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ITM UNIVERSITY

Naya Raipur, Raipur

B.Tech (Bachelor of Technology)

Third Year Engineering Syllabus

Fifth Semester

Electrical and Electronics Engineering

( 2016 )

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Department of Electrical and Electronics Engineering

B.Tech Fifth Semester Syllabus Teaching and Examination Scheme

Subject Code Subject Name

Credits Examination Scheme

Th.+Tut (L+T)

Pr. (P)

Theory Marks

Term Work

(Internal)

Practical (External) Total

Internal Assessment End

Sem. Exam

CT‐1 CT‐ 2 CT

AVG

302501 Advanced Engineering

Mathematics 06 ‐ 30 30 30 70 ‐ ‐ 100

302502 Electrical Machine-III 04 ‐ 30 30 30 70 ‐ ‐ 100

302503 Power Electronics 04 ‐ 30 30 30 70 ‐ ‐ 100

302504 Microprocessor 04 ‐ 30 30 30 70 ‐ ‐ 100 302505 Signal and System 04 ‐ 30 30 30 70 ‐ ‐ 100 302506 Power System-I 04 30 30 30 70 100

302507 Electrical Machine-III Lab

‐ 02 ‐ ‐ ‐ ‐ 15 35 50

302508 Power Electronics lab - 02 ‐ ‐ ‐ ‐ 15 35 50

302509 Microprocessor Lab - 02 ‐ ‐ ‐ ‐ 15 35 50

302510 Signals and System

Lab - 02 ‐ ‐ ‐ ‐ 15 35 50

302511 Vocational Training ‐ I - 02 ‐ 15 35 50

302512 Project ‐ III - 04 50 100 150

26 14 180 420 125 275 1000

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Subject Code: 302501 Subject Name: Advanced Engineering Mathematics

Lectures: 6 hours per week End Semester Examination: 3 hours

Detailed Syllabus

Topics

UNIT-1-Mathematica Logic And Fuzzy Logic: Mathematical Logic: Basic concept of mathematical

logic, statements, connectives, logical equivalence, tautology, contradiction, Predicates and Quantifiers.

Fuzzy Logic: Introduction to fuzzy sets, Operations on fuzzy sets, Fuzzy proposition, Fuzzy

Quantifiers, Fuzzy Arithmetic, Fuzzy Relations, and Engineering Application.

UNIT-2-Graph Theory And Set Theory: Graph Theory : Introduction to graph theory, path, circuit,

wheel, planar and non-planar graph, Tree and rooted tree, Spanning tree , Shortest path algorithm

(Dijekstra's algorithm, travelling salesman), Tree traversal, regular and bipartite graph.

Set Theory: Sets, Functions, Relation, Group, Pigeonhole Principle, Inclusion – Exclusion Principle,

Equivalence and partial orderings.

UNIT-3-Probability And Combinatory: Probability: Definition of probability and sampling theorem,

Conditional probability, Mean, Median, Mode and Standard Deviation.

Combinatory: Permutation, combinations, Counting, Summation, generating function, recurrence

relations, asymptotics.

UNIT-4-Application Of Partial Differential Equations: Separation of variables; solutions of one

dimensional diffusion equation; first and second order one-dimensional wave equation and two-

dimensional Laplace equation.

UNIT-5-Vector Calculus: Vector operators, Directional derivative, Gradient, divergence and curl,

Line, Surface and volume integral, Green’s, Gauss’s and stoke theorem and a applications.

Recommended Books:

1. A Text Book of Discrete Mathematics, Swapan Kumar Sarkar, S. Chand & Compeny Ltd.

2. Graph theory with applications to engineering and computer science, by Narsingh Deo, Prentice

Hall of India.

3. Fuzzy sets and Fuzzy logic – George J. Klir and Bo Yuan – PHI learning Private Limited.

4. Engineering mathematics- H.K.Das – S. Chand and Company Ltd.

5. Vector Calculas – Thomas H. Barr – Second Edition.

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Subject Code: 302502 Subject Name: Electrical Machine-III

Lectures: 4 hours per week End Semester Examination: 3 hours

Detailed Syllabus

Topics

UNIT-I- Single Phase Transformers – Construction & Operation: Single phase transformers-types

- constructional details-minimization of hysteresis and eddy current losses-emf equation - operation on

no load and on load - phasor diagrams

UNIT-II- Single Phase Transformers – Performance: Equivalent circuit - losses and efficiency-

regulation. All day efficiency - effect of variations of frequency &supply voltage on iron losses.

UNIT-III Testing of Single Phase Transformer and Autotransformer: OC and SC tests -

Sumpner’s test - predetermination of efficiency and regulation-separation of losses test-parallel

operation with equal and unequal voltage ratios - auto transformers-equivalent circuit - comparison

with two winding transformers.

Unit–IV- Polyphase Transformers: Polyphase transformers - Polyphase connections - Y/Y, Y/∆,

∆/Y, ∆/∆ and open ∆, Third harmonics in phase voltages-three winding transformers-tertiary windings-

determination of Zp, Zs and Zt transients in switching - off load and on load tap changing; Scott

connection.

Unit–V- Single Phase & Special Motors: Single phase Motors: Single phase induction motor –

Constructional features-Double revolving field theory – Elementary idea of cross-field theory – split-

phase motors – shaded pole motor. Principle & performance of A.C. Series motor-Universal motor –

Principle of permanent magnet and reluctance motors.

Recommended Books:

1. Electric Machines – by I.J.Nagrath & D.P.Kothari, Tata Mc Graw-Hill Publishers, 7th

edition 2005.

2. Electrical Machines – by P.S. Bimbra, Khanna Publishers.

3. The Performance and Design of A.C.Machines – by M.G.Say, ELBS and Ptiman & Sons.

4. Electric Machinery – by A.E. Fitzgerald, C.Kingsley and S.Umans, Mc Graw-Hill Companies, 5th

edition, 1990.

5. Theory of Alternating Current Machinery by Langsdorf, Tata Mc Graw-Hill, 2nd

edition.

6. Electrical Machines-III (Synchronous and single phase machines), S.Kamakashiah, Right

Publishers

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Subject Code: 302503 Subject Name: Power Electronics

Lectures: 4 hours per week End Semester Examination: 3 hours

Detailed Syllabus

Topics

Unit–I-Power Transistor and Thyristor: Silicon controlled rectifier (SCR), construction, principle

of operation, static and dynamic characteristics, gate characteristics, ratings, series and parallel

operation of SCRs, over voltage and over current protections, Basic concepts UJT, BJT, MOSFETs,

Snubber circuits for SC.

Unit–II-Emerging Devices and circuits: Power junction FET, IGCT, Field Control Thyristor, MOS

Control. Thyristor etc.

Unit‐III-Phase Controlled Rectifiers: Principle of phase control, single‐phase half wave and full

wave controlled rectifiers, midpoint and bridge converters, comparison between full and half

controlled converters, three‐phase half wave and full controlled bridge converter, three‐phase

semi‐converter.

Unit–IV-DC To DC Conversion: Principle of chopper operation, controlled strategies, steps up

chopper, step down chopper, chopper configuration, classifications of choppers

Unit–V-Inverter: Classification of inverters, voltage source inverter, current source inverter, series

resonant inverter, modified series resonant inverter, parallel inverter, bridge inverter and three‐phase

inverter, Cyclo‐converters: Classifications and applications.

Recommended Books:

1. Mohan, Undeland and Robbins, Power electronics: converters, Applications and Design, John Wiley

&Sons

2. Rashid M.H., Power Electronics Handbook, Elsevier Press (Academic Press Series)

3. Finney D, The Power Thyristor and its Applications, McGraw Hill, New York

4. Lander C. W. Power Electronics, McGraw Hill Book Co., U.K.

5. Rashid M.H., Power Electronics ‐Circuits, Devices and Applications, PHI, India.

6. Power Electronics and Motor Control – Shepherd, Hulley, Liang – II Edition, Cambridge

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Subject Code: 302504 Subject Name: Microprocessor

Lectures: 4 hours per week End Semester Examination: 3 hours

Detailed Syllabus

Topics

Unit–I-Architecture of Microprocessor: Digital computer, Computer languages, Main frame, Mini

computers, Microcomputers, Architecture of 8085 microprocessor, Functions of different pins, Bus

Concept, Memory organization, Memory map, Interfacing devices, Memory interfacing, Different

machine cycles.

Unit–II-Instruction set: Instruction set, Instruction classification, Instruction format, Addressing

modes of 8085,Simple illustrative programs and flow chart, System timing diagram.

Unit‐III-Microprocessor programming: Programming techniques, Looping, Counting, Logic

operations, Sorting, Counter and time delays, Stack and subroutine, Code conversion BCD to binary,

Binary to BCD, Binary to ASCII and ASCII to Binary, BCD Arithmetic.

Unit–IV-Microprocessor Interfacing: Data transfer schemes, Memory mapped I/O and I/O mapping,

I/O port Intel 8212 interfacing with multiplexed 7‐segment LED and matrix keyboard, Intel 8255 all

modes, Timer 8253/8254 Keyboard/Display Interface 8279, Control words and interfacing.

Unit–V- Microprocessor Interrupt and Applications: Interrupt structure of 8085, Hardware and

software interrupts, EI, DI, RIM and SIM instructions, Interfacing DAC 1408 and staircase ramp and

triangular wave form generation, Interfacing ADC 0801, Advanced microprocessor 8086 architecture,

Register organization signal description, physical memory organization and programmable DMA

controller 8257.

Recommended Books: 1. Ramesh S. Gaonkar, Microprocessor Architecture ‐ Programming, Applications

2. Raj Kamal, Microcontrollers ‐ Architecture, Programming, Interfacing and System Design, Pearson

Education.

3. Renu Singh and B. P. Singh, Microprocessors, Interfacing and Applications, New Age International

Publication.

4. A.P. Malvino, Digital Computer Electronics

5. S. K. Venkatram, Advanced Microprocessor & Microcontroller

6. A. P. Mathur, Introduction to Microprocessors

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Subject Code: 302505 Subject Name: Signals and System

Lectures: 4 hours per week End Semester Examination: 3 hours

Detailed Syllabus

Topics

Unit–I: Signals: Definition of signals, Examples. Elementary signals. Classification of signals:

Continuous time and discrete time, even, odd, periodic and non periodic, deterministic and non

deterministic, energy and power. Operations on signals: Amplitude scaling, addition, multiplication,

differentiation, integration, time scaling, time shifting and folding, precedence rule.

Unit-II: Systems: Definition of system, Classification: linear and non linear, time variant and

invariant, causal and non‐causal, static and dynamic, stable and unstable, invertible.

Unit–III: Analysis of Continuous Time Signals: Representation of Continuous time Fourier series

(CTFS), Existence of Fourier series, Spectrum of CT signals, Properties of CTFS. Fourier

Transform: Existence of Fourier transform, Fourier transform of standard signals, Properties of

continuous time Fourier transform.

Unit–IV: Analysis of Discrete Time Signals: Sampling of CT signals and aliasing, DTFT and

properties. Z Transform: Z transform and region of convergence of finite duration sequences,

Properties of Z transform, Inverse Z transform.

Unit–V: Linear Time Invariant‐ Continuous Time Systems and Discrete Time Systems:

Response of a continuous time LTI System, Properties of continuous time LTI systems, System

described by Differential Equation, Block diagram representation, Convolution integral, frequency

response, Response of a Discrete time LTI System, Properties of discrete time LTI system, Circular

and Linear Convolution, systems described by difference equations, Block diagram representation,

Convolution sum, LTI system analysis using DTFT and Z‐transforms

Recommended Books: .

1. Alan Oppenheim & Alan Wilsky, S Nawab, “Signals & Systems”, PHI.

2. H. P. Hsu, Rakesh Ranjan, “Signals & Systems”, Schaum’s Outlines, McGraw‐Hill Publication.

3. S. Salivahanan, A. Vallavaraj, C. Gnanapriya, “Digital Signal Processing”, McGraw Hill Publication.

4. Simon Haykin, “Signals and Systems”, 2nd

Edition, Wiley India. 5. A. Anand Kumar, “Signals &

Systems”, 2nd

Edition, PHI

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Subject Code: 302506 Subject Name: Power System-I

Lectures: 4 hours per week End Semester Examination: 3 hours

Detailed Syllabus

Topics

Unit–I-Conventional Power Plants: Main resource of Energy- Conventional & Non‐ Conventional

sources, Different types of Power Generating Stations, Brief about Thermal, Hydro, Diesel, Gas,

Nuclear.

Unit–II- Non Conventional Power Plants: Solar Electrical Energy-Layout and Working Principle.

Wind-Layout and Working Principle, Tidal- Layout and Working Principle, geothermal- Layout and

Working Principle, Biomass energy- Layout and Working Principle.

Unit‐III- Overhead Transmission System: Various systems of transmission – Advantages of high

transmission voltages - Comparison of conductor materials required for various overhead systems -

Overhead Lines Parameters : Electrical constants - Resistance, Inductance and capacitance of Single

and 3 Phase lines - Effects of earth on capacitance - Skin effect - Proximity effect. Short and Medium

transmission lines - Phasor diagrams - Nominal T and π methods - Line regulation – Efficiency,

ABCD parameters, Corona Effect.

Unit–IV- Underground Transmission System: Underground Cables, Construction of Cables,

Insulating Materials for Cables, Classification of Cables, Capacitance Grading, Capacitance of 3-Core

Cables, Current Carrying Capacity of Underground Cables, Types of Cable Fault, Ferranti effect

Unit–V- Distribution System: Classification of Distribution System, AC distribution, AC single

phase systems, AC three phase systems, AC 4‐wire systems, Primary distribution Systems, Secondary

distribution Systems, DC Distribution: distributors fed at one end, distributors fed at both ends,

distributors fed at the centre, Ring Distribution.

Recommended Books:

1. Power system protection and switchgear , by badri ram, 2nd

edition2

2. Fundamentals of Power System Protection , By Yeshwant G. Paithankar, S. R. Bhide

3. Protective Relaying Principles and Applications, J. Lewis Blackburn, 3RD

Edition CRC Press

4. Power system protection, P.M. Anderson, 2nd

Edition, IEEE.

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Subject Code: 302507 Subject Name: Electrical Machines-III Lab

Practical: 2 hours per week

Term work: Term work shall consist of record of the experiments based upon the following:

List of Experiments:

1. Parallel operation of Single phase Transformers.

2. Sumpner’s test on a pair of single phase transformers.

3. O.C. & S.C. Tests on Single phase Transformer.

4. OC and SC on a Three Phase Transformer.

5. Double Voltage and Double Frequency Test on Three Phase Transformer.

6. Vector Group Test for a Three Phase Transformer.

7. Heat Run Test for a Three Phase Transformer.

8. Pressure Test on a Three Phase Transformer

9. Vacuum Test for a Three Phase Transformer.

10. Scott connection of transformers.

11. Transformer Oil Testing Kit.

12. Turns Ration / Voltage ratio Test on a Three Phase Transformer.

13. Continuity Test on a Three Phase Transformer.

14. IR value of a Three Phase transformer and cables.

Minimum Any Eight Experiments has to be Perform.

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Subject Code: 302508 Subject Name: Power Electronics Lab.

Practical: 2 hours per week

Term work: Term work shall consist of record of the experiments out of the following -:

List of Experiments:

1. Study of VI characteristic of a silicon controlled Rectifier (SCR).

2. Study of VI characteristic of a Diac

3. Study of VI characteristic of a Triac

4. Study of VI characteristic of a UJT.

5. Application of UJT as relaxation Oscillator.

6. Study of Half wave gate controlled rectifier‐using SCR.

7. RC triggering Scheme of SCR.

8. Study of Voltage Commutation.

9. Study of current commutation.

10. Study of single‐phase, Half –controlled, full‐wave rectifier using two SCRs, and two diodes.

11. Speed controls of a dc shunt Motor using SCR.

12. Study of a three –Phase rectifier using power diodes.

13. Study of a three phase full‐wave half –controlled rectifier.

14. To study a triac power control circuit (i)use to control the speed of a fan (ii)used as a immer.

15. To observe how a photoconductive cell may be used to trigger an SCR.

Minimum Any Eight Experiments has to be Perform.

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Subject Code: 302509 Subject Name: Microprocessor Lab.

Practical: 2 hours per week

Term work: Term work shall consist of record of the experiments based on the following:

List of Experiments:

1. Study of different 8085 microprocessor kit and its execution process.

2. Study of different addressing modes of 8085 microprocessor

3. Study of ASCII and Hexadecimal Keyboard and their importance with applications

4. Write an assembly language program for the storing an 8‐bit data into different registers.

5. Write an assembly language program for the addition of two 8‐bit data and store the result in

two registers.

6. Repeat above problem for subtraction

7. Write an assembly language program for the addition of two 16‐bit data and store the result in

two 16‐bit registers.

8. Repeat above problem for subtraction

9. Write an assembly language program for the addition of two 16‐bit data and store the result in

two different memory locations

10. Write an ALP for swapping any two 8‐bit data through registers

11. Write an ALP for swapping any two 16‐bit data through memory locations

12. Write an ALP to input an array of data and display at different memory locations

13. Write an ALP to read an array of data and store the data in reverse order at different memory

locations

14. Write an ALP for BCD addition

15. Write an ALP for the implementation of different logical operations

16. Write an ALP for the implementation of IN and OUT operations

17. Write an ALP for the implementation of different interrupts

18. Study and execution process for an Interfacing with a LED display

19. Write an ALP to implement above problem to display “HELLO” in an LED display

20. Study of DMA Controller and its process control

Minimum Any Eight Experiments has to be Perform.

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Subject Code: 302510 Subject Name: Signals and System Lab.

Practical: 2 hours per week

Term work: Term work shall consist of record of the experiments out of the following;

List of Experiments

1. Write a program to generate the discrete sequences (i) unit step (ii) unit impulse (iii) ramp

(iv) periodic sinusoidal sequences. Plot all the sequences.

2. Find the Fourier transform of a square pulse. Plot its amplitude and phase spectrum.

3. Write a program to convolve two discrete time sequences. Plot all the sequences. Verify the

result by analytical calculation.

4. Write a program to find the trigonometric and exponential fourier series coefficients of a

periodic rectangular signal. Plot the discrete spectrum of the signal.

5. Generate a discrete time sequence by sampling a continuous time signal. Show that with

sampling rates less than Nyquist rate, aliasing occurs while reconstructing the signal.

6. The signal x (t) is defined as below. The signal is sampled at a sampling rate of 1000

7. Write a program to find the magnitude and phase response of first order low pass and high

pass filter. Plot the responses in logarithmic scale.

8. Write a program to find the autocorrelation and cross correlation of sequences.

9. Generate a uniformly distributed length 1000 random sequence in the range (0,1). Plot the

histogram and the probability function for the sequence. Compute the mean and variance

of the random signal.

10. Generate a Gaussian distributed length 1000 random sequence . Compute the mean and

variance of the random signal by a suitable method.

11. Generate a discrete time sequence of N=1000 i.i.d uniformly distributed random numbers in

the interval (‐0.5,‐0.5) and compute the autocorrelation of the sequence.

12. Obtain and plot the power spectrum of the output process when a white random process is

passed through a filter with specific impulse response.

Minimum Any Eight Experiments has to be Perform.

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Subject Code: 302511 Subject Name: Vocational Training ‐ I

Practical: 2 hours per week

After Completion of Industrial Training each Individual / Group has to submit the Report file in a

University Prescribed Format and followed by a Presentation and Viva Voice.

The Evaluation can be conducted by the Respective Department as per their Available Slot in between

the Academic Semester.

S.NO Description

1 Report Writing

2 Objective of the Industrial Training

3 Working Methodology / Technology

4 Results and Discussion

5 Conclusion

6 Future Scope

7 Presentation Skills

8 Viva Voice

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Subject Code: 302512 Subject Name: Project ‐ III

Practical: 4 hours per week

Term work: Term work shall consist of report submitted based on the topic of one good

Engineering / Research based problem.

1. Formation of team, selection of topic: Presentation on different project topics, Team formation

including students and guide, Literature review in Library and internet on different project topics,

Selection of Project topic and objectives

2. Site Visits (If required): Before undertaking the project design, team should visit sites where the

project is already implemented and get acquainted with different perspectives. They should meet

experienced personalities in the area and take their advice.

3. Preliminary Design: After selection of topic, the team should carry out further literature review and

then come out with the preliminary design of the project in the form of drawing and explanation.

4. Semester Project Progress Report: A semester project progress report should be prepared

comprising the work done as said above. The report should be presented before the Department

faculty and subject experts.

The Report / Thesis must contain the following:‐

1. Introduction

2. Literature Review

3. Methodology

4. Result and Discussion

5. Application of the Project Work

6. Conclusion

7. Future Scope

References

Please Note: Based on the above work a power point presentation must be given by the candidate

and defended with positive attitude. The candidate will be appreciated if he / she present his / her

work in a Conference or publish his / her work in a reputed Journal.