EEE_SyllabusI_04-04-07_

GUJARAT UNIVERSITYB.E-II SEMESTER – III (ELECTRICAL & ELECTRONICS)

EE – 301 (EC-301) ENGINEERING MATHEMATICS

Teaching Scheme Examination SchemeTheory Hours

Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 -- -- 3 100 -- -- 50 150

FOURIER SERIES: Definitions, Euler’s formulae, Condition for a Fourier Expansion, Function having point of

discontinuity, Change of interval, Odd and even function, Half range series, Harmonic analysis.

VECTOR CALCULUS:Differentiation, vector function of scalar Quantity, Decomposition of a vector function, vector differentiation, Geometrical interpretation, velocity and acceleration, standard results, point function, vector operator Del, Gradient, Geometrical meaning of Grad, standard results, divergence and curl, physical interpretation of divergence, physical interpretation of curl, div grad

ORDINARY DIFFERENTIAL EQUATIONS:Linear differential equations of higher order with constant coefficients, Methods of variations of parameters, Application of linier differential equations, Solution of Bessel’s and Lavender’s equations by series Properties like recurrence relations, orthogonally.

PARTIAL DIFFERENTIAL EQUATION:Formation of differential equations, Directly integrable equations, linear and non linear equation of first order, Homogeneous linear equation with constant coefficient, Application of partial differential equations.

NUMERICAL METHODS:Solution of algebraic and transcendental equations by Bisection method, Newton – Raphson, False position, Iteration and extended interaction methods, Convergence of these methods.

TEXT BOOKS:1. Higher Engineering Mathematics - Dr. B. S. Grewal, Khanna Publications2. Engineering Mathematics Vol- I - Prof. Wartikar & Wartikar, Vidyar Griha Prakashan

REFERENCE BOOKS: 1. Engineering Mathematics Vol- I, II, III, IV - Kumbhojkar G. V. C. Jamnadas & Co. 2. A Text book of Engineering Mathematics–II -N. P. Bali, Ashok Sexena & Iyenger, Laxmi

Publication & Co. 3. Engineering Mathematics - Dhavan & Shivastav, Dhanpat Rai & Sons 4. Mathematics for Engineering Students P. D. S. Verma, S. Chand & Co. Ltd.


EE-302 (EC-302) NETWORK ANALYSIS


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

DEVELOPMENT OF THE CIRCUIT CONCEPT

CONVENTIONS FOR DESCRIBING NETWORKS

NETWORK EQUATIONSKirchoff's Law, The number of Network Equations, Source Transformations, Examples of the Formulations of Networks, Loop variable Analysis, Node Variable Analysis, Determinants: Minors and the gaus Method, Duality, State Variable Analysis

FIRST ORDER DIFFERENTIAL EQUATIONSInitial Conditions in networks Differential Equations, Second-order Equation: Internal Excitation High order Equations: Internal Excitation, Networks Excited by External Energy Sources Response as Related to the s-Plane Location of roots

THE LAPLACE TRANSFORMATIONIntroduction, The Laplace Transformation ,Some Basic Theorems for the Laplace Transformation, Examples of the Solution of Problems with the Laplace , Transformation, Partial Fraction Expansion,Heaviside's Expansion Theorem, Examples of Solution by the Laplace Transformation.

TRANSFORMS OF OTHER SIGNAL WAVEFORMS,The Shifted unit step function, The ramp and Impulse functions, Waveform Synthesis The initial and final value of f (t) from F (s).

IMPEDANCE FUNCTIONS AND NETWORK & NETWORK THEOREMSThe concept of complex frequency Transform Impedance and transforms circuits Series and Parallel combinations of elements Superposition and Reciprocity Thevenin's Theorem and Norton's theorem, Maximum power Transfer theorem. Tvb8h9,m8

NETWORK FUNCTIONS: POLES AND ZEROSTerminal Pairs or port Network Functions for the One Port and two Port, The Calculation of Network Functions Ladder Network General Networks, Poles and Zeros of Network Functions ,Restrictions on Pole and Zero locations for Transfer functions

TWO PORT PARAMETERSRelationship of Two-port Variables, Short-circuit Admittance parameters, the open Circuit Impedance Parameters, Transmission parameters, The Hybrid parameters, Relationships between parameters Sets, Parallel Connections of Two-port networks

SINUSOIDAL STEADY -STATE ANALYSISThe Sinusoidal Steady State, The Sinusoidal and e +- jwt, Solution using e +- jwt

Solution using e +- jwt

or Im e +- jwt, Phasors and Phasor diagrams. FREQUENCY RESPONSE PLOTSParts of Network Functions, Magnitude and Phase Plots, Complex LociPlots from s-plane Phasors, Bode Diagrams, The Nyquist Criterion

Practical / Term-work: Practical /term-work will be based on the topics covered in the syllabus

TEXT BOOKS: 1. Network Analysis (Third Edition) by M.E. Vanvalkenburg, PHI

REFERENCE BOOKS:1. Network Analysis by G.K.Mithal, Khanna Publications


EE- 303 (EC-303) DIGITAL ELECTRONICS

Teaching Scheme Examination SchemeTheory Pract. Tut. Theory Theory Pract/Oral T.W. Sess. Total

Hours Hours Hours ExamHours

Marks Marks Marks Marks Marks

4 2 -- 3 100 25 25 50 200

NUMBER SYSTEM:Decimal, Binary, Octal, Hexa-decimal number system, Conversion of numbers from 1 number system to other, complement method of subtraction, 9’s and 10’s compliment method, 1’s and 2’s complement method, Floating point numbers.

BINARY CODES:Weighted and Non-weighted code, Self complementing course, cyclic course, 8421 BCD code, XS-3 code, Gray code, Binary to Gray conversion, Gray to Binary conversion, Parity bit and its importance in error detecting.

LOGIC GATES:AND, OR, NOR, NOT, NAND, X-OR, Inhibit circuits,

BOOLEAN ALGEBRA:Axioms and laws of Boolean algebra, D’morgans theorem, Duality, Reduction of Boolean expression, converting AND/OR/INVERT logic to NAND/NOR logic

SIMPLIFICATION OF BOOLEAN EXPRESSION USING KARNAUGH MAP AND QUINE- MCCLUSKY METHODS Expansion of a Boolean expression to SOP and POS form, Minimization of POS and SOP expressions for 2 to 6 variables, Don’t care conditions, Combinational logic, Quine- Mcclusky methods.

COMBINATIONAL CIRCUITS:The Half-adder, The Full-adder, The Half-subtractor, The Full-Subtractor, Parallel Binary Adders, The Look-Ahead Carry Adder, IC Parallel Adders, Two’s Complement Addition And Subtraction Using Parallel Adders, Serial Adders, BCD adder, Binary Multipliers, Code converters, Parity bit Generators/Checkers, Comparators, IC comparators, Decoders, BCD to 7-Segment Decoders, Display devices, Encoders, Keyboard Encoders, Priority Encoders, Multiplexers, Applications of Multiplexer, Demultiplexers

FLIP-FLOPS AND TIMING CIRCUITS:S-R Flip-flop, JK Flip-flop, D Flip-flop, T Flip-flop, Edge –Triggered Flip-flop, Master-slave Flip-flop, Applications of Flip-flops.

SHIFT REGISTERS:Serial-in Serial-out Shift register, Serial-in Parallel-out Shift register, Parallel-in Serial-out Shift register, Parallel-in Parallel-out Shift register, Bi-directional shift register, Universal shift register, Dynamic shift register, Applications of shift registers.

COUNTERS:Asynchronous counter, Design of Asynchronous counter, Effect of Propagation Delay in Ripple counter, Decoding of Ripple counters, Integrated circuit Ripple counters, Synchronous counters, Design of Synchronous counter.

LOGIC FAMILIES:Digital IC specification terminology, Logic families, TTL, Open collector gate, TTL subfamilies, IIL, ECL, MOS, CMOS, Dynamic MOS Logic

MEMORIES:Memory types and terminology, Read Only memory, Semiconductor RAMs, Non-volatile RAMs, Sequential memories, Programmable logic Devices, Magnetic memories, Optical Disk memory, Charge coupled devices.

Practical/Term-work: Practical /term-work will be based on the topics covered in the syllabus

TEXT BOOKS: 1. Fundamentals of Digital Circuits - A.Anand Kumar, PHI Publication 2. Digital logic and computer Design – M. Morris Mano, PHI Publication

REFERENCE BOOKS:1. Digital Electronics – R. P.Jain, TMH Publication2. Digital Electronics and Logic Design – B. Somanathan Nair, PHI publication


EE–304 ELECTRICAL MACHINE–I


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

DC MACHINES:

Introduction, construction features DC Generation: Principle of operation, Action of commutator, E.M.F. equation, Armature reaction, Commutation, Reactive voltage, Method of improving commutation, Compensating winding, Type of D.C. Generators, Losses, Power stages and efficiency D.C.Generators Characteristics: Magnetization curve, field resistance line, cha. of separately exited generators. Cha. of shunt and series generators, Determination of critical resistance from O.C.C. for shunt generator, Critical speed , condition for self excitation & causes of failure to build up voltage,D.C.Motors: Introduction, Principle of Operation, Comparison of motor & Generator action, Direction of rotation of motor, Significance of back e.f.m. power equation, Condition for maximum power output, speed and torque equation , condition for maximum power output, Speed and torque equation, type of DC motors, Characteristic of DC Motors, applications. Starting of DC Motors: Necessity of starter, three point and for point starter, calculation of step resistance for starter, speed control of DC shunt & Series motor.

1- PHASE TRANSFORMER:Introduction, Construction, Features, Working Principle, Classifications, Ideal transformer on no load EMF. Equation and transformation ratio, Transformer on load, Resistance & leakage reactance, Voltage regulation, Equivalent circuit, Losses and Efficiency, All day efficiency, Open Circuit and Short circuit test, sumpner’s (back to back ) test, Parallel operation, Load sharing by two transformers, auto transformer, off-load & on-load tap change, introduction of C.T.& P.T.

INDUCTION MOTORS:Principle of operation - basic equations - vector diagram - exact equivalent circuit - torque/slip characteristics - performance calculations - circle diagram - high torque motors - speed control and starting of 3-ph. induction motors - testing of I.M. as per IS-325 submersible motors - linear induction motor and stepper motors.

POLYPHASE INDUCTION MOTOR:Introduction, Construction, type of three phase induction motors, Principle of operation- slip, Frequency of rotor current (or E.M.F.) rotor E.M.F. rotor current, Torque, Starting torque, condition for maximum torque, torque slip and torque speed curves, effect of change in supply voltage on starting torque. Effect of change in supply voltage on torque and slip, full load torque, and maximum torque, starting torque and maximum torque, power stages in an induction motor, Rotor output equivalent circuit of an induction motor, vector diagram of An induction motor, maximum power output testing of induction motor, measurement of slip.

ALTERNATOR:Construction and working principle, production of sinusoidal alternating E.M.F. frequency of induced E.M.F. Armature windings, Classification of windings, Coil span factor or pitch factor, distribution breadth or winding factor, E.M.F. equation, wave shape, Rating of alternators, Leakage reactance, Armature reaction, Synchronous impedance, effect of variation of power factor on terminal voltage alternator on load, Percentage resistance, reactance and impedance, Laboratory method of determination of synchronous reactance, Voltage regulation, Synchronous impedance method.


TEXT BOOKS: 1. Electrical Machines – Nagrath & Kothari, Tata McGraw Hill 2. Elect. Technology Vol. II - B.L. Theraja, S.Chand

REFERENCE BOOKS:

1. Performance & Design of DC Machine –Clayton, CBS Publication 2. Performance & Design of AC Machine –M.G.Say, ELBS Publication

3. Electrical Machine – J.B.Gupta, Dhanpat Rai & Co. Publication


EE-305 (EC-305) ELECTRONIC DEVICES AND CIRCUITS – I


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

SEMICONDUCTOR PHYSICSThe energy band theory of crystals, Insulators, Semiconductors and Metals, Mobility and Conductivity, Electrons and holes in an Intrinsic Semiconductor, Donor and Acceptor impurities, Charge densities, Hall Effect, Conductivity Modulation, Generation and recombination of charges Diffusion, Continuity Equation, Injected Minority carrier Charge, Potential Variation within a graded semiconductor, Energy distribution of electrons in a metal, Fermi-Dirac function, Densities of states, Electron emission from a metal, Carrier concentration in an intrinsic semi, fermi-level, band Structure of an open-circuit PN characteristic, dynamic diffusion capacitance.

SEMICONDUCTOR DIODE CHARACTERISTICSOpen-circuited PN junction, P-N junction as a rectifier, Current components in a PN junction diode, volt-ampere characteristics, Photo-diode, Temperature Dependence of diode characteristic, Transition capacitance (CT), Diffusion capacitance, diode resistance, charge control description of a diode, Rectifiers, full wave circuits, C, LC, II filters.

TRANSISTOR CHARACTERISTICS AND TRANSISTORS BIASING AND THERMAL STABILIZATIONJunction Transistor, Transistor action, transistor currents component, transistor as a amplifier, transistor configurations- CB, CC, CE, CE cutoff, and saturation regions, Maximum voltage rating, DC operating point, Bias stabilization, Stabilization techniques, Bias compensation, Thermal runaway, Phototransistor

BJT AS SMALL SIGNAL LOW FREQUENCY AMPLIFIERTransistor as an amplifier, general characteristics of an amplifier, Hybrid model, Determination of h-parameters from characteristics. Analysis of amplifier circuit using h-parameters. Common emitter circuit, common collector or emitter follower circuit, Common base circuit, Analysis of common emitter amplifier with collector to base bias, Comparison of transistor amplifier configurations, linear analysis of a transistor, Miller’s theorem and it’s dual, Cascading transistor amplifiers, simplified CE and CC hybrid model

FIELD EFFECT TRANSISTORConstruction of JFET, operation of JFET, JFET characteristics, pinch-off voltage, JFET volt-ampere characteristics, FET small signal, MOSFET, FET as a VVR FET biasing, Fixed bias circuit, Voltage divider biasing circuit, self bias circuit, biasing for depletion type MOSFET, JFET as an amplifier, JFET low frequency small signal model, Common source circuit, Common drain circuit

TRANSISTOR AT HIGH FREQUENCIESHybrid II CE transistor, Hybrid II Conductance, Hybrid II capacitance. Validity at Hybrid II Model, Variation of Hybrid II parameters, CE short-circuit current gain, current gain with resistive load, Single stage CE transistor amplifier response, Gain- bandwidth product, Emitter Follower at high frequency.

MULTISTAGE AMPLIFIERSClassification of amplifiers, Distortion in amplifiers, Frequency response of an amplifier, step response of an amplifier, Band pass of cascaded stages, Two stage RC amplifier, Low frequency response of an RC-coupled stage. Effect of an emitter bypass capacitor on Low frequency response. High frequency response of two cascaded CE transistor stages, Multistage CE amplifier cascade at high frequencies


TEXT BOOKS:1. Integrated Electronics by Millman & Halkas, McGraw Hill

REFERENCE BOOKS:1. Electronics Devices and Circuits Theory by Boylestead & Nashelsky, PHI.1. Introduction in Electronics Devices and circuits by Allen Motershead, Tata McGraw Hill.

GUJARAT UNIVERSITYB.E-II SEMESTER – III (ELECTRICAL & ELECTRONICS)EE–306 ELECTRICAL AND ELECTRONICS WORKSHOP


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

-- 2 -- -- -- 25 25 -- 50

TESTING OF PASSIVE COMPONENTS & COMMON ELECTRICAL HOME APPLIANCES:Study of most common defects in resistance, capacitor and inductors, various test procedures for checking resistance, Rheostat, Capacitor and inductors, testing of electrical Iron, fan & speed regulator, Electric mixer, Tube light.

BUILDING AND INDUSTRIAL INSTALLATION:Safety precaution in Electrical installations, Calculation of fuse and MCB rating, testing of insulation resistance and earth resistance.

DESIGN OF BUILDING WIRING:Type of wiring, Selection of wires and rating, Calculation of fuse and circuit breaker Rating, A case study of collage wiring, and Prepare sheet of house wiring.

STUDY OF TRANSFORMER OIL CHARACTERISTIC:Property of insulation oil for transformer, testing of Dielectric strength of transformer understanding incipient fault phenomena.

STUDY STARTING & RUNNING CONDITIONS OF DC MACHINES:

Method of starting different types of DC machines and running under different conditions.

STUDY OF STARTING & RUNNING CONDITION: (1-Phase and 3 –Phase Induction motor)Starting of 1-Phase and 3-Phase induction motors using various starts and running under different conditions.

IDENTIFICATION OF DIFFERENT WINDING OF A d.c.MACHINE:To acquire knowledge of identifying the terminals of various D.C. motor, Lap & Wave winding, Measurement of resistance of different winding.

STUDY OF TUBELIGHT AND MOONLIGHT WIRING:Tube light wiring and its components testing, moonlight wiring, its components and formation of decorative series of moonlight lamps.

ELECTROMECHANICAL DEVICES:Relays and contactors, Use of relays contact configuration, Electrical Actuators, Specification and standards.

ELECTRONICS DEVICES:Symbols of electronic components & component identification Drawing of symbols in sketch book. Study of various electronics components- Types, characteristics and applications Testing of various components

Study and use of Laboratory equipments like Multimeter, Function generator, Power supply, CRO etc.

Soldering & disordering practice, Exercises based on fabrication & testing of small electronics circuits, Study of PCB, PCB fabrication.

TEXT BOOKS:

1. Microelectronics Components by D.L.Thompsom, BPB Publication

2. Electric Circuits by David A. Bell, PHI.

3. Electronics and Electrical Engineering Materials by J.B.Gupta, CBS Publication

REFERENCE BOOKS:

1. Electronics Materials by L.A.Warnes, Katrina Publication

GUJARAT UNIVERSITYB.E-II SEMESTER – IV (ELECTRICAL & ELECTRONICS)

EE-401 (EC-401) APPLIED MATHEMATICS


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 -- -- 3 100 -- -- 50 150

VECTOR CALCULUSReorientation, Differentiation of Vectors, Scalars and vector fields, Gradient of a scalar function, Directional derivative, Divergence and Curl of a vector function and their physical meanings, Line, Surface and Volume integrals, Green’s theorem, Gauss and Stoke’s theorems (Without proof), Irrotational, Solenoid and conservative vector fields. Curvilinear coordinates (Cylindrical and Spherical polar), Applications in

FUNCTIONS OF COMPLEX VARIABLESReorientation, Analytic function, Cauchy- Riemann equations(Cartesian and polar forms), Harmonic functions, Conformal mappings, Complex integration, Cauchy’s theorem and integral formula, Singularities, Taylor’s and Laurent’s series, Residue theorem, Evaluation of integrals using residues.

FOURIER TRANSFORMSFourier integral theorem (only statement), Fourier Sine and Cosine integrals, Complex form of Fourier integral, Fourier Sine and Cosine transforms, Inverse Laplace transforms by residue, Solutions of boundary value problems using Fourier transforms. Application to transverse vibration of a string and transmission lines.

Solutions of Cubic by Cardon and biquadratic equations by Ferrari’s method.

MATRICESCaley-Hamilton’s theorem, Special matrices like Hermitian, Skew-Hermitian and Unitary, Quadratic forms

TEXT BOOKS: 1. A Text Book on Engineering Mathematics- N.P.Bali, Ashok Saxena & Iyengar, Laxmi Publication (P) Ltd.

REFERENCE BOOKS:

1. Engineering Mathematics- Vol –III - PROF. WARTIKAR & WARTIKAR Pune Vidyarthi Griha 2. Mathematics for Engineers, Advanced Mathematics for Engineers- CHANDRIKA PRASAD, Prasad Mudranalaya, Allahabad3. Advanced Engineering Mathematics - ERWIN KREYSZIG, Wiley Eastern Ltd.


EE-402 ELECTRICAL POWER SYSTEM-I


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

STEAM POWER STATION:Schematic arrangement, advantages and disadvantages, choice of site, efficiency of steam power station, Types of prime movers, characteristic, speed control & auxiliaries.

HYDRO POWER STATION:Schematic arrangement, advantages and disadvantages, choice of site constituents of hydro power plant, Hydro turbine.

DIESEL POWER STATION:Schematic arrangement, advantages and disadvantages, I.C. engines

NUCLEAR POWER STATION:Schematic arrangement, advantages and disadvantages, selection of site, types of reactors, Hazards

GAS TURBINE POWER PLANT:Schematic arrangement, advantages and disadvantages.

COMBINED CYCLE POWER PLANTComparison of various power plants.

SOLAR ENERGY FUNDAMENTAL AND SOLAR THERMAL POWER PLANT:Solar energy routes and prospects, merits and limitations of solar energy conversion and utilization, Types of solar thermal collectors, comparison between conventional and solar thermal power plant, ratings of solar power plant heat transfer fluids, solar pond and binary cycle solar thermal power plant.

WIND ENERGY FUNDAMENTALS WIND POWER PLANTS:Applications, Merits and demerits of wind energy, nature and origin of wind, variables in wind energy conversion system, wind velocities and height from ground and site selection, types of wind energy system, wind turbine generator unit with battery storage facilities, wind turbine generator unit with diesel generator, solar wind hybrid, wind farm sitting, wind map of India, wind electric station in India.

FUEL CELL AND FUEL CELL POWER PLANTS:Introduction, concept, types, Electrochemical Reactions, Hydrogen, Oxygen Fuel cells, Phosphoric Acid Fuel cells, Molten Carbonate Fuel cells, Methanol fuel cells, Medium temperature, fuel cell, configuration of power plant, Performance Characteristics, Fuels, Commercial plants in the world.

NON CONVERSION & RENEWABLE SOURCES:

Geothermal energy fundamentals Geothermal electric power plant Applications, utilization of geothermal energy, Geothermal energy resources, origin of geothermal resources, Classification and types of geothermal power plants, liquid dominated geothermal electric power plant, binary cycle liquid dominated geothermal power plant, geo thermal energy power plant, scope for geothermal energy in India.

Magneto hydro Dynamic Power generation: Principles, MHD Systems, and Advantages of MHD Systems, Electrical conditions: Voltage and Power output of MHD generator.

Bio mass energy resources: Bio mass energy resources, bio mass conversion process, raw bio mass materials for conversion to biogas, agriculture waste and agriculture energy crops and fruit farms.

Ocean energy: Ocean energy resources, advantages and limitations of ocean energy conversion, technologies, ocean thermal energy conversion, principle of OTEC, open cycle OTEC, modified open cycle OTEC plant, closed cycle OTEC, OTEC conversion plants in India.

Tidal energy conversion: High and low tides, tidal energy conversion, tidal power, details about plant and equipments, tidal power plants in the world, tidal energy resources in India.

DISTRIBUTION: Types & comparisons, overhead & under ground transmission, cables and their types & their construction.

CONDUCTORS: Types of conductors, A.C.S.R. conductor, Bundle conductor

INSULATORS: Types, string efficiency, capacitor grading

Practical / Term-work: Practical /term-work will be based on the topics covered in the Syllabus.

TEXT BOOKS: 1. A Course in Electrical Power by Soni & Bhattnagar, Dhanpat Rai & Co. Publication

REFERENCES BOOKS: 1. Energy Technology by S. Rao & Dr. B.B.Parulekar, CBS Publication 2. Renewable Energy Sources and Conversion Technology by N.K. Bansal, Kataria Publication. 3. Electrical Power by Dr. S.L. Uppal, Khanna Publication


EE-403 (EC-403) ELECTRONICS DEVICES AND CIRCUITS – II


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

POWER AMPLIFIERClass A, second harmonics distortion, higher order harmonics generation, transformer-coupled audio power amplifiers, efficiency, Push-Pull amplifier, Class B, Class AB

POWER SUPPLY

Regulated power supply – series voltage regulator design, Short circuit and overload protections, Voltage regulator Ics.

DIFFERENTIAL AMPLIFIERPrinciple, Circuit analysis of BJT differential amplifier, CMRR, Use of current source circuit for increasing CMRR,

FEEDBACK AMPLIFIERFeedback concept, transfer gain with feedback, general characteristics of negative-feedback amplifiers, input resistance, output resistances, method of analysis of a feedback amplifier, Current-shunt feedback, voltage-shunt feedback, current-series feedback, voltage-series feedback

OSCILLATORSSinusoidal oscillator, Phase shift oscillators, Resonant-circuit, General form of oscillators, wien bridge oscillators, Crystals oscillator

CLIPPING AND COMPARATOR CIRCUITSClipping (limiting) circuits, Diode clipper, transistor clipper, Clipping at two independent levels, emitter coupled clipper.

CLAMPING AND SWITCHING CIRCUITSClamping operation, clamping circuit taking source and diode resistance into account, Clamping theorem, Practical clamping, effect of diode characteristics on clamping voltage, Transistor as a switch, switch with inductive and capacitive load

VOLTAGE TIME BASE GENERATORSGeneral features of a time-base signal, method of generating a time base waveform, exponential sweep circuit, negative resistance switches, transistor constants current sweep, Miller and bootstrap Transistor miller, Transistor bootstrap

CURRENT TIME BASE GENERATORSimple current sweep, linearity correction, transistor current time-base generator, methods of linearity improvement, illustrative current sweep circuits

NEGATIVE RESISTANCE DEVICESTunnel diode, UJT, Negative resistance characteristic, basic ckts principles, monostable, Bistable and astable operations, Voltage controlled switching ckts, Tunnel-diode, monostable ckts, Tunnel diode astable ckts, Tunnel-diode comparator, Tunnel-diode monostable ckts. Tunnel diode transistor hybrid ckts, applications of UJT

ANALOG TO DIGITAL AND DIGITAL TO ANALOG CONVERTERS:Digital to Analog Conversion, R-2R ladder type DAC, Weighted resistor type DAC, Switched current source type DAC, Switched capacitor type DAC, Analog to Digital Conversion, Counter type A/D converter, Tracking type A/D converter, Flash-type A/D converter, Dual slope type A/D converter, Successive approximation type ADC.


TEXT BOOKS:1. Integrated Electronics by Millman & Halkas, McGraw Hill2. Pulse, Digital and Switching Waveforms by Millman and Taub, McGraw Hill

REFERENCE BOOK:

1. Electronics Devices and Circuits Theory by Boylestead & Nashelsky, PHI


EE-404 (EC-404) CONTROL THEORY


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

INTRODUCTION TO CONTROL SYSTEMS Introduction to control systems, Classification of control systems, The Open-loop control systems & Closed-loop control systems , Comparison of Open-loop control systems & Closed-loop control systems, Servomechanism, Examples with applications in engineering field.

MATHEMATICAL MODELING OF DYNAMIC SYSTEMSIntroduction, Differential equations of physical systems, Mechanical systems: Translational elements, Rotational Elements, Electrical systems, Thermal systems, Fluid systems, Pneumatic systems. Transfer Functions of mechanical systems & electrical systems with examples. Analogous system: Analogous in force(torque)-voltage analogy & force(torque)-current analogy, problems on Analogy, Gear trains : Design and applications.

BLOCK DIAGRAM TECHNIQUE AND SIGNAL FLOW GRAPHSBlock diagram of a close loop system, Rules of block diagram reduction techniques, Various terms of Signal, flow Graphs, Construction of signal flow graphs, Mason's gain formula ,Use of Mason's gain formula to determine the T.F. Problems.

FEEDBACK CHARACTERISTICS OF CONTROL SYSTEMSFeedback and non-feedback system, Reduction of parameter variations by use of feedback, Control of the effects of disturbance signals by use of feedback, Regenerative feedback, Problems.

CONTROL SYSTEMS AND COMPONENTSComparison between ordinary motor and servo motor, T.F. of servo motors: 1) Field controlled D.C. servo Motor, 2) Armature controlled D.C. servo motor, 3) Two phase A.C. servo motor. Concept of pneumatic components: flapper valve, relay, actuator, bellows, Determination of T.F. of a complex control systems, Introduction to stepper motors & its applications. Problems.

TIME RESPONSE ANALYSIS & DESIGN SPECIFICATIONSIntroduction, Standard test signal, Time response of first order control system, Time response of a second order control system, Response of second order system to the unit-step, Time response specifications, Derivation of specifications of second order system, Steady state error and error constants, Types of feedback control systems, Compensation methods such as derivative error compensation, derivative output compensation, integral error compensation, Problems.

CONCEPT OF STABILITY, AND ALGEBRAIC CRITERIONConcept of stability, absolute stability, absolute stability and relative stability, Necessary condition for stability, Hurwitz stability criterion, Routh stability criterion, Special cases of Routh Stability Criterion, Application of Routh Criterion to linear feedback control system, Relative stability analysis, Nyquist stability criterion, Problems

THE ROOT LOCUS TECHNIQUEThe concepts of Root locus, Rules for constructions of Root locus Problems.

THE FREQUENCY RESPONSE ANALYSISIntroduction frequency response, Frequency domain specifications, Correlation between time and frequency response, Contraction of Polar plots, Contraction of Bode plots, Experimental determinations of transfer functions, Determination of Gain margin and Phase margin gain for find stability in frequency domain, Problems.

STATE VARIABLE ANALYSIS OF CONTROL SYSTEM.Introduction , Concepts of state, state variables ,state vectors, state space, State space equations, correlation between T.F.& state space equations, Space models , Controllability & observables, Problems.


TEXT BOOKS:1. Control System Engineering. By I.J. Nagrath & M. Gopal , New Age International publishers

2. Modern Control Engineering. By K. Ogata, PHI

REFERENCE BOOKS:

1. Automatic Control Systems By B.C.Kuo., Tata McGraw Hill.

2. Automatic control Engineering by Raven.CBS Publication.

3. Linear Control Systems by B.S.Manke. New Age International Publishers

4. Automatic Control Systems by S.N.Verma.Kataria Publication


EE-405 ELECTRICAL MACHINE –II


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200TRANSFORMERS: Polyphase transformers, Polarity , star/star star/delta, Delta/delta, delta/zigzag, terminal marking, nomenclatures, vector diagram, phase groups, parallel operation, Scott connection, tertiary winding, auto transformers , testing of transformers , efficiency , transients in transformers , voltage regulation , off load and on load top changers.

SYNCHRONOUS MOTORS:Principle of operation , Method of starting ,motor on load with constant excitation, power flow within a synchronous motor, equivalent circuit of a synchronous motor, power developed by synchronous motor, synchronous motor with different excitations ,effect of increased load with constant excitation, effect of changing excitation of constant load-different torques of a synchronous motor-power developed by synchronous motor, alternative expression for power developed, various condition of maxima, salient pole synchronous motor, power developed by a salient pole synchronous motor, effect of excitation on armature current and power factor, constant power lines , construction of V curves , hunting or surging or phase swings ,methods of starting , procedure for starting a synchronous motor , comparison between synchronous motor and induction motor , synchronous motor application.

A.C. COMMUTATOR MOTORS:Types of winding emf by transformer and rotation action , action of commutator as frequency converter. Effect of emf injection, sources pf emf injection, T/S relation with injected emf equ. Circuit and vector diagram. Regulating shunt and series commutator machines, Charge commentator motor, its characteristics and performance.

SINGLE PHASE COMMUTATOR MOTOR: Types of Torque and mech. power equ. , Vector diagram and compensated series motors, operation on a.c. and d.c.

REPULSION MOTORS: GENERAL PRINCIPLE:brush position vector diagram , starting and speed control.

SINGLE PHASE INDUCTION MOTOR:Double field theory equivalent circuit experimental determination of motor parameters- methods of starting.


TEXT BOOKS: 1. Elect. Technology Vol. II by B.L. Theraja, S. Chand.

REFERENCE BOOKS: 1. A.C. Machine/CS by M.G. Say, CBS Publication 2. Elects Comm. motors by Wiaylor, CBS Publication 3. A.C. Fundamentals by Oarik, CBS Publication


EE-406 SIMULATION PACKAGES


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

-- 2 -- -- -- 25 25 -- 50

Topics should be covered using PSPICE, MATLAB, or any other relevant advance software package (During Lab Session)

SOFTWARE PACKAGES AND NETWORK FORMATION: Introduction to latest relevant software packages for study and analysis of electrical circuit by simulation, representation of basic circuit elements like resistance, inductor, and capacitor, time invariant voltage sources and current sources, time variant sources such as exponential, sinusoidal, ideal and real time pulse, circuit formation by identifying nodes.

DC ANALYSIS:Calculation of node voltage and branch current for the resistive networks, simulation of DC analysis like operating point, small signal transfer function and DC sweep analysis, modeling of sources in DC analysis – voltage controlled voltage sources ,current controlled voltage sources, current controlled current sources and voltage controlled current source, example based on resistive networks and simple transistor circuits.

TRANSIENT ANALYSIS:Modeling of time variant sources, inductor and capacitors, transient output variable, setting up voltage at nodes and branch current as initial transient conditions, statements or procedure for transient analyses, calculation and plot of response of circuit consisting of combination of R, L and C, simulation of switches in the networks and their operations.

AC ANALYSIS:Modeling of AC single phase and three phase sources, effect of change in frequency on a given circuit by plotting frequency response, response of the circuit at resonance in series or parallel pot of instantaneous current in a phase circuit, calculation of equivalent impedance and plot of overall response of simple circuit.

NETWORK COMPUTATIONS:Formation of simultaneous equations and use of determinant method in solving complex networks solution of higher order differential equation, sample demonstrations for application of computers in matrix computations, 3-D charts and simulations of real time problems.

INTRODUCTION ABOUT MATLAB TOOLBOX AND PROGRAMMING: Image processing, Filter Designing, digital signal processing, Mathematics, fuzzy logics, M-files, figure files, model files, designing and interfacing.

TEXT BOOKS:1. Introduction to MATLAB by R.K.Rudrapratap, Oxford Pub.2. Manual of PISPICE and ORCAD

REFERENCE BOOKS: 1. MATLEB Programming for Engineer by Stephem.J.Chapman, Thomas Learning 2. MATLEB Introduction Application by Amosgilot, john Williams

GUJARAT UNIVERSITYB.E-III SEMESTER – V (ELECTRICAL & ELECTRONICS)

EE-501 ELECTRICAL POWER SYSTEM-II

Teaching Scheme Examination Scheme

Theory Hours

Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

LINE CONSTANTS: Inductance of 1-phase, two-wire line and composite conductor lines, inductance of 3-phase spacing, with and without transposition, double circuit line, bundled conductors. resistance and skin effect. Capacitance of 1-0 and 3-phase transmission line. Effect of earth, on transmission line capacitance.

REPRESENTATION OF POWER SYSTEMS COMPONENTS:- One line diagram and impedance /reactance diagram, per unit system representation.

MECHANICAL DESIGN OF TRANSMISSION LINE: Sag calculation, supports at equal and unequal levels, stringing chart

TRANSMISSION LINE PARAMETERS:Inductance of 1-phase, two-wire line and composite conductor lines, inductance of 3-phase line with symmetrical and unsymmetrical spacing with and without transposition, double circuit line, bundled conductors, resistance and skin effect, capacitance of 1-phase and 3-phase transmission line, effect of earth on transmission line capacitance. Performance calculation of short line, medium line by nominal T and method, evaluation of A, B, C, D constants, long transmission lines – rigorous solution, Ferranti effect.

PERFORMANCE OF TRANSMISSION LINES: Performance calculation of short line, medium line by nominal T and TT method. Evaluation of A,B,C, D constants long transmission lines - rigorous solution interpretation of the long line equation Ferranti effect equivalent circuit.

POWER CIRCLE DIAGRAM: receiving end and sending end power circle diagram. Universal circle diagram.

SYMMETRICAL FAULT ANALYSIS: Transients on a transmission line, short circuit of an unloaded and loaded synchronous Machine, reactance’s of a synchronous machine, Bus impedance matrix. Algorithm for short circuit studies.

SYMMETRICAL COMPONENTS: Symmetrical component transformation phase shift ioin star-delta transformers, sequence Impedances of power system components/sequence networks of a power system

UNSYMMETRICAL FAULT ANALYSIS: Symmetrical component analysis of unsymmetrical faults, like L-G, L-L, L-L-G faults. Bus Impedance matrix method.

Practical/Term-work: Practical /term-work will be based on the topics covered in the Syllabus

TEXT BOOKS:1. A course in electrical power by Soni, Gupta and Bhagtnagar, Dhanpat Rai & Co.

REFERENCES BOOKS: 1. Elements of power system analysis -by Stevenson 2. Modern power system analysis by Nagrath & Kothari, Tata McGraw Hill 3. Electrical power by Dr. S.L. Uppal, Khanna Publication


EE-502 ELECTRICAL AND ELECTRONICS MEASUREMENT AND INSTRUMENTATION


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

MEASUREMENT ERRORS AND STANDARDS Definitions, Accuracy and precision, significant figures, Types of error, statistical analysis, probability of errors, limiting errors, Time and frequency standards, Electrical standards

ELECTROMECHANICAL INDICATING INSTRUMENTSSuspension galvanometer, torque and deflection of the galvanometer, permanent magnet moving coil mechanism, DC ammeter, DC voltmeters, Voltmeter Sensitivity. Series type ohmmeter, shunt type ohmmeter, Multimeter or VOM, calibration of DC instruments, Alternating –current indicating instruments, thermo instruments, electrodynamometers in power measurements, watt-hour meter, power factor meters, instrument transformers.

BRIDGE MEASUREMENTS Wheatstone bridge, Kelvin bridge, AC bridge and their applications, Maxwell bridge, Hay’s bridge, unbalance conditions, wein bridge. Anderson’s bridge, De Sautys Bridge, Schering bridge,

ELECTRONICS INSTRUMENT FOR MEASURING BASIC PARAMETERSTrue RMS responding voltmeter, digital frequency meter, circuit for measurement of frequency, simplified composed ckts of digital frequency meter, high frequency measurements, period measurement, ratio and multiple ratio measurements, time interval measurements,CT,BT.

CATHODE RAY OSCILLOSCOPEIntroduction, oscilloscope block diagram, Cathode Ray Tube, CRT ckts, Vertical deflection system, delay line, multiple trace, Horizontal deflection system, oscilloscope scope and transducers, oscilloscope techniques, special oscilloscope

INSTRUMENT FOR GENERATION AND ANALYSIS OF WAVEFORMSIntroduction, The sine wave generator, frequency synthesized signal generator, frequency divider generator, signal generator modulation, sweep frequency generator, pulse and square wave generator, function generator, wave analyzers, harmonic distortion analyzer, spectrum analyzer.

DISPLAY DEVICES AND RECORDERSDigital display methods, digital display units, segmental displays, dot matrices, rear projection display, light emitting diode, liquid crystal diodes, segmental gas discharge displays, decade counting assembly’s, display systems, decimal decoders BCD to 7-segment converter, BCD to dot matrix converter , Resolution in digital meters, sensitivity of digital meters, accuracy specification of digital multimeters. Recorders, recording requirements, analog recorders like graphic oscillgraphic , strip chart recorder , types of strip chart recorder, galvanometer type recorders , null type recorders, potentiometer recorders, single point recorders, multi point recorders, XY recorders ultra violets recorders

DATA ACQUISITION SYSTEMS AND TRANSDUCERS:Electrical transducers, selecting transducer, resistive transducer, resistive position transducer, strain gauges, inductive transducer, and thermistor, differential output transducer, LVDT, pressure inductive transducer, capacitive transducer, load cell,piezo electrical transducer, photo electrical transducer, photo voltaic cell,semicontuctor photo diode ,the photo transistor ,temperature transducer, frequency generating transducer, reluctance pulse pick-ups, mechanical transducer, mechanical flow meter ,magnetic flow meters,measurments of thickness using beta gauge, objective of a DAS,signal conditioning of the inputs, signal channel data acquisition system, multi channel DAS, computer based DAS, data loggers, A/D converters, electromechanical A/D converters, digital transducer.


TEXT BOOKS:1. Modern electronics Instrumentation and measurement techniques by Albert

D.Helfrick and William D. Cooper

2. Electronics measurement and instrumentation by H. S. Kalsi McGraw-Hill.

REFERENCE BOOKS:1. A course in Electrical and electronics measurement and instrumentation by A. K. Sawhney

Dhanpat Rai & Co.


EE- 503 (EC-503) ELECTROMAGNETIC THEORY


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 -- -- 3 100 -- -- 50 150

VECTOR ANALYSIS: Scalars & Vectors dot and cross products, co-ordinate systems and conversions.

COULOMB’S LAW AND ELECTRICAL FIELD INTENSITY: Coulomb’s law, field due to different charge distributions.

ELECTRIC FLUX DENSITY, GAUSS’S LAW AND DIVERGENCE: Concept of electric flux density, Gauss’s law and its applications, differential volume element,

divergence, Maxwell’s first eqn. and divergence theorem.

ENERGY AND POTENTIAL: Energy expanded in moving a point charge in electrical field, line integral, definition of

potential difference and potential, potential field of a point charge and system of charges, potential gradient, dipole, energy density in electrostatic field.

CONDUCTORS, DIELECTRICS AND CAPACITANCE:Definition of currents and current density, continuity eqn., metallic conductors and their properties, semiconductors, dielectric materials, characteristics, boundary conditions, capacitance of a parallel plate capacitor, coaxial cable and spherical capacitors.

POISSON’S AND LAPLACE EQN. : Poisson’s and Laplace eqns. uniqueness theorem, examples of solution of Laplace and

Poisson’s eqns.

STEADY MAGNETIC FIELD: Biot-Savart’s law, Ampere’s circuital law, concept of flux density, scalar and vector magnetic

potential.

MAGNETIC FORCES, MATERIALS AND INDUCTANCE: Force on a moving charge, force on a differential current element, force and torque on a close

circuit, magnetization and permeability, magnetic boundary conditions, magnetic circuit, self inductance and mutual inductance.

TIME VARYING FIELD AND MAXWELL’S EQNS. : Faraday’s law, displacement current, Maxwell’s eqns. in point and integral forms.

THE UNIFORM PLANE WAVES: Wave motion in free space, perfect dielectric, dielectric, pointing vector, power consideration,

propagation in good conductor, phenomena of skin effect, reflection of uniform plane waves.

PLANE WAVES AT BOUNDARIES AND IN DEPRESSIVE MEDIA: Reflection of Uniform Plane Waves at Normal Incidence, Standing Wave Ratio, Wave

Reflection from Multiple Interfaces, Plane Wave Propagation in General Directions, Plane Wave Reflection at Oblique Incidence Angles

TEXT BOOKS: 1. Engineering Electromagnetic by Willian Hayt, McGraw Hill.

REFERENCE BOOKS:1. Electromagnetic by J.D.Kraus, Tata McGraw Hill.2. Electromagnetism by Theory and applications , A. Pramanik,PHI

3. Electromagnetic Concepts and Applications by Stanley Marshal, PHI


EE – 504 (EC-504) MICROPROCESSOR & PERIPHERALS


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

INTRODUCTION TO BASIC COMPUTER: -Block diagram of digital computer, classification of digital computer language, high level & low level languages. Microprocessor architecture & Microcomputer system, memory, input/output, interfacing devicesIntroduction and brief overview of 8- bit processors – Intel’s 8085

16 BIT PROCESSORS ARCHITECTURE AND INSTRUCTION SET:-Intel family of 16-bit processors, Architecture of 8086/8088 CPU, Instruction set of 8086 microprocessor.

PROGRAMMING TECHNIQUES:-

Logical & Arithmetic processing, loops, procedures, data tables, modular programming, Macros, assembler directives, assembly language program development tools.

DESIGNING THE 8086 CPU MODULE:-Three- bus system architecture, 8086 CPU hardware design, Generation of system clock and reset signals, Micro computer bus types and buffering techniques, 8086 minimum and maximum mode module, 8088 microprocessor.7

MAIN MEMORY SYSTEM DESIGNTypes of memory, CPU read/write Timing, SRAM and ROM Interface Requirements, Address Decoding Techniques, Inter facing Dynamic RAM, Troubleshooting Memory Module.

BASIC INPUT/OUTPUTParallel I/O, Serial I/O, Programmed I/O, Interrupt - driven I/O, directed memory access.SUPPORT PERIPHERAL CHIPS - ARCHITECTURE, MODES OF OPERATION & INTERFACINGProgrammable Peripheral Interface (PPI) 8255, Universal Synchronous/Asynchronous Receiver/Transmitter (USART) 8251, Programmable Interrupt Controller (PIC) 8259, DMA Controller 8237/57, Key board and display controller 8279,

DIGITAL & ANALOG INTERFACINGInterfacing of keyboard, displays, A/D and D/A converter, stepper motor, microcomputer based scale and application

DATA COMMUNICATION STANDARDSThe current loops, interface, RS-232-C serial interface standard, GPIB bus IEEE – 488

Practical/Term-work: Practical/Term-work will be based on the topics covered in the syllabus

TEXT BOOKS:1. The 8086/8088 Family Design, Programming and Interfacing by John Uffenbeck, PHI2. Microprocessor and Interfacing by D. V. Hall, TMH

REFERENCE BOOKS:

1. The Intel Microprocessors – Architecture, Programming and Interfacing by Barry B. Brey, PHI

2. The 8088 and 8086 microprocessor by W. A. Triebel and Avtar Singh, PHI 3. Microprocessor Architecture Programming and Applications by R. S. Gaonkar, WEL4. IBM PC Assembly Language and Programming by Peter Abel, PHI –For Laboratory work


EE-505 QUALITY ENGINEERING & INDUSTRIAL SAFETY


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 -- -- 3 100 -- -- 50 150

QUALITY: Introduction, Philosophical approach, Cost of quality, Overview of the works of Juran, Deming, Crosby, Taguchi, PDCA cycle, Quality control, Quality assurance.

QUALITY ORGANIZATION:Quality management, Quality system, Quality audit, Vendor quality assurance, Total quality management, Quality awards, Quality certification, Typical procedure for ISO 9000-2000.

VARIATIONS:

Analysis of variance, Statistical tools, Statistical quality control, Control charts, Process capability analysis, Statistical process control.

INSPECTION:

Inspection by sampling, Acceptance sampling, Statistical approaches, Single, double and multiple sampling plans.

RELIABILITY:

Concept, Difference between reliability and quality, Different measures of reliability, Time to failure distributions, MTBF.

INDUSTRIAL SAFETY: Accident prevention, Safety aspects in the use of machines and equipment, Safety in material handling, Training for safety, Safe practices in industry, Provisions for safe working, Create a safe environment, Personal protection and welfare, and Some View Points on Safety

ELECTRICAL SAFETY:Physiological effects of Electric current, Electrical Power System, The Philosophies of Earthing, Cables and Fires, Electrical equipment for use in Explosive Atmospheres, Protection by intrinsic safety, Electrical apparatus in areas subject to flammable dusts, Lighting phenomena and protection, Electrical welding, stored energy.

TEXT BOOKS:1. Quality Planning and Analysis by J. M. Juran and F. M. Gryna, McGraw Hill.2. Electrical Safety by Maxwell Adams,IET.

REFERENCE BOOKS:1. Industrial Hand Book by William Handling, McGraw-Hill.2. Quality Control and Application by B. L. Hansen and P. M. Ghare, PHI, Eastern Economy

Edition.


EE-506 MINOR PROJECT


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

-- 4 -- 3 -- 50 50 -- 100

The student will carryout mini circuit design project based upon following guidelines:1. The project should be strictly hardware based.2. The project can be carried out individually or in a group of 2 of 3.3. The project work involves fabrication, testing, calibration (if required) work of some

electronic circuit.4. The project should be defended by adequate documentation & presentation.5. A teacher can assign fabrication of trainer kits to the students.

This mini project involves the design and construction of electrical/electronic circuits with live applications. The evaluation includes an internal examination (along with demonstration & viva) and the day-to-day performance of the student.

GUJARAT UNIVERSITYB.E-III SEMESTER – VI (ELECTRICAL & ELECTRONICS)

EE – 601 UTILIZATION OF ELECTRICAL POWER AND ENERGY


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

ELECTRIC DRIVES: Factors effecting selection of motors - running starting, speed control, breaking - mechanical features enclosures, bearing noise - load equalization -temp. rise, size of motor applications, Characteristics of DC Motor, Operating Modes of DC Drives, Single Phase DC Drives, Breaking Schemes of DC-DC Converter Drives.

ELECTRICAL TRACTION:Types - various traction system - track electrification - traction motor - locomotives - tramways and trolleys - types of speed time characteristics - mechanism of train movement - reactive effect - specific energy consumption - control of a.c. and d.c. motors - starting - series parallel control - regenerative breaking – method of control.

ELECTRIC HEATING AND WELDING: Types of heating - requirements - resistance heating - induction heating - Arc furnaces - dielectric heating - type of welding - resistance and arc Welding.

ELECTROLYTIC PROCESS: Principles - applications - types refining of metals, electro deposition chemical and power supply.

ILLUMINATION: Nature of light - production of light - difference types of lamps – Lighting calculations - reflectors - factory lighting, street lighting - flood lighting.

ECONOMIC ASPECTS:load factors, maximum demand, diversity, utilization factor - load curves- base load and peak load - fixed and running cost - depreciation - tariffs - types and problems - causes of lows pf - methods of pf improvement - economics of pf improvement - choice of equipments. Conversion.

ENERGY CONSERVATION: Energy audit approaches at unit level, industrial engineering approaches for conservation such as p.f. Improvement. Power factor controller, selection of electrical drives and their rating, high efficiency motors, voltage regulation, maintenance and lubrication of drives, vibration reduction in transmission and distribution losses, lightning system with good design illumination systems, efficient electrical drives for fans, pumps, compressor and refrigeration system; domestic and industrial load shedding.

ENERGY AUDIT:Calculation and costing; project cost evaluation byROI, payback terms - Energy balance and organization for energy management. Conservation measures and diagnostic review.

Term Work /Tutorials: Term work shall be based on syllabus.

TEXT BOOKS:1. Electric power by Soni, Gupta and Bhatnagar, Dhanpat Rai & Co. Publication

2. Renewable energy sources and conservation technology by N.K. Bansal, Kleemann and Meliss, Tata McGraw Hill.

REFERENCE BOOKS: 1. Utilization of electric energy by E. D. Taylor, Orient Longman.


EE-602 (EC-602) ADVANCE MICROPROCESSORS & MICROCONTROLLERS


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

INTRODUCTION:-Evolution, comparison with microprocessor, survey of a 8-bit & 16-bit micro controllers and main features

ARCHITECTURE OF 8051 MICROCONTROLLER:-Block Diagram, Internal Registers & their functions, Oscillator & clock, Internal memory, Special function registers, I/O pins & ports, external memory, Counters & Timers, Serial data I/O, Interrupts

PROGRAMMING MODEL:-System Model, Memory Organization, Instruction Set, Addressing Modes, Assembly Language, Program design, Tools & Techniques

ASSEMBLY LANGUAGE PROGRAMMING:-Data movement, logical operations, Arithmetic operations, Jumps & Calls instructions, Interrupt handling, I/O operations

MICROCONTROLLER BASED SYSTEM DESIGN:-Specifications, Pin Configuration, Interfacing External Memory, Reset & Clock circuits, Expanding I/O, Testing of Crystal & Memory

APPLICATION OF MICROCONTROLLER:-

Keyboard, Alphanumeric displays, frequency and pulse width measurement, A/D and D/A conversions and examples of industrial applications such as processor control, drives, signal processing

SERIAL DATA COMMUNICATION:-Network configurations, 8051 data communication modes and example programme.

80386 AND 80486 MICROPROCESSORS:-Introduction to 80386 Microprocessor, Special 80386 register, memory management, protected mode, Virtual 8086 mode, memory-paging mechanism. Introduction to 80486

PENTIUM PROCESSORIntroduction & main features of Pentium processor, special registers, memory management, features of Pentium Pro processor. The Pentium IV processor

BUS INTERFACE

ISA bus, EISA and VESA, PCI bus, Parallel Printer Interface, Universal Serial Bus (USB), Accelerated Graphics Port (AGP)

Practical/Term-work: Practical/Term-work will be based on the topics covered in the syllabus.

TEXT BOOKS:1. The 8051 Microcontroller – Architecture Programming & Application by K. J. Ayala ,Penram

International2. The Intel Microprocessors – Architecture, Programming and Interfacing –Sixth Edition by

Barry B. Brey, PHI

REFERENCE BOOKS:

1. Intel’s Microcontroller Handbook2. The 8088 and 8086 microprocessor by W. A. Triebel and Avtar Singh, PHI3. Microprocessor and Interfacing by D. V. Hall, TMH4. IBM PC Assembly Language and Programming by Peter Abel, PHI – For Laboratory work.


EE-603 POWER ELECTRONICS


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

INTRODUCTION TO POWER ELECTRONICS, POWER DIODES, POWER TRANSISTORS: Overview of Power Electronics, Power Semiconductor Devices, Control Characteristics of Power Devices, Characteristics and Specification of Switches, Types of Power Electronic Circuits, Reverse Recovery Characteristics, Types of Power Diodes, , Diodes with RC, RL, LC and RLC Loads, Free wheeling Diodes, Performance Parameters of Rectifiers, Power BJTs, Power MOSFETs, CMOSs, FETs, IGBTs, MOSFET Gate and BJT Base Drive Circuits, Isolation of Base and Gate Drive Circuits

THYRISTOR:

Thyristor Characteristics, Two Transistor model of Thyristor, Thyristor Turn-On, Thyristor Turn Off, Types of Thyristor, Series & Parallel Connections of Thyristor, Gate drive circuits.

CONTROLLED RECTIFIERS:

Principal of Phase Controlled Converter, Single Phase Semi Converter, Single Phase Full Converter, Single Phase Dual Converter, Three Phase Half wave Converters, Three Phase Semi Converter, Three Phase Full Converter, Three Phase Dual Converter. (Without analysis for RL load)

AC CONTROLLERS: Principal of On Off Control, Principal of Phase Control, Cycloconeverters, PWM Controlled AC Voltage Controllers.

THYRISTOR COMMUTATION TECHNIQUES:

Introduction, natural commutation, forced commutation (self, impulse, resonant pulse, complementary, external pulse, load-side, line-side commutation).

INVERTORS:

Principal of Operation of Pulse Width Modulated Inverters, Performance Parameters, Single Phase Bridge Inverters, Three Phase Inverters, Current Source Inverter, Series Resonant Inverter, Parallel Resonant Inverter, Class E Resonant Inverter, Multilevel Inverter Concept, Applications & features of Multilevel Inverter.

DC-DC CONVERTERS:

Principal of Step down Converter, Principle of Step UP Converter, Performance Parameters, Converter Classification, Switch Mode Buck-Boost and Buck-Boost Regulators, Chopper Circuit Design.

PROTECTION OF DEVICES AND CIRCUITS:

Cooling and Heat Sinks, Snubber Circuits, Reverse Recovery, Supply and Load Side Transients, Current & Voltage Protection, Electromagnetic Interference.

POWER DRIVES & APPLICATIONS:

Microcomputer Control of DC Drives, Control of AC Induction Motors using Voltage, Current and Frequency Control, Stepper Motor Control, Introduction to FACTS, Introduction to DC Power Supplies & Fly back Converter, UPS as AC Power Supply, Magnetic Design Considerations.

Practical / Term-work Practical /term-work will be based on the topics covered in the syllabus

TEXT BOOKS:1. Power Electronics Circuits, Devices and Applications by Muhammad H. Rashid, PHI and

Pearson Education.2. Power Electronics by M D Singh and K B Khanchandani, TMH Publication3. Power Electronics by M S Jamil Asghar, PHI Publication

REFERENCE BOOK:1. Power Electronics Circuits by Muhammad H. Rashid, from PHI and Pearson Education.

GUJARAT UNIVERSITYB.E-III SEMESTER – VI (ELECTRICAL & ELECTRONICS) EE- 604 – ELECTRONICS COMMUNICATION CIRCUITS


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

PASSIVE CIRCUITS : Series Tuned Circuit, Parallel Tuned Circuit, Self-Capacitance of a Coil, Skin effect, Mutual Inductance, High frequency Transformers, Tapped Inductor, Capacitive Tap, Low-frequency Transformers.

AMPLIFIERS AND OSCILLATORS: The Hybrid-π Equivalent circuit for the BJT, Short-Circuit Current Gain for the BJT, Common Emitter (CE) Amplifier, Stability and Neutralization, Common – base Amplifier, Available Power Gain, Cascade Amplifier, Hybrid-π Equivalent Circuit for an FET, Mixer Circuits, Voltage-controlled Oscillators, Stability, Frequency Synthesizers.

RECEIVERS: introduction, super heterodyne receiver, tuning range, sensitivity and gain, adjacent channel selectivity, automatic gain control, electrically tuned receiver, integrated circuit receiver

AMPLITUDE MODULATION : Amplitude Modulation, Amplitude Modulation Index, Modulation Index for Sinusoidal AM, Frequency Spectrum for Sinusoidal AM, Average Power for Sinusoidal AM, Effective Voltage and current for Sinusoidal AM, No sinusoidal Modulation, Double-Sideband Suppressed Carrier (DSBSC) Modulation, Amplitude Modulator Circuits, Amplitude Demodulator Circuits, Amplitude-modulated Transmitters, AM Receivers, Noise in AM Systems.

NOISE : Thermal Noise, Shot Noise, Partition Noise, Low Frequency or Flicker Noise, Burst Noise, Avalanche Noise, Bipolar Transistor Noise, Field-effect Transistor Noise, Equivalent Input Noise Generators and comparison of BJTs and FETs, Signal – to – Noise Ratio, S/N Ratio of a tandem connection, Noise factor, Amplifier Input Noise in Terms of F, Noise Factor of Amplifiers in Cascade, Noise Factor of a Lossy Network, Noise Temperature, Measurement of Noise Temperature and Noise Factor, Narrowband Band-pass Noise.

SINGLE-SIDEBAND MODULATION : Single-Sideband Principles, Balanced Modulators, SSB Generation, SSB Reception, Modified SSB systems, SNR for SSB, Commanded Single Sideband.

ANGLE MODULATION : Frequency Modulation, Sinusoidal FM, Frequency Spectrum for Sinusoidal FM, Average Power in Sinusoidal FM, Non-Sinusoidal Modulation : Deviation Ratio, Measurement of modulation Index for Sinusoidal FM, Phase Modulation, Equivalence Between PM and FM, Sinusoidal Phase Modulation, Digital Phase Modulation, Angle Modulator Circuits,

FM Transmitter, Angle Modulation Detectors, Automatic Frequency Control, Amplitude Limiters, Noise in FM System, Pre-emphasis and De-emphasis, FM Broadcast Receivers, FM Stereo Receivers.

INTRODUCTION TO TELEVISIONPicture transmission, TV transmitter, TV receiver, Synchronization, Receiver, Geometric form and aspect ratio, Image continuity, No. of scanning lines, Interlaced scanning, Resolution, Brightness, Contrast, TV Receiver and Transmitter,RF Tuner, IF Subsystem, Video amplifier, Sound section, Sync separation and processing, Deflection circuits, Scanning Currents in the yoke, DC power supplies.

SATELLITE AND OPTICAL FIBER COMMUNICATIONS: -kepler’s link laws,orbits,power system, attitude control, satellite station keeping,polarization,transponder, Electromagnetic spectrum Evolution of fiber optic system, Elements of an optical fiber transmission.

Practical / Term-work: Practical /term-work will be based on the topics covered in the Syllabus

TEXT BOOKS:1. Electronic Communications by Dennis Roddy & John Coolen IV Edition PHI.2. Electronic Communications by Kennedy McGraw Hill Publication.

REFERENCE OF BOOKS: 1. Modern Digital and Analog Communication System III Edition By B.P.Lathi, Oxford

Publication.


EE-605 BUSINESS ORGANIZATION AND ENTREPRENEURSHIP SKILLS


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 -- -- 3 100 -- -- 50 150

PRODUCTION: Division of labour Efficiency of labour Scale of production. Economics of scale. Special importance of small-scale industries in developing countries like India.

NATURAL INCOME AND ITS PLEASUREMENT: Different national income concepts.

FORMS OF BUSINESS ORGANISATION:Proprietorship, partnership and joint stock company. Tjere special features and process of formation.

MANAGEMENT :Basic elements of process of management (its functions) Systems approach to management. Evolution of management thought and principles.

PERSONNEL MANAGEMENT: Functions of personnel department and status of personnel manager. Manager planning and administration: recruitment, selection and placement, training and development. Industrial relations.

MARKETING MANAGEMENT:Modern concept of marketing. Marketing mix. Market segmentation. Product mix and product planning. Sales forecast and techniques of forecasting sales.

FINANCIAL MANAGEMENT: Capital requirements for different purposes sources of finance. Capital budgeting process. Evaluation of alternatives investment opportunities. Techniques of evaluating investment proposals. Break-even analysis. Basic information about balance-sheet and profit and loss account.

COST ACCOUNTING: Aims of cost accounting. Elements of cost depreciation and methods of calculating depreciation. Overhead costs and methods of allocation of overhead costs.

ENTREPRENEURSHIP DEVELOPMENT: (a) Entrepreneur as a dynamic agent of charge. Special importance of entrepreneurship

development in a developing country.(b) Enterpreneual characteristics: Development of entrepreneurial triats. Entrepreneurial

motivation skills required by an entrepreneur.

(c) Need for efficient supports systems: Project formulation, infrastructural facilities, finance etc.

(d) Preparation of project report : its stages - selection of product, project planning, investment (e) Decision, price-cost relationship, appraisal etc. Appraisals of a project in terms of technical feasibility,

commercial feasibility, financial feasibility and overall managerial feasibility.

TEXT BOOKS:1. Industrial Organization & Engineering Economics by T. R. Banga and S. C. Sharma, Khanna

Publishers2. Industrial Engineering & Management by O.P. Khanna, Dhanpat Rai &Co.

REFERENCES BOOKS:1. Management by James F. Stoner and R. Edward Freeman, Prentice Hall of India2. Management Today - Principles and Practice by Gene Burton and Manab Thakur, TMH3. Essentials of Management by Koontz & O’ Donell4. Human Behaviour at Work Organisational Benhviour by Keith Davis, Tata McGraw Hill 5. Business Management by J. P. Bose, S. Talukdar, New Central Agencies (P) Ltd.6. Industrial Organisation & Management by M. T. Telsang , S. Chand & Co.7. Industrial Engineering & Production Management by M. T. Telsang , S. Chand & Co.8. Marketing Management by Philip Kotler, Prentice Hall of India.9. Management Information System; Conceptual Foundation by W. S. Jawadekar, Venus

Publication.


EE-606 SEMINAR


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

-- 2 -- -- -- 25 25 -- 50

Seminar work will consist of study and presentation of topic related to Electrical & Electronics Engineering in general. Each student will be assigned a topic of his/her interest by the teacher concerned. He/She will do literature survey; study and practice the presentation of his/her work in batch/class during the semester. He/She will submit the report of the seminar and present the same at the time of final presentation in the batch/class.

The seminar will be evaluated internally with the progress of work by the concerned teacher.

GUJARAT UNIVERSITYB.E-IV SEMESTER – VII (ELECTRICAL & ELECTRONICS)

EE 701A ELECTRICAL DRIVES AND ELECTRIC FURNACES

(ELECTIVE-I)


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

ELECTRICAL DRIVES:-ELEMENTARY PRINCIPLE OF MECHANICSNewton’s Law, Moment of Inertia, Effect of gearing, Power and Energy, Experimental Determination of Inertia.

SEPARATELY EXCITED DC MACHINE DRIVES Introduction, Mathematical Model of the Machine, Steady State Characteristic with Armature and Field Control, Armature Control, Field Control, Combined Armature and Field Control, Dynamic Behavior of DC Motor with Constant Flux.

SYMMETRICAL THREE PHASE AC MACHINEMathematical Model of a General AC Machine, Induction Motor with Sinusoidal Symmetrical Voltage in steady state, Induction Motor with Impressed and Unsymmetrical line Voltages of Arbitrary Wave forms, Symmetrical components, Single phase induction motor, single phase Electrical Brake for AC Crane-Drives, Unsymmetrical Starting Circuit for Induction Motor.

POWER SUPPLY FOR ADJUSTABLE SPEED AC DRIVES. Pulse width modulated (PWM) voltage Transistor Converter, voltage source PWM Thyristor converter, Current Source Thyristor converter, Converter without DC link (Cycloconverter)

INDUCTION MOTOR DRIVE WITH REDUCED RANGEDoubly fed Induction Machine with Constant Stator Frequency and Field Orientated Rotor Current, Control of a Line side Voltage Source Converter as a Reactive Power Compensator, Wound Rotor Induction with Slip Power recovery.

VARIABLE FREQUENCY SYNCHRONOUS MOTOR DRIVESControl of Synchronous motor with PM Excitation, Synchronous Motor with Field and Damper windings, Synchronous Motor with Load Commutated Inverter (LCI- Drive)

SOME APPLICATIONS OF CONTROLLED ELECTRICAL DRIVESSpeed Controlled Drives, Linear Position Control, Linear Position Control with Moving Reference Point, Time Optimal Position Control with Fixed reference Point, Time optimal Position Control with Moving reference point.

ELECTRIC FURNACES:-INTRODUCTION AND METHOD OF HEATINGConversion of Electrical Energy in to Heat – Joule’s Law- Heat in Different Conductor- Choice of Resistance Materials- Definitions of Resistance and Arc Heating- Heating Method.

DIRECT AND INDIRECT RESISTANCE HEATINGIntroduction, Davy’s Experiment , Pety’s Experiment, The Cowles Zinc Furnace- The Cowles Furnace for Aluminum Alloys , The Heroult Aluminum Furnace , Borcher’s Aluminum Furnace , The Minet Aluminum Furnace ,The Heroult Furnace , The Hall Furnace of the Pittsburgh Reduction Company , Bradly’s Patents ,Furnace of Heroult works, Borcher’s furnace for indirect Heating, Acheson Carborun Dum furnace, Acheson Graphite furnace, Prince’s Graphite furnace, Torn’s silicon furnace,Elihu Thomson furnace-the Compton Dowsing furnace,Hasslacher’s furnaces.

INTRODUCTION TO INDUCTION HEATINGThe Background to induction heating, Induction heating principals.

THROUGH HEATING BY INDUCTION Introduction to applications of through heating , temperature effects , heat radiation and convection , temperature distribution in induction through heating , Effects of current depth and radiated heat, Temperature distributions in heating cycle, selection of frequencies for induction through heating, application specification for coil design, equivalent circuit coil design method, traveling wave induction heating, multi-layer coils.

INDUCTION MELTINGPrinciple of induction melt, the coreless induction furnace, channel furnace, comparison of coreless and channel furnace, special features in induction melting furnaces.

SUPPLY FREQUENCY HEATING SYSTEMAdvantages and limitations, load matching, control and switch gear, solid state power regulators, measurement and supply frequencies, work handling equipments, melting furnace system, frequency multi meters, dual frequency systems.

SAFETY AND ENVIRONMENTAL CONDITIONSGeneral and manufacturer’s responsibilities, international safety regulations, IEC safety recommendations, environment and terminology APPLICATION OF ELECTRIC FURNACESAdvantages, resistance heating, arc heating, superiority of the electric furnace Term work: Laboratory practical will be carried out on above syllabus.

TEXT BOOK:1. Control of Electric Drives by Leonhard W, Springer Verlag.2. Induction Heating Handbook by John Davies and Peter Simpson, McGraw Hill

REFERENCE BOOKS:1. Thyristor DC Drives by Sen P.C., john Wiley 2. Power Electronics and AC Drives by Bose B.K., Prentice Hall 3. Power Electronics –Principal and Application by Vithayathil J, McGraw Hill4. Design and Construction of Electric furnace by Wilhelm Borchers, Wexford


EE 701B POWER SYSTEM TECHNIQUES AND DESIGN (ELECTIVE-I)


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

A.C. AND D.C. L.T. DISTRIBUTION Design for both underground and overhead lines. - Kelvin's law - Lamp flicker.

H.T E HT AND UHT LINE DESIGN – Electrical design, mechanical design, reduction of tower footing resistance.

SUB STATION DESIGN:- Bus bar arrangement, bus bar design layout of diff. scheme - station earthling, metering and protection scheme, insulation co-ordination - equipment.

H.V. D.C. TRANSMISSION:- merits and demerits, one line diagram - operation and control, application.

Town and rural electrification.

Term work:Design and layout of power system project based on above syllabus.Visit: Students are required to visit different S/S and transmission system, town and rural electrification scheme to observe actual layout, working and protection scheme provided.

TEXT BOOKS: 1. Electrical Power by Soni, Gupta and Bhattnagar, Dhanpat Rai & Co. Publication

REFERENCE BOOKS: 1. Electrical Power System Design - M.V. Deshpande, Tata McGraw-Hill. 2. Electrical Power - S.L. Uppal, Khanna Publication.


EE-701C DIGITAL COMMUNICATION (ELECTIVE-I)


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

PROBABILITY THEORY & RANDOM VARIABLES:

Information, Probability, Conditional Probability Of Independent Events, Random Variable, Variance of a random variable, Relation between probability and probability density, co relation between random variables, Mean and variance of sum of random variables, random processes,PSD of digital data, error function and complementary error function Discrete And Continuous Variable, CDF, PDF, Gaussian PDF, Threshold Detection, Statistical Average, Chebyshev In Equality, Releigh Probability Density, The Central Limit Theorem Correction, Auto Correction.

INFORMATION THEORY: Concept & Measure Of Information, Source Coding, Error Free Communication Over A Noisy

Channel. Shannon Theorem, The Channel Capacity Of A Discrete Memory Less Channel, Optimum System, Channel Capacity Of A Continuous Channel, Practical Communication Systems In Light Of Shanon’s Equation

FORMATTING A BASE BAND MODULATION: Base Band System, The Sampling Theorem, Aliasing, Pulse Code Modulation, DPCM, Uniform

And Non-Uniform Quantization, Quantization Error In PCM, Delta Modulation, Adaptive Delta Modulation, Snr Calculation. Non-Uniform Quantization, Delta Modulation, Adaptive Delta Modulation, Phase Modulation, AM, SNR Calculation.

DIGITAL COMMUNICATION SYSTEM:Digital Multiplexing, Line Coding, PSD Of On/Off Signal, Bipolar Signal, Duo Binary Signal, Pulse Shapping, Nyquist First And Second Criterion For Zero ISI, Regenerative Repeaters, Detection Error Probability, M-ary System, Scrambling, Digital Carrier System.

ERROR CORRECTION CODE: Introduction, Linear Block Code, Cyclic Code, Convolution Code, Burst Error Correcting And

Detecting Code, Interlaced Code For Burst And Random Error Correction, Comparison Of Coded And Un-Coded System.

DIGITAL MODULATION TECHNIQUES: DEPSK, DPSK, BPSK, QPSK, QASK, MSK, M-ary-FSK, M-Arry-PSK, BFSK, Comparison Of Various

Digital Modulation Techniques.

DIGITAL COMMUNICATION SYSTEM IN PRESENCE OF NOISE: Optimum Binary Receiver, Coherent And Non Coherent Detection Of ASK, FSK, PSK, DPSK.

Practical /Term-work: Practical /term-work will be based on the topics covered in the Syllabus

TEXT BOOKS: 1. Digital and Analog Communication System by B.P.Lathi, CBS. 2. Principle of Communication System by Taub & Schilling, TMH.

REFERENCE BOOKS:1. Communication System by B. Carlon,TMH2. Digital Communication by Bernard Shlar , Pearson Education.

GUJARAT UNIVERSITYB.E-IV SEMESTER – VII (ELECTRICAL & ELECTRONICS) EE-701D DIGITAL IMAGE PROCESSING (ELECTIVE-I)


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

IMAGE REPRESENTATION Image representation and modeling, enhancement, restoration, Image analysis and reconstruction, Image data compression. Two dimensional systems, linear systems and shift invariance. Fourier Transform, Z – transform - Block matrices and Kronecker products, Random signals.

IMAGE PERCEPTION Introduction, light, luminance, brightness and contrast, MTF of the visual system, Visibility, function, monochrome vision models, color matching and reproduction, color vision Model. Image sampling and quantization, two dimensional sampling theory, reconstruction of images From its samples, Nyquist rate, aliasing, sampling theorem. Practical limits in sampling reconstruction. Image quantization, visual quantization.

IMAGE TRANSFORMS Two dimensional orthogonal and unitary transforms, properties of unitary Transforms, one dimensional DFT – cosine, sine Harmrd and Haar transforms.

IMAGE ENHANCEMENT Point operations, contrast stretching, clipping and threshold, digital negative intensity level slicing , bit extraction. Histogram modeling, histogram equalization, modification. Spatial operations , smoothing techniques. Magnificent and interpolation. Transform operations, Color image enhancement.

IMAGE ANALYSIS AND COMPUTER VISION Spatial feature extraction, transform features. Edge detection, gradient operators, compass operators, stochastic gradients, line and spot detection. Practical / Term-work: Practical /term-work will be based on the topics covered in the

Syllabus

TEXT BOOKS:1. Digital Image Processing - Gonzalez Rafel C, Wintz Paul, Addison Wesley

REFERENCE BOOKS:1. Fundamentals of Digital Image Processing by Jain Anil K, Prentice Hall 2. Digital Image Processing by Pratt William K, John Wiley and Sons 3. Digital Image Processing by Rosenfield Azriel Kak Avinash, Academic Press Inc.


EE-702(EC701) DIGITAL SIGNAL PROCESSING


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

INTRODUCTIONDISCRETE-TIME SIGNALS AND SYSTEMS:

Introduction, Discrete-Time Signals, Discrete-Time Systems, LTI Systems, Properties of LTI Systems, Linear Constant Co-efficient Difference equations, Frequency domain representation of Discrete-Time Signals & Systems, Representation of sequences by Fourier Transform, Properties of Fourier Transform, and correlation of signals Fourier Transform Theorems, Discrete-Time random signals.

THE Z- TRANSFORM: Z-Transform, Properties of ROC for Z-transform, the inverse Z-transform, Z-transform properties.

SAMPLING OF CONTINUOUS-TIME SIGNALS: Periodic Sampling, Frequency domain representation of sampling, Reconstructions of band limited signals from its samples.

TRANSFORM ANALYSIS OF LINEAR TIME-INVARIANT SYSTEM: Frequency response of LTI system, System functions for systems with linear constant-coefficient Difference equations, Freq. response of rational system functions relationship between magnitude & phase, All pass systems, Minimum/Maximum phase systems, Linear system with generalized.

STRUCTURES FOR DISCRETE TIME SYSTEMS: Block Diagram representation of Linear Constant-Coefficient Difference equations, Basic Structures of IIR Systems, Transposed forms Basic Structures for FIR Systems, Overview of finite-precision Numerical effects, Effects of Co-efficient quantization, Effect of round off noise in digital filters, Zero input limit cycles in Fixed-point realizations of IIR filters, Lattice structures.

FILTER DESIGN TECHNIQUES: Design of Discrete-Time IIR filters from Continuous-Time filters, Design of FIR filters by windowing Optimum approximations of FIR filters, FIR equiripple approximations.

DISCRETE-FOURIER TRANSFORM: Representation of Periodic sequences: The discrete Fourier series, Properties of discrete Fourier series, Fourier Transform of Periodic Signals, Sampling the Fourier Transform, The Discrete-Fourier Transform, Properties of DFT, Linear Convolution using DFT.

COMPUTATION OF DISCRETE-FOURIER TRANSFORMS: Efficient Computation of DFT, Goertzel Algorithm, Decimation-in-Time FFT Algorithms, Decimation-in-Frequency FFT Algorithm.

APPLICATIONS OF DSP.

Practical / Term Work: Practical / Term Work [minimum 8-10 experiments based on above topics.

TEXT BOOKS:1. Discrete Time Signal Processing by Oppeheim, Schafer, Buck Pearson education Publication2. Digital Signal Processing: Principles, Algorithm & Application by Proakis, Manolakis, PHI 3. Digital Signal Processing: A Computer Based approach by Sanjiv Mitra, McGraw Hill

REFERENCE BOOKS:1. Discrete Time Signal Processing by Bell white, Buck Pearson education publication.2. Discrete Time Signal Processing by Ashok Amberther, PHI.3. MATLAB User’s Guide.


EE-703 ELECTRICAL MACHINE DESIGN


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

GENERAL ASPECTS: Insulating materials & classification , Heating of electrical machines , cooling of transformers & rotating machines , electrical & Magnetic loading , output co-efficient , factors affecting size of machines.

TRANSFORMER DESIGN: OUTPUT EQUATION:optimum design considerations with a view to core loss, copper loss & weight of active materials , variation of output & losses with linear dimensions , design of core , selection of type of winding & its design , window space factor & dimensions , design of yoke & overall dimension , leakage reactance & resistance of winding , regulation , mechanical forces , No load current , change of parameters with frequency , temperature rise , design of cooling system.

INDUCTION MOTOR DESIGN:

output equation , main dimensions , stator winding , stator slots , shape & area , stator core & teeth , LMT , rotor design , air gap length calculations , selection of rotor slots , design of rotor bars & end ring , harmonic torques & reduction of harmonic torques , rotor winding design for would rotor , design of rotor teeth & core. Calculations of no load & short circuit , circle diagram , dispersion co-efficient.

DESIGN D.C. MACHINES: Output equation, selection of number of poles, core length & armature diameter, pole proportion & profile, length of air-gap. Armature design, choice of winding, no. of conductors & slots, slot dimensions, arm. Voltage drop, design of arm. Core. Design of field system, design of interpole, commutator & brushes, calculations of losses and efficiency.

DESIGN OF SYNCHRONOUS MACHINES: Output equation, main dimensions, short circuit ratio & its consideration, air gap length, shape of pole face - arm. design - armature winding - slots - LMT & stator core - calculation of arm. resistance & reactance , design of rotor , design of pole & pole winding , short circuit characteristic & performance evaluation

Term work: At least design of 3 machines will be done by students & relevant design report as well as drawing sheets in full size will be submitted as term work. Sketches of components & parts of designed machines will be drawn in sketch book & submitted as part of term work, programming.

TEXT BOOKS:1. A course in electrical machine by A.K. Sawhney, Dhanpatrai & Sons

REFERENCE BOOKS:1. Performance & design of a.c. machines by M.G. Say, ELBS2. Performance & design of d.c. machines by Clayton, ELBS


EE-704 SWITCHGEAR AND PROTECTION


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

SWITCHGEAR:THEORY OF CIRCUIT INTERRUPTION: Physics of arc phenomena properties of arc Arc interruption theories

CIRCUIT CONSTANTS IN RELATION TO CIRCUIT BREAKING: Circuit breaker rating - circuit constants and circuit conditions restricting voltage - transient characteristics of restricting voltage - Expression for R.R.R.V. - Factors affecting the restricting voltage characteristics, current chopping interruption of small inductive currents capacitor switching.

THEORY AND PRACTICE OF CONVENTIONAL CIRCUIT BREAKERS: Automatic switching - Air break circuit breaker, oil circuit breakers, single and multi-break construction - performance of circuit breakers - minimum oil circuit breakers, air - blast circuit breakers. Interruption methods - voltage distribution in oil circuit breakers with arc control devices - modification of circuit breaker duty by shunt resistors - comparative merits of different type of conventional circuit breakers - Auto reclosures and fuses.

RECENT DEVELOPMENT IN CIRCUIT BREAKERS:Modern trends - vacuum circuit breaker, SF6 circuit breaker and D.C. circuit breakers.

TESTING OF CIRCUIT BREAKERS: HIGH VOLTAGE TESTING:short circuit testing of C.B. - direct testing and indirect testing of circuit breakers.

PROTECTION:INTRODUCTION: Requirements of protective systems, primary backup and auxiliary protection essential requirements of protective systems basic terminology. Method of discrimination.

OPERATING PRINCIPLES AND CONSTRUCTIONAL FEATURES OF ELECTROMAGNETIC RELAYS: Classification of relays, principle, types of electromagnetic relays - theory of induction relay torque - various types of induction relays.

RELAY APPLICATION AND CHARACTERISTICS: General equations of equation for electromagnetic relays, over current relays, instantaneous over current relays, plug setting and time multiplier setting in induction disc relays - directional relays, differential relays distance relays etc. applications.

APPARATUS PROTECTION SCHEME: Generator protection, transformer protection. feeder protection bus - zone protection carrier protection.

TESTING AND MAINTENANCE OF PROTECTIVE GEAR: Classification of relay testing general methods of testing protective gear current transformer test - potential transformer tests. General principle of static relays and their applications and future prospectus.

- Laboratory work shall be based on the above theory

- Note: The students should be taken to power stations and substations to show actual equipments used in field and their operation and performance.

Term work: Laboratory practical will be carried out on above syllabus.

TEXT BOOKS: 1. Switchgear and protection by S.S. Rao, CBS Publication

REFERENCE BOOKS: 1. Power system protection and switchgear by B.Ravichranath & M. Chander, Pearson. 2. Art and science of protective relaying by Masson, PHI

GUJARAT UNIVERSITY

B.E-IV SEMESTER – VII (ELECTRICAL & ELECTRONICS)EE-705 VLSI TECHNOLOGY & DESIGN


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

FABRICATION OF MOSFET: Introduction, Fabrication Process flow: Basic steps, C-MOS n-Well Process, Layout Design rules,

full custom mask layout design.

MOS TRANSISTOR: The Metal Oxide Semiconductor (MOS) structure, The MOS System under external bias,

Structure &Operation of MOS transistor, MOSFET Current-Voltage characteristics, MOSFET scaling & small-geometry effects, MOSFET capacitances

MOS INVERTERS: STATIC CHARACTERISTICS:

Introduction, Resistive load Inverter, Inverter with n-type MOSFET load (Enhancement & Depletion type MOSFET load), CMOS Inverter

MOS INVERTERS SWITCHING CHARACTERISTICS AND INTERCONNECT EFFECTS: Introduction, Delay-time definitions, Calculation of Delay times, Inverter design with delay constraints, Estimation of Interconnect Parasitics, Calculation of interconnect delay, Switching Power Dissipation of CMOS Inverters

COMBINATIONAL MOS LOGIC CIRCUITS. :

Introduction, MOS logic circuits with Depletion nMOS Loads, CMOS logic circuits, Complex logic circuits, CMOS Transmission Gates (TGs)

SEQUENTIAL MOS LOGIC CIRCUITS: Introduction, Behaviour of Bistable elements, The SR latch circuit, Clocked latch & Flip-flop

circuit, CMOS D-latch & Edge-triggered flip-flop

DYNAMIC LOGIC CIRCUITS: Introduction, Basic Principles of pass transistor circuits, Voltage Bootstrapping, Synchronous

Dynamic Circuit Techniques, CMOS Dynamic Circuit Techniques, High-performance Dynamic CMOS circuits

CHIP I/P AND O/P CIRCUITS: On chip Clock Generation and Distribution, Latch –Up and its Prevention

DESIGN FOR TESTABILITY: Introduction, Fault types and models, Controllability and observability, Ad Hoc Testable design

techniques, Scan –based techniques, built-in Self Test (BIST) techniques, current monitoring IDDQ test

PROGRAMMABLE LOGIC PRIMER: Introduction, use of Programmable Logic Devices, Simple PLDs, CPLD, FPGA

Term work/Tutorial: Laboratory practical will be carried out on above syllabus

TEXT BOOKS:1. Book: CMOS Digital Integrated circuits – Analysis and Design by Sung – Mo kang, Yusuf

Leblebici, TATA McGraw-Hill Pub. Company Ltd. Third Edition.2. Book : VHDL for Programmable logic - Kevin Skahill,Addision-Wesley,1996

3. VHDL primer - J.Bhaskar, Addition Wesley, Pearson Ed. REFERENCE BOOKS:

1. Basic VLSI Design by Pucknell & Eshraghian, PHI. 2. Introduction to VLSI Systems by Mead C & Conway, Addison Wesley3. Digital Integrated Circuits: A Design Perspective by Jan M. Rabaey, PHI

GUJARAT UNIVERSITYB.E-IV SEMESTER – VIII (ELECTRICAL & ELECTRONICS)

EE 801A SWITCHED MODE POWER CONVERSION (Elective-II)


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

INTRODUCTION: SMPS Characteristics, constituent elements, operating principles, stress and sizing of elements, steady state analysis, control methods, duty ratio, current programmed, frequency programmed and sliding mode control, dynamic analysis and frequency domain models, design of feed back compensators, unity power factor rectifiers, resistor emulation principle and applications to rectifiers and active filters.

SWITCHED MODE POWER CONVERTERS:Fundamental concept, the pulse width modulator, basic configuration, derived converter, converters in discontinues conduction mode.

ANALYSIS AND DESIGN:Introduction, general comments on programs and calculators, general user instructions, circuits and equation, program listing, buck converter.

DESIGN OF MAGNETIC COMPONENT:The Transformer, Design of current transformer, Design of Inductor with DC Bias.

STABILITY CONSIDERATION:Loop gain assessment, frequency response concept, gain and phase margin, output filter Demping, asymtotic approximation, compensation network, loop gain.

SMPS TOPOLOGY: The Modern Switched, Mode Power Supply Topologies ,The Switching Regulator Family,Isolated

Topologies,Multiple Switch Topologies,Alternative Topologies,Control Methods,Switched Mode Topology Applications,Future Trends

http://www.steve-w.dircon.co.uk/fleadh/mphil/history.htm#sec3%23sec3

http://www.steve-w.dircon.co.uk/fleadh/mphil/history.htm#sec3_7%23sec3_7










TEXT BOOKS: 1. Switch Mode power Conversion by K.Kit sum2. Switched Mode power Conversion by Ramanarayanan V, CCE

REFERENCE BOOKS:1. Fundamentals of Power Electronics by Robert Ericson, Chapman & Hall2. Power Electronic Circuits by Issa Batarseh, John Wiley3. Elements of Power Electronics by Philip T Krein, Oxford


EE-801B POWER QUALITY (ELECTIVE-II)


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

POWER QUALITY FUNDAMENTALS Introduction to power quality,Classification of power quality disturbances and introduction to their origin and effects, Distribution system network topologies and network component modeling, Linear and non linear load modelingReview: AC Circuit Theory, Fourier series, Power Electronics Basics.

VOLTAGE SAGS AND INTERRUPTION. Sources of Sags and Interruptions , Estimating Voltage Sag Performance , Fundamental Principles of Protection , Solutions at the End-User Level , Evaluating the Economics of Different Ride-Through Alternatives , Motor-Starting Sags , Utility System Fault-Clearing Issues.

TRANSIENTS Sources of Transient Over-voltages, Principles of Over-voltage Protection, Devices for Over-voltage Protection, Utility Capacitor-Switching Transients, Utility System Lightning Protection, Managing Ferro resonance, Switching Transient Problems with Loads, Computer Tools for Transients Analysis

HARMONICS Harmonic Distortion ,Voltage versus Current Distortion , Harmonics versus Transients ,Harmonic Indexes , Harmonic Sources from Commercial Loads , Harmonic Sources from Industrial Loads , Locating Harmonic Sources , System Response Characteristics , Effects of Harmonic Distortion , Inter-harmonics.Harmonic Distortion Evaluations, Principles for Controlling Harmonics, Where to Control Harmonics? Devices for Controlling Harmonic Distortion

LONGER DURATION VOLTAGE VARIATIONS

Principles of Regulating the Voltage, Devices for Voltage Regulation, Utility Voltage Regulator Application, Capacitors for Voltage Regulation, End-User Capacitor Application , Regulating Utility Voltage with Distributed Resources , Flicker.

POWER QUALITY MONITORING. Monitoring Considerations, Historical Perspective of Power Quality Measuring Instruments, Power Quality Measurement Equipment, Assessment of Power Quality Measurement Data , Application of Intelligent Systems , Power Quality Monitoring Standards.

POWER QUALITY STANDARDS (IEEE).

Practical / Term-work Practical /term-work will be based on the topics covered in the syllabus

TEXT BOOKS:

1.Electrical Power System Quality- Roger C Dugan, Surya Santoso, Mark F. McGranaghan, H. Wayne Beaty, Mc-Graw Hill Publication.

2. Power Quality by C Sankaran , CRC 3. Power Quality Enhancement Using Custom Power Devices -Arindam Ghosh & Gerard Ledwich, Springer Verlag.

REFERENCE BOOKS:

1. Electric Power Quality by G.T. Heydt . West Lafayette, IN, Stars in a Circle Publications.

http://www.mhprofessional.com/contributor.php?id=12284






EE-801C MOBILE COMMUNICATION (ELECTIVE-II)


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

WIRELESS RADIO PROPAGATION ENVIRONMENT: Multipath propagation environments, multipath propagation models (W.C. lee and Okumora), reflection, scattering, fading, shadowing multipath effects, Doppler measurement.

INTRODUCTION TO CELLULAR MOBILE SYSTEMS: Hexagonal cell and concept of frequency reuse, Distance to frequency reuse ratio ,channel & co channel interference reduction factor, hand off mechanisms, Hard, Soft & forced handoffs , Cell splitting, Umbrella Cell Concept, Cell Sectoring, S/I ratio consideration and calculation for Minimum Co-channel and adjacent interference.

FREQUENCY MANAGEMENT:Spectrum utilization, setup channel, access channel, fixed Channel assignment. Intra system hand off mechanisms

INTRODUCTION OF ACCESS TECHNIQUES: TDM, FDMA, TDMA and CDMA.

DIGITAL MODULATION METHODS FOR WIRELESS COMMUNICATION: QPSK, OQPSK, MSK and GMSK. DIGITAL CELLULAR SYSTEMS & STANDARDS:

Introduction to GSM cellular standard, GSM standardization and service aspects, reference architecture and functioning partitioning, radio and service aspects. A typical call flow sequence, Introduction to IS-95, service aspects, network reference model & service aspects, radio aspects and tone key features of IS-95 CDMA systems.

Introduction to IMT-2000 service aspects, network reference model & service aspects, radio aspects and tone key features of IMT-2000 CDMA systems.

INTRODUCTION TO UTP CONCEPTS & SERVICE ASPECTS: Introduction to UTP, Concept of UTP, Service aspects.

Practical/TW: Practical / Term Work [minimum 8-10 experiments based on above topics.]

TEXT BOOKS:

1. Wireless communications, principles and practices - Theodore s. Rappaport, Pearson Education.

REFERENCE BOOKS:1. Mobile cellular Telecommunication Analog and digital system by William C. Y. Lee, McGraw-Hill.2. Mobile and personal Communication system and services - Rajpandya , IEEE press, PHI.3. Wireless digital communications - Dr. Kamilo Feher


EE-801D BIO-MEDICAL INSTRUMENTATION (ELECTIVE-II)


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200 BIO SIGNALS AND RECORDING: source of bio electricity, action and resting potential, electrical activity of cell, biological control concept.

BIO MEDICAL TRANSDUCER: Sensor for nerve systems, cardiac vascular system, flow pressure measurement.

ELECTRODES: Electrolyte electrodes, interface, stability of electrode potentials, circuit models, stimulating type electrodes, reference electrodes, ph,po,pco electrodes.

BIO MEDICAL EQUIPMENT: ECG, EEG, Diathermy unit, x rays machine, pace maker, blood pump, hurt lung machine, dialysis, laser in surgery, ultrasonic medical equipment, fatal monitor, equipment in intensive care unit, detararilator high frequency equipment

BIO-SIGNAL, AMPLIFIER AND SIGNAL PROCESSING: Basic requirements, transient protection, interface reduction circuit, active filters, rate measurement, averaging and integrating circuit, noise rejection technique.

RESPIRATORY SYSTEM MEASUREMENTS: Respiratory system measurement, spirometers, and regulation of respiration, artificial respiration.

ELECTRICAL SAFETY: Significance of electrical danger, physiological effect of electrical current, ground shock, hazards, and methods of accident prevention.

Instrumentation in ophthalmology and orthonology.MISCELLANEOUS: Muscle stimulation, EMG, ultrasonic scanner.

Practical/Term Work: Practical / Term Work [minimum 8-10 experiments based on above topics.

TEXT BOOKS:1. Biomedical Instrumentation and Measurements – Cromwell,PHI2. Introduction to Biomedical Equipment Technology - Carr & Brown

REFERENCE BOOKS:1. Human physioligy: The Mechanism of Function - Yander, Sherman.2. Handbook of Biomedical Instrumentation - R.S.Khandpur,Khanna Publication 3. Biomedical Instrumentation - Dr. M. Arumugam, Anuradha


EE-802 INTERCONNECTED POWER SYSTEM


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

4 2 -- 3 100 25 25 50 200

GENERAL SYSTEM MODELING:Per unit system, Power transfer through transmission, Universal circle diagram, MVAR control, Voltage control methods.

LOAD FLOW STUDY:Introduction - Network model formulation - formation of bus admittance matrix - load flow problem - approximate load flow solution - shipley inverson method - Gauss siedel method - Newton Ruphson method - comparison.

ECONOMIC OPERATION OF POWER SYSTEM:Economic operation of generators within the plant - transmission losses as function of plant generation. Economic distribution of load between plants co-ordinating transmission losses - Kron's method of evaluating loss co-efficient - penalty factor - Algorithms of different schemes. - Automatic load dispatching.

LOAD FREQUENCY CONTROL:Introduction - Single area control of frequency - modeling of turbine governor, turbine & generator - steady state analysis - principle of frequency control - flat frequency, selective, tie line control methods.

POWER SYSTEM STABILITY: Stability problem, classification, power angle characteristic, steady state & transient state stability & their limits. Dynamics of synchronous machines & swing equation , synchronizing power co-efficient , equal area criterion of stability & its application , critical clearing time & angle , numerical solution

Visit: Students are required to visit LDC for power control study.

Term work: Laboratory practical will be carried out on above syllabus.

TEXT BOOK:1. Modern power system analysis by Nagarth & Kothari,Tata McGraw Hill

REFERENCE BOOKS:1. Power System Analysis by Stevenson, Mcgraw Hill2. Electrical Power System by C. L. Wadhva, Wiley Eastern


EE-804 PROJECT WORK


Pract. Hours

Tut.Hours

Theory ExamHours

Theory Marks

Pract/Oral Marks

T.W.Marks

Sess. Marks

Total Marks

-- 18 -- -- -- 300 300 -- 600

The student has to work on project of current relevance involving advance technologies in the area of Electrical & Electronics Engineering which is sponsored by college, industries and R&D institutions.

They have to develop theory or to design and develop equipment, which can be used in actual processes in the area of instrumentation and control.

After completion of the project work and before proceeding for the final examination, they are required to pass through the dissertation.

In the examination, expert faculties appointed by the University.

***********************

EEE_SyllabusI_04-04-07_

Documents

Transcript of EEE_SyllabusI_04-04-07_