THIRD SEMESTERENGINEERING MATHEMATICS - II CMELPA 301 3+1+0 Module 1 Vector differential calculus: Differentiation of vector functions- scalar and vector fields- gradient - divergence and curl of a vector function - their physical meaning - directional derivative - scalar potential- conservative field – identities - simple problems. Module2 Vector integral calculus: Line- surface and volume integrals- work done by a force along a path- application of Green’s theorem- Stoke’s theorem and Gauss divergence theorem. Module 3 Function of complex variable: Definition of analytic function and singular points- derivation of C.R. equations in Cartesian co-ordinates- harmonic and orthogonal properties- construction of analytic function given real or imaginary parts- complex potential- conformal transformation of functions like Zn, ez, 1/z, Sin z, z + k2/z - bilinear transformation- cross ratio- invariant property- simple problems. Module 4 Finite differences: meaning of ∆, , E, μ, δ - interpolation using Newton’s forward and backward formula- central differences- problems using Stirlings formula- Lagrange’s formula and Newton’s divided difference formula for unequal intervals. Module 5 Difference Calculus: Numerical differentiation using forward and backward differences. Numerical integration- Newton-Cote’s formula- trapezoidal ruleSimpson’s 1/3rd and 3/8th rule- simple problems- difference equations solutions of difference equations. References 1. Advanced Engg. Mathematics: Erwin Kreyzing- Wiley Eastern. Pub. 2. Higher Engg. Mathematics: B. S. Grewal- Khanna publishers. 3. Numerical methods in Science and Engineering: M K VenkataramanNational Pub. 4. Numerical methods: S Balachandra Rao- University Press. 5. Advanced Engineering Mathematics: Michael D Greenberg- PHI. 6. Theory and Problems of Vector analysis: Murray Spiegel- Schaum’s- Mc Graw Hill. NETWORK THEORY LA 302 2+1+0 Module 1 Source transformation- Mesh and Node voltage Analysis – Coupled circuits – Dot conventions – Analysis of coupled circuits. Module 2 Network theorems-Super position theorem- Reciprocity theorem - Thevenin’s theorem- Norton's theorem- Millman's theorem- Maximum power transfer theorem- Tellegen’s theorem- Graph of a network -Trees- co-trees -Incident matrix- cut- set matrix-tie-set matrix- Analysis of networks- equilibrium equations. Module 3 Fourier Analysis and Laplace transform - Fourier analysis of periodic signalsTrignometric and exponential forms- Non periodic signals and Fourier transforms- Frequency spectrum of periodic waveforms - Laplace TransformReview of theorems-Laplace transform of important signal waveforms Periodic functions- Initial value and final value Theorems- DC&AC transients- Solution of network problems using Laplace transform. Module 4 Two-port Networks and Filters - Voltage and Current ratios of two - port networks -Admittance- impedance- hybrid and transmission parameters of two port networks. Passive filters as two port networks- Characteristics of ideal filters-Image impedance- Constant K low pass- High pass and Band pass filters-m-derived filters-Composite filters. Module 5 Network Synthesis – Realizability concept – Hurwitz property – positive realness – properties of positive real function – Synthesis of R, L, RC and LC driving point functions – Foster and Cauer forms. References 1. Network analysis -M.E Van Valkenburg, PHI 2. Circuits and Networks – analysis & synthesis – A. Sudhakar & S P ShyamMohan 3. Network and Systems -D Roy Chaudhary 4. Network analysis and synthesis-Franklin F Kuo – John Wiley & Sons 5. Engineering Circuit Analysis-W H Hayt & Jack Kennerly – Mc-Graw Hill Module 4 A.B. Module 2 D C motor – starter – 3 point and 4 point starters – torque equation – speed equation – speed torque – characteristics of shunt.ELECTRICAL TECHNOLOGY LA 303 2+1+0 Module 1 D.Raina & Bhattacharya Electrical Machines & Power systems: Vincent Del Toro .c. 2. References 1. – Condition for self excitation – field critical resistance – critical speed – Load characteristics of generators – Losses – power flow diagram – efficiency – Condition for maximum efficiency – Applications.Generator – O. – Basic principles of 3 phase tranformer – autotransformer – applications.C. 5. test – applications – Design of step down transformers like 230/6-0-6V. 4. Module 5 Special Machines: A C and D C servo motors – synchros – constructional features – working of a tachogenerator – stepper motors – construction. 3. applications and specifications of stepper motors – universal motors . series and compound motors – Losses – efficiency – Brake test – Swinburne’s test – speed control – field control – armature control – series parallel control – applications. Electrical & Electronic Technology: Hughes. Pearson Education Electrical Technology: H.constructional features – typical applications – criteria for selection of motors – electromagnetic relays – contactors.K. Cotton Electrical Machines: R. Module3 Transformers: transformer on no-load and load operation – phasor diagram – equivalent circuit – regulation – losses and efficiency – o. and s.C.C. working.c.C Machines: 3 phase induction motors – rotating magnetic field – torque equation – slip – torque-slip characteristics – operating characteristics – starting of 3 phase induction motors – starters – single phase induction motors – constructional features – types – working and characteristics only (no analysis) – constructional features of synchronous machines – principle of operation of alternator – emf equation – regulation by emf and mmf method – principle of operation of synchronous motor – starting of synchronous motor.Rajput Electrical Design Estimating & Costing: K. Zener diodes: volt-ampere characteristics. Module 2 Diffusion of carriers.p-n junctions: contact potential.current components at a junction: majority and minority carrier currents.enhancement and depletion types.n-material and p-material. Physics of semiconductor devices: Shur.drift and resistanceeffect of temperature and doping on mobility.Varactor diodes. 6.volt-ampere characteristics.Mc Graw Hill. Module 4 Bipolar junction transistors: npn and pnp transistor action.PHI.photo transistors.metalssemiconductors and insulators.hall effect.Pearson Education Microelectronic Devices: Nagchaudhari. 4.charge carriers in semiconductors: electrons and holes.zener and avalanche breakdown. References 1.volt-ampere characteristics.Ben G Streetman.Tata Mc Graw Hill.capacitance of p-n junctions. 5.Einstein relationcontinuity equation. Pearson Education Integrated electronics – Millman and Halkias.equilibrium fermi levelsspace charge at junctions.S M Sze.emitter efficiency γ.MOSFETS: n MOS and p MOS: comparison.direct and indirect semiconductors. Solid state electronic devices .pinch off voltagegate control.biasing in active region. Module 5 Field effect transistors: operation. Theory of Semiconductor devices: Karl Hess.majority and minority carrier distributionterminal currents.EHPstemperature dependance.pinch off and saturation.rectifier action. 3.α and β gain factors. Semiconductor devices – Nagchoudhary. Module 3 p-n junction diodes: volt-ampere characteristics.SOLID STATE DEVICES LA304 3+1+0 Module 1 Energy bands and charge carriers in semiconductors: energy bands.light emitting diodes. .Mc Graw Hill. 2. Physics of semiconductor devices .Photo diodes: detection principle.open circuited transistor.derivation of diffusion constant D.carrier concentration: fermi level.amplification and switching.schottky transistors.switching time.conductivity and mobility.intrinsic and extrinsic material.PHI. 7.Tunnel diodes: tunneling phenomena.control of threshold voltageMOS capacitance. Electronic devices and circuits: Boylsted & Nashelsky. Electronic devices and circuits: Allen Mottershed. 3.bias compensation.RC integration.I LA 305 3+1+0 Module 1 Rectifiers and Power supplies: Half wave. 4.derivation of stability factor for ICO variation.FET amplifier: biasing.Q point selectionbias stability. Integrated Electronics: Millman & Halkias. 6.current limiting. 8.design of regulated power supplies for specified output conditions.fixed bias.analysis and design.PHI. Electronic Principles: Malvino.simple sweep circuit.analysis and design. 5. Electronic devices and circuits: Bogart.PHI.clamping.expression of voltage and current gain.definition of stability factors.UBS. Module 2 Transistor as an amplifier: Transistor at low frequencies. References 1.collector to base bias.Tata Mc Graw Hill.CB and CC configurations.C filter analysis.differentiationtransistor as a switch. 7.UJTworking and applications.DC and AC load lines.working and design.Pearson Edn.transistor parameters from static characteristics. Module 4 RC Coupled amplifier: working. . Module 3 Transistor Biasing: operating point.S K Kataria & Sons Pub.astable multivibrator.h parameter model analysis.FET: operation.phase and frequency response. Electronic devices and circuits: J B Gupta. 2.full wave and bridge rectifiersworking.Pearson Edn.characteristics.regulated power supplies: series and shunt. Module 5 Wave shaping circuits: clipping.Mc Graw Hill.comparison.input and output impedanceCE.short circuit protection.compensation for ICO and VBE.small signal model. Electronic devices: Floyd.ELECTRONIC CIRCUITS . Electronic devices and applications: B Somanathan Nair.analysis and design.IC regulated power supplies.self bias circuits. passing arguments to a function .The conditional operator .specifying argument .register variables – bit wise operation bit fields .nested loops -if else switchbreak .macros .processing a structure .Data input and output .arithmetic operators Relational and Logical operators .creating a data file .identifiers and keywords . Module 5 Data files: Opening and closing of a data file . printf .Library functions .Data types .enumeration . Functions . Pearson Edn.The comma operator . Text Book 1.processing a data file. Arrays: defining an array . References .go to statement.pointers and multi dimensional arrays – passing functions to other functions.passing structure to a function – self referential structures . Programming with ANSI and Turbo C: Ashok N Kanthane.gets and puts functions .processing an array .accesing a function .continue .the C preprocessor.unions.interactive programming.passing pointers to a function .Automatic variables .pointers and one dimensional arrays .for .user defined data types . Module 2 Control Statements: While . low level programming .external variables . Module 4 Pointers: Fundamentals .command line parameters .operations on pointers .Recursion.a brief overview .function prototypes .statements .multi file programs.COMPUTER PROGRAMMING LA 306 3+1+0 Module 1 Introduction to C: C fundamentals .array and strings. Module 3 Program structure: storage classes .declarations expressions . Structures and unions: defining a structure .data types .getchar – putchar.do while .The character set .pointer declaration .constants .symbolic constants. scanf.passing arrays in a function – multi dimensional arrays .variables and arrays .defining a function . C test on single-phase transformer. 5. 4. Load test on slipring induction motor. 5. BC107. 3. 2. Determination of Band width. Determination of Band width. series and compound motors 6. Programming Techniqes through C: Venkateshmurthy. AF generator etc and soldering practice. Wave shaping. Computer Programming: Rajaraman. Study of star-delta connections. 6.C. Pearson Edn. Familiarization of data sheets of components – OA79. Load test on step-up/step-down transformer. RC differentiator & Integrator. Study of stepper and servomotors. Tata Mc Graw Hill. 2. Determination of parameters. DVM. and Load characteristics of D. 8. PHI. O. 4. O. Design of Astable multi-vibrator for specified time period . 1N4001. Design of FET amplifier. 12. Programming Ansi C: Ram Kumar.Diode. 4. Design of clipping. Design of Single stage RC coupled amplifier. UJT. 9.C. SZ6. BC547. clamping. Design and testing of DC power supplies for specified output.C. Transistor.sharpening of edges. Schaum’s series. 2. Load characteristics of D.1. 5. PHI. shunt. Pre-determination of regulation of the alternator by emf and mmf method. 2N2646. Swinburne’s test. . Simulation of simple circuits using Spice. Load test on single phase induction motor. 11. ELECTRICAL LAB LA 307 0+0+4 1. 8. The C programming language: Kernighan & Ritche. 7. 7. BASIC ELECTRONICS LAB L 308 0+0+4 1. 3. Theory and problems of programming with C. FET. 10.C and S. BC557. Programming in C: Balaguruswamy.C. Familiarization of CRO. 3. 9. 6. Study of starting of three phase induction motors and load test on squirrel cage induction motor.Gottfried. calculation of efficiency and regulation at different power factors. Characteristics . 10.8. Simple sweep circuit. generators. Measurement of Electric power (single phase and three phase) and energy using wattmeter and energy meter. BFW10. Note New experiments may be added in the above list concerned to the relevant theory paper (LA 305). FOURTH SEMESTER . Module 4 Probability and statistics: Binomial law of probability . single mean and difference of means (proof of theorems not expected). Advanced Engg.fitting of binomial & poisson distributions . Elements of Partial Differential Equations .K.simple applications in engineering problems. Module 2 Partial Differential Equations . . 2. Higher Engineering Mathematics .Type 1 and Type 2 errors – Test of hypothesis – Test of significance for large samples – Test of significance for single proportion.III CMELRPTA 401 3+1+0 Module 1 Ordinary Differential Equations: Linear Differential equations with constant coefficents .simple problems.The binomial distribution.. 5.Ian N.poisson distribution as a limiting case of binomial distribution .S. Engineering Mathematics Vol. References 1. 6. poisson and normal distributions. difference of proportions. its mean and variance . Khanna Publishers.Statement of Fourier Integral Theorems – Fourier Transforms – Fourier Sine & Cosine transforms . Pearson Education Asia / PHI.Sneddon. Module 3 Fourier Transforms: .its mean and variance .ENGINEERING MATHEMATICS .Linear Simultaneous eqns.normal distribution . by the method of variation of parameters – Cauchys equations. Mathematics Erwin Kreyszig. Wiley Eastern Ltd. Laxmi Publications Ltd.standard normal curve . Module 5 Population & Samples: Sampling distribution of mean (σ known) – Sampling distribution of variance.solution of Lagrange Linear Equations –Charpits Method – solution of homogeneous linear partial differential equation with constant coefficients – solution of one dimensional wave equation and heat equation using method of separation of variables – Fourier solution of one dimensional wave equation. A text book of Engineering Mathematics (Volume II) – Bali and Iyengar.properties of normal curve .Finding P.I. Venkataraman. Grewal.M. 4.McGraw Hill. National Publishing Company 3.B.simple problems in binomial. Miller and Fread’s Probability and statistics for engineers – Richard A Johnson. F and Chi square test – Level of significance .II -3rd year Part A & B .inverse transforms transforms of derivatives – Convolution Theorem (no proof) – Parsevals Identity .formation by eliminating arbitrary constants and arbitrary Functions . Pearson Edn. 6.NOT Gates . Digital Design: Wakerly.Binary Addition .decoder and encoder.Binary Subtraction .Modulo counters .Sum-of-Products method . Oxford. Pearson Edn. 4. Khanna Pub.Don’t-Care Conditions. Pearson Edn. Mc Graw Hill.Ripple Counters . Module 3 Arithmetic-Logic Units .EXCLUSIVE-OR Gates .TTL Circuits .Synchronous Counters . 2.Edge-Triggered D & T Flip-Flops .D Latches . Probability and statistical inferences – Hogg and Tanis.7400 Devices .Karnaugh maps – Pairs – Quads .De Morgan’s Theorems . Digital electronic principles: Malvino and Leach.Algebraic Simplification .Karnaugh Simplifications .NAND Gates . Fundamentals of digital circuits: A Anand Kumar.2’s Complement 2’s-Complement Adder-Subtractor. Pearson Education.7. 3. Module 5 Registers and Counters . Module 2 Boolean Algebra and Karnaugh Maps . PHI Digital Integrated Electronics: Taub and Shilling.Buffer Registers . 5.Shift Registers . Pearson Education Asia. Multiplexers .Binary Adders . Digital electronics: D C Green. Logic and computer design fundamentals: M Morris Mano. References 1.RAMs.AND gates . A small TTL Memory.Boolean Relations . 7.Level Clocking . DIGITAL ELECTRONICS AND LOGIC DESIGN LA 402 3+1+0 Module 1 Gates –Inverter . McGraw Hill.Three-State Register. 8.RS Latches . Module 4 Flip Flops .NOR Gates . Digital Logic and state machine design: Comer.OR gates . . ROMs – PROMs and EPROMs . Digital Fundamentals: Floyd.AND -OR.Edge-Triggered JK Master-slave Flip-Flop.Tristate Inverter .Full Adders .demultiplexers .Controlled Shift Registers .Digital Integrated Circuits .TTL Characteristics TTL Overview .Half Adders . 9. Digital electronic principles and applications: A K Maini.signed Binary Numbers .and Octets .Ring counters .Open-Collector Gates – CMOS gates. block diagram .FAX transmitter and receiver. Module 4 Side band communication: Single side band transmission .subscribers line interface circuit .schematic explanation .Amstrong modulator.block schematic explanation .simple diode detector .block schematic of a telephone set.transmitter and receiver responses .circuit explanation.RF amplifiers .FM transmitter .superheterodyne receiver block schematic.balanced modulator .block schematic of single line analog SLIC board .FM. Module 2 Radio transmitters: AM transmitter .theory.Frequency modulation theory.sensitivity.filtering of unwanted sideband .Automatic gain control circuit . References 1.COMMUNICATION ENGINEERING LA 403 3+1+0 Module 1 Introduction: communication systems – Modulation . .Pulse and tone signaling .importance of IF .USB & LSB.need for modulationbandwidth.suppression of carrier .power relation.Power line communication: block schematic explanation. Electronic communication Systems: Wayne Tomasi.simple and delayed AGC .pilot carrier receiver .FM demodulators: slope detectors.mathematical representationfrequency spectrum .basic block schematic.two wire repeaters .PM.mathematical representation.Telephone subscribers loop circuit .phase discriminator.SSB receivers block schematic explanation .Facsimile .PHI.AM receivers .suppressed carrier receiver .Phase modulationcomparison of AM.varactor diode modulator.amplitude limiting .ratio detectors.Solid state modulators .Electronic private automatic branching exchange .Mixer circuits .Pearson Edn.Vestigial side band transmission . Electronic communication: Roody and Coolen. Module 5 Telephone Systems . 2.Frequency assignments Electronic telephone .circuit explanation.Amplitude modulation .advantages of VSB in television. Module 3 Radio receivers: Tuned radio frequency receiver.IF amplifiers .circuit explanation .FM receivers .image frequency rejection .reactance modulator.selectivity.frequency spectrum. class B. Module 3 Oscillators -conditions for oscillation -analysis and design of RC phase shift oscillator.Mc Graw Hill. 4. 3. Colpitt's. 6. . 4. Module 4 Mono-stable multi vibrator -analysis -design -applications -triggering -Bistable multi-vibrator -analysis and design -different methods of triggering -commutating capacitor -Schmitt trigger -working -design. Hybrid pi model explanation of components -r parameters in terms of h parameters -Tuned amplifiers -principle .3. negative. Integrated electronics -Millman & Halkias . Electronic Communication systems: George Kennedy.II LA 404 3+1+0 Module 1 High frequency equivalent circuit of a transistor. 5. Mc Graw Hill Electronic principles -Malvino Electronic devices and circuits -Bugart Microelectronics Digital and Analogue -Botkar. 2. Pearson Edn. current. tuned collector and Wien Bridge oscillators. Module 2 Feedback -different types -positive. 5. References 1. class C and class D amplifiers -complimentary and symmetry stage -sweep generators -voltage and current sweeps -time base generators -linearisation -miller and bootstrap sweeps . ELECTRONIC CIRCUITS . Modern communication Systems: Couch. Electronic devices and circuits -Boylsted & Neshelsky. Telephony and Carrier current engineering: P N Das.PHI. series and shunt feedback -Feedback in amplifiers -its effect on amplifier performance -typical feedback arrangements -emitter follower -darlington emitter follower -cascade amplifier (principles only) -difference amplifier.single tuned and double tuned amplifiers -frequency response -applications (no analysis) -multistage amplifiers -frequency response.applications. general form of oscillator circuit -working of Hartley. voltage. Module 5 Large signal amplifier -harmonic distortion -analysis of class A. Electronic and radio engineering: A P Mathur. Crystal. Realization of LTI system (differential and difference equations).Region of Convergence and properties.power spectral density White noise.Random processes through LTI systems.Z-Transform and its inverse: Definition.Application of Laplace transform for the analysis of continuous time LTI system (stability etc. Discrete convolution and its properties.convolution Integral.probability density and distribution functions. wide-sense stationarity. Frequency response of discrete time LTI systems.) Significance of poles & zeros.Stability. Module 2 Fourier Analysis of Continuous Time Signals and Systems . Moments. Module 3 Fourier Analysis of Discrete Time Signals & Systems . Sampling Theorem.Parseval’s theorem.Frequency response of LTI systems.Systems Attributes. Bayes Theorem.Fourier SeriesFourier Transform and properties. Linear Time-Invariant Systems: Differential equation representation.Laplace Transform and its inverse: Definition.Introduction to probability. References .Region of convergence and properties.SIGNALS AND SYSTEMS LTA 405 2+1+0 Module 1 Dynamic Representation of Systems .existence.Causality linearity. Module 4 Laplace Transform .concept of random variable.Application of Z-Transform for the analysis of Discrete time LTI systems.Significance of poles and zeros.time-invariance. Auto and cross correlation.existence conditions. Special Signals.function of a random variable.Discrete-Time Fourier Transform (including DFT) and properties. Introduction to random process.Z-Transform . Module 5 Random Signals . Discrete form of special functions.Independence of a random variable.Discrete-Time Fourier series.Complex exponentialsSingularity functions (impulse and step functions). Willsky Alan.Linearly increasing hazard model. References 1. Signals and Systems: Farooq Husain.Pearson Edn.John Wiley.measures of reliability. RELIABILITY AND HUMANITIES LA 406 2+1+0 Module 1 Concepts of reliability: Definition of reliability.planning to achieve required quality. Module 5 Human relations: Human Behavior. 3.basic concepts of sequencing. Industrial Engineering & Management: Banga and Sharma. S.Weibull model. 5. 4. Module 3 Manufacture for Quality and reliability: The need for prototype tests.Hazard models.the quality standard.Umesh pub. Reliability Engineering: L S Sreenath.Scope of Industrial psychology-Theories of Motivation-Handling of workers grievances-Workers participation in management-Industrial discipline-Industrial disputes-Industrial fatigue-Wages and incentives. 2. 3. Communication Systems: Haykin Simon.mean time between failures (MTBF).Constant hazard models.Tata Mc Graw Hill.classification of failures. Adaptive signal processing: W Bernad.Bath tub curves. ELECTRONIC CIRCUITS LAB LA 407 0+0+4 .V.Pearson Edn. Signals and Systems: Oppenheim Alan.Reengineering.X and R chart.types of control charts. Module 2 Failure pattern and fitting curves: Graphical plots.1.mean time to failure (MTTF).failure rate. 2.P chart.C chart.failure.Zero defects. Module 4 Control charts in statistical quality control: statistical quality control advantages. Reliability Engineering: A K Govil. Signals and Systems: I J Nagrarth. Microsoft Windows. operator & function overloading. 2. Design of Mono-stable and bi-stable multi-vibrators. Oscillators: Design of RC phase shift. pointers and files. Hartley & Colpitts oscillators. 2. 9. Design of bootstrap sweep generator. Familiarization of MS-DOS commands. 3. 11. Feedback amplifier. functions. arrays. 10. 3. Design and testing of DC regulated power supplies (Fixed and variable). Familiarization of Microsoft Word. Schmitt trigger. classes. Note New experiments may be added in accordance with subject LA 404 COMPUTER PRORAMMING LAB LA 408 0+0+4 Part 1 1. Computer hardware familiarization. 4. inheritance. polymorphism. structures. Power amplifiers: Design of class A and class AB push pull stage – verification of power output. 6. 7. . 5.List of experiments 1. SCR. Part 2 Programming Experiments in C/C++: Programming experiments in C/C++ to cover control structures. Tuned amplifiers. Triac firing circuits. Adobe Acrobat Reader. IC power amplifier. 8. Simulation of above circuits using PSPICE. design of two stage RC coupled amplifier. FIFTH SEMESTER . Ramanaigh. shifting property.ENGINEERING MATHEMATICS -IV CMELPA501 3+1+0 Module 1 Complex Integration: Line Integral –Cauchy’s integral theorem.students Vol.Dr.Duality in L. Advanced Engineering Mathematics – Ervin Kreyszig. McGraw-Hill.Grewal. Module 2 Numerical solution of algebraic and transcendental equations: Successive bisection method-Regula falsi method .M. III. 5.Pillay.Runge – Kutta method (IV order)-Milne’s predictor corrector method. convolution property. . – Vogels approximation method – Modi method.Churchill and Brown. Operations research . III -S Arumugam.Grewal. A. Kanna Publishers. Higher Engineering Mathematics .S. M.Panneer Selvam.P.Balanced T. Scitech publications 9. Numerical methods in Science & Engineering . Quantitative techniques Theory & Problems . Advanced Mathematics for Engg.K.two phase method.Dr. 2. Pearson Education Asia. 6.C.Narayanan. S.Cauchy’s integral formula-Taylor’s series-Laurent’s series. 3. Wiley Eastern limited.T. T.inverse transform – solution of 1st & 2nd order difference equations with constant coefficients using Z transforms.Newton –Raphson method – solution of system of linear equations by Jacobi’s iteration method and Gauss-Siedel method. 8.residue theorem-Evaluation of real integrals using contour integration involving unit circle and semicircle. B.Tulsian.P. G.properties –Z transform of polynomial functions – trigonometric functions.P..P.K. A. Kanna Publishers.S. Numerical methods in Engineering & Science – Dr. Module 3 Numerical solution of ordinary differential equation: Taylor’s series methodEuler’s method –Modified Eulers method . National Publishing company. 4. Vishal Pandey. Module 5 Linear programming: graphical solution – solution using simplex method (non – degenerate case only) – Big-M method. References 1. Engineering Mathematics Vol.Vishwananthan printers & publishers.Venkitaraman. Complex variables and applications . Module 4 Z – Transforms: Definition of Z transform.Somasundaram. B. PHI.S. 7.zeros and singularitiesResidues.Isaac. .Block schematic. Mohan Ned. Module 2 AC to DC Converters . References 1. Module 5 DC to AC Converters . MOSFET and IGBT. 1987.Harmonics and their reduction techniques.Configuration of three phase controllers. Series and parallel operations of SCR.K.POWER ELECTRONICS LA 502 2+1+0 Module 1 Power semiconductor Devices . Galgotia Pub. Wiley Eastern. Module 4 DC to DC Converters . 2.. S.Operation and analysis of Single phase and multiphase uncontrolled and controlled rectifiers with R.Step down.filters.Electromagnetic interference. and Satrughan A. BJTS.Characteristics.Chopper classification.Constructional features. Pearson Edn. 6.B. MCT. 1975. John Wiley & Sons. S.analysis and control with R. 5. 4. PWM chips: SG3524 and TL 494. RL and back EMF loadeffect of source inductance.History of development of Power Electronic devices. Power Electronics: Harish C Ray. Thyristorised Power Controllers: Dubey. Power Electronics: Converter. .Single phase and three phase bridge inverters. Doradlla.voltage control . Power Electronics: Rashid Muhammad. Module 3 AC to AC Voltage Converter . RL and EMF loadcurrent and voltage Commutation circuits. R.step up and four quadrant converters operation. 3. GTO. Thyristors and Applications: Ramamoorthy.PWM & Square wave operation.SCRS.Operation and analysis of single phase integral cycle and phase controlled converters.rating and specificationgate/base drive circuits-protection including cooling and application consideration of diodes.free wheeling effect.power factor improvement methods for phase Controlled rectifiers. G. Power Semiconductor Circuits: Dewan. John Wiley.VSI and CSI. Applications and Design. 3.Characteristic impedance.capacitance between two concentric sphere shells.Uniform plane wave-wave equation for conducting medium.vector magnetic potential. toroid. 2. Kraus.APPLIED ELECTROMAGNETIC THEORY L 503 3+1+0 Module 1 Review of vector analysis: Cartesian. Vector fields: Divergence and curl. Hayt.Magnetic dipole. Engineering electromagnetics: E.modes of propagation. Engineering Electromagnetics: W.Poynting theorem and Poynting vector. Mc Graw Hill Publications.Stokes theorem.Divergence theorem. Pearson Education.Faraday’s law of electromagnetic induction. Mc Graw Hill Publications.Plane electromagnetic waves. D.Skin effect.Wave polarization.Electric and Magnetic boundary conditions. Field & Wave Electromagnetic: Cheng.transmission line parameters.VSWR. Module 5 Transmission lines -Transmission line equations.Electrical scalar potential.Solution for free space condition.Electric flux-Gauss’s Law.Poisson’s and Laplace equations. 4. H.Helmholtz theorems.Stub matchingSmith chart . Electromagnetics: J.Rectangular wave guides.Phase velocity and group velocity. Static electric field: Coulomb’s Law of point charges. .Ampere’s Law.Solenoid.different types of potential distribution. Jordan.BiotSavarts Law.Co-ordinate transformations. References 1.Maxwell’s equations. inductance of transmission lineMutual inductance energy stored in magnetic fields.Potential gradient.capacitance between coaxial cylinders. Module 2 Magnetic field: Steady current and current density in a conductor. Module 3 Maxwell’s equations and travelling waves: conduction current and displacement current.capacitance between parallel wires. Cylindrical and Spherical co-ordinates systems. Module 4 Guided waves between parallel planes. C.Boundary conditions Capacitance: Capacitance of isolated sphere.Plane waves.transverse electric and transverse magnetic waves and its characteristics. interrupt nesting.vectored interrupts. Electromagnetic Theory: Sadiku. . Premlet. Computer organization – Hamacher C V.sequencing of control signalshardwired control.serial and parallel standards. Schaum series.secondary memories. Mc Graw Hill.array processors. Pearson Edn.Micro program sequencing.handling multiple devices.branch address modification.accessing I/O devices.disk drives. Module 3 Memory organization. Module 4 Input-Output organization.integer division.interrupts and interrupt handling. & Architecture: Stallings.VDUs.cache memories -mapping functions .Booth’s algorithm.standards.multiplication.device identification. Computer organization and Architecture – Hayes J P 5.different addressing modes.replacement algorithmsvirtual memories.address translation-page tables .bus arbitrationsprinters.pipeline architecture.pre fetching of micro instructions.control signals. Pearson Education.memory management units. Electromagnetics: Edminister.buses-scheduling.semi conductor RAM memories.plotters.instruction execution cycle. 6. H F Jordan.dynamic memories.I/O interfaces.micro instructions .multiple memory modules and interleaving.addressing methods and machine programming sequencing. COMPUTER ORGANISATION AND ARCHITECTURE LA 504 2+1+0 Module 1 Basic structure of computer hardware and software.internal organizationbipolar and MOS devices. Module 2 Control unit.micro programmed controls. Electromagnetic Theory: B.classification. 2 Edn. 2.instruction sets. 7.networks. Computer organization and Design – Pal Choudhary 4.5. Module 5 Introduction to parallel processing and architecture.daisy chaining.multistage networks.interconnection.fast multiplication. References 1.floating point numbers.PLAs.message passing architecture. 3. Oxford University Press. Computer Org.direct memory access (DMA).fast adders.computer arithmetic logic design. Computer Systems and Architecture – Vincent P Heuring. ideal op amp .LM 380 power amplifier .regenerative (Schmitt trigger) comparators.frequency response of op amps .dual input balanced output and unbalanced output.Switched capacitor filter.Triangular and sawtooth wave generators.Summer.1723 switching regulators.capture and lock range. Module 4 Filters and timers: LPF. monostable multivibrator and its applications.transfer curve .HPF.317 variable regulators. Module 5 Specialized ICs and applications: Voltage regulator ICs – 78XX and 79XX series.Notch and all pass filters.565 PLL .566 VCO chipPhase locked loop(PLL) . References .RC phase shift and Wien bridge oscillators-Sample and hold circuit.applications.FM detection.using voltage reference.intercom using LM 380.Astable multivibrator. 555 timers – Functional block diagram.I order and II order filters.power supply requirements .Internal block schematic of op amp . Module 3 Op amp applications.8038 Function generator chip .BPF.voltage follower .AM demodulation.Switched capacitor integrator.Peak detector circuit.Differential amplifiers with one op amp and 3 op amps.V/I converters and its applications .concept of virtual ground.open loop configurations . Module 2 Op amp in closed loop configuration: Different feed back configurationsVoltage series feedback and voltage shunt feedback .Astable and monostable multivibrators.Integrator and differentiator.FSK demodulation .PLL applications: Frequency multiplication and division.Subtractor.Antilog amplifierComparators: zero crossing.slew rate and its effect.compensating networks .Use of offset minimizing resistor (ROM) and its design.equivalent circuit.typical data sheet Op-amp parameters .Log amplifier.Pin identification.LINEAR INTEGRATED CIRCUITS LA 505 3+1+0 Module 1 Introduction to operational amplifiers – Basic differential amplifier . Module 4 Machine cycles – interrupts . 2. mode3 .instruction timings and operation status.Pearson Education.TCON SFR .pin configuration and functions – tristate bus concept .instruction execution . Linear Integrated circuits: Roy Choudhary & Jain.generation of control signals .ONCE mode.single step operation .mode0.program protection modes .and memory mapped I/O schemes . Module 5 Timer0 & Timer1 .program branching instructions .PORT0.internal block schematic .interrupt handling . mode1.baud rates.direct & indirect addressing area .pin configurations . PORT1.data memory .Boolean instructions .pin descriptions .mode0. Op amps and Linear Integrated circuits: Ravi Raj Dudeja. 3.I/O mapped I/O .architecture of 8085. idle & power down mode . mode2. mode1. Module 3 Memory organization . Op amps and Linear Integrated circuits: R F Coughlin.Wiely Eastern Publications.interrupt enable register interrupt priority .port bit latches and buffers .logical and data transfer instructions . 5. Module 2 Atmel AT89C51 microcontroller – features .1.block schematics. Op amps and Linear Integrated circuits: Ramakand Gaykwad.addressing modes instruction set – arithmetic .power control register .power on reset circuit.Programming examples.serial interface . mode3.Program status word .on chip . 4.Umesh Publications. mode2. PORT2.program memory . Integrated circuits: K R Botkar MICROPROCESSORS AND MICROCONTROLLERS L506 3+1+0 Module1 Introduction to microprocessors and microcomputers: Function of microprocessors.register banks .interfacing of RAM and EPROM .memory decoding .flash programming & verification.fetch/execute cycle .bus timings – demultiplexing AD0-AD7 – flags .PHI publications.interrupt sources .interrupt control system .TMOD SFR .I/O addressing . PORT3.SCON SFR .port structures and operation accessing external memory – programming examples. oscillator- external program & data memory timing diagrams- I/O port timings – programming examples. References 1. 2. 3. 4. 5. The 8051 Microcontroller: Muhammad Ali Mazidi, Pearson Education. The 8051 Microcontroller: Kenneth J Ayala, Penram International Microprocessors and Architecture: Ramesh S Goankar Microcomputers and Microprocessors: John Uffenbeck, PHI Web site of Atmel - www.atmel.com DIGITAL IC LAB LA 507 0+0+4 List of experiments 1. TTL & CMOS characteristics (7400, CD4001) 2. Interfacing of TTL & electromagnetic relay using transistor, opto coupler (4N33) & Darlington arrays (ULN2803). 3. Logic family interconnection (TTL to CMOS & CMOS to TTL) 4. Design of half adder & full adder using gates. 5. Design and testing of ripple & synchronous counters using JK flip flops (7473, 7476) 6. Counters using shift registers (Ring counter & Johnson counter). 7. Study of counter ICs (7490, 74190). 8. Design of astable & mono-stable multi-vibrators using gates. 9. Design of mono-shots using dedicated ICs (74123). 10. Logic design using multiplexers (74150). 11. Logic design using decoders (74138). 12. Adders, Subtractors, multipliers. 13. Design of 7 segment display circuits-static/dynamic (7447, FND542). 14. PRBS generator. 15. Digital circuit simulation using electronic work bench/ similar working tools. Note Any experiment related to LA402 may be added to the above list. COMMUNICATION - I LAB L 508 0+0+4 List of experiments 1. Passive filters – constant K and M derived. 2. Amplitude modulation. 3. Frequency modulation. 4. PWM using SG3525. 5. 555 Applications 6. 566 Applications 7. Study of 565 and its applications 8. Crystal oscillator 9. Oscillators using OP-AMP 10. Colpitts & Hartley oscillator. 11. Multiplexing using analog multiplexer IC’s. Note Any other experiments may be added to the above list related to LA403. SIXTH SEMESTER capital and organization.Industrial disputes-Trade Unions.DelegationManagement by Objectives. Dhanpat Rai Pub. Formation of companies: Proprietory-Partnership-Joint stock companies.N. Industrial Management Industrial Management Marketing Management Indian economy Modern economic theory O P Khanna.Progressive and regressiveBlack money.Factors of productionLand.Price mechanism.Market research-Advertising.IDBI.Span of control.K. Ahuja.Channels of distribution.Multinational corporations and their impact on the Indian economy.INDUSTRIAL MANAGEMENT & ECONOMICS LA 601 3+2+0 PART A: INDUSTRIAL MANAGEMENT Module 1 Modern concept of Management: Scientific management-Functions of management-Planning-OrganisingStaffing-DirectingMotivatingCommunicating.K Dewett. 3. PHI A.Promotion.SIDBIIRBI.ICICI.Direct and indirect taxes. Wishwa Prakashan K. Khanna Pub.Indian capital market. . Module 5 Indian financial system.Quality circles.Construction of Network (Basic ideas only). Agarwal. Module 2 Personnel management: Objectives and functions of personnel managementRecruitment-Selection and training of workers.Taxation. labour. Line and staff and Functional relationships.National income.Stock market.Labour Welfare.Insurance companies.Commercial banking system-Development financial institutions. K. References 1.Role of the public sectorPrivatisation. Philip Kotler.NABARD.Line.Co-ordinating.Difficulties in estimation.Reserve bank of India: Functions. 2.Functions.Industrial Fatigue.Inflation-Causes and consequences. Production Management: Batch and mass productionInventory control. Shyam Lal charitable trust. 4.Investment institutions-UTI.Public sectorJoint sector and Co-operative sector. Module 3 Marketing Management: Pricing. 5.EOQ-Project planning by PERT/CPM.Controlling-Organisational structures. PART B: ECONOMICS Module 4 Theory of demand and supply. Adaptive equalization. 4. Base band data transmission: .M-ary PSK.Scrambler. 6.BPSK.Quantization noise.Binary versus M-ary signaling schemes. Module 4 Digital transmission of Analog signals: .DIGITAL COMMUNICATION TECHNIQUES L 602 3+1+0 Module 1 Random Signal Theory: Review of discrete and continuous random variables-Gaussian probability function.MSK. Pearson Education.Unscrambler.Siman Haykin.BFSK. Digital and Analog Communication System: K Sam Shanmugam.Detection of binary signals in Gaussian noise: -Maximum likelihood Receiver structure.A law μ law PCM system.Noise figure.Nyquist pulse shaping criteria. TMH.DPSK.optimizing error performance.DPCM delta modulation system. Module 2 Correlative coding: -Duobinary Base band PAM system.Use of controlled ISI. Communication Systems Engineering: Proakis.Eye pattern. .QPSK. References 1.ADM.HDB codingEqualization.Leon W Couch.Manchester coding.CVSD.Inter symbol interference.comparison.Quantizing uniform non-uniform quantization -Companding.Base band binary data transmission system.M-ary signaling scheme (no analysis). 3.properties. Module 3 Digital transmission: .error probability performance of binary transmission system. 5.Noise types.Pearson Education 2. Digital Communication.Receiving filters. Principles of Communication System: Taub & Shilling.Sampling .slope over loading.Matched filterCorrelation realization of matched filter. Module 5 Noise in communication system: .M-ary FSK. Digital Communications: Sklar. Pearson Education. Digital & Analog Communication System.Optimum transmitting.SNR.Probability of errorEffective Noise temperature.pre coding.Bipolar coding.error functioncomplementary error function. FFT algorithms – General Computation using Radix 2 algorithm.design based on numerical solutions of differential equations.rounding .Fast Fourier Transform.quantization .Block floating point numbers. Module 5 Applications of digital signal processing: Speech Processing.Location of the zeros of linear phase FIR filters.DSP based measurements systems. Equi ripple FIR design.advantages and limitations of Digital Signal Processing. Module 3 Discrete fourier Transform: Properties-Circular convolution.speech coding.Radar signal processing.sub band coding.Finite Word Length Effects in FIR Digital Filters.relation between Z.zero-input limit cycle Oscillations .Overflow limit cycle Oscillations .One’s-complement.Product quantization error .Two’s complement forms -Addition of two fixed point numbers.PCM DSP chips.Linear Convolution using DFT.Fixed Point. Infinite Impulse Response (IIR) Filters .quantization errors in FFT algorithms. Design of IIR Digital filters from analog filters.Direct.Basic Network structure for IIR filter.speech analysis.Sign-Magnitude . decimation – in time and Frequency .Parallel Forms.effects due to truncation and rounding.Co-efficient quantization error.Floating point numbers.Impulse Invariant Transformation.cascade .truncation.a general study.triangular or Barlett windows.Number Representation . Module 4 Finite word length effects in digital filters: Introduction.Multiplication in Fixed Point arithmetic .channel vecoder.digital processing of audio signals. Realization of FIR.Frequency response of linear phase FIR filters .Blackman.Quantization in Floating Point realization IIR digital filters .Signal Flowgraph.Transform and DFT.Cascade.Butterworth designChebyshev design.Quantization effects in the Computation of the DFT.lattice design-Fourier Series methodusing windows-rectangular. . Module 2 Finite Impulse Response (FIR) Filters: Linear phase FIR filters.HanningHamming.homomorphic vecoder.DIGITAL SIGNAL PROCESSING LTA 603 3+1+0 Module1 Review of signals and systems: Introduction .Kaiser windows.Scaling.Input quantization error . 6. Module 3 VLF and LF transmitting antennas-effects of ground on antenna-performancegrounded antennas-effects of antenna height and effective height of antennamedium frequency antennas-dipole antennas-V and inverted V antennasRhombic antenna-traveling wave antennas-folded dipole. L 604 2+1+0 Module1 Retarded potentials: Radiation from an A. two point sources. Desecrate time signal processing: Oppenhiem. Microstrip antennas. End-fire arrays.super directive arrays.selective fading-diversity reception. 4.SWR method. 5.Scitech Pub. Module 2 Antenna array: Classifications-Broad-side.References 1.Pearson edn. Digital signal processing: P Ramesh Babu. 3.beam width measurements-gain measurements-measurements of radiation resistance -radiation efficiency.Pearson edn.C current element monopoles and dipoles-power radiated from a dipole isotropic radiators.PHI Introduction to Digital signal processing: Johny R Johnson Digital signal processing: Proakis and Manolakis. 2. D.Chebyshev arrays. multiplication of patterns -binomial array-stacked array folded dipole.radiation patternradiation intensity-directive gain-power antenna efficiency-effective areaeffective length and aperture-Reciprocity theorem-radiation resistance-antenna beam width. Antennas and wave propagation .reflector-Basic principles of antenna-parabolic reflector different methods. Yagi-Uda antennaBasic principles of radio direction finding-loop antennas. References 1. RADIATION & PROPAGATION .K. Prasad Digital signal processing: Ifechor. Module 4 Factors involved in the propagation of radio waves: the ground waveReflection of radio waves by the surface of the earth-space wave propagationconsiderations in space wave propagation-atmospheric effects in space wave propagation-ionosphere and its effects on radio waves -mechanism of ionosphere propagation-refraction and reflection of sky waves by ionosphereray paths-skip distance-maximum usable frequency-vertical and oblique incidence-fading of signals . Array of npoint. Module 5 Antenna measurements: Input impedance. Duct Propagation.radiation pattern measurements. Digital signal processing: Oppenhiem and Sheffer. pulse frequency. Module 2 Transducers-parameters of electrical transducers-types-active and passiveanalogue and digital types of transducers.2.Strain measurement . Opto electrical type-photo emissive. . capacitive.Wheatstone bridge . Mc Graw Hill. ELECTRONIC INSTRUMENTATION L 605 3+1+0 Module 1 Objectives of engineering measurement-Basic measuring system-block diagram and description-Performance characteristics of instruments-static and dynamic. Data transmission elements-block diagram of telemetering system-classification of telemetering systern-Electrical telemetering system--voltage.Pressure measurement .Wagner ground connection.A. response time & settling time. Types of data-static-dynamic-transient-rise time. current and position type-RF telemetery-pulse telemetery (analog and digital)-pulse amplitude.Owen's bridge .D/A multiplexing and A/D multiplexing. Antennas . Error -classification of measurement errors--sources of measurement errors. Module 3 Intermediate elements-instrumentation amplifier.John Krauss.Flow measurement . Electromechanical typepotentiometric.Force & torque measurement. Recording techniques-strip chart recorders-basic principles of digital recording. strain gauge.Wein Bridge .F E Terman.Shering Bridge . Basic principles of Signal Analyzers-Distortion analyzer wave analyzer. AC bridges . Radio Engg .Temperature measurement . ionization and mechano electronic type. Frequency generating type-digital encoders-selection criteria for transducers. Ballanis 4. Module 5 Basic measurements .guarded Wheatstone bridge. spectrum analyzer. Analog and digital information-comparison. inductive (self generating and non self generating type). piezo electric. isolation amplifier. Mc Graw Hill 3. photo conductive and photo voltaic type. Module 4 Bridge measurements . Multiplexing . Antenna theory and design. pulse duration and pulse position modulation. TMH. PHI. mechanical and electromechanical system – block diagram – signal flow graph – Mason’s gain formula. References 1.U. 3.Rangan. Module 5 State variable analysis and compensation techniques – introduction to state variable concepts – state variable description of linear dynamic systems – state equations – state transition matrix – representaion of state equations – lag compensator – lead compensator – lag lead compensator (design of compensators is not needed). Module 2 Time domain Analysis – Type and order of a system – typical test signals for the time response of control system – impulse and step response of first and second order systems – steady state error – static and dynamic error coefficients – concepts of stability – Routh Hurwitz criterion – basic ideas of proportional. PHI. Principles of Measurement & Instrumentation – Morris. derivative and integral controllers.References 1.Doeblin. Modern control engineering – Katsuhiko Ogata. Module 4 Root Locus technique – basic theory and properties of root loci – procedure for construction of root loci – error detectors – servo motor – tacho generator – magnetic amplifier. Instrumentation-devices and systems . Sarma & Mani. MGH. Pearson Edn . 4. 2. Measurement Systems . Module 3 Frequency domain analysis – frequency response – frequency domain specifications – Bode Plot – Nicol’s chart – Nyquist stability criterion – relative stability – gain margin – phase margin. CONTROL SYSTEMS L 606 3+1+0 Module 1 Introduction to control system – Basic idea of control systems and their classifications – transfer function – transfer function of electrical. Transducers & Instrumentation – D. S Murthy. Switched capacitor filter. the following laboratory experiments should also be done in the lab. 4. 6. Pearson Education. 8. PHI. Automatic control system – B. Square wave. 6. . 7. Saw tooth generation using op amp. Note Any experiment related to L505 may be added to the above list. PHI. 2. voting machine etc. Each student must keep a project notebook. 3. Active filters: LPF. Sample and hold circuit. and debugging of an electronic system approved by the department. Logarithmic amplifiers. The notebooks will be checked periodically throughout the semester. burglar alarm. 8038 function generators. 10. Astable and mono stable multi-vibrators using 555 Light activated alarm circuit Speed control of electric fan using triac Illumination control circuits Touch control circuits Sound operated circuits.2. BPF. Triangular. L 607 0+0+3 Control systems principles and design: M. 4. 5. 8. Gopal. 4. SMPS. Schematic capture software (OrCAD or similar) familiarization. Digital to analog converters. 2. his own components and accessories. Modern Control Systems: Dorf. MINI PROJECT L 608 0+0+3 The mini project will involve the design.C. Precision rectifiers. Analog to digital converters. as part of the project grade. inverter. Kuo. 9. The schematic and PCB design should be done using any of the standard schematic capture & PCB design software. 3. LINEAR IC LAB List of Experiments 1. In addition to this. Control system design: Graham C Goodwin. 5. 3. construction. UPS. All pass & notch filters. There will be several projects such as intercom. 7. 5. 1. TMH. HPF. Measurement of op amp parameters. Each student may choose to buy. for his convenience. PCB design software (OrCAD Layout or similar) familiarization. A demonstration and oral examination on the mini project also should be done at the end of the semester. The university examination will consist of two parts. . 70% marks will be allotted for the demonstration and viva voce on the mini project. One of the lab experiments will be given for examination to be completed within 60 to 90 minutes with a maximum of 30% marks. SEVENTH SEMESTER . 6.low voltage differential signaling – PC printer port – registers – interfacing .power factor – stepper motor interface .phase angle . Module 4 Serial bus standards . Module 3 Analog to digital converters. Web site of Atmel semiconductors .single slope.design of a position control system .interfacing – interfacing programs using C and assembly language . 4. successive approximation. flash – comparison . 5.measurement of frequency .RS232.interfacing serial communication standards . 3. RS422.optically isolated triac interface. 22V10 GAL – dual port RAM – FIFO . 7 segment display. Microcomputers and Microprocessors: John Uffenbeck.89C2051 micro-controller.universal serial bus – PCI bus.dc motor speed control – L293 motor driver . 7.gate arrays. References 1.interfacing programs using C and assembly language. Module 2 Embedded C compiler – advantages – memory models – interrupt functions – code optimization .architecture-comparison with 89C51. Module 5 Matrix key board interface .com .interfacing programs using C and assembly language.MICRO-CONTROLLER BASED SYSTEM DESIGN LA701 2+1+0 Module 1 Various logic families .AT keyboard – commands – keyboard response codes . Pearson Education.design of a simple trainer circuit using 89C51/89C2051 µC – interfacing of DIP switch. SPI bus – operation – timing diagrams – 2 wire serial EEPROM – 24C04 – 3wire serial EEPROM – 93C46 . sigma delta.GAL -comparison – combinational PAL – PAL with flip-flops – study of 16L8. LED. alphanumeric LCD – relay interface – design of a traffic light control system . Pearson Education. Digital fundamentals: Floyd. 2.FPGA .features – comparison – PLA – PAL.DS1232 watch dog timer – real time clocks – DS1302 RTC – interfacing .typical ICs . The 8051 Microcontroller: Muhammad Ali Mazidi.design of a temperature control system.watch dog timers . RS485 – comparison – MAX232 line driver/ receiver .A/D interface – digital to analog converters – different types – D/A interface .I2C bus.interfacing programs using C and assembly language. Programming and customizing the 8051 µC: Myke Predko. The 8051 Microcontroller: Kenneth J Ayala.atmel. TMH Programming with ANSI C and turbo C: Kamthane. Pearson Education. PHI. Penram International.www. dual slope. design rules. Basic VLSI design: Douglas Pucknell. electron beam and x-ray lithographyChemical vapour deposition (CVD).impurity profileparasitic effects.buried layer.LithographyPhotolithography. CMOS logic systems – bus lines.Basic circuit concepts. Module 2 Monolithic components: Isolation of components.Latch up. BiCMOS circuit.Driving large capacitance loads.subsystem design processdesign of a 4 bit shifter. .Crystal structure.monolithic capacitors.MOS resistors.resistors in diffused regions.IC crossovers and vias.stick diagrams.Transistor fabrication.Twin well process.scaling factors.schottky diodes and transistors.fabrication steps. control of threshold voltage (Vth).Channeling effect. PHI.Fick’s I and II law of diffusionDiffusion profiles. Modern VLSI design: Wolf.effects of miniaturization.Delay.MOSFET.junction and MOS structures.power supply rail distribution. 3. Integrated Circuits: K R Botkar. NOR gates.metallisationpatterning. Principles of CMOS VLSI Design: H E Weste.FET structures.Simple logic circuits. NAND gates.silicon shaping. 4.scaling of MOS structures. References 1.Gaussian profile.Doping process.sheet resistance and resistor design.circuit design process.complementary (erfc) error function.silicon gate technology.reactors.Ion implantation.Wiring capacitance.inverter. Module 3 CMOS technology: Metal gate and silicon gate.Oxidation process.VLSI TECHNOLOGY LA 702 3+1+0 Module 1 Process steps in IC fabrication: Crystal growth and wafer preparationCzochralski process.epitaxial growth.BiCMOS technology.MESFET. Pearson Edn. Khanna Pub.Capacitance of layers.JFET.physical mechanism. Module 5 Gallium Arsenide Technology: Sub-micro CMOS technology.monolithic diodes.wire bonding and packaging. Mc Graw Hill pub. slicing and polishingDiffusion of impurities.GaAs fabricationDevice modeling. VLSI technology: S M Sze. 2.apparatus. 5.PMOS and NMOS. Module 4 Subsystem design and layout.arrangementspower dissipation.Annealing process.junction isolation and dielectric isolation. Pearson Education.oxide isolation.Monolithic resistors. Fine line lithography. principle of operation. Module 3 Microwave semiconductor devices.CW radar.Principle of operation of Transistors and FETs. Passive microwave devices.S matrix formulation of two-port junction. Introduction to VLSI: Conway.Instrument Landing System.Phase changer.Wave guides.VSWR. — M Kulkarni. Addison weslay. 7. Module 5 Direction finders.Traveling Wave Tube.Multicavity Klystron. Microwave devices and circuit: Samuel Liao.advantages and applications. Module 2 Microwave measurements.Tunnel diode.High frequency limitations.Isolator. its S matrix and properties.Block schematic of pulse radar. Transferred Electron Devices. 4. Directional coupler-TerminationGyrator.principle of operation. McGraw Hill.IMPATT and TRAPATT devices. 5.6. PHI.Doppler navigation Global positioning system.Circulator.Attenuator.Different types of microwave antennas-basic principles. References 1. Avalanche Transit time devices.principle of operation.InP diode. Microwave and Radar Engg. NavigationHyperbolic navigation.LORAN.Radio ranges. Module 4 Radar range equation.Radar frequenciesApplications of radar.Magnetron.H plane.Reflex Klystron.T junctions.frequency.Properties of S matrix.Applications of Hybrid junction. Microwave and radar — A K Maini. MICROWAVE AND RADAR ENGINEERING L703 3+1+0 Module 1 Introduction to Microwaves. IEEE press.power.FM CW radar-FM CW altimeter.MTI and Pulse Doppler radar. Microwave Communication: Basic Principles of Microwave Links – Microwave relay Systems – block schematic of terminal transmitters and receivers – repeaters – basic principles of design of a microwave links. Introduction to radar systems — Merrill I Skolnik.CW radar with nonzero IF.impedance.applications of CW radar. Khanna Publishers. CMOS circuit design layout and simulation: Barter.Gunn diode as an Oscillator and an amplifier. Microwave tubes. Radar systems and radio aids to navigation — A K Sen & A B Bhattacharya. .Characteristic features. Scattering matrixConcept of N port scattering matrix representation.Gunn diode. E plane and EH plane Tee junctions. 2. Satellite navigation. 3.basic concepts and properties. applications of fibre optic systems. LASER diodes. PHI 6.Index profile-effect of index profile on propagation.dispersion measurementsrefractive index profile measurements.band width measurements.Introduction to optical fibre networks.Mode coupling – Attenuation in single mode and multimode fibres.numerical aperture.splicing techniques. Electronic communication: Dennis Roddy & John coolen.Propagation in fibre.Ramabhadran. Optic fibre communication: John M senior.total internal reflection .Optic fibre cables.Optical wave guides . 3.Measurements. PHI.rise time budgetprotection techniques.expression for acceptance angle-acceptance cone – numerical apertureV number . Fibre optic communication technology: Djafer K Mynbaev. Fibre optics in telecommunication: Sharma. Pearson Education.reflections at boundarycritical angle.optical fibre connectors. Module 3 Optical sources. 5.point-to-point link.cutoff wave length measurements. 4.optical receivers.Brief description of modes in SI fibre and GI fibrePulse dispersion and Band Width limitation. Module 4 Basic optical communication systems.source to fibre power launching – lensing schemes. Module 5 OTDR .fibre attenuation measurements. Telecommunication principle circuits Systems and experiments: S.OPTICAL FIBRE COMMUNICATION SYSTEMS L704 2+1+0 Module 1 Recollection of basic principles of optics: ray theory. Khanna. 2.modulation circuits.photodetectors-principles of photo detection – PIN diode – APD – operating principles – photo-multiplier tubes. Optical communication system: John Gower.LEDs.SOAs – EDFAs.future developments References 1.operating characteristics. Mc Graw Hill .WDM – transceiver requirements-TDM.characteristics of cables. Module 2 SI fibre and GI fibre .Optic fibre couplers: types of coupling – fibre to fibre joints. PHI.optical amplifiers. Shannon-Hartley theorem. Ltd 8. Coding and interleaving applied to CD digital audio system -CIRC encoding and decoding. Optical Networks .Concept of amount of information -units. Pearson Education. Coding efficiency and redundancy. Linear block codes. Arithmetic coding. Optical communication: M Mukund Rao . Universities press. Generator and Parity check matrices. Binary Symmetric Channel. Sequential decoding -Stack algorithm. Hamming codes. Syndrome computation and error detection. Noiseless coding theorem. Module 4 Codes for error detection and correction: . Module 2 Discrete channels: . Maximum likelihood decoding of convolutional codes -Viterby algorithm. Error detecting and correcting capabilities. Module 3 Source coding: . 10.Parity check coding. Decoding of cyclic codes.Types of ARQ. Capacity of a channel with infinite band width. Performance of ARQ. Probability of error and throughput. Pearson Education.Symmetric channels. interpolation and muting. Standard array and Syndrome decoding. repetition of symbols. ARQ: . Shannon theorem. Huffman coding. 9. channel capacity. ZIP coding. Cascaded channels. Optical fibre and fibre optic communication: Subir Kumar Sarkar.Block and convolutional interleaving. Burst error correction. redundancy and efficiency of channels. RS codes. BCH codes.3rd Generation Transport systems: Black. Digital Communication system with Satellites & Fibre Optics Applications: Kolimbris.7. Tree and Trellis diagrams. Construction of basic source codes: . Optimum modulation system. Interleaving techniques: . Construction of instantaneous codes. Kraft's inequality. information rate.Encoding techniques.Capacity of band limited Gaussian channels.State. S Chand & co. Generator and Parity check matrices. Binary Erasure Channel. INFORMATION THEORY AND CODING L705 3+1+0 Module 1 Information theory: . Entropy -marginal.Encoding. Encoding and decoding of systematic and unsystematic codes. Trade off between band width and signal to noise ratio. Pearson Education. Fiber Optic Communication: Palais. conditional and joint entropies -relation among entropies Mutual information. Purpose of encoding. Encoding of cyclic codes. Module 5 Convolutional codes: .Generator polynomial. . Binary unsymmetric channel. 11. Continuous channels: . Cyclic codes: . Instantaneous codes.Shannon-Fano algorithm. S. John Wiley & Sons. Principles of Operations Research for Management: F. T. Optimization Concepts and applications in Engineering: A. Ltd. Prentice Hall Inc. Tata McGrawHill 3. Ltd. Module 3 Unconstrained minimization Gradient of a function – Steepest descent method – Newton’s method – Powells method – Hooke and Jeeve’s method. McLeavey. Taha. 4. Module 5 Network Techniques Shortest path model – Dijkstra`s Algorithm – Floyd`s Algorithm – minimum spanning tree problem – PRIM algorithm – Maximal Flow Problem algorithm. Costello Jr. 4.References 1. Operations Research: R. Chandrupatla. Pearson Education Asia. D. Eastern Economy Edition. A. Belegundu. Principles of Digital Communication: Das. 5. INC. mixed integer programming problems.Multivariable optimization with inequality constraints – Kuhn-Tucker conditions.I) CMELRTA 706. Error Control Coding Fundamentals and Applications: Shu Lin & Daniel J. New Age International P. Module 2 One-dimensional unconstrained minimization Elimination methods – unrestricted search method – Fibonacci method – Interpolation methods – Quadratic interpolation and cubic interpolation methods. Irwin. Richard D. 3. Module 4 Integer – Linear programming problem Gomory’s cutting plane method – Gomory’s method for all integer programming problems. S..1 3+1+0 Module1 Classical optimization techniques Single variable optimization – Multivariable optimization with no constraints – Hessian matrix – Multivariable saddle point – Optimization with equality constraints – Lagrange multiplier method . R. PHI . References 1. Person Education Asia OPTIMIZATION TECHNIQUES (ELECTIVE . Panneerselvam. Communication Systems: Simon Haykin. 2. Optimization theory and application: S. Mojena.R. Wiley Eastern Ltd. Mullick & Chatterjee. 5. Operation Research an introduction: H. Budnick. Digital Communications Fundamentals and Applications: Bernard Sklar. Rao. D. Principles of Communication Systems: Taub & Schilling. Pvt. 2. Applications .simulation using abstract classes. Data abstraction & OOP in C++: Gordenkeeth. Wiley Eastern.Inline functions outside class definitions .I) L706-3 3+1+0 Module 1 Introduction . Object Oriented Programming in C++: Nabajyoti Bjarne. Balaguruswamy. 4. Object oriented programming usig C++: Pohl.Defining virtual functions – Usage of virtual functions .constructors and destructors members access control.Single layer & multi-layer networks . Module 2 Back Propagation . TMH.I) LA706-2 3+1+0 Module 1 Introduction to loops: Evolution of object oriented languages .network configurations .temporal instability.Abstract classes .Declaring objects Member functions .Principles .Perception Representation . Ada) features.Overloading operators to provide new meaning .OBJECT ORIENTED PROGRAMMING IN C++ (ELECTIVE . 3. Pearson Education.Network paralysis .Friend functions. Module 3 POLYMORPHISM .Training algorithms.Using references with dynamic memory allocation . Module 5 DYNAMIC OBJECTS: Dynamic object allocation . C++.Linear separability .Training artificial neural networks . Pearson Education. Applications .Selecting Friend or Member Functions for Operator Overloading.Training algorithm .process of language translation – Need of objects Definition of Object . Module 3 .artificial neuron . C++ Programming language: Strostroup. References 1.Local minima . Smalltalk.Support for experiments and structure .Oriented Language. Module 4 OVERLOADING: Overloading functions . Object oriented programming with C++: E.Virtual functions . Module 2 Encapsulation & Inheritance: Building classes .activation functions .Object oriented databases case study – some language (Simula. 2. 5.Learning . NEURAL NETWORKS (ELECTIVE . Associative memory applications .continuous flow analyzer.Bioelectric potentials.B. Module 3 .indirect measurement.Adaptive resonance theory .Pay Y. Wasserman. Neural Networks .stability .propagationbio-potential electrodes.tests on blood cells. Module 5 Hopfield nets .Thermo dynamic systems .Training the Grosbery layer .I) L 706-4 3+1+0 Module 1 Biometrics.Transducers.Man-instrument systemcomponents.Training the cohenen layer Pre initializing the wright vectors .Counter Propagation networks: Kebenon layer .Gas exchange measurements.Resting and Action potentials. Schalkoff.Respiratory system.H.Recurrent networks . PHI BIOMEDICAL ENGINEERING (ELECTIVE .spectro photometer.Statistical Hopfield networks – Bidirectional associative memories .sphygmomanometer. Blood pressure measurements.Lung volume and capacities.parameters.Continuous BAM .The Kidney.Biomedical instruments.ECG recorder.direct measurement techniques. 5.electrodes and leads. Module 4 Statistical methods. Clinical measurements: Blood cells.chemical tests.Spirometer. An Introduction to neural computing .Nervous system. Adaptive Pattern Recognition & Neural Networks . Module 2 Biomedical measurements: ECG measurement.Artificial specific heat methods . 4.Chapman & Hall Artificial Neural Networks .Applications to general non-linear optimization problems. References 1.Philip D. 3.Architecture classification .different recorders.Boltzmann’s Training .Application. Respiratory measurements.Cauche training .Yegnanarayana. Text Book Neural Computing Theory & Practice .Robert J. McGraw Hill Artificial Neural Networks .physiological systems of human body.statistical properties .ECG-EEG-EMG.cardiovascular systemThe heart.Full counter propagation network .colorimeter. Pearson Education.Simon Haykins. 2.blood purification.Implementation. fixed rate systems. Module 4 X ray imaging and measurements: x ray generation. embedded systems . M mode instruments. 3. definition of real time systems – real time systems.C arm machine.Electronic scanners: Linear and Phased array.Bedside monitors.different dialysers.Block schematic of A mode. Tata Mc Graw Hill Pub. task control block .Hard real time systems.AttenuationDoppler effect. Module 3 . hybrid systems. scheduling – uni-processor scheduling – traditional rate monotonic.basic modes of transmission. 2. Module 2 Real time kernel – polled loop systems. Non-critical.packing algorithm. PHI.Prosthetic instrumentsartificial heart. Intensive care unit: Planning and location of different instruments. References 1. Biomedical Instrumentation & Measurements: Leslie Cromwell. interrupt driven systems – sporadic.detectors. real time design issues.Gantry. 4.x ray films.x ray machine.task status.blood flow measurements.let go current. Introduction to biomedical technology: Joseph J Carr.isolation of patients.Applications of Ultrasound: Gynecology and obstetrics. rate monotonic deferred server.I) LA 706-5 3+1+0 Module 1 Introduction to Real Time Systems – Structure of real time systems. continuous.artificial kidney.Fluoroscopycomputed tomography.need of grounding.isolated power distribution system. A handbook to biomedical instrumentation: R S Khandpur.photographic imaging. PRINCIPLES OF REAL TIME SYSTEMS (ELECTIVE .CAT scan: block schematic.image intensifiers. soft real time systems.hemodialysis. IRIS tasks – multiprocessor scheduling – utilization balancing algorithm.echocardiography. Electrical safety: Physiological effects of electric current. pulsed Doppler. EDF.pulsed. Pearson Edn. B mode.transmitter-receiver.pump oxygenators. Aperiodic.implantable units.echoencephalography.Ultrasonic imaging. myopic offline.applications. Houghton Mifflin Company. next-fit.pulse modulators. co-routines.Ultrasonic measurements: Characteristics of Ultrasound.cardiac imaging. bin. real time computer. critical. Module 5 Bio-telemetry: components in telemetry system. buddy strategy (no need of proofs) fault tolerant scheduling. task classes – Periodic.shock hazards. Biomedical Instrumentation: John G Webster. synchronization in software. Kang G. Text Book Real Time Systems References 1. Disk schedule algorithms. Transaction. Databases for hard real time systems. Computer aided assembly language program development for 89C51/89C2051. software error models. . 2. round robin. manual code entry. arithmetic operations (Using assembler. cause of failure. 7. protocols – contention – based. master chain model. redundancy – hardware. Design and construction of the following interfacing modules.M Krishna. Shini (McGraw Hill) MICROPROCESSOR AND MICROCONTROLLER LAB LA707 0+0+3 1. Use of assembler. Real Time Systems Hill Philip Laplante (IEEE) Krishna. hierarchal. network architecture issues. Real time databases. Study of Intel Hex file format. combinational model. integrated failure handling – reliability – parameter values – series – parallel systems. Module 4 Fault tolerance – definition. token . main memory databases. 3. 5. Programming examples using timer. external interrupts. Module 5 Programming Languages – Desired language characteristics.Communication – Communication Media and message sending topologies. fault tolerant routing – clocks and synchronization – fault tolerant synchronization in hardware. simple examples.based. transient faults. Real Time Systems. a) A/D converter. 4. time. Programming examples using Embedded ‘C’ compiler for 89C51/89C2051. fault detection and containment. Tata McGraw . NMR clusters. 9. Design & Analysis 2. Familiarization of 8085 trainer kit. Programming examples. stop and go multi-loop. linker and simulator for 89C51/89C2051. characteristics. 8. fault latency.C. maintaining serialization constituency. software. information. 6. simulator). Sorting. Design and construction of a simple flash programmer for 89C51/89C2051 µC. polled bus. fault types. 8. Seven segment display. Study of PLC's. 6. Study of optical fibers and optical communication systems. 10. PWM. Familiarization of Digital modulation and demodulation Trainer Kit. COMMUNICATION II LAB L708 0+0+3 1.Gain. Interfacing using RS 232 and printer port. 7. PCM. 74HC165). Infra red transmission and reception. Extending I/O port using shift registers(74HC595. Antenna Measurements . PAM. Matrix keyboard interface. Opto isolated I/P and O/P.b) c) d) e) f) g) h) i) j) k) l) Note D/A converter. Real time clock. Directivity. wavelength. 2. 4. Radiation Pattern of various types antennae. PPM. Any other embedded processor with similar or better capability may be used instead of 89C51/89C2051. . Display systems. Impedance. Microwave measurements . Attenuation. Wave-guide Measurements. Delta modulation. 5. PSK.VSWR. 3. Experiments of Satellite communication system. Alphanumeric LCD display. 9. Characteristics of Klystron. Stepper motor. Serial EEPROM. ASK. EIGHTH SEMESTER . ISO-OSI 7 Layer Standard -peer processes-Functions of each layer-TCP/IP reference model . 4. 2. Computer Networks.base band and broad band transmission-synchronous and asynchronous -full duplex. Module 5 Application layer . Computer Networking: A Top Down Approach: Kurose Pearson Education.crash recovery .Transmission media -description and characteristics . Module 2 MODEMS-serial communication standards . 3.design issues -data exchange .cryptographypresentation layer in ARPANET.virtual terminal .polling-multiplexing. Uyless Balack 7. Module 4 Session layer.dialogue management synchronization. protocols standards & interfaces. An Engineering Approach to Computer Networking: Keshav. Computer Networks: Andrew S Tannenbaum. References 1.COMPUTER NETWORKS LA 801 3+1+0 Module 1 Network goals -topologies.Presentation layer-data presentation-compression.network security-privacy.ATM adaptation layer -AAL protocols -basic principles of SDH and SONET. Computer Network & Internet: Comer. Pearson Education.Need for data link layer-stop and wait and sliding window protocol-HDLC-terminal handling. Transport layer.Concepts of WAP technology.flow control – buffering . half duplex links.shared memory -IEEE802 standards-introduction to X-25. Pearson Education.establishing and releasing connection .X-21 digital interface. 5.design issues. Pearson Education.base band and broad band Lan’s .2nd ed-William A Shay (Vikas Thomson Learning) .file transfer protocol-E-mail-introduction to distributed system . Data communication: Hausly 6.remote procedure call-client server model .a simple transport protocol on X-25.ATM-protocol architecture -ATM logical connections -ATM cells -cell transmission. Local Area Networks: William Stallings. Module 3 LAN. 8. Understanding Data Communication and networks.configurations-concept of internet.carrier sense networks-CSMA/CD -ring network. Pearson Education.concentration-virtual circuit and data-grams routing -congestion control. Module 3 The cellular concept – Introduction . 3.Global positioning Systems .Antenna look angles .Multiple Access Techniques– Introduction. 2. Satellite communication: Gagliardi. Pearson Education. Tracking and telecommand .Pseudo noise sequences – time hopping-frequency Hopping – Robustness – Fast and Slow hopping – Hybrid & Chirp spread spectrum. Electronic communication system fundamentals: Wayne Tomasi.down converter . References 1.INTELSAT/INMARSAT –Overview of INSAT.demodulators. Pearson Education.system block . Module 5 Spread spectrum Techniques and remote sensing.channel filters .ADVANCED COMMUNICATION SYSTEMS L802 3+1+0 Module1 Satellite Communication .Global System for Mobile – services and features – Architecture – Radio subsystem – channel types – frame structure . .basic concepts. CDMA .FDM-FMFDMA.Fundamentals and Applications.Spacecraft subsystem (block schematic).frequency allocation. DSS-Direct broadcasting and community broadcast .Link Budget .Packet satellite network-domestic satellite system.Switching techniques – circuit – message . SSMA.System parameters analysis link equations.Synchronization – acquisition – Tracking Concepts of Jamming -Analysis of DS/SS – Analysis of avoidance-generation of signals-detection –Applications.functioning LNA – LNB .positioning – Applications. Module 4 Wireless communication system-paging-cordless & cellular system – comparison-Second generation cellular networks-third generation cellular networks . PSK-TDMA. Wireless communication principles and practice: T S Rappaport. Module 2 Types of satellite communication system-FSS.Frequency reuse –channel assignment – Hand off strategies – prioritizing handoff –practical handoff – Co-channel interface and system capacity – channel planning – adjacent channel interference –Cell splitting – sectoring – repeaters – micro-cell concept.Satellite classifications .Earth stations – Antenna systems – receiver subsystems (block) .Satellite orbits – Geo synchronous orbit –orbital velocity – Round trip time delay .spacing .Blue tooth technology.packet switching. relative program memory addressing. register relative addressing. Pearson Education. 6. Module 5 Advanced Intel Microprocessors . John Wiley&Sons.80286 Architecture. Space communication System: Filipowasky. base relative plus index addressing.direct program memory addressing.80386 Architecture and system connection – Real operating mode – 386 protected mode operation – segmentation and virtual memory – segment privilege levels and protection – call gates – I/O privilege levels – Interrupts and exception handling – task switching – paging mode – 80386 virtual 86 mode operation. Digital Communication Fundamentals and Applications: B Sklar. The Microprocessors 6th Edition Barry B. Digital communication: Simon Haykin. immediate addressing.Data addressing mode – register addressing. Pentium – super scalar architecture – u-v pipe line – branch prediction logic – cache structure – BIST (built in self test) – Introduction to MMX technology. 8086 memory organization – even and odd memory banks – segment registers – logical and physical address – advantages and disadvantages of physical memory. References 1. system connection – Real address mode operation – Protected mode operation Module 4 Intel 80386 Microprocessor . Program memory addressing modes .4.Internal architecture – Block diagram – Minimum and maximum mode operation – Interrupt and Interrupt applications – DMA data transfer – 8087 math coprocessor. base plus index addressing. Microprocessor and Interfacing 2nd Edition Douglous V. Brey Pearson Edu. ADVANCED MICROPROCESORS LA803 3+1+0 Module 1 Intel 8086 Microprocessor . register indirect addressing. Module 2 Addressing modes used in 80x86 family . McGrawHill. Stack memory addressing mode.80486 – Processor model – Reduced Instruction cycle – five stage instruction pipe line – Integrated coprocessor – On board cache – Burst Bus mode. 5. direct addressing. The 80x86 family John Uffenbeck . scaled addressing. Module 3 Intel 80286 Microprocessor . Hall TMH 3. 2. electronic tuning. sync separation. flicker. chromaticity diagram. AGC: delayed AGC and Keyed AGC. Cable television: converters. cathode and grid modulation. vertical and horizontal synchronization signal dimensions. video signal dimensions. channel bandwidth and allocations for colour transmission. video detector. Module 4 Colour Television: Compatibility consideration. sound separation. Working principle of image orthicon. LCD screens. maximum video frequency. number of scanning lines. Colour TV picture tubes: purity and convergence. Frequency interleaving and Colour burst signal. Monochrome receiver: Detailed block schematic. horizontal and vertical deflection circuits and wave forms. Power supplies: SMPS and block schematic explanation.TELEVISION ENGINEERING L 804 3+1+0 Module 1 Elements of Television system: Basic block schematic of television transmitter and receiver. . Module 3 Monochrome and colour reception. Basic colour television systems: PAL and NTSC. channel bandwidth. video amplifier. Typical ICs in different stages. Satellite television: Dish antenna. CCD. cable connections. Monochrome and Colour television camera: block schematic explanation. VSB reception and correction. Polarity of colour difference signal. RF tuner. colour difference signal and its generation. IF conversion. Colour resolution and bandwidth. Block schematic explanation. vidicon. Module 5 Television applications: CCTV and its functional block schematic. Composite video signal. Yagi antenna. additive mixing of colours. SAW filters. human factor consideration. Horizontal and vertical resolution. Three colour theory. BALUN transformers. Colour response of human eye. PIL. Scanning. structure of CCD and its working. vestigial side band transmission. interlaced scanning. EHT generation and its wave form description. Luminance and chrominance. plumbicon. Analysis of Television pictures. delay lines. TV transmitters: Positive and negative modulation and its comparison. Delta gun. Trinitron tubes. Module 2 Television camera and transmitters: Photoelectric effects. high level and low level modulation and its comparison. Beta functions Gamma function.Kanwal.Pipkin. 3. Tata Mc Graw Hill Basic Television Engineering: Bernad Grob. ADVANCED MATHEMATICS (ELECTIVE . Advanced Engg. References 1. New York 2.Dass. Tata Mc Graw Hill. Module 5 Numerical solution of partial differential equations.LNB. Monochrome and colour television: R R Gulati. Down converters. Television engineering: A M Dhake. Classification of second order equations. 2. References 1.Chand . Module 4 Power Series solution of differential equation The power series method – Legendre’s Equation – Legendre’s polynomial – Rodrigues formula – generating function – Bessel’s equation – Bessel’s function of the first kind – Orthogonality of Legendre’s Polynomials and Bessel’s functions. Video discs: VCD and DVD. S. High definition television. Module 3 Gamma. Verlag 3. LASER source. unit step function – Derivative of unit step function – Dirac delta function – properties of delta function – Derivatives of delta function – testing functions – symbolic function – symbolic derivatives – inverse of differential operator – Green’s function – initial value problems – boundary value problems – simple cases only Module 2 Integral Equations Definition of Volterra and Fredholm Integral equations – conversion of a linear differential equation into an integral equation – conversion of boundary value problem into an integral equation using Green’s function – solution of Fredhlom integral equation with separable Kernels – Integral equations of convolution type – Neumann series solution. Theory and Practice: S P Bali. Mc Graw Hill. Academic Press. Mathematics: H. Digital recording. Springer. Wiley Eastern.K. Beta function – Relation between them – their transformations – use of them in the evaluation certain integrals – Dirichlet’s integral – Liouville’s extension of Dirichlet’s theorem – Elliptic integral – Error function.Finite difference approximations to partial derivatives – solution of Laplace and Poisson’s equations by finite difference method – solution of one dimensional heat equation by Crank – Nicolson method – solution one dimensional wave equation. Linear Integral Equation: Ram P. 4.II) CMELRT 805-1 3+1+0 Module 1 Green’s Function Heavisides. A Course on Integral Equations: Allen C. Colour Television. Gunavathy.Case Statement.Multiple Processes. 7.Shared Variables. 9. Asia Numrical methods in Engg.Entity DeclarationArchitecture Body.Greenberge.Chand & co VHDL (ELECTIVE .the UNAFFECTED Value.Signal Assignment StatementWait Statement.Signatures.S. Module 4 Subprograms and Overloading: Subprograms. Mathematics: Michael D.Groups .Variable Assignment Statement.AttributesAggregate Targets.Explicit Visibility.Configuration DeclarationDefault Rules .Selected Signal Assignment Statement.Component InstantiationResolving Signal Values . S.AliasesQualified Expressions. Module 5 Advanced Features: Entity Statements. John Wiley and Sons.Other Sequential Statements.Guarded Signals. Addison Wesley. Principles of Applied Mathematics: James P.Grewal.Implicit Visibility.Conversion Functions .Basic Language Elements –IdentifiersData Objects.Configuration Specification.Dataflow Modelling: Concurrent Signal Assignment StatementConcurrent versus Sequential Signal Assignment.Operators. 6. Module 2 Behavioural Modelling: Entity Declaration. Advanced Engg. Pearson Edn.Simulation.Next Statement.Loop Statement.Default Values for Parameters .Direct Instantiation.Kandasamy.Value of a Signal Module 3 Structural Modelling: Component Declaration.Design Libraries-Order of Analysis.Exit Statement.Configuration Declaration.Conditional Signal Assignment Statement.Null Statement.K.Keener.Subprogram OverloadingOperator Overloading. Numerical methods: P.Packages and Libraries: Package Declaration.K.Package Body-Design File.Package Declaration.Type Conversions.Model Analysis.Thilagavathy. Hoskins.II) LA805-2 3+1+0 Module 1 Introduction: Hardware Abstraction.Block StatementConcurrent Assertion Statement.If Statement .Generate Statements.Report Statement.Architecture Body-Process Statement.Package Body.Delta Delay RevisitedMultiple Drivers. 5.Postponed Processes .Incremental Binding.Assertion Statement.Basic Terminology.F.4.Model Simulation: .Generics and Configurations: GenericsConfigurations.&science: B.Data Types. Principles and Techniques of: Bernard Friedman. Khanna Publishers Generalized functions: R. John Wiley and sons Applied Mathematics 8. Modelling Regular StructuresModelling Delays.Electroencephalogram.Hierarchy in Design.input guarding.muscular servo mechanism.OPA 111: FET input op amp.shield drive.chopper stabilized amplifier.equivalent circuit between electrodes and skin – electrodes types.Interacting State MachinesModelling a Moore FSM.Bridge amplifiers.pulsed excitation amplifier- .input protection. Module 2 Biomedical amplifiers – op amps.Variable File Names.Pressure transducersAmplifiers.ECG preamplifier.A Generic Binary Multiplier.ISO212Fiber optic isolation amplifier.Modelling Simple Elements. Pearson Education Asia.Simulation.differential chopper amplifier.selection.II) L 805-3 3+1+0 Module 1 Bioelectric potentials Human cell – action potential – ECG waveform – relation with heart action.A Clock Divider. Bio-potential electrodes: Half cell potential.isolated dc amplifier. Module 3 ECG wave form.A Generic Priority Encoder.A Pulse Counter.The standard lead system.Converting Real and Integer to TimeDumping Results into a Text Fi1e.Modelling Conditional Operations. Blood pressure measurements.classification.isolation amplifiers.high impedance 50 Hz reject filter with gaininstrumentation amplifier – INA 101.dc amplifiers. Text Book VHDL Primer Third editions: J.Different Styles of Modelling.QRS complex detection.optical coupling.Modelling a Mealy FSM.opto isolators.Hardware Modelling Examples: Modelling Entity interfaces.basic design.Typical ECG amplifier circuit.stimulating electrodesbiomedical transducers.ECG machine maintenance. References 1. Introducing VHDL from simulation to synthesis: Sudhakar Yalamanchilli.ECG digitization.A Test Bench Example. Bhasker.Writing a Test Bench.excitation and inhibition potentials.Reading Vectors from a Text File.State Machine Modelling.Transformer coupled isolation amplifiers..shield driver.Modelling Synchronous Logic.muscle action.synchronous demodulator.Einthoven triangle.EMG.A Barrel Shifter.ECG machine.bio-potentials from brain.carrier type isolation amplifier.A Simplified Blackjack Program. Pearson Education Asia MEDICAL ELECTRONICS (ELECTIVE .pH probe amplifiers.Right leg drive circuit.Initialising a Memory.mechanism.data sheet.patient cables.differential amplifiers.improvement in resolution.pH probe electrometer. data accumulation.ac carrier amplifier.collimators. References 1. Timer2.Tunable internal oscillator. Module 3 National semiconductor COP8 family . diastolic and mean detector circuit plethysmography.scanning motions – x ray tubes.circuits.Larmor frequency. 3. 4.display – resolution.Instrumentation. University Press.II) LA805-4 3+1+0 Module 1 Low pin count controllers – Atmel AVR family – ATTiny15L controller architecture – pin descriptions – features – addressing modes – I/O space – reset and interrupt handling – reset sources . Module 5 Medical Imaging: Computed tomography.Free Induction decay.multi-channel EEG recording systemspreamplifiers. Biomedical Instrumentation: John G Webster. TMH ADVANCED MICRO-CONTROLLERS (ELECTIVE .Neuron membrane potential.central monitoring consoles.cardio tachometers.blood flow measurements.Frequency bands. Biomedical Instrumentation: R S Khandpur.telemetry system.electromagnetic flow meter. Module 4 EEG. 2.EEG electrodes. Nuclear Magnetic Resonance. Mifflin Hougton Co. Introduction to Biomedical equipment technology: J J Carr.Imaging system.Instrumentation requirements. Idle timer – Timer1.EEG telemetry systems. Module 2 Timers – Watch dog timer – EEPROM – preventing data corruption – Analog comparator – A/D converter – conversion timing – ADC noise reduction – PortB – alternate functions – memory programming – fuse bits – high voltage serial programming – algorithm.COP8CBR9 processor – features – electrical characteristics – pin descriptions – memory organization –EEPROM . Timer3 -operating modes – PWM mode – event capture mode Module 4 Power saving modes – Dual clock operation – Multi input wake up – USART – framing formats – baud rate generation – A/D conversion – operating modes .image reconstruction.lead fault indicator.alignment.detectors.RF magnetic field. Pearson Education.algorithms.systolic. ICU monitoring systemintensive care equipments.basic principle . Medical Electronics: C Raja Rao.magnetic dipole moment.security – brownout reset – in system programming – boot ROM.nuclear structure and angular momentum. Encrypted Documents . Module 2 Network Security .EDI Envelope for Message Transport .Supply Chain Management.com 1187D: Atmel semiconductor reference manual.E-Commerce Framework. 5.Credit Cards . Module 4 Electronic Data Interchange .Commerce and World Wide Web .– prescaler – Interrupts – interrupt vector table – Watch dog – service window – Micro-wire interface – waveforms.Hypertext publishing.Client-Server Network Security .Document Library.Risk in Electronic Payment Systems .EDI standardization . Module 3 Electronic Payment Systems .CS Security Threats – Firewalls .national.Internet Service Providers .Internet based EDI . DS101374: National Semiconductor reference manual.com DS30292B: Microchip reference manual.Architectural Framework for Electronic Commerce .Designing Electronic Payment Systems.com E-COMMERCE (ELECTIVE .E.Data & Message Security .Corporate Data Warehouses. 7.PORTB – PORTC – Data EEPROM and flash program memory – Asynchronous serial port – SPI mode – I2C mode. 4.Smart Cards . Microchip semiconductor web site – www.Types of Electronic Payment Systems . Module 5 Microchip PIC16 family – PIC16F873 processor – features – architecture – memory organization . 3.E-Commerce Consumer & Organization Applications.EDI-Legal Security and Privacy Issues .WWW as the Architecture. National semiconductor web site – www.Internal Information System.microchip. Design with PIC micro-controllers: John B Peatman.register file map – I/O ports – PORTA .Anatomy of E-Commerce Applications . References 1.EDI Application in Business. 6.II) LA805-5 3+1+0 Module1 Introduction to Electronic Commerce . Atmel semiconductor web site – www. Pearson Education.atmel.Types of Digital Documents. 2.Digital Token Based Electronic Payment System . Module 5 .Workflow Automation and Coordination.Security on the Web. Video Conferencing with Digital Videos.Recent Trends in E-Commerce . TMH. ADVANCED DIGITAL SIGNAL PROCESSING (ELECTIVE .Sampling rate conversion using poly-phase filter structure – poly-phase implementation of interpolators. Module 4 .Properties and Applications.Discrete Hilbert Transform and Discrete Cosine Transform – Properties and Applications . Module 2 Adaptive Signal Processing – Adaptive filters – Concepts.Factorization Algorithm.Asynchronous Transfer Mode.Broad Band Telecommunication. Text Book Frontiers of Electronic Commerce: Ravi Kalakota & Andrew B Whinston.Determining the number of stages and decimation factors .Other configurations of the adaptive filter . References 1.filter requirement for individual stages .Short term Fourier Transform Gabor Transform .III) LA806-1 3+1+0 Module 1 Introduction to Multi-rate Digital Signal Processing – Sample rate reduction decimation by integer factors.sampling rate increase – interpolation by integer facto .Mobile Computing and Wireless Computing.Multimedia in E-Commerce.2D – DFT Transforms Properties and applications . 2. Module 3 Introduction to two dimensional signal and systems . 3.Adaptive filter as a Noise Canceller .Design of practical sampling rate converters: Filter Specification.Commerce The cutting edge of Business: Kamlesh K Bajaj & Debjani Nag. E. Pearson Education. Global Electronic Commerce: J Christopher Westland & Theodore H K Clark. E-Commerce: Strategy Technologies and Applications.Frame & Cell Relays.Main components of the adaptive filter – Basic Wiener filter theory – The basic LMS adaptive algorithm – Practical limitations of the basic LMS algorithm Recursive Least Square Algorithm – Limitations .Switched Multimegabit Data Service (SMDS). Filter bank analysis – Multilevel Decomposition – Number of levels – Wavelet reconstruction – Reconstruction filter. Analog Devices & Texas Instruments Users Manuel of TMS320C4X and ADSP 2106x. MULTIMEDIA SYSTEMS (ELECTIVE . Theory and Applications of DSP: L.Reconstructing Approximations and details. multimedia.Computer Architecture for signal processing – Havard Architecture .Analog and digital video. (basic ideas only) Module 3 MULTIMEDIA ENVIRONMENTS: The Compact Disc family. software applications and software environments .Capture and Playback techniques.Sound cards . Electronic filter Desig Hand Book: A .Animation .Image compression.Approximation and Details . Barrie W Jrevis. Media classes.On-chip Memory Cache Extended Parallelism . CDinteractive.scaling .Image file types . JPEG. QuickTime.III) LA806-2 3+1+0 Module 1 INTRODUCTION: Definition of multimedia.Replication . Format classes and Component classes .Standards Image . digital audio. Module 5 General and special purpose DSP Processors . Digital Video Interactive.Fractal and Wavelet Compressions .scale and frequency . Transform classes.Media Types .Hardware Multiply and Accumulate – Special Instructions . Module 2 BUILDING BLOCKS: Text .The Discrete Wavelet Transform . Module 4 MULTIMEDIA PROGRAMMING: Framework: Overview.Wavelet packet synthesis.One Stage filtering .SIMD – VLIW and static super-scalar Processing Brief study of TMS320C4X and ADSP 2106 processors. References 1.Image types . RLE. Wavelets and Subband Coding: Valterli & Kovaceric. Digital Signal Processing: Emmanuel C Ifeachor.Hyper text .Wavelets – Wavelet Analysis – The Continuous Wavelet Transform .B Williams and FT Taylor. 5.shifting .Basic tools .Typical Applications. Pearson Education.Multilevel Reconstruction . Multimedia PC and Microsoft Multimedia Extensions.Sound . 2. music and animation .Pipelining .Authoring tools. PHI. McGraw Hill 4. hardware.Problems related .R Rabiner and B gold 3. MPEG .Analog & Digital video Memory storage . top down & bottom-up parsing. timesharing. Module3 Information Management: File system. Database integration. Integrated Multimedia Systems . Authoring Interactive multimedia .Full motion digital video .Simon J. Environments & Framework . Susan Lafe Meister Comdex 5. Random house Electronic Pub. Multimedia Producers Bible. Optimizing your Multimedia PC . multiprogramming. Addison wesley 9. The communication Wall Overview SYSTEM SOFTWARE (ELECTIVE . Synchronisation. .Desktop video conferencing .Ron Goldberg. file protection.to programming .visual editor.multimedia networks .Mathew E. elementary ideas of macros & macro processors. Parsing. Interaction.Composition. Interpreters: basic ideas only.L. Comdex 7. Hodger & Russel M. Skibbe. References 1.) 2.directory structure. Sams 6. Rosch. Multimedia Bible .III) LA806-3 3+1+0 Module1 Introduction: Concept of system software. Multimedia Computing . Device management.Video capture techniques . Multimedia Power Tools . Multimedia. real time OS.Tay Van Ghan – Osborne Tata Mcgraw Hill 3. OS services UNIX OS –shells. Compilers: Overview of compilation process. basic file system calls. Multimedia Programming Objects. storage allocation. Assemblers: over view of assembly process. allocation methods disk blocks and inodes in UNIX. 8.Peter Jellam. Sasnett.Techniques realistic image synthesis.J. batch processing.Arch C Luther 4.Winn L. Module2 Operating Systems: types of OS. Module 5 ADVANCED MULTIMEDIA: Moving pictures . classification of system s/w. Tsischritziz (Addison-Wesley Publishing Co. C shell.Future multimedia.Making it work . Gibbs. Dionysios C.Palikom. Virtual Reality . Bourne Shell. References 1. recovery. partitions. Micro-Controller Architecture. System programming and Operating Systems – D M Dhamdhere 2.Hardware Architecture. Requirements of Embedded Systems. Module5 Memory Management: swapping. Applications of Embedded Systems in Consumer Electronics.. Operating System – Peterson & Silberschatz. Multiprocessor scheduling. avoidance. Handheld computers. Deadlocks: cause. segmentation. Embedded Operating systems. page replacement. concurrent process. .Module4 Processor Management: CPU scheduling . prevention. Embedded System Development Process. Biomedical Systems. Process management in UNIX. Design of UNIX Operating System – Maurice J Bach 6. Categories of Embedded System. Types of Embedded Operating systems. EMBEDDED SYSTEMS (ELECTIVE . paging. detection. System Software – an introduction to system Programming – Leland L Beck.III) LA806-4 3+1+0 Module 1 Overview of Embedded System: -Embedded System. virtual memory concepts.critical section. 3. Control System.scheduling algorithms. Challenges and Issues in Embedded Software Development. Operating Systems – Dietal H M 5. combined approach to deadlock handling. semaphores. memory management in UNIX. 3ed. dynamic linking. Communication devices. Communication Interface Standards. Addison Wesley 4. concurrent languages. caching of secondary storage. UNIX System Programming – Stevens. Module 2 Embedded Hardware & Software Development Environment: . synchronization. Protocol Converter. PC-to-PC Communication. Module 2 Image Transforms . Energy Meter Readings. Security in Embedded Systems.Characteristics of a digital image Elements of digital image processing systems . Embedded Applications over Mobile Network example MP3 Sound Player. Embedded Process Control System. Embedded Database Applications using examples like Salary Survey. Serial Communication with the 8051 Family of Microcontrollers.KL Transforms & their properties.Reconstruction of image from its samples .Dreamtech Software Team. Controlling an Appliance from the RTLinux System. Wiley Dreamtech Reference 1. Simulation of a Process Control System. Module 4 Real Time & Database Applications: . Voice-over-IP. Smart Cards and the Cashless Society.Real-Time Embedded Software Development. Text Book Programming for Embedded Systems.Aliasing.Brightness & contrast . Mobile Java Applications. Fundamentals of Embedded Software where C and Assembly Meet – Daniel W Lewis.Module 3 Embedded Communication System: Serial Communication. System on a Chip (SOC). Sending a Message over a Serial Link.III) LA806-5 3+1+0 Module 1 Image representation and modeling . DIGITAL IMAGE PROCESSING (ELECTIVE .Image sampling & Quantisation . . Module 5 Java Applications & Future Trends in Embedded Systems: Networked Java-Enabled Information Appliances.Image digitizers & scanners Elements of visual perception .Two dimensional Sampling theorem .Two dimensional orthogonal & unitary transforms Properties of unitary transforms . Appliance Control using Jini.Two dimensional DFT & its properties – Cosine – Hadamard – Haar – Sine . 2. 4. Realization of simple digital circuits using VHDL. Familiarization of FPGA trainer kits. Pearson Education. 3.Filtering in the frequency domain . f. 3. Realization of combinational and sequential circuits using PAL.Transform coding . He / she shall submit a report on the paper presented to the department.color Image processing.Gonzalez Rafel C. Control system simulation experiments. Familiarization of PAL assembler. Module 4 Image Restoration .basic principles .Image analysis & vision -basic principles only. PHI. Fundamentals of digital image processing: Jain Anil K. In addition to the . Programs to design filters using window techniques. Digital signal processing based on DSP processors. e. 5.lossy predictive coding .Wiener Filter Interactive restoration . d. Digital image Processing: I.Point processing .bit plane coding . Digital Image Processing: Pratt William K. L 709 / 808 PROJECT DESIGN AND SEMINAR 0+0+2 Each student is required to present a technical paper on a subject approved by the dept. Note Any other experiments may be added in accordance with the electives offered.Image compression standards. b. Module 5 Image Coding & Compression. 2. causality & stability of LTI system. Experiments based on Matlab.loss-less predictive coding . c.Histogram modeling & Equalization Spatial Filtering . 6. To find DFT of a given sequence using DIT & DIF FFT algorithms. To find IFFT of a given sequence using DIT & DIF FFT algorithms.Degradation model .Inverse filtering . References 1. The paper should in general reflect the state of the art. Realization of digital circuits using FPGA. John Wiley. 7. a. Program to design IIR filter using Bilinear transformation impulse invariant methods.Module 3 Image Enhancement .run length coding . SYSTEMS LAB L807 0+0+3 1. To test linearity.variable length coding . voce.voce examination will be conducted to assess the student's overall knowledge in the specified field of engineering. panel of staff members. At the time of viva . CMELR TPA 401 LA402 LA403 Subject Teaching periods L T P 3 3 3 1 1 1 0 0 0 Uty. Exam duration (hours) 3 3 3 Sessional Theory Practical Total Engineering Mathematics III Digital Electronics and Logic Design Communication 50 50 50 100 100 100 - 150 150 150 . Exam duration (hours) 3 3 3 3 3 3 3 3 Sessional Theory Practical Total Engineering Mathematics II Network Theory Electrical Technology Solid state devices Electronic circuits –I Computer programming Electrical lab Basic Electronics Lab Total 50 50 50 50 50 50 50 50 400 100 100 100 100 100 100 100 100 200 150 150 150 150 150 150 150 150 1200 600 4 SEMESTER TH Marks Course Code A B C Course No. certified reports of seminar and project work are to be presented for evaluation. and submit a report of the project work done to the department.seminar he / she shall undertake a project work (as a team or individually) in the 7th semester itself in consultation with the guide (s). VIVA – VOCE L809 A comprehensive Viva . ELECTRONICS & COMMUNICATION ENGINEERING 3 SEMESTER RD Marks Course Code A B C D E F G H Course No. CMEL PA 301 LA302 LA303 LA304 LA305 LA306 LA307 L308 Subject Teaching periods L T P 3 2 2 3 3 3 0 0 16 1 0 1 1 1 1 1 0 0 6 0 0 0 0 0 4 4 8 Uty. D E F G H LA404 LTA405 LA406 LA407 LA408 Engineering Electronic circuits –II Signals and systems Reliability & Humanities Electronic circuits Lab Computer programming Lab Total 3 2 2 0 0 16 1 1 1 0 0 6 0 0 0 4 4 8 3 3 3 3 3 50 50 50 50 50 400 100 100 100 100 100 200 150 150 150 150 150 1200 600 5 SEMESTER TH Marks Course Code A B C D E F G H Course No: CMEL PA 501 LA502 L503 LA504 LA505 L506 LA507 L508 Subject Teaching periods L T P 3 2 3 2 3 3 0 0 16 1 1 1 1 1 1 0 0 6 0 0 0 0 0 0 4 4 8 Uty. Exam duration (hours) Sessional Theory Practical Total . Exam duration (hours) 3 3 3 3 3 3 3 3 Sessional Theory Practical Total Engineering Mathematics IV Power Electronics Applied Electromagnetic Theory Computer organization and Architecture Linear integrated circuits Microprocessors and Microcontrollers Digital IC lab Communication–I lab Total 50 50 50 50 50 50 50 50 400 100 100 100 100 100 100 100 100 200 150 150 150 150 150 150 150 150 1200 600 6 SEMESTER TH Marks Course Code Course No: Subject Teaching periods L T P Uty. / Proj. Exam duration (hours) 3 3 3 3 3 3 3 3 Sessional Theory Practical Total Proj. Microcontroller based system design VLSI technology Microwave and Radar Engineering Optical fiber communication systems Information Theory and coding Elective – I Microprocessor and Microcontroller Lab Communication-II lab Project design and seminar Total 50 50 50 50 50 50 50 50 400 100 100 100 100 100 100 100 100 150 150 150 150 150 150 150 150 1200 600 200 8 SEMESTER TH Course Code Course No: Subject Teaching periods L T Prac. Uty. Exam duration (hours) Marks Sessional Theory Practical Total ./ 2 3 3 2 3 3 0 0 0 16 1 1 1 1 1 1 0 0 0 6 0 0 0 0 0 0 3 3 2 8 Uty.A B C D E F G H LA 601 L602 LTA 603 L604 L605 L606 L607 L608 Industrial Management and Economics Digital communication Techniques Digital signal processing Radiation and Propagation Electronic Instrumentation Control Systems Linear IC Lab Mini Project Total 3 3 3 2 3 3 0 0 17 2 1 1 1 1 1 0 0 7 0 0 0 0 0 0 3 3 6 3 3 3 3 3 3 3 3 50 50 50 50 50 50 50 50 400 100 100 100 100 100 100 100 100 200 150 150 150 150 150 150 150 150 1200 600 7 SEMESTER TH Marks Course Code A B C D E F G H I Course No: LA701 LA702 L703 L704 L705 L706 LA707 L708 L709 Subject Teaching periods L T Pra. A B C D E F G H I LA801 L802 LA803 L804 L805 L806 L807 L808 L809 Computer Networks Advanced communication systems Advanced microprocessors Television Engineering Elective –II Elective – III Systems Lab Project design and seminar Viva -voce Total 3 3 3 3 3 3 0 0 0 18 1 1 1 1 1 1 0 0 0 6 0 0 0 0 0 0 3 3 0 6 3 3 3 3 3 3 3 - 50 50 50 50 50 50 50 100 450 100 100 100 100 100 100 100 50 150 150 150 150 150 150 150 150 100 50 1200 600 .