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SYLLABUS OF KUK ELECTRICAL AND ELECTRONNICS ENGG BTECH 6TH

MICROPROCESSOR & APPLICATIONS
VI SEM. EEcT-302-E
Theory –100 Marks
L T P Total Sessional-50 Marks
4 1 - 5 Duration: 3Hrs
UNIT I
Introduction to microprocessor, its advantage & limitations: Various type of processors including the special purpose; the concept of stored programme architecture; machine & instruction cycle timing; single chip vs. chip set microprocessor.
UNIT II
Microprocessor architecture& programming - Detailed description of 8085 pins, flags, registers etc.; generation of system clocks power on reset; addressing mode; instruction set; stack operation; sub routine & macros; interrupts; assembler directive languages programming
Buses: Parallel Vs serial; bus buffering tri stating noise; loading & reflection problem – an introduction only; bus standards like RS422/432, IEEE438, RS232.
UNIT III
Interfacing: Memory mapped I/O & input/output mapped I/O space, various data transfer techniques programme data transfer techniques, interrupt data transfer techniques, DMA.
Memory: Interfacing of the memory, various kinds of Memory (RAM, ROM, EPROM, EEPROM), IC 8755.
UNIT IV
Special purpose support devices & Application: Brief description & interfacing of 8255 PPI & 8253, 8251 USART & A/D ,D/A Chips , applications- A temperature monitoring system & closed loop control. Introduction to micro controller & advanced 8086 microprocessor & its architecture, comparison of 8086 & 8085.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all , selecting at least one question from each unit.
References:
1.
R.S. GAONKAR: Microprocessor architecture, programming & Application.(MGH)
2.
Malvino, A.P. : Digital computer electronics-an Introduction to microprocessor.(MGH)
3.
D.V.HALL: Microprocessor & Digital circuits.(MGH)
4.
MATHUR A.P. : Introduction to microprocessor


POWER SYSTEM ANALYSIS & PROTECTION
VI SEM. EEcT- 304-E
L T P/D Total Theory : 100 Marks
3 1 - 4 Sessional: 50 Marks
Duration : 3Hrs
UNIT I
Characteristics & representation of components of a power system, synchronous machines, transformers, lines cables & loads. Single line diagram.
Protective Relaying : Scheme of protection of generators, transformers, transmission lines & bus-bars, carrier current protection.
UNIT II
Circuit Interruption : Circuit interruption, theory of arc formation and it’s excitation in d.c., a.c. circuits, restriking & recovery voltage, interruption of capacitive & inductive currents. Rupturing capacity & rating of circuit breakers.
Circuit-Breakers : Classification of circuit-breakers, circuit-breakers of low medium, high & extra high voltages. Multibreak & resistance switching. Autorestoring of high capacity & H.V. circuit breakers.
UNIT III
Fault Analysis:- Symmetrical faults: calculation of fault currents, use of current limiting reactors.
Unsymmetrical faults: Types of transformation in power system analysis, symmetrical components transformation, sequence impedance of power system elements, Sequence network of power system analysis of unsymmetrical short faults sequence components filters, Network analysis & it’s application to interconnected system.
UNIT IV
Transients in Power Systems: Transient electric phenomenon, lighting & switching surges, travelling waves, reflection & refraction of waves with different line termination, Protection against dangerous pressure rises.
Stability of power System: Concepts of stability, power angle characteristics of Synchronous, steady state & transient stability swing waves.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
References:
1.
Elements of power system analysis by W.D. Stevenson.
2.
Electric Power System by B.M. Weddy.
3.
The transmission & Distribution of electric energy by H.Cotton.
4.
Modern Power System Analysis by I.J. Nagrath & D.P. Kothari.
5.
A course in Electrical Power by Soni, Gupta & Bhatnagar.
6.
Power System Analysis & Stability by S.S. Vadhera
7.
Electrical Power System by C.L. Wadhwa. 8. Electrical Power System by Ashfag Hussain.
9. Electrical Power by S.L. Uppal.
10. Switching & Protection by Sunil S. Rao.


DESIGN OF ELECTRICAL MACHINES
VI SEM. EEcT-306-E
L T P/D Total Theory : 100 Marks
3 1 - 4 Sessional : 50 Marks
Duration : 3 Hrs.
UNIT I
DC MACHINES :Output equation, choice of specific loadings, choice of poles and speed, Design of conductors, windings, slots field poles, field coils, commutator and machine design.
UNIT II
SYNCHRONOUS MACHINES: Specifications, ratings and dimensions, specific loadings, main dimensions, low speed machines, turbo generators, armature conductors, cooling.
UNIT III
INDUCTION MOTORS: Three Phase Induction Motor: Standard specifications, output equations, specific loadings, main dimensions, conductor size and turns, no. of slots, slot design, stator core, rotor design, performance calculations.
Single Phase Induction Motor: output equations, specific loadings, main dimensions, design of main and auxiliary winding, capacitor design, equivalent circuit parameters, torque, efficiency,
UNIT IV
TRANSFORMERS: Standard specifications, output equations, design of core, coil, tank and Cooling tubes, calculation of circuit parameters, magnetizing current, losses and efficiency, Temperature rise and regulations from design data.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all , selecting at least one question from each unit.
TEXT BOOKS
1.
M.G.Say, Performance and design of ac machines, CBS Publishers and distributors, New Delhi, 1983.
2.
S.K. Sen., Principles of electrical machine design with computer programs, Oxford and IBH publishing co. 1987.
REFERENCES
1.
J.H. Kuhlmann, Design of electrical operators, John Willey, 1957.
2.
CG Veinott, Theory and design of small induction machines, MGH, 1959.
3.
A Shanmugasundarem, Electrical machine design databook, John willey, 1979.


DIGITAL SIGNAL PROCESSING
VI SEM. EEcT-308-E
L T P/D Total Theory : 100 Marks
4 1 - 5 Sessional: 50 Marks
Duration : 3Hrs
UNIT I
The Z – Transform Analysis of LTI System:- Transform its properties, System Function of a linear Time- Invariant system. Inversion of the Z-Transform, the one-sided Z-transform, Solution of difference equations. Analysis of LTI system in Z- domain, transient and steady- state response. Causality and stability. Pole- Zero Cancellations. Shur- Cohn Stability test. Jury Test Shur-Cohn-fuzzivera stability criterion.
UNIT II
DFT and FFT: DFT and its properties, Circular Convolution and fast linear convolution, Linear filtering using DFT. Direct Computation of DFT, FFT algorithms, Radix-2 and Radix-4 algorithms. Goetzel Algorithm, Chirp-Z Transform algorithm.
UNIT III
Implementation of Discrete-Time Systems: Structure for FIR Systems-direct form, Cascade form, Frequency-Sampling and Lattice structures, Structures for IIR-direct form, signal flow graphs and transpose structures. Cascades form and lattice structures, state space structure.
Design for Digital Filters:- Design for FIR filters-using window method ( hamming window,
rectangular window), using frequency of IIR filters from Analog filters by approximation of derivatives, by impulse invariance by Transformation, Matched Z-Transformation Characteristics of commonly used analog filters.
UNIT IV
Time Frequency Analysis: Introduction to wavelets and wavelet transforms.
Brief Introduction to DSP Architecture: Pipeline, Lattice and systolic architecture.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all , selecting at least one question from each unit.
References:
1.
Digital Signal Processing by J.G. Proakis and D.G. Manalakis-PHI
2.
Digital Signal Processing by: A.V. Oppenheim and R.W. Schafer-PHI
3.
Element of Digital Signal Processing by N. Sarkar Khanna Publishers.
4.
Digital Signal Processing by S. K. Mitra –TMH.
5.
Digital Signal Processing by Rabinar, Gold-PHI
6.
Digital Signal Processing by S. Salivahanan- TMH
7.
Digital Signal Processing by IFecher


ELECTRIC DRIVES AND CONTROL
VI SEM. EEcT-310-E
L T P/D Total Theory : 100 Marks
3 1 - 4 Sessional : 50 Marks
Duration : 3Hrs
UNIT I
Introduction:- Definition & classification of different type of drives, Review of characteristics and components of electric drives, Speed control methods of various a.c. and d.c. drives, its advantages and applications, acceleration and retardation time, energy consideration.
Braking of drives:- Various methods of braking of a.c. and d.c drives, Automatic control arrangement, characteristics and application, acceleration and Retardation time ,Energy consideration.
Induction motor (A.C) drives:- Basic principle of induction motor drives, 3 ∅ a.c voltage controller fed I.M drive, variable frequency control, voltage source inverter (VSI) and current source inverter (CSI), cycloconverter fed IM drive, Slip Power control, static rotor resistance control, chopper control of 3 -∅ slip ring induction motor.
UNIT II
D.C. drives:- Rectifier controlled circuits, Single phase fully controlled and half controlled rectifier fed separately excited d.c motor, 3∅ fully and half controlled fed separately excited d.c. Motor, performance and characteristics of single phase and 3∅ rectifier controlled d.c drives. Control techniques of d.c. Drives using chopper, multi quadrant control of chopper fed motors.
UNIT III
Dynamics of Electric drives:- Fundamental load torque equation, permissible frequency of starting and stopping, definite time, speed and current limit control, Automatic starting and pulling operation of synchronous motors.
Digitally Controlled (Microprocessor control of Electric drives) :- Application areas and functions of HP in drive technology, Block diagram of arrangement and comparison with other method, components for digital control, vector control of IM drive using HP.
UNIT IV
Traction Drives:- Nature of traction load, motors, conventional d.c & a.c traction drives, charactertics, d.c traction using chopper controlled d.c motors, polyphase a.c motors for traction drives, speed time relationship.
Rating of motors:- Determination of motor rating, Nature of loads and classes of motor duty, frequency of operation of motor subjected to intermittent loads, pulse loads etc.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
References:
1.
Electric drives by S.K.Pillai, Wiley.
2.
Thyrister D.C Drives by S.K.Sen.
.
Control System in Industry by Siskind, McGraw Hill. 4. Electric Machines & Drives by Fransver. Relevant I.S.I. Cader.


ELECTRICAL MATERIALS AND PROCESSES
EEcT-312-E
L T P/D TOTAL Theory : 100 Marks
3 1 - 4 Sessional : 50 Marks
Duration : 3 Hrs
UNIT 1
Conductors,Properties of conductors ,ACSR, High resistivity materials and their properties, Alloys, Soldering and brazing materials, superconductivity, super conductor materials and their applications.
UNIT 2
Insulators,classification of insulators, dielectric materials, glass and ceramics, refractory materials and their uses, optical fibers, lasers and opto-electronics materials, semiconductor materials, properties of semiconductor materials thermosetting and thermoplast materials.
UNIT 3
Classification of material, dia , para, and ferro magnetic materials-curie law and curie weiss law (qualitative study).Ferromagnetism-Qualitative study of domain theory-Hysterisis phenomena. Hard and soft magnetic material and their applications. Ferrites, Structure and property.
UNIT 4
Processes used in Plano technology e.g. lapping, polishing, cleaning, masking, photolithography, diffusion, oxidation and Metallization, welding wire bonding, packaging and encapsulation, Heating- induction and dielectric, Electron beam welding and cutting, annealing,cold & Hot rolling
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all , selecting at least one question from each unit.
REFERENCE :
1. Kasap S.O. Principles of Electrical Engg. Material and Devices(MGH)
2. Mahajan Principles of growth and processing of semiconductors(MGH)
3 Dhir. Electronics components and materials and principles
Manufacturing & Maintenance (TMH)
4. Addision: Electronics Engg. Material Devices (TMH)
5. Ruska N scot: Microelectronics processing an introduction to the manufacturer
of integrated Circuits(MGH)
6. Seth & Gupta: A course in electrical Egg. Materials(Dhanpat Rai & Sons)
7. Dekker: Electrical Engg. Materials(PHI)



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SYLLABUS OF KUK ELECTRICAL AND ELECTRONNICS ENGG BTECH 7THSEM

COMPUTER ORGANIZATION AND ARCHITECTURE
VII SEM.( EEcT-401-E)
L T Total Theory : 100 mks
4 1 5 Sessional: 50 mks
Duration: 3 Hrs
UNIT I
Evolution of computers: Generation of computer system, different types of computers, characteristics of Von Neumann architecture, Limitation of computer systems, Parallel computer structures.
Instruction formats, addressing modes and instruction types: Principles of linear pipelining, Classifications of pipeline processor, Interleaved memory organizations, Instructions and arithmetic pipelines, Design examples, vector processing requirements, characteristics of vector processing.
UNIT II
Multiprocessor: Architecture, Functional structure, Loosely coupled multiprocessors, Tightly coupled multi processor, Processor characteristics for multiprocessing, Inter-connection networks, Time shared, crossbar switch and multiport memories and multistage networks for multiprocessors, classification of multiprocessor operating system.
UNIT III
AL Unit: Construction, Integer representation, Binary half adder, full adder, Parallel Binary adder, Addition and subtraction in a parallel arithmetic element, Full adder design, BCD adder, Positive and negative BCD number, Shift operations, Basic operations, Logic operations, Multiplexer, High Speed arithmetic.
Control Unit: Construction of an instruction work, Instruction cycle and execution cycle, organization of control registers, Instruction formats, Controlling arithmetic operations, Typical Sequence of operations, Instruction set, Register transfer language, Microprogramming- Micro instruction format, Simple microprogram, Microprogramming applications.
UNIT IV
Memory: Basic concepts, memory device characteristics, semiconductor memories, static and dynamic memories. Random access and serial access memories. Memory hierarchies-cache, virtual, interleaved and associative memories.
I/O Devices: Input media, Keyboards, Mouse, Pointing Devices, character recognition (MICR & OCR), Output devices, CRT, Flat panel display, Printers, Tele printer (TTY).
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all , selecting at least one question from each unit.
References:
1. Hay, “ Computer Architecture And Organizations” TMH
2. Stalling , “Computer Organization” PHI
3. Tannanbaum, “Structured Computer Organization” TMH
GENERATION & CONTROL OF POWER
VII Sem (EEcT-403-E)
L T P/ D Total Theory : 100 mks
3 1 - 4 Sessional: 50 mks
Duration: 3 Hrs
UNIT I
Load Fore-casting: Load curves, load factor, maximum demand factor, diversity factor, different types of loads, fore-casting of loads.
Power plant Economics and Selection: Choice in type of generation, choice of size of generator units and number of units, cost of electrical energy, depreciation of plant, effect of load factor on cost of electrical energy. UNIT II
Thermal Power Plants: Choice of site, main parts and working of plants & their layout, characteristics of turbo-generators.
Hydro-Electric Plants : Choice of site, types of hydro-electric plants, capacity calculations for hydro power main parts and working of plants and their layout, characteristics of hydro- electric generators.
UNIT III
Nuclear Power Plants: Choice of site, classifications of plants main parts and working of plants and their layout.
Diesel Power Plants: Choice of site, diesel plant equipment, working and layout of the plant.
UNIT IV
Combined working of Power Plants: Advantages of combined working of different power plants, Basic load stations and Peak load stations, Economic load of thermal power plants.
Power Station Equipment and Control: Exciters, purpose & requirements of good exciters, self-excited exciter, Rotating main & pilot exciters, Brushless exciters. Voltage Regulators- purpose & requirements of good voltage Regulator, Direct acting Rheostatic type voltage regulator, static voltage regulator.
1. Speed Governing Systems: Purpose of speed governing system, Hydraulic type speed governing system for steam turbines & hydro turbines.
2. Voltage Control- Voltage control by Reactive Power Control, Voltage control by tap-changing transformers combined use of tap-changing transformer and reactive power injection, use of induction regulators.
NOTE :. The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all , selecting at least one question from each unit.
References:
1. Deshpande, M V : Elements of Electrical Power Station Design, wheeler publishing Co.(P) Ltd. Allhabad,1979.
2 . Gupta, B. R. : Generation of Electrical Energy, Eurrasia Publishing House, (Pvt) Ltd. New Delhi, 1983
3. Gupta, P.V. : A Course in Electrical Power, Dhanpat Rai and Sons, Delhi-6
4. Vadhera, S.S : Power Sytem Analysis and Stability, Khanna Publishers, Delhi-6, 1981.
MICROWAVE & RADAR ENGG.
VII SEM. (EEcT-405-E)
L T P/D Total Theory : 100 Marks
3 1 - 4 Sessional: 50 Marks
Duration : 3 Hrs
UNIT I
Introduction to microwaves and tubes,Microwave Devices: Advantage of Microwaves, limitation of conventional tubes, Light house tube, Multicavity & Reflex klystron, Magnetron
UNIT II
Tunnel diode, Gunn diode, Parametric amplifier, masers, TWT, IMPATT, TRAPTT, Microwave solid state devices.
UNIT III
Microwave Circuits: Scattering matrix, impedance transformation & Matching, passive Microwave devices (E-plane &H-plane Tee, Magic Tee, Circulator, Attenuator, isolators, directional coupler, TE, TM & TEM modes in Rectangular wave guides, resonators, phase shifter).
UNIT IV
Radar Engg. : Introduction, Radar range equation, parameters affecting the range, Doppler effect, CW and pulse Doppler Radar, MTI delay lines and canceller, range gate pulse, MTI & Doppler radar, non coherent MTI. Noise and clutter, Radar displays, Radar signal processing, applications of radar, radio aids to navigation.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all , selecting at least one question from each unit.

References:
1.
Liao S.Y. : Microwave Circuit & Devices, PHI.
2.
Skolonik M. K. : Introduction to Radar system, McGraw Hill.
3.
Siegman A.E. : An introduction to lasers & Masers, McGraw Hill.
4.
M. Kulkarni : Microwave & Radar Engineering, Umesh Publication.
5.
Gautam A. K. : Microwave Engineering , S.K. Kataria & Sons.
ADVANCE PROGRAMMING
VII Sem. (EEcT-407-E)
L T P/D Total Theory : 100Marks
4 1 - 5 Sessional:50 Marks
Duration : 3 Hrs.
UNIT I
Review of elementary data structures- arrays, stacks, queues, link list with respect to storage representation and access methods.
UNIT II
Searching methods: Sequential, binary, Indexes searches.
UNIT III
Sorting: internal and external sorting, Methods: bubble, insertion, selection, merge, heap, radix and quick sort. Comparison with respect to their efficiency.
UNIT IV
C++ Programming Language:- Concept of object oriented programming, Abstract Data type C classes , Data encapsulation , inheritance, polymorphism , virtual function templates implementation using C++.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all , selecting at least one question from each unit.
Reference:
1. Trembley and Sorenson, “ An Introduction of data structures with application” McGraw Hill.
2. Goodman, S.E., and Hetedniemi, S.T, “ Introduction to the design and Analysis” , McGraw Hill.
3. Herbert Schildt, “ C++ Computer reference”, TMH.
4. Herowitz E and Sahni S. “ Fundamentals of Data Structures”.
ADVANCE PROGRAMMING LAB
(VII Semester) EEcT-423-E
L T P/D Total Sessional : 25Marks
- - 3 3 Practical : 25 Marks
Total : 50 Marks
Duration : 3 Hrs.
1)
Write a program to perform following operations on linked list.
a.
Insertion of a node
b.
Deletion of node.
2)
WAP to implement stack.
3)
WAP to implement queues.
4)
WAP to sort a list using following.
a.
Insertion sort d. Quick sort
b.
Bubble sort e Merge sort
c.
Selection Sort f. Radix sort
5)
WAP to find roots of quadratic equation using polymorphism.
6)
WAP to find addition & multiplication of two matrices using classes.
7)
WAP which shows the use of inheritance.
8)
WAP to implement the concept of copy constructor & destructor.
NOTE : At least 9 experiments are to be performed with 8 from above list, remaining may either be performed or designed & set by concerned institution as per the scope.
DIGITAL SIGNAL PROCESSING LAB
(VII Sem) EEcT-425-E
L T P Total Sessional - 25 Marks
0 0 2 2 Practical - 25 Marks
Total - 50Marks
Duration - 3 Hrs
Perform the Experiments using MATLAB:-
1. To develop a program for computing Z- transform in factored form, Plot its poles and zeros , and then determine its ROCs.
2. To develop a program for computing Inverse Z-transform of a rational transfer function.
3. To develop a program for linear convolution and circular convolution .
4. To develop a Program for computing discrete fourier transform .
5. To develop a Program for computing the convolution by overlap-add method and overlap save-method.
6. To develop Program for realization of IIR Digital filters ( Direct, Cascade, Parallel).
7. To develop a program for sampling theorem .
8. To design FIR filters using windows technique.
9. To design analog filter (Low pass, High pass).
10. To design analog filter (Band pass, Band stop)
11. To design IIR filters using (Impulse Invariant method ).
12. To design IIR filters using (bilinear transformation).

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SYLLABUS OF KUK ELECTRICAL AND ELECTRONNICS ENGG BTECH

ADVANCED MICROPROCESSOR & INTERFACING
DE-II (EEcT-451-E)
L T P/D TOTAL Theory : 100 Marks
3 1 - 4 Sessional : 50 Marks
Duration : 3 Hrs.
UNIT I :
8086 Microprocessor: 8086 Internal Architecture timing diagram, interfacing 8086 to memory.
UNIT II :
8086 Assembly Language Programs: 8086 instruction set, Assembler directive, program development method, Writing simple 8086 programs for use with an assembler.
UNIT III :
8086 Interrupts: 8086 Interrupts and Interrupt responses, hardware interrupt application.
Interfacing: Digital interfacing, Programming parallel port and handshake I/O, Interfacing a Microprocessor to keyboards & displays, Analog interfacing, introducing to A/D and D/A Converter & applications.
UNIT IV:
Introduction to 80286, 80386, 80486 microprocessor, Single chip microcontrollers.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
References:
1. Duglas V. Hall “ Microprocessor & Interfacing Programming & Hardware-IInd Edition”, TATA Mc Graw Hill.
2. A.P. Mathur “, Introduction Microprocessor–IIIrd Edition”, (TMH)
3. Tabak. D,” Advanced Microprocessor-2nd edition,” (TMH)
2
RADIO & TV ENGINEERING
DE-IV (EEcT-450-E)
L T P /D TOTAL Theory : 100 mks
4 1 - 5 Sessional: 50 mks
Duration : 3 Hrs.
UNIT I: Radio Transmitter: Modulation, AM Transmitter, FM Transmitter; AFC, Sensitivity selectivity, VODAS, Radio Transmitter, Telephone transmitter Privacy device, Radio telegraph transmitter.
UNIT II: Radio receiver: TRF, super-heterodyne, communication receiver, double conversion receiver, SSB Rx, freq synthesis, image freq, selectivity. IF freq tracking AFC & AGC n Rx, FM demodulator, neutralization, freq drift & scintillation, Diversity reception, fading, armstrong FM Rx.
UNIT III: Monochrome T.V: Introduction, composite video signal picture tube, camera tube image orthicon, vidicon, plumbicon TV Tx & Rx, modulation technique, TV Application CATV, CCTV, Video games Theater T.V., VTR, AGC, Various AGC system
UNIT IV: Color T.V.: Compatibility, three color theory different color picture tube, color signal transmission, NTSC, Color TV, PAL, SECAM
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all selecting at least one question from each unit.
References:
1.
Monochrome & color T.V. by R.R.Gulati (Wiley Eastern Ltd.)
2.
Radio Engineering by G.K. Mithal (Khanna Publications)
3.
A.M Dhaka, “ Monochrome & color T.V” (TMH)
4.
Skolnik.M.I,” Introduction to Radar System” (TMH)
3
ANTENNA & WAVE PROPAGATION
DE-II (EEcT-449-E)
L T P/D TOTAL Theory : 100 Marks
3 1 - 4 Sessional: 50 Marks
Duration: 3 Hrs.
UNIT I :
Basic Principle: Scalar & vector potential for electric & magnetic components, Retardation, retarded vector potential relation between scalar & vector potential current element.
Basic Antennas: Half wave dipole, quarter wave mono pole, short dipole, calculation of radiation resistance, effective length & pointing vector. Current distribution: Linear current & sinusoidal distribution.
UNIT II :
Antenna Parameter: Solid angle, radiation intensity, directive gain directivity, power gain, beam width: HPBW, FNBW, band width, Q factor resonance in antenna, antenna as a transmission line, antenna as active component, antenna temp. Radiation pattern, Eplane H plane, efficiency. Effective aperture, scattering aperture, loss aperture, directivity, polarization. Transmission between two Antenna, Reciprocity theorem application of Reciprocity theorem.
Low Freq Antennas: Monopole, folded, loop antenna, biconical antenna, yagiuda antenna: different antenna used for A.M & FM transmission. VHF & LHF antennas, Resonant Antennas & non-resonant antenna, design parameter of different Antenna.
UNIT III :
Microwave Antenna: Parabolic Antenna, Lens Antenna, horn Antenna, Antenna used for tracking & antenna used for satellite communication. E-plane horn, H-Plane horn circulars Horn, pyramidal Horn.
Radio Wave Propagation: Different technique for radio wave propagation: Ground wave propagation, space wave, sky wave, duct propagation, troposcatter.
UNIT IV :
Ionosphere propagation: Skip distance, LUF, MUF, Critical freq, Variation of refractive index with height, effect of earth magnetize field on ionospheres propagation, calculation of refractive index dielectric constant & Conductivity for ionospheres. Ionospheres abnormalities.
Antenna Array: Multiplication of Pattern, Significance of Antenna Array, Broadside, End fired, Uniform, Parasitic feed in Antenna Array, Calculation of Directivity & B.W for Antenna array. Increased directed directive end fired array. Tapering of Array: Binomial Array, Techepbyshe.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
References:
1. Jordan Balmian:- Electromagnetic Field Theory (PHI)
2.
Kraus Antenna & Wave propagation (Mc Graw Hill)
3.
Antenna & Wave propagation by K.D.Prasad (Satya Prakashan)
4.
Collin R.E :- Antenna & Wave Propagation (TMH)




ADVANCED MICROPROCESSOR & INTERFACING
DE-II (EEcT-451-E)
L T P/D TOTAL Theory : 100 Marks
3 1 - 4 Sessional : 50 Marks
Duration : 3 Hrs.
UNIT I :
8086 Microprocessor: 8086 Internal Architecture timing diagram, interfacing 8086 to memory.
UNIT II :
8086 Assembly Language Programs: 8086 instruction set, Assembler directive, program development method, Writing simple 8086 programs for use with an assembler.
UNIT III :
8086 Interrupts: 8086 Interrupts and Interrupt responses, hardware interrupt application.
Interfacing: Digital interfacing, Programming parallel port and handshake I/O, Interfacing a Microprocessor to keyboards & displays, Analog interfacing, introducing to A/D and D/A Converter & applications.
UNIT IV:
Introduction to 80286, 80386, 80486 microprocessor, Single chip microcontrollers.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
References:
1. Duglas V. Hall “ Microprocessor & Interfacing Programming & Hardware-IInd Edition”, TATA Mc Graw Hill.
2. A.P. Mathur “, Introduction Microprocessor–IIIrd Edition”, (TMH)
3. Tabak. D,” Advanced Microprocessor-2nd edition,” (TMH)


RADIO & TV ENGINEERING
DE-IV (EEcT-450-E)
L T P /D TOTAL Theory : 100 mks
4 1 - 5 Sessional: 50 mks
Duration : 3 Hrs.
UNIT I: Radio Transmitter: Modulation, AM Transmitter, FM Transmitter; AFC, Sensitivity selectivity, VODAS, Radio Transmitter, Telephone transmitter Privacy device, Radio telegraph transmitter.
UNIT II: Radio receiver: TRF, super-heterodyne, communication receiver, double conversion receiver, SSB Rx, freq synthesis, image freq, selectivity. IF freq tracking AFC & AGC n Rx, FM demodulator, neutralization, freq drift & scintillation, Diversity reception, fading, armstrong FM Rx.
UNIT III: Monochrome T.V: Introduction, composite video signal picture tube, camera tube image orthicon, vidicon, plumbicon TV Tx & Rx, modulation technique, TV Application CATV, CCTV, Video games Theater T.V., VTR, AGC, Various AGC system
UNIT IV: Color T.V.: Compatibility, three color theory different color picture tube, color signal transmission, NTSC, Color TV, PAL, SECAM
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all selecting at least one question from each unit.
References:
5.
Monochrome & color T.V. by R.R.Gulati (Wiley Eastern Ltd.)
6.
Radio Engineering by G.K. Mithal (Khanna Publications)
7.
A.M Dhaka, “ Monochrome & color T.V” (TMH)
8.
Skolnik.M.I,” Introduction to Radar System” (TMH)


6
DIGITAL HARDWARE DESIGN
DE- IV (EEcT-452-E)
L T P/D TOTAL Theory :100 mks
4 1 - 5 Sessional: 50 mks
Duration : 3 Hrs
UNIT I: Combination Circuit Design: Adders Substractor, BCD Adder code converters, 7-segment display, designing using multiplexer, demultiplexer, decoder, encoder.
UNIT II: Synchronous Sequential ckt Design: Flip-flop, FSM. Sequence detector, party checker & Detector and different applicator of sequential ckts, state table state diagram. Moose & mealy sequential ckt with state diagram reduction of state table using merger graph method & moose method, computing M/C, limitation & capabilities of seq. Ckt.
UNIT III: Asynchronous Sequential ckt. : FSM, Racer, state table & flow table diagram, compatibility chart state assignment in Asynchronous ckt.
UNIT IV: Introduction to: ROM, PROM, EPROM, EEPROM, masked ROM, FAMOS, PAL, PLA, FPGA.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
References:
1. Z.Kohavi by Switching & System (McGraw Hill)
2. R.P.Jain By Digital Electronics & Microprocessor (McGraw Hill)
3. W.Fletcher :- An Engineering Approach to Electronic Design (PHI)
4. Floyd: - Digital Fundamentals (UBS)
5. Morris Mano:- Digital Logic &Computer Design(PHI)


7
DATA COMMUNICATION & NETWORKING
DE-II (EEcT-453-E)
L T P/D TOTAL Theory : 100 mks
3 1 - 4 Sessional : 50 mks
Duration : 3Hrs.
UNIT I: Basic & Computer Networks, Need & Evolution of Computer Networks, Description of LAN, MAN, WAN and wireless Networks, OSI and TCP/IP models with description of Data Encapsulation & peer to peer communication, Comparison of OSI and TCP/IP, Basic terminology of computer networks- bandwidth, Physical and logical topologies, Media-10 base Z, 0 base S, 10 base T, 100base TX, 100base FX, 1000 base LX and wireless, LAN & WAN devices- Router, bridge Ethernet switch HUB, Modem CSU/DSU etc.
UNIT II: Physical Layer- Representation, one bit on physical modem i.e. in wired network, Optical Network and wireless N/W, Encoding/Modulation- TTL Encoding, Manchester Encoding, AM, FM and PM, Dispersion, Jitter, Latency and collision. Different types of Media- Shielded twisted pair, Unshielded twisted pair, Coaxial cable, Optical Fiber cable and wireless. Layer- LLC and MAC sub layer, MAC addressing Layer 2 devices, Framing Error control and flow control. Error detection and correction CRC Codes, block parity and Checksum, elementary data link protocol, sliding window protocol, Channel allocation problem- static and dynamic.
UNIT III:Multiple Alex protocol- ALOHA, CSMA/CU Token bus Tokening, FDDI.Network Layer, Segmentation and autonomous system path determination, Network Layer addressing, Network-layer data gram, IP addressed classes, Subneting,Sub network, Subnet mark, Routing algorithm- optiomality Principle, Shortest path routing , Hierarchical routing, Broadcast routing, Multicast routing, Routing for mobile host- Concatenated Visual circuits, tunneling, Fragmentation and DHCP. Routing Protocol- RIP, IGRP, USPF and EIGRP Network layer in ATM Networks.
UNIT IV: Transport Layer- Layer 4 Protocol TCP & UDP Three way hand shakes open connection ATM AAL Layer protocol, Session Layer design issue, Presentation Layer design issue and Application layer design issue. Application layer Protocol, TELNET, FTP, HTTP, SNMP
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
References:
1. Tannenbum, “ Computer Networks,” PHI
2. Darlx, “ Computer Networks and Their Protocols”, DLA Labs
3. Freer, “ Comp. Communication & Networks” , East-West-Pre
4. Frozen, “Data Communication & Networking (TMH)
5. Stalling ,”Data & Computer Communication.(PHI)


OPERATING SYSTEM
DE-II (EEcT-455-E)
L T P/D TOTAL Theory: 100 mks
3 1 - 4 Sessional: 50 mks Duration: 3 Hrs.
UNIT I:
Introduction: Operating System Services-types.
File Systems: File concept, File support, Access methods, Allocation methods, Directory Systems, File protection.
CPU Scheduling: Review of multiprogramming concepts, scheduling concepts, Scheduling algorithms, Algorithm evaluation, multiple processor scheduling.
UNIT II:
Memory Management: Bare machine concept, Resident monitor, Swapping-Multiple partitions, Paging, Segmentation, Combined systems, Virtual memory, Demand paging, Page replacement algorithms, Thrashing, Cache memory.
UNIT III:
I/O Management And Disk Scheduling: Organisation of I/O function, Logical structure and I/O buffering, Memory physical characteristics , First come first served scheduling,
Protection: Goals of protection, Mechanisms and policies, Domain of protection, Access matrix, Dynamic protection structure, Language based protection, Protection problems, Security. Round robin, Shortest seek time first scheduling, SCAN, CSCAN, LOOK, CLOOK, Selecting a disk scheduling algorithm, Sector queueing.
UNIT IV:
Concurrency: Principle of concurrency, Mutual exclusion, Software support, Dekker’s algorithm, Hardware support, Operating system support, Semaphore Implementation, Messages, Deadlock presentation , Deadlock detection, Deadlock avoidance, recovery.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
Text Book:
1. James L. Peterson and Abraham Silbersachatz, Operating System Concepts, Addison Wesley, World Students Series Edition, Second edition, 1985.
References:
1. Harvey M. Deitel, An Introduction to Operating Systems, Addison Wesley Publishing Company, Revised First edition, 1984.
2. John J. Donovan, Systems Programming, McGraw Hill Book Co., International Student Edition, 1985.


Digital Image Processing
DE-IV (EEcT-454-E)
L T P/D TOTAL Theory : 100 mks
4 1 - 5 Sessional: 50 mks Duration: 3 Hrs.
UNIT I:
DIGITAL IMAGE FUNDAMENTALS: Introduction, image model, sampling and Quantization, relationship between pixels, imaging geometry, photographic film, discrete, Fourier transform, properties of two dimensional Fourier transform, fast Fourier transform.
UNIT II:
IMAGE ENHANCEMENT AND COMPRESSION: Enhancement by point processing, spatial filtering and enhancement in the frequency domain, pseudo color image processing, image compression models, error free compression, image compression standards.
UNIT III:
IMAGE RESTORATIONS: Degradation, models, diagonalizations of matrices, inverse filtering, interactive estorations, geometric transformations.
IMAGE SEGMENTATION: Detection of discontinuities, edge linking and boundary detection, thresholding, region orienting segmentation.
UNIT IV:
REPRESENTATIONS AND RECOGNITION: Representations schemes, boundary descriptors, regional descriptors, morphology, recognition and interpretation, basics.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
TEXT BOOKS
1. Rafael c. Gonzalez and Richard E. Woods, digital image processing, Addison Wesley publishing company, 1987
REFERENCES
1. William K. Pratt, digital image processing, John Wiley and sons, 1978
2. Jain, Fundamentals of digital image processing, PHI, 1996
3. Barrie W. Jervis , “digital signal processing (Pearson education India)
4. Prokis, “ digital signal processing” (PHI)
SOFTWARE ENGINEERING
DE-IV ( EEcT-456-E)
L T P/D TOTAL Theory : 100 mks
4 1 - 5 Sessional : 50 mks
Duration : 3Hrs
UNIT- I: Introduction: Programs vs. Software products, Emergence of Software Engineering, Notable Changes in Software Development Practices, Software Life Cycle Models.
Software Project Management: Project Planning, Project Size Estimation Matrices, Project Estimation Techniques, Empirical Estimation Techniques, COCOMO- A heuristic Estimation Technique, Halstead’s software Science- An Analytical Technique, Staffing Level Estimation, Scheduling, Organization and Team structures, Staffing, Risk Management, Software Configuration Management.
UNIT- II: Requirements Analysis and Specification: Requirements Analysis, Software Requirements Specification (SRS), Formal System Development Techniques, Algebraic Specifications, Software Design: Good Software Design/Practices, Cohesion and Coupling, Neat Hierarchy, Software Design Approaches.
Function-Oriented Software Design : Overview of the SA/DK Methodology, Structured Analysis, Data Flow Diagrams (DFDs), Extending the DFD Technique to Real Time Systems, Structured Design.
UNIT- III: Object Oriented Software Design: Overview of Object-Oriented Concepts, Object- Oriented vs. Function –Oriented Design, Graphical Representation of Object-Oriented Design, Object-Oriented Design Methodology.
User Interface Design: Characteristics of a Good User Interface Design, Basic Concepts, Command Language –Based Interface, Menu-Based Interface, Director Manipulation Interfaces, Windowing Systems, Types of Widgets, An overview of X Window/MOTIF, Visual C++.
Coding And Testing: Coding, Unit testing, Black Box Testing, White-Box testing, Debugging, Program Analysis Tools, Integration Testing, System, General Issues Associated with Testing.
UNIT-IV Software Reliability and Quality Assurance: Software Reliability, Software Quality, Software, Software Quality Management, ISO 9000, SEI Capability Maturity Model. Computer Aided Software Engineering: CASE and its Scope, CASE Support in Software Architecture of a CASE Environment.
Software Maintenance: Software Reverse Engineering, Software Maintenance Process Models, and Estimation of Maintenance Costs.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
References:
1. Rajib Mall, “ Fundamentals of Software Engineering”, PHI
2. RogerS.Pressman ,“Software Engineering A Practitioner’s Approach, McGraw-Hill.
3. Ali Behforooz and Frederich J. Hudson, “ Software Engineering Fundamentals”, Oxford University Press.


MODELLING AND SIMULATION
EEcT-402-E
VIII SEMESTER
L T P Total Theory : 100 mks
4 1 - 5 Sessionals: 50 mks
Duration : 3 hrs
UNIT 1:
Introduction: Systems, Models and simulation, concept of model, model classification and mathematical representation, Identification, continuous and discrete, static and dynamic, deterministic and stochastic systems.
UNIT 2:
Discrete event systems: Introduction, statistical model in simulation, random number generation, method of generating random variables, discrete random variates, generating correlated random numbers.
Queuing models: Characteristics, queuing notation, single server and multiple server systems.
UNIT 3:
Simulation: State space simulation techniques, Digital simulation languages, Analog simulation of linear systems, magnitude scaling, time scaling, simulation equations, transfer function simulator, hybrid simulation. Load flow, short circuit and steady state stability studies. Transmission parameters.
UNIT 4:
Matlab: Matlab environment, programming, modeling, with matrices, simulation in Matlab, introduction to dynamic system simulation using SIMULINK, applications of simulink.
Note: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
REFERENCES:
1.
Banks J. Carson J.S and Nelson B: Discrete Event system simulation, PHI.
2.
Celler F.E. Continuous system simulation, Springer veriag.
3.
Athanasios Papoulis: Probability Random variables and Statistics Processes,
Mc-Graw Hill.
4.
Reference manual & user’s guide on Matlab.
5.
Analog computation & simulation (V Raja Raman)
6.
System simulation with digital computer ( D E O )
7.
System simulation (Jorden)
8.
System modeling & Computer Simulation by Nain A. Kheir. Marcel Dekker Inc.
9.
Discrete Event System Simulation, PHI Banks J. Carson J. S. and Nelson B.
10.
Advanced Computer methods for power system Analysis- Stagg and Elabiad.
11.
Advanced power System L. P. Singh ( New Age Publication)


MODERN TRENDS IN COMMUNICATION
VIII Sem. (EEcT-404-E)
12
L T P/D TOTAL Theory : 100 Mks
4 1 - 5 Sessional: 50 Mks
Duration : 3 hrs.
UNIT I
Digital Communication: - Introduction to sampling theorem for band limited & band pass signals, bit rate, detection levels, Digital filtering, Pulse code modulation, Adaptive data modulation, coding, Coding efficiency, introduction to used codes. Error detection & corrections codes, ASK,FSK, PSK,DPSK,QPSK.
UNIT II :
Satellite Communication: - Introduction, Satellite orbits, frequency used, station keeping, orientation of satellite, transmission paths & its losses & noise consideration. Satellite systems flux density, effective isotropic radiated power, link budget calculations, multiple accessing techniques.
UNIT III :
Fiber Optic Communication: - Introduction, advantages & disadvantages, principle of light transmission in a fiber, types of optical fibers, effect of index profile on propagation, modes of propagation. Number of modes via fiber, single mode propagation, rayleigh scattering losses, absorption losses, mode coupling losses, bending losses, combined losses, effect of dispersion on pulse transmission, inter model dispersion, material dispersion, wave guide dispersion, total dispersion.
UNIT IV:
Optical Communication:- LEDs, semiconductor laser diode, the PN photodiode, PIN diode. The avalanche photo diode,fiber optic communication system block diagram & loss budget, connectors & Splices.
NOTE : The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
References:
1. Dennis Roddy & John Collen: Electronics Communication.(PHI)
2. John Gowar: Optical communication system (PHI)
3. D. C. Aggarwal : Satellite Communication


SPECIAL ELECTRIC MACHINES
VIII Sem. (EEcT-406-E)
L T P/D Total Theory : 100 mks
4 1 - 5 Sessional: 50 mks
13
Duration : 3 hrs.
UNIT I Different types of FHP motors and uses in domestic & industrial applications, Single phase Induction motor, Qualitative examination starting and running performance of I-Phase Induction Motors.
UNIT II Linear Induction Motors and Actuators and its principle of operation, Linear Levitated machine & applications, Permanent magnet motors, High performance energy efficient machines, Effect of E.M.F injected into secondary circuits , quantitative study, scharge motor.
UNIT III Special Induction generations, Special motors and generators associated with Wind, Solar, Tidal, Biogas and other unconventional energy forms and their applications.
UNIT IV Synchronous motors, Series universal motors, Stepper motor, Permanent magnet D.C. motor, Permanent magnet AC motors, Switch reluctance motors. Servo motor, shaded pole motor, brush less D.C motor, Typical applications in Computers, Electronics, Communications and Information Technologies.
NOTE: The question paper shall have eight questions in all organized into four sections, each section having two questions from each of the four units. The candidate shall have to attempt five questions in all, selecting at least one question from each unit.
References:
1. Generalized Electrical Machines by P. S. Bhimbra
2 Generations of Electrical Energy by A. E. Fitzgerald/Charles , Kingsley J. R.
3
The Performance &design of A.C Commutator Motor by O.E .Taylor
4
Performance & Design of A.C machines by M.G. Say


SIMULATION LAB
VIII- Sem. (EEcT-422-E)
L T P Total Practical : 50 mks
- - 3 3 Sessional: 25 mks
Duration: 3 hrs.
14
List of Experiments :
Perform the experiments using C/C++ Language
1.
To develop a Program for Matrix n*n.
2.
Add two Matrix.
3.
Multiplication of two Matrix.
4.
Find Inverse of Matrix.
5.
Check stability by Routh Hurwitz Criteria.
6.
Check stability by Jury Test.
7.
Draw a circle for given radius use graphics.
8.
Draw a straight-line use graphics.
9.
Find Eigen value for given Matrix.
10.
To develop a program for Cramer’s Rule
11.
To develop a program for Tower of Hanoi.
Location:

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