Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Traditional file processing system: Characteristics, limitations. Database: Definition, composition. Database Management system: Definition, Characteristics, advantages over traditional file processing system. Implication of Database approach User of database, DBA and its responsibilities. Database schema, instance DBMS architecture, data independence, mapping between different levels. Database languages: DDL, DML, DCL. Database utilities Data Models Keys: Super, candidate, primary, unique, foreign. SECTION B Entity relationship model: concepts, mapping cardinalities, entity relationship diagram, weak entity sets, strong entity set, aggregation, generalization, converting ER diagrams to tables. Overview of Network and Hierarchical model. Object oriented data Model: Abstraction, Encapsulation, Inheritance, and Persistence Object Relational data model, differences between OODB and ORDB, Relational Data model: concepts, constraints. Relational algebra: Basic operations, additional operations Relational calculus: Tuple relation calculas, domain relation calculus SECTION C Database design: Functional dependency, decomposition, problems arising out of bad database design, normalization, multi-valued dependency. Database design process, database protection, database integrity, database concurrency: Problems arising out of concurrency, methods of handling concurrency. Data recovery, database security: Authentication, authorization, methods of implementing security SECTION D Distributed databases: concepts, structure, advantages, network topologies. Methods of distributing databases: fragmentation, replication, Query processing in RDBMS. Client Server Architecture, Overview of Deductive databases, data warehousing, data mining, multimedia data bases. BTECE-550 P DATA BASE MANAGEMENT SYSTEM Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-550 SIXTH SEMESTER BTECE-610 MICROWAVE ENGINEERING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Review of Maxwell's equations Wave Guide: Rectangular, cylindrical wave guide solution of wave equation, modes, propagation properties, power transmission, power losses in wave guides, choice of Excitation of modes. SECTION B Microwaves: Introduction, areas of applications, Components & Elements: Joints, Bends and Irises. Posts and screws, Cavity Resonators, Hybrid couplers, Isolator, Circulator, Attenuator, Frequency meter, short-circuit, Phase shifter, S-parameters. SECTION C Microwave Tubes: Klystron Amplifier, Reflex-Klystron, Magnetron TWT, CFA, Gyrotrons, Microwave Ovens. M/W Solid-State Devices & MICS: M/W Bipolar Transistor, FETS, Varactor and Step- Recovery Diodes, Parametric Amplifiers, Tunnel Diode, Gunn Diode, Read Diode, SECTION D M/W Solid-State Devices & MICS: Impatt, Trapatt, Pin Diode, Schottky Diode, Backward Diode, introduction to MIC, Stripline and Microstrips, Fabrication of MICs etc., MASERS and LASERS. Introduction to Microwave Detectors, Mixers Switches, Microwave Measurements Microwave filters. Introduction to Radar. BTECE-610 P MICROWAVE ENGINEERING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-610 BTECE-620 DIGITAL SIGNAL PROCESSING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Discrete- Time Signals and System. Signal Classification, System classification. An electric Circuit. Sampled – data systems, Discrete-line signals:- Time Domain representations, frequency- domain representation of discrete time signals, discrete-time signals obtained by sampling ,the discrete Fourier transform. SECTION B Analysis of Discrete-Time Systems:- System Definition and Examples, linear systems, time Invariant Systems, FIR and IIR Systems, Systems described by a difference equation. SECTION C Solution of difference equations, stability, Frequency Response, Analysis of a second order, system linear phase FIR system. The Z transform: - Definition of the Z- transform, properties, computation of the inverse 2- transform solution of difference equations and transfer functions, stability. SECTION D Realization as digital systems:- Block diagram and signal flow graphs, matrix representation and computability, state variables, direct, cascade and parallel form of realization of IIR system, ladder structures. BTECE-620 P DIGITAL SIGNAL PROCESSING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-620 BTECE-630 DATA COMMUNICATION NETWOTKS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Introduction: Data Networks, WAN, MAN, LAN Data Transmission in PSTNs. Modem, ASK, FSK, PSK, QAM, Modulator, Demodulator, Switching Tehniques for Data Transmission, :- Circuit Switching, Store and Forward Switching – Message switching, Packet Switching, Data gram service, Virtual Circuit Service, Data Communication Architecture, ISO-OSI Reference Model, PDU, IDU, SDU, SAP Link to Link layers, Physical Layer, Data Link layer, Network layer, Transport layer, Session Layers, Presentation layers, (Encryption, Decryption )- Application layer :- Satellite Based Data Networks SECTION B Typical application areas of LAN LAN Technologies - Transmission, Topology, Access methods Multiple Access Bus LAN – CSMA, Token Passing Ring LAN, Token Passing Bus LAN SECTION C Metropolitan Area Networks:- Data Network Standards, Protocol Stacks, MAP, TOP, LAP Internetworking:- Introduction to ISDN. Introduction to telemetry and telecontrol -telemetry links-telemetry error. SECTION D Classification of signals-their suitability for telemetry, Analog and digital telemetry. Telemetry and carrier communication systems-distinction and design criteria overview of modulation techniques-AM, FM and PM, suitability for wire and wireless telemetry, power-line carrier communication. BTECE-630 P DATA COMMUNICATION NETWOTKS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-630 BTECE-640 VLSI DESIGN Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Evolution of VLSI. MOS Devices and Circuits, MOS Transistors-Depletion and enhancement mode transistors, Transistor as a Switch, MOS inverter, inverter delay, Parasitic effects Pull up/Pull-down ratios for inverting logic. SECTION B Basic NAND, NOR, XOR, and XNOR gates, multiplexes, Memory, bars transistors, super buffers, NMOS combinational Network with bars transistors and inverters, PLAs clocked logic, two-phase clock, register stage, Introduction to CMOS gates. SECTION C Processing Technology, Explanation of different stages in fabrication. SECTION D Design Methodology, Steps in the Design of a VLSI, VLSI design tools. BTECE-640 P VLSI DESIGN Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-640 BTECE-650 PROGRAMMING IN C# Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Introduction to Object Oriented Programming: Encapsulation, Inheritance, Polymorphism. Introduction to Microsoft .NET: Framework, Windows DNA and .NET, .NET Framework Class Libraries, Unified Type System, Metadata and Reflection. SECTION B Lexical Structure: Lexical Analysis, Tokens, Pre-processor Directives. Basic Concepts: Declarations, Members, Member Access, Signatures and Overloading, Scopes, Namespaces and Type Names Types: Value Types, Reference Types. Variables: Categories, Default Values, Defining Assignments Conversion: Implicit, Explicit, Standard, User Defined. Type System Unification Variables and Parameters, Automatic Memory Management, Operators: Arithmetic, Shift, Relational, Logical Expressions: Function Members, Primary Expressions, Unary Expressions Statements SECTION C Namespaces: Declaration, Using Directives, Members Classes: Declaration, Members, Constants, Fields, Methods, Properties, Events, Indexers, Constructors Structs: Declaration, Members, Class and Struct Differences. Arrays: Types, Creation, Element Access, Members, Covariance, Initializers Interfaces: Declaration, Members, Implementation, Enums. SECTION D Delegates: Declaration, Instantiation, Multi-Cast Delegations, Invocation, Delegates and Event Handlers. Exceptions: Causes, Handling Exceptions, and Common Exception Classes. Attributes: Classes, Specification, Instances, Reversed Attributes. Unsafe Code: Contexts, Pointer Types, Fixed and Movable Variables, Pointer Conversion, Pointers in Expressions. Multi-threaded Programming: Threading Basics, Application, Thread Safety and Synchronization.Querying Metadata with Reflection. BTECE-650 P PROGRAMMING IN C# Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-650 SEVENTH SEMESTER BTECE-710 CONTROL SYSTEMS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Different forms of control with industrial control examples; transducers, controllers and actuators, mathematical models, Differential equations, Difference equations and their solutions. Laplace Transforms and Z-Transforms Convolution, Superposition, block diagram representation and simplification; Open loop and closed loop transfer function. SECTION B Signal flow graphs, Transient and steady state analysis; Proportional Integral and Derivative control system. PID controllers. State space analysis, Stability, Nyquist and Routh Herwitz Criteria, effect of feedback on stability and sensitivity; Root locus technique; Frequency response analysis; SECTION C Bode Plots, Gain and phase margin, constant M and N Loci, use of Nichols Chart. Design of control systems: different types of compensators and their design through Bode plots and Root Locus techniques. SECTION D Components: Potentiometer, Synchros, Armature and field controlled DCG servometers, A.C. servomotors, stepper motor, Rotating amplifiers, magnetic amplifiers, tachogmenerators. BTECE-710 P CONTROL SYSTEMS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-710 BTECE-720 CONSUMER ELECTRONICS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Audio and Video Systems:- High-fi Stereophonic audio system, Recording and Reproduction, Review of AM, FM Transmission and Reception, SECTION B Audio and Video Systems:- Video System, Color TV, Terrestrial and Satellite Broad casting, Cable TV, HDT and Digital TV, DTH TV, LCD, Plasma TV. SECTION C VCD, DVD, VCR, Video Camera, Remote Control, Touch Tone Telephone Set, Value addition in telephone sets, Fax, Mobile telephone hand set. SECTION D Convergence Technology Video Signal Processing Algorithm for video signal processing. BTECE-720 P CONSUMER ELECTRONICS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-720 BTECE-730 SATELITE & MOBILE COMMUNICATION Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Introduction to Transmission Media, Copper, Fiber, Space. Antennas – Concepts of a radiating dipole, Directional and Omni Directional antennas, Radiation patterns, Phased array, , Rhombic, Parabolic, gain, efficiency, gain to noise temp. ratio, Capture area. SECTION B Orbital mechanics of Satellite:- Apogee, perigee, elliptical, spherical, Some Communication Satellites:- Historical perspective and recent Status. Communication Building Block:- Sub Systems and systems, up-link and down-link, isolators, circulators, mixers, filters, demodulators, threshold extension. SECTION C Concepts of Microstrip lines, MICs, Review of Microwave components like Wave guide- rectangular, circular, cut-off frequency, bends, twists, and attenuators Review of modulation techniques like TDMA, FDMA, FM. Analogue and digital techniques, encoding, decoding, quadrature modulation, channel capacity, phase locked loop techniques. SECTION D Optical Communication: - System model, optical sources, semiconductor lasers, light emitting diodes, optical modulation, space channels, guided channels, optical fiber wave guides, coupling components, optical receivers, typical optical communication systems and their performance. Cellular Communication Cells, Frequency allocation and control, Base System and Master System, GSM, DCS 1800, Various value added services. Algorithm for mobile communication. BTECE-730 P SATELITE & MOBILE COMMUNICATION Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-730 BTECE-740 NETWORK TECHNOLOGY Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Evolution of Internet, Address and domain Management, SNMP, Transport Layer issues, TCP/IP, FTP, WWW undergoing technology, E mail talent, FTD, Gateway, Dial-up, SLIP/PPP Dedicated lines, Internet searching tools, gopher, Archie, Veronica, WWW, Lynx, Mosaic, WAIS, Usenet, Security issues, CGI, PERL, HTML, VRML, JAVA, VB script and other internet development tools, internet networking TCP/IP protocols – SECTION B Application Layer Services and protocols (RPC, NFC, SMTP, FTP, TELENET) Network Security and Management, Review of LAN, Principles of IBASE5 (Strain), Transmitter and receiver of IBASE5 (Strain), Node, LAN Manager, Software of IBASE5 Node, 10BASE5 Ethernet and 10BASE2 (Cheaper net), Twisted pair Ethernet SECTION C Serial Communication, Connecting LANs and WANS, Serial Communication Circuits, Modems, USART-Processor Interface Data Buffer Block of 8251A, Control logic of USART, PROTOCOLS, Transmitter, Receiver, Synchronous Modems and Asynchronous Modems. SECTION D SYNDET/BRKDET ion 8251A, Monitoring of 8251A, writing characters to be transmitted to 8251A, Monitoring of 8251A. Read status, ISDN: Technology, devices, Architecture Protocols, Flow Control Error detection and Correction, ATM, Technology, Inter Networking SDH/SONET BTECE-740 P NETWORK TECHNOLOGY Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. BTECE-740 EIGHTH SEMESTER E I (1) BTECE-810 ADVANCED VLSI DESIGN Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Integrated Circuit Devices and Modeling: MOS and BJT transistor modelling for MOS Transistor & BJT – SPICE modelling parameters – CMOS and bipolar processing – CMOS and analog layout consideration. CMOS current mirror – CS, CG & CD amplifier – cascade gain stage – bipolar current mirror – bipolar gain stages – frequency response – SPICE simulation examples. SECTION B Noise Analysis: Time and frequency domain analysis noise models and analysis – Op Amp: Two stage CMOS Op Amp – Op Amp Compensation – Folded cascade and differential Op Amp – SPICE simulation examples – CMOS and BiCMOS comparators. SECTION C MOS and CMOS sample and hold circuit – bipolar and BiCMOS sample and hold – switched capacitor circuits – data converters – various types of D/A and A/D converters. SECTION D Over sampling with and without noise shaping – digital decimation filter – multibit oversampling converters – continuous time filters and phases locked loops. E I (1) BTECE-810 P ADVANCED VLSI DESIGN Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. E I (1) BTECE-810 E I (2) BTECE-810 MOBILE COMPUTING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Introduction to Personal Communications Services (PCS): PCS Architecture, Mobility management, Networks signalling. Global System for Mobile Communication (GSM) system overview: GSM Architecture, Mobility management, Network signalling. SECTION B General Packet Radio Services (GPRS): GPRS Architecture, GPRS Network Nodes. Mobile Data Communication: WLANs (Wireless LANs) IEEE 802.11 standard, Mobile IP. Wireless Application Protocol (WAP): The Mobile Internet standard, WAP Gateway and Protocols, wireless mark up Languages (WML). SECTION C Third Generation (3G) Mobile Services: Introduction to International Mobile Telecommunications 2000 (IMT 2000) vision, Wideband Code Division Multiple Access (W-CDMA), and CDMA 2000, Quality of services in 3G. SECTION D Wireless Local Loop(WLL): Introduction to WLL Architecture, wireless Local Loop Technologies. Global Mobile Satellite Systems; case studies of the IRIDIUM and GLOBALSTAR systems. Wireless Enterprise Networks: Introduction to Virtual Networks, Blue tooth technology, Blue tooth Protocols. E I (2) BTECE-810 P MOBILE COMPUTING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. E I (2) BTECE-810 E I (3) BTECE-810 RELIABILITY ENGINEERING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Reliability Fundamentals: Introduction, Need for Reliability Engineering, Definition, Causes of Failures, Catastrophic Failures and Degradation Failures, Characteristic Types of Failures, Useful Life of Components, The Exponential Case of Chance Failures, Reliability Measures, Failure Data Analysis. Reliability Mathematics: Fundamentals of Set Theory, Probability Theory, Random Variables, Discrete Distributes, Continuous Distributions, Stochastic Processes, Markov Chains SECTION B Reliability Analysis of Series Parallel Systems: Introduction, Reliability Block Diagrams, Series Systems, Parallel Systems, Series Parallel Systems, K-out-of-M Systems, Open and Short Circuit Failures, Standby Systems. Reliability Analysis Nonseries Parallel Systems: Introduction, Path Determination, Boolean Algebra Methods, A Particular Method, Cut Set Approach, Delta-Star Method, Logical Signal Relations Method, Baye's Theorem Method. SECTION C Reliability Prediction: Introduction, Purpose, Classification, Information Sources for Failure Rate Data, General Requirements, Prediction Methodologies, Software Prediction Packages, Role and Limitation of Reliability Prediction. Reliability Allocation: Introduction, Subsystems Reliability Improvement, Apportionment for New Units, Criticality. SECTION D Redundancy Techniques for Reliability Optimization: Introduction, Signal Redundancy, Time Redundancy, Software Redundancy, Hardware Redundancy. Maintainability and Availability: Introduction, Forms of Maintenance, Measures of Maintainability and Availability, Maintainability Function, Availability Function, Two Unit Parallel System with Repair, Preventive Maintenance, Provisioning of Spares. Reliability Testing: Introduction, Kinds of Testing, Component Reliability Measurements, Parametric Methods, Confidence Limits, Accelerated Testing, Equipment Acceptance Testing, Reliability Growth Testing. E I (3) BTECE-810 P RELIABILITY ENGINEERING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. E I (3) BTECE-810 E I (4) BTECE-810 POWER ELECTRONICS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Power Semiconductor Devices: Two-transistor Model of Thyristor, Methods of Triggering a Thyristor, Thyristor Types. Triggering Devices: Triggering Devices, Unijunction Transistor, Characteristics and Applications of UJT, Programmable Unijunction Transistor, DIAC, Silicon-Controlled Switch, Silicon Unilteral Switch, Silicon Bilateral Switch, Shockley Diode, Opto- Isolators. SECTION B Thyristor Firing Circuits Turn on systems: Requirements for Triggering Circuits, Thyristor Firing Circuits, Full Wave Control of AC with One Thyristor, Light Activated SCRs (LASCR) Control Circuit, Pulse Transformer Triggering, Firing SCR by UJT, TRIAC Firing Circuit, Phase Control of SCR by Pedestal and Ramp Controlled Rectifier: Types of Converters, Effect of Inductive Load, Commutating Diode or Free-Wheeling Diode, Controlled Rectifiers, Bi-Phase Half-Wave (Single Way), Single-Phase Full-Wave Phase Controlled Converter Using Bridge Principle (Double Way), Harmonics SECTION C Inverters: Types of Inverters, Bridge Inverters, Voltage Source Inverters (VSI), Pulse Width Modulated Inverters, Current Source Inverter AC Voltage Controllers: Types of AC Voltage Controllers, AC Phase Voltage Controllers, Single-Phase Voltage Controller with R-L Load, Harmonic Analysis of Single-Phase Full-Wave Controller with R-L Load, Gating Signals DC to DC Converters (Choppers): DC Choppers, Chopper classification, Two Quadrant Chopper, Four Quadrant Chopper, Morgan Chopper. SECTION D Cycloconverters: Types of Cycloconverters, Single-Phase Cycloconverter, Three-Phase Cycloconverters. Thyristor Protection: Protection, dv/dt Protection, di/dt Protection, Over Voltage Protection Industrial Applications: "One Shot" Thyristor Trigger Circuit, Overvoltage Protection, Simple Battery Charger, Battery Charging Regulator, AC Static Switches DC Static Switch Microprocessor based Applications: E I (4) BTECE-810 POWER ELECTRONICS Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. E I (4) BTECE-810 E II (1) BTECE-820 INSTRUMENTATION Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Review of Instrumentation Amplifier, Magnetic Recorder, Digital recorders of memory type, Storage Oscilloscope, Sampling Oscilloscope and Spectrum Analyser Special Purpose Transformers, Constant Voltage Transformer, Types of Rectifiers – Signal Phase Rectifier, Three Phase Rectifier, Three Phase Controller Rectifier, Switch Mode Power Supply (SMPS), Inverter and Uninterrupted Power Supply (UPS) SECTION B Timers, Dashpot timers, Motor driven Timers, Stepper motor and their types, Permanent magnet and variable reluctance type, a.c. Motor Controllers – Variable Frequency inverters and cycloconverters. Automatic weighing system, Carbon dioxide controller for a carburising furnace, Control of relative humidity in a textile moisterning process and warehouse, Induction Heating, Dielectric Heating. SECTION C Programmable Logic Controller (PLC), General characteristics and system layout, Operational procedures, Control of coils and contacts, PC ladder Instruction – Address and Registers, Timers and Counters, The sequencer, analog operation and loop control. SECTION D Robotics – Robot and their uses, Robot Auxillary control devices and systems, Controlling and Programming, A Pick-and-Place Robot, Work cells controlling and programming. E II (1) BTECE-820 P INSTRUMENTATION Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. E II (1) BTECE-820 E II (2) BTECE-820 INTEGERATED CIRCUIT TECHNOLOGY Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Classification of ICs. Electronic grade Silicon, Czochralski and Flot Zone Crystal Growing Methods, Oxygen and carbon in Silicon, Zegregation coefficients, Silicon shaping and wafer preparation, Vapour Phase Epitaxy. SECTION B Oxidation – Thermal, Dry & Wet, High Pressure and Plasma Oxiadation, Lithography – Optical Lithography, Photomask, Photo resist and Process, Electron Lithography, X-ray Lithography, Ion Beam Lithography. Etching – Wet Chemical Etching, Reactive etching, Impurity Doping – Diffusion, Ion Implanatation, Metallization – Desired Properties, Applications, Ohmic contacts, Choices and Problems. SECTION C Integrated Elements: Isolation of circuit elements, Bipolar Technology: NPN Transistors, PNP Transistors, Integrated Diodes, Semiconductor Resistors, Capacitors and Inductors, MOS Technology: NMOS and CMOS IC Technology Design of typical ICs, Back side of preparation, Wafer sort, Device Separation, Die Bonding, Wire Bonding, Package Types and Considerations, Testing of ICs. SECTION D Fabrication Facilities and Environment – pure water system, clean room and personnel, Characteristics of VLSI, Problem of raising the scale of integration – Causes of IC failures – Electronistatic Discharge Damage and Alpha Particle Induced soft errors, Yield and Reliability, Methods of reliability evaluation, Nonsilicon Technology (GaAs ICs), Future trends. E II (2) BTECE-820 P INTEGERATED CIRCUIT TECHNOLOGY Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. E II (2) BTECE-820 E II (3) BTECE-820 DIGITAL IMAGE PROCESSING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Introduction And Digital Image Fundamentals Digital Image Representation, Fundamental Steps in Image Processing, Elements of Digital image processing systems, Sampling and quantization, some basic relationships like neighbours, connectivity, Distance measure between pixels, Imaging Geometry. Image Transforms: Discrete Fourier Transform, Some properties of the two-dimensional fourier transform, Fast fourier transform, Inverse FFT. SECTION B Image Enhancement: Spatial domain methods, Frequency domain methods, Enhancement by point processing, Spatial filtering, Lowpass filtering, Highpass filtering, Homomorphic filtering, Colour Image Processing. Image Restoration: Degradation model, Diagnolization of Circulant and Block-Circulant Matrices, Algebraic Approach to Restoration, Inverse filtering, Wiener filter, Constrained Least Square Restoration, Interactive Restoration, Restoration in Spatial Domain. SECTION C Image Compression: Coding, Interpixel and Psychovisual Redundancy, Image Compression models, Error free comparison, Lossy compression, Image compression standards. Image Segmentation: Detection of Discontinuities, Edge linking and boundary detection, Thresholding, Region Oriented Segmentation, Motion based segmentation. SECTION D Representation and Description: Representation schemes like chain coding, Polygonal Approximatiion, Signatures, Boundary Segments, Skeleton of region, Boundary description, Regional descriptors, Morphology. Recognition and Interpretation: Elements of Image Analysis, Pattern and Pattern Classes, Decision-Theoretic Methods, Structural Methods, Interpretatiion. E II (3) BTECE-820 P DIGITAL IMAGE PROCESSING Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. E II (3) BTECE-820 E II (4) BTECE-820 MICROWAVE DEVICES Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Microwave tubes: Klystron amplifier – two cavity – multi cavity – description – operating characteristics – performance characteristics – pulse modulation – bandwidth, Travelling wave tube amplifier – construction – operation – crossed field amplifier – grid controlled tubed, Magnetron oscillator – conventional magnetron – coaxial magnetron – mode jumping – frequency pushing and pulling – performance chart & rieke diagram. SECTION B Avalanche transit-time devices: Introduction – the physics of IMPATT diodes – small signal and large signal analysis – effects of tunnelling on IMPATT diodes – performance – application – TRAPATT devices – present trends in IMPATT devices – Lateral IMPATT devices – monolithic IMPATT oscillator circuits. Transferred – electron devices and circuits: Introduction – physical basis of Gunn effect – modes of operation – study of TEDs and modelling – Gunn diode or TED oscillators – multiple Gunn-device oscillators or power combiners – generation ofmm waves – Gunn diode amplifier – present status of GaAs and Inp TEDs – new materials and new ideas – applications. SECTION C Microwave Transistors: Introduction – n-p-n junction transistor – microwave BJT – HBT, MESFET, - power frequency limitations – noise figure – low noise microwave HEBT – MOSFETs – Multi octave YIG – tuned GaAs FET oscillators – dielectric – tuned FET oscillators for stable oscillations – microwave transistor amplifier. SECTION D Technology of microwave devices and measurements: GaAs Gunn diode fabrication – fabrication of silicon IMPATT diode – fabrication of low noise HEMT – MICs: HMICs, MICs and QMICs – fabrication of MMICs using FETs – measurement of s-parameters of microwave semiconductor electron devices – power, frequency and spectral response measurements – Riecke diagram and noise measurements of semiconductor circuits – wafer measurements of MMICs. E II (4) BTECE-820 P MICROWAVE DEVICES Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. E II (4) BTECE-820 E II (5) BTECE-820 NETWORK MANAGEMENT & SECURITY Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Introduction: Codes and Ciphers – Some Classical systems – Statistical theory of cipher systems- Complexity theory of crypto systems – Stream ciphers, Block ciphers. Stream Ciphers: Rotor based system – shift register based systems – Design considerations for stream ciphers – Cryptanalysis of stream ciphers – Combined encryption and encoding. SECTION B Block Ciphers – DES and variant, modes of use of DES. Public key systems – Knacksack systems – RSK – Diffle Hellman Exchange – Authentication and Digital signatures, Elliptic curve based systems. System Identification and clustering Cryptology of speech signals – narrow band and wide band systems – Analogue & Digital Systems of speech encryption. SECTION C Network Security: Hash function – Authentication: Protocols – Digital Signature standards. Electronics Mail Security – PGP (Pretty Good Privacy) MIME, data Compression technique. SECTION D IP Security: Architecture, Authentication Leader, Encapsulating security Payload – Key Management. Web security: Secure Socket Layer & Transport Layer security, Secure electronics transactions. Firewalls Design principle, established systems. Telecommunication Network architecture, TMN management layers, Management information Model, Management servicing and functions, Structure of management information and TMN information model. E II (5) BTECE-820P NETWORK MANAGEMENT & SECURITY Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. E II (5) BTECE-820 E II (6) BTECE-820 EMBEDDED SYSTEM Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% A) Instructions for paper-setter 1. Nine questions to be set spreading over five sections namely A, B, C, D and E. 2. Each of the sections A, B, C, D will contain two questions each of 6 marks. Candidates have to attempt at least one compulsorily from each section. 3. Section E will comprise of 12 questions. The nature of the questions will be short answer type. Each question will carry 2 marks. Candidates have to attempt 8 questions. B) Instructions for candidates 1. Candidates are required to attempt one question each from sections A, B, C and D of the question paper and the section E. 2. Use of non-programmable scientific calculator is allowed. SECTION A Architectures: Basic definitions, The bottlenecks in the Non Neuman paradigm cache memories: Principles, alternative organization, figure of merit, performance evaluation, Cache management issues, Multiple level caches, Innovative CPU architectures: basic figures of merit for performance evaluation, Pipelining: the RISC approach hints at pipelined CISC CPUs. The basic MIPS pipeline exception handling. SECTION B ILP Architectures: The basic idea, Dynamic scheduling, static scheduling, super scalar architecture, basic principles and problems, Out of order execution and its management. Score boarding, reservation stations, the reorder buffer, Hazard problem and management in super scalar CPUs. Speculative execution and its optimization. Exception handling, Reference to some real world super scalar CPUs. SECTION C Basic characteristics of DSP processors Multiprocessor system: The cache coherence problem, NUMA, CC-NUMA systems, Basic concepts of multithreading, simultaneous multithreading, speculative multithreading, Testing techniques, fault diagnosis and fault tolerance techniques, fault tolerant softwares. Introduction to compilers, cross compilers, building blocks and interfaces of front-ends, Code Scanning, parsing, semantic analysis, intermediate representations. SECTION D PCI (Compact PCI), ISA (PC 104) and VME bus architecture and programming, device firmware, system firmware architectures, ECC/FDAC memory architectures, Interrupt service routine (ISR), real time clock/Timer, real time kernal configuration, main loop design, multitasking, inter-task communication, hard real time scheduling theory and design (RMA and DMA), latency response time, system performance, development and testing techniques. E II (6) BTECE-820 P EMBEDDED SYSTEM Maximum Time : 3 Hrs. University Examination : 20Marks Total Marks : 50 Continuous Internal Assessment : 30 Marks Minimum Pass Marks : 40% The laboratory course will comprise of exercises on what is learnt in the theory classes of the same course i.e. E II (5) BTECE-820 BTECE-830 P INDUSTRIAL TRAINING PROJECT Maximum Time : 3 Hrs. University Examination : 80 Marks Total Marks : 200 Continuous Internal Assessment : 120 Marks Minimum Pass Marks : 40% 1. Students are supposed to spend 45-55 hours on the project. The internal teacher must monitor progress of the Project. Students can arrange the project at their own level, however, Institute can also assist in getting the project and can issue necessary letters etc. 2. The external examiner will distribute marks allocated for University examination for viva/project report and for any other activity, which the external examiner thinks to be proper. Maximum Marks for Project Application 60% Max marks for Viva 40% 3. Joint projects will be allowed and joint project reports will also be accepted. The students should highlight their contributions in a joint project report. 4. The students have to submit two copies of Project reports. The examiners will evaluate these reports on the spot at the time of examination and will conduct the viva.