department of electrical engineering schedule/ee... · department of electrical engineering ......

DEPARTMENT OF ELECTRICAL ENGINEERING

COLLEGE OF TECHNOLOGY AND ENGINEERING

MAHARANA PRATAP UNIVERSITY OF AGRICULTURE AND TECHNOLOGY, UDAIPUR

FIRST YEAR B.TECH. (I SEMESTER)

LECTURE PLAN

Course No.: EE 100

Course Name: ELECTRICAL ENGINEERING Faculty: Ms. Aditi Bhatnagar

Recommended Books:

S.No

.

Title Author

1. Electrical Technology B. L. Therja

2. Network analysis M.E.Van Valkenberg

3. Introduction to Electrical Network Theory, Soni and Gupta.

4. Fundamentals of Electrical & Electronics. J.B. Gupta. (2002)

S.No. Topics

No. of lectures Total Lectures

1. Unit-I D.C. Networks: Kirchoffs law, node voltage and mesh current methods

1-3

11

delta-star and star delta transformation

4-5

source conversion; solution of DC circuits by

network theorems: Thevenin's, Nortons

6-8

superposition, Reciprocity and Maximum Power

Transfer theorem

9-11

2. Unit-II Single Phase A.C.Ciruits : Single Phase EMF

generation

12 13

average and effective values of sinusoidal and linear

periodic wave forms

13-14

instantaneous and average power, power factor,

reactive & apparent power

15-17

solution of R-L-C, series, parallel, series-parallel

circuits

18-20

complex representation of impedances

21-22

phasor diagram, series and parallel resonance 23-24

3. Unit-III Three Phase A.C., Circuits : Three phase EMF

generation, delta and star-connection, line and phase

quantities

25-26 11

solution of the 3- phase balanced circuits, Phasor

diagram

27-29

measurement of power in three phase balanced

circuits

30-31

Transformer: Faraday's laws of Electromagnetic

induction, construction and principle operation of

single phase transformer

32-33

EMF equation, voltage and current relationship and

Phasor diagram for ideal transformer

34-35

4. Unit-IV Electrical Measuring Instruments : Introduction;

type of measuring Instruments

36 5

Deflecting controlling & Damping Torque, D.C.

PMMC instruments

37-38

shunts and multipliers, Moving iron ammeters and

voltmeter, Dynamometers wattmeter, Induction type

energy meter

39-40




SECOND YEAR B.TECH. (IV SEMESTER)

LECTURE PLAN

Course No.: EE 221

Course Name: CIRCUIT THEORY II Faculty: Dr. V. Dave

Recommended Books:

S.No. Title

Author

1. Electrical Circuit Analysis Soni & Gupta

2. Circuit Analysis & Synthesis Sudhakar

S.No. Topics No. of lectures Total Lectures

1. Unit-I Laplace transform and its application to network

analysis, transform networks and sources

1-2

8

initial and final value, and inverse transform, Unit

impulse response

3-5

unit step response, the time shift theorem,

convolution.

6-8

2. Unit-II Network functions and complex frequency plane-

transfer functions, concepts of complex frequency

9-10 11

poles and zero and restrictions on their location in s-

plane, relation between natural transient frequencies

and resonance

11-13

Time domain behavior from pole-zero

configuration, frequency response

14-16

magnitude and phase of network functions ,a

relation between time domain and frequency

domain analysis

17-19

3. Unit-III Filters two port reactance networks

20-21 8

image impedance, attenuation, phase shift and

insertion loss

22-24

characteristics and design of constant k and m-derived filters

25-27

4. Unit-IV Fourier integral and continous spectra the Fourier Integral spectrum analysis for recurring pulse

28-30 13

relationship between fourier and laplace transform,

analysis of circuit using fourier transforms

31-33

sinusoidal transfer function. Network synthesis the positive real concept , brune s positive realness

34-36

properties of function , Hurwitz polynomials ,

synthesis of two elements networks LC ,RC and

networks, cauer and foster networks

37-40





LECTURE PLAN

Course No.: EE 222

Course Name: POWER SYSTEM I Faculty: Dr. N. K. Jain

Recommended Books:

S.No. Title

Author

1. Power System Analysis & Design B.R Gupta

2. A course in Electrical power Soni Gupta and Bhatnagar


1. Unit-I Basics of power system; Insulators: Type of

insulators, bushings, voltage distribution over an

insulator string,

1-4

12

grading and methods of improving string efficiency,

pollution flashover;

5-6

Corona: Electric stress between parallel conductors, Disruptive critical voltage and visual critical voltage

7-9

calculation for three phase overhead lines for corona

power loss, factors effecting corona, effect of

corona

10-12

2. Unit-II Parameters of transmission lines: Resistance,

inductance and capacitance of overhead lines

13-15 7

effect of earth on capacitance, line transposition,

geometric mean radius and distance

16-17

calculation of inductance and capacitance of single

phase transmission line, Skin and Proximity effect.

18-19

3. Unit-III Performance of transmission lines: Steady state

analysis of short transmission line

20-21 10

medium and long transmission lines 22-24

Generalized ABCD line constants, receiving end

and sending end power circle diagrams

25-27

Ferranti effect, interference with communication

circuits

28-29

4. Unit-IV Underground cables: Type of cables, insulation

resistance and capacitance calculation

30-31 10

reduction of maximum stresses, causes of

breakdown, idea about oil and gas filled cables

32-33



34-35



36-37

typical cases of line terminations .

38-39





LECTURE PLAN

Course No.: EE 223

Course Name: ELECTRICAL MACHINES I Faculty: Dr. Jai Kumar Meherchandani

Recommended Books:

S.No. Title

Author

1. Fundamentals of Electric Machines B.R. Gupta & Vandana Singhal

2. Electric Machines (Second Edition) I.J. Nagrath & D.P. Kothari

3. Electrical Machines P.K.Mukherjee & S.Chakravorti


1. Unit-I Transformers: Constructional features, emf

equation, phasor diagram, equivalent circuits

1-3

9

open circuit and short circuit test, Sumpners test 4-5 efficiency, voltage regulation, all-day efficiency 6-7

separation of losses, parallel operation,

autotransformers

8-9

2. Unit-II Polyphase Transformers: standard connections for

three-phase operation, single phasing and

unbalanced load conditions on a threephase

transformer,

10-12

11

Scott connection and six-phase transformation

13-14

Electromechanical Energy Conversion: Basic

principles of electromechanical energy conversion,

energy balance

15-16

basic principles of operation of electric generators

and motors

17-18

DC Machines: Fundamentals of DC machine,

construction, armature windings, simple lap and

19-20

wave windings, chording, equalizing connections.

3. Unit-III DC Generators: EMF equation, Types of DC

generators, no load and load characteristics

21-22 8

parallel operation. Armature Reaction: Distribution

of armature and field mmfs

23-24

parallel operation. Armature Reaction: Distribution

of armature and field mmfs

25-26

Commutation: Introduction to commutation,

reactance voltage, resistance commutation and

interpoles.

27-28

4. Unit-IV DC Motors: Principle of operation, production of

torque, back emf, torque-current and torque-speed

characteristics

29-31 12

starting of motors, speed control by variation of

armature voltage, field current and Ward Leonard

method

32-33

electric braking, losses and efficiency, direct and

indirect tests, Swinburnes test

34-36

Hopkinsons test, field test and retardation test, Rosenberg generator

37-38

Cross-Field Machines: Basic principles of operation

of metadyne and amplidyne and their applications

39-40




THIRD YEAR B.TECH. (VI SEMESTER)

LECTURE PLAN

Course No.: EE 321

Course Name: ELECTROMAGNETIC & FIELD THEORY Faculty: Dr. Naveen Jain

Recommended Books:

S.No. Title Author

1. Engineering Electromagnetics Hayt Jr, William.

2. Electromagnetics with application Kraus, Fleish.

3. Introduction to Electromagnetics Griffith David J.


1. Unit-I Vector relation in rectangular, cylindrical, spherical

and general curvilinear coordinate system line,

1-4

8

surface & volume integral; Concept and physical

interpretation of: Gradient, Divergence, Curl, Stokes

Theorem, Helmholtz Theorem.

5-8

2. Unit-II Electrostatics: Introduction to Electric field vectors,

Electric field due to charge configuration, Potential

function and displacement ratio

9-12

10

Gauss law, Poisons and Laplaces equations, Uniqueness theorem, continuity equation,

Capacitance & electrostatic energy

13-15

Field determination by method of image, Boundary

condition, Field mapping and concept of field cell

16-18

3. Unit-III Magneto-statics: Introduction to magnetic field

vectors, Bio-Savart and Amperes law,

19-21 9

Magnetic scalar and vector potential Self and

mutual inductance energy stored in magnetic field

22-24

Boundary condition, Analogy between electric and

magnetic field, Field mapping and concept of field

cell.

25-27

4. Unit-IV Time-Varying Fields: Faradays law, Displacement current & equation of continuity, Maxwells equation

28-30 13

UPW: Free space, dielectrics and conductors, Skin

effect and sinusoidal time variation, Reflection,

refraction and polarization of UPW standing wave

ratio, Pointing vector and power consideration

31-34

Radiation and Transmission, Retarded potential and

concepts of radiation, radiation from small current

elements, Transmission line parameters,

Introduction to EMI & EMC

35-37

EMI coupling nodes, methods of eliminating

interference, shielding, grounding, conducted

EMI.EMI testing, emission testing, susceptibility

testing.

38-40





LECTURE PLAN

Course No.: EE 322

Course Name: POWER ELECTRONICS II Faculty: Dr. Vinod K. Yadav

Recommended Books:

S.No. Title Author

1. Power Electronics P.S. Bimbhra

2. Power Electronics Berde

3. Power Electronics.

P.C. Sen


1. Unit-I Converters: Performance measures of single and

three-phase converters, discontinuous conduction in

two quadrant converters

1-3

11

power factor improvements: Extinction angle

control, symmetrical angle control, pulse width

modulation control, and sinusoidal pulse width

modulation control

4-8

Thyristor commutation scheme- Line commutation,

load commutation, forced and external pulse

commutation

9-11

2. Unit-II Cycloconverter: Basic principle of operation, single

phase to single phase,

12-14

8

Cycloconverter: Basic principle of operation, single

phase to single phase, Output equation.

15-19

3. Unit-III Choppers: Principle of chopper operation, control

strategies, step-up chopper, reversible chopper,

20-22 9

Steady state time domain analysis of type-A

chopper, Chopper configuration, and chopper

commutation.

23-25

AC Chopper, Multiphase chopper. 26-28

4. Unit-IV Inverters: Inverter classification, Voltage source

thyristor inverters, single phase half and full bridge

inverters with auxiliary communication and with

complementary communication

29-32 12

Three phase bridge inverters with 180 mode & 120

mode, Pulse width modulation inverters, Current

source inverters,

33-35

single phase capacitor-commutated CSI with restive

load, single phase auto-sequential commutated

inverter,

36-37

three phase auto-sequential commutated inverter,

single phase series inverters & parallel or push pull

inverters, Voltage control of inverters

38-40





LECTURE PLAN

Course No.: EE 323

Course Name: INSTRUMENTATION Faculty: Dr. Jai Kumar

Recommended Books:

S.No. Title Author

1. Electrical Measurement & Instrumentation A.K. Shawney

2. Electronic Instrumentation Kalsi

3. Electronic Instrumentation Albert Cooper


1. Unit-I Theory of errors: Accuracy and precision,

systematic and random errors, limits of errors,

1-3

7

probable errors and standard deviation, Gaussian

error curves, Combinational errors.

4-7

2. Unit-II Transducers: Constructional features, operating

characteristics and selection. Criteria of active,

passive and digital transducers,

8-10

9

block diagram representation for the instrumentation

of strain, displacement, velocity

11-13

acceleration, force, torque, flow, pressure and

temperature.

14-16

3. Unit-III Signal conditioning: a.c. & d.c. Bridges, analysis of

unbalanced bridges, Instrumentation amplifier,

operational amplifiers,

17-19 6

choppers, established and carrier amplifiers, charge

amplifiers, A/D & D/A converters. Phase sensitive

detectors, shielding and grounding.

20-22

4. Unit-IV Signal recovery: Signal filtering, averaging,

correlation and coding. Signal transmission and

telemetry

23-25 10

Modulation and encoding methods, transmission

media, Time division and frequency multiplexing.

26-28

Signal recording and display- Analog and digital

display, Recorders, storage oscilloscopes, printers

and plotters, Data acquisition system (analog and

digital).

29-32





LECTURE PLAN

Course No.: EE 325

Course Name: ELECTRICAL ENGINEERING MATERIALS Faculty: Mr. vahid hussain

Recommended Books:

S.No. Title Author

1. An introduction to Electrical Engineering Materials, C.S Indulkar & S. Thriuvengadam

2. A course in Electrical Engineering Materials, S.P.Seth & P.V.Gupta

3. Electrical Engineering Materials B.D.Indu


1. Unit-I Conductor Materials: Electrical, thermal and

mechanical properties of conductive and resistive

materials.

1-2

6

Important characteristics and applications of

specific conductor materials like copper, aluminium,

AAC, ACSR, silver, gold, platinum and tungsten,

3-4

study of important resistance materials, carbon and

nicrome, standard resistance materials. Soldering

alloys.

5-6

2. Unit-II Super-conducting Materials: Introduction, critical

field and critical current density, type I and type II

superconductors, intermediate state, penetration

depth and thin films,

7-9

11

Superconductivity at high frequencies, application

of superconductivity. Advancements in super

conducting materials.

10-12

Dielectric materials: Dielectric behavior of materials

under static and dynamic field, Polarisation, induced

and permanent dipole moments, Surface resistivity.

Breakdown processes.

13-15

Thermal properties Electrical properties of

important dielectric materials including plastics and

ceramics, ferroelectric and piezo-electric materials.

16-17

3. Unit-III Magnetic Materials: characteristics of diamagnetic,

paramagnetic, ferromagnetic, ferrimagnetic and

anti-ferromagnetic materials,

18-20 6

Properties and applications of common nonretentive

and retentive magnetic materials including various

alloys, ferrites and powder cores.

21-23

Eddy current and hysteresis losses, Curie point. 24-25

4. Unit-IV Semiconductor materials: Electric properties of

semiconducting elements and compounds and their

application.

26-28 6

Zone refining and crystal growth. Miscellaneous

materials: important electronic properties of electron

emitting materials, photosensitive materials and

luminescent materials.

29-31




FOURTH YEAR B.TECH. (VIII SEMESTER)

LECTURE PLAN

Course No.: EE 421

Course Name: ADVANCED POWER SYSTEMS Faculty: Mr. Anshul Kumawat

Recommended Books:

S.No. Title

Author

1. Power system analysis J J Grainger and W D Stevenson

2. Flexible AC transmission systems K. R. Padiyar

3. Power system analysis Wooden Woollen Berg

S.No. Topics


1. Unit-I EHV AC Transmission: Need of EHV transmission

lines, power handling capacity and surge impedance

loading.

1-2

6

Problems of EHV transmission, bundled conductors

geometric mean radius of bundle, properties of

bundle conductors.

3-4

Electrostatic fields of EHV lines and their effects,

corona effects: Corona loss, audio and radio noise.

5-6

2. Unit-II HVDC Transmission: Types of D.C. links,

advantages and disadvantages of HVDC

transmission, Basic scheme and equipment of

converter station.

7-9

10

Analysis of HVDC Converters, twelve-pulse

converter. Ground return. Basic principles of DC

link control

10-11

and basic converter control characteristics, system

control hierarchy, various controls of HVDC like

VDCOL,

12-14

firing angle control, current and extinction angle

control, gamma controller, power controller.

15-16

3. Unit-III Introduction to multi-terminal DC systems,

application of MTDC Systems, types of MTDC

systems, Control and protection of MTDC systems.

17-19 10

Description of various converters and inverters

circuits, HVDC circuit breakers, Harmonics and

filters,

20-21

Measurement of HVDC quantities, Reactive power

requirements and sources of reactive power.

22-24

Converter Faults and protection against over

currents, over voltages.

25-26

4. Unit-IV FACTS: Problems of AC transmission lines.

Phenomena of voltage collapse, basic theory of line

compensation.

27-29 10

Basic features of FACTS controllers, Basic schemes

and operations of thyristor controlled series

compensator phase angle regulator

30-32

and dynamic brake, Introduction to static

synchronous compensator (STATCOM) and unified

power flow controller (UPFC).

33-36




FOURTH YEAR B.TECH. (VIII SEMESTER)

LECTURE PLAN

Course No.: EE 422

Course Name: NEURAL AND FUZZY BASED CONTROL SYSTEM Faculty: Dr. R.R. Joshi

Recommended Books:

S.No. Title

Author

1. Introduction of artificial neural systems J.M. Zurada. (1997).

2. Neural networks S. Iiaykin. (1994).

3. Neuro control and its application S. Omatu, M. Khalid, R. Yusof. (1996).

S.No. Topics


1. Unit-I Artificial neural systems : Preliminaries,

fundamental concepts & models of artificicalsystem,

neural networks learning rules, Hebbian, perceptron,

delta Widrow-Hoff learning rules

1-2

7

Single layer percepton classification : Classification

model, features & decision regions training &

classification using discrete perception, algorithm &

examples

3-4

single layer continuous perceptron networks for

linear separable classification; Multilayer feedback

work networks Generalized delta learning rule,

feedforword recall & error back propagation

training, learning factors.

5-7

2. Unit-II Single layer feedback networks : basic concepts of

dynamical systems mathematical modeling of

discrete time & gradient type Hopfield networks,

transient response of continuous time network

solution optimization problems.

8-10

8

Neural network in control system : Neuro-control

approaches, training algorithm evaluation of training

algorithms, through simulation,

11-12

self tuning neuro-control scheme, self tuning PID

neural controller, neuro-control scheme feed water

bath temperature control system.

13-15

3. Unit-III Mathematical of fuzzy control: fuzzy sets, fuzzy set

theory, properties of fuzzy sets, Operations of fuzzy

sets, fuzzy relations .

16-18 9

Non linear fuzzy control: The control problem,

FKBC as non linear transfer element PID

19-21

sliding mode type FKBC, some typical application

of fuzzy based control systems.

22-24

4. Unit-IV Adaptive Fuzzy control: Introduction, design &

performance evaluation, performance monitor, main

approaches to design.

25-26 8

Stability of fuzzy control system: state space

approach, stability and robustness indices, input-

output stability.

27-28

FKBC design parameters: Structure of FKBC

fuzzification and defuzzification module, rule based

choice of variable

29-30

and contents of rules, derivation of rule data based,

choice of membership function and scaling factors.

31-32




FOURTH YEAR B.TECH. (VIII SEMESTER) ELECTIVE I

LECTURE PLAN

Course No.: EE 423(a)

Course Name: UTILIZATION OF ELECTRICAL POWER Faculty: Ms. Himani Paliwal

Recommended Books:

S.No. Title

Author

1. Utilisation of Electrical Power H. Pratap

2. Electrical power systems Soni, Gupta, Bhatnagar

S.No. Topics


1. Unit-I Electric drives- Characteristics of load,

characteristic of different drives, size and rating of

electric drives,

1-2

6

load equalization and flywheel, Selection of electric

drives for specific application, Electric braking,

3-4

Behavior of motor during starting, acceleration

braking & reversing operation.

5-6

2. Unit-II Different methods of electric heating, principle of

high frequency induction and dielectric heating, Arc

furnace & induction furnace.

7-10

4

3. Unit-III Principles of illumination, electric light sources,

11-12 4

Designing scheme for commercial, Industrial street

& flood lighting.

13-14

4. Unit-IV Systems of electric traction, track electrification,

Means of supplying power & train lighting,

substation equipment & layout, over head

equipment,

15-17 10

D.C. & A.C. traction motor, speed control, various

method of starting,

18-19

Metadyne control series-parallel starting methods of

electric braking of traction motor speed-time curve,

20-22

Tractive efforts specific energy conversion,

Mechanics of train movement.

23-24




FOURTH YEAR B.TECH. (VIII SEMESTER) ELECTIVE II

LECTURE PLAN

Course No.: EE 424(b)

Course Name: HIGH VOLTAGE ENGINEERING Faculty: Ms. Kusumlata

Recommended Books:

S.No. Title

Author

1. High voltage engineering K. Naidu

2. High voltage engineering C.L.Wadhwa

S.No. Topics


1. Unit-I Mechanism of breakdown in gases, liquids and

solids, Townsands,

1-2

5

and Streamer theories, Paschins law, Impulse generator circuit. Techniques to observe wave front

on CRO.

3-5

2. Unit-II Method of generation of power frequency high

voltages-cascade transformers and resonance

methods.

6-8

5

Generation of H.V.D.C. voltage stabilization, tesla

coil.

9-10

3. Unit-III Measurements of high voltage: Potential divider,

sphere gap, electrostatic voltmeter, oscilloscope and

11-12 7

Measurements of high voltage: Potential divider,

sphere gap, electrostatic voltmeter, oscilloscope and

13-14

their application in high voltage measurements,

Measurement of loss angle and partial discharge

measurement techniques.

15-17

4. Unit-IV H.V. testing: Wet and dry flash over test, testing of

insulators in simulated pollution conditions.

18-20 6

Accumulation of charges in clouds, direct and

indirect strokes, isokeravnic level,. Switching

surges, protection of system against surges.

21-23

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