1. ENGINEERING MATHEMATICS-III
Teaching scheme
Lectures : 3 hours/week Theory : 100 marks
Tutorial : 1 hour/week Term Work : 25 marks
SECTION –I
Unit
1: Linear Differential Equations: Linear
Differential Equations with constant
coefficients,
Homogenous Linear differential equations, method of variation of
parameters.
[6]
Unit
2: Application of Linear Differential Equations: Application
of Linear
Differential
Equations with constant coefficients to Electrical circuits [5]
Unit
3: Partial differential equations: Four
standard forms of partial differential
equations
of first order. [4]
Unit
4: Fourier series: Definition, Euler’s formulae,
conditions for a Fourier expansion,
Fuctions
having points of discontinuity, change of interval, expansions of odd &
even
periodic
functions, Hall range series. [5]
SECTION
–II
Unit
1: Laplace Transform: Definition, properties of
Laplace transforms, transforms of
derivatives,
transforms of integral, convolution theorem, Inverse Laplace transforms,
[5
]
Unit
2: Laplace Transform of Special Function: Laplace
transform of impulse
function
, Unit step function, periodic function, Applications of Laplace transforms to
linear
differential equations ( Electric circuit problems) [ 4 ]
Unit
3: Z Transform:
Z-
transform of elementary functions, properties of Z transform and inverse Z
transform.
[5]
Unit
4 Vector Differentiation: Differentiation
of vectors, normal, & tangential
components
of velocity & acceleration, Gradient of scalar point fuction, Directional
derivative,
Divergence of vector point function, Curl of a vector point function,
Irrotational
& solenoidal vector field. [6]
Text
Books:
1.
A Text Book on Applied Mathematics Vol I and II by P. N. Wartikar & J. N.
Wartikar.
2.
Higher Engineering Mathematics by B. S. Grewal
3.
Engineering Mathematics by N. P. Bali
4.
Advanced Engineering Mathematics by H. K. Das
S.E. ELECTRICAL PART- I (SEM-III)
2. ANALOG ELECTRONICS
Teaching Scheme:
Lecture-03 Hr/week Theory-100marks,
Practical-02 Hr/week TW-25 marks
POE-25 marks
-----------------------------------------------------------------------------------------------------
SECTION- I
1.
Diode applications (3)
Load
line analysis, diode approximation, configuration with D.C. Inputs- parallel,
series,
half wave and full wave rectification, clipper and clamper circuits, computer
analysis.
2.
BJT biasing (5)
Operating
point, fixed bias circuit, emitter stabilized bias, voltage divider bias,
miscellaneous
bias configuration, design operation, transistor switching networks, bias
stabilization,
transistor as an amplifier, UJT, VI characteristics of UJT, computer analysis
3.
FET biasing and MOSFET. (4)
Fixed
bias, self-bias, voltage divider bias, design, troubleshooting, The MOSFET,
VI
characteristics, depletion type MOSFET, enhancement type MOSFET, VMOS,
CMOS,
computer analysis.
4.
Compound configuration (4)
Cascade
connection, cascode connection, Darlington connection, feedback pair,
current
source circuit, current mirror circuit, and computer analysis.
5.
Power amplifiers (3)
Types,
class A and B amplifier, operation & circuits, distortion, class C, D
amplifier,
computer analysis.
SECTION
II
6.
Introduction to op-amp (3)
General
purpose op-amp, zero crossing detector, voltage level detector, computer
interfacing
with voltage level detector, inverting, non inverting and differential
amplifier,
signal
conditioning circuit.
7.
Comparators and controllers (3)
I/p
noise effect by positive feedback, zero crossing detector & voltage level
detector
with
hysteresis, Precision Comparator IC, Window Detector
8.
Selected Application Of Op-Amp (5)
High
Resistance Voltmeter, V to I Converter, Phase Shifter, Integrator,
Differentiator,
Precision
Rectifier, Peak Detector, dead zone circuit, Instrumentation Amplifier
9.
DC & AC Performance Of Real Op-Amp. (3)
I/p
Bias Current, I/p Offset Current, Drift, CMRR, PSRR, Frequency Response of Op-
Amp,
Slew Rate & O/p Voltage, Noise in O/p Voltage Gain
10.
Specialized IC Applications (5)
Analog
Multiplier, Phase Angle Detection, IC 555 Timer, Astable & Monostable, XR-
2240
Programmable Timer Counter, Linear IC Voltage Regulator, Power Supply For
Logic Circuits +/- 15V Power Supply for Linear Applications
TERM WORK: List of experiments.
Section I
1.
Design and implementation of half wave rectifier.
2.
Design and implementation of full wave rectifier.
3.
Study of various types clippers.
4.
Study of various types clampers.
5.
Study of biasing methods of BJT.
6.
Study of frequency response of CE configuration of BJT.
7.
Study of VI Characteristics of UJT.
8.
Study of FET as an amplifier.
Minimum
Five Experiments of section I & Simulation By PSPICE/Circuit maker
Software
Section II
1.
Study of op-amp as an inverting & non-inverting amplifier.
2.
Study of op-amp as differentiator & integrator.
3.
Study of op-amp as zero crossing detector & peak detector.
4.
Study of op-amp as phase shifter.
5.
Study of op-amp as precision rectifier.
6.
Study of op-amp as instrumentation amplifier.
7.
Study of IC 555 in different modes- astable, monostable.
Minimum
Five Experiments of section II & Simulation By PSPICE/Circuit maker
Software
Reference Books:-
1.
Electronic Devices & Circuits by-Allen Mottershed (PHI)
2.
Electronic Devices & Circuits by- Boylsted (Pearson)
3.
Op-Amp& Linear IC- R Gaikwad (PHI )
4.
Op-Amp& Linear Integrated Circuits- Coughlin & Driscoll (PHI )
SE ELECTRICAL, PART-I (SEM-III)
3. ELECTRIC CIRCUIT ANALYSIS
Teaching Scheme: Examination Scheme:
Lectures: 3 hrs./week Paper: 100 marks
Practical : 2 hrs./week T.W.: 25 marks
Tutorial: 1 hrs./week POE: 25 marks
SECTION-I
1.Analysis of D.C. Circuit: Types of Sources, Dependent and Independent
sources, Source
transformation,
Star/delta Transformation, Ladder Network, Nodal and Mesh Analysis. DC
analysis
using PSPICE (04)
2.Network Theorems:
Superposition theorem, Millman’s theorem, Norton’s theorem,
Thevenin’s
theorem, Maximum power transfer theorem, Use of PSPICE/ MATLAB for
analysis.
(04)
3.Operational amplifier:
Ideal Op Amp, Active Op Amp Circuit Analysis (02)
4.
Energy storage elements: Capacitor, Charging and discharging of Capacitor,
Energy stored in
capacitor,
series/ parallel connections. Inductor, series / parallel connections, energy
stored in
Inductor.
(03)
5.
First order circuits and Second
order circuits: Source free R-C Circuit,
Source free R-L
Circuit,
Step Response of R-C Circuit, Step Response of R-L Circuit, Transient analysis.
Initial
condition
of switched circuits,, unit step, ramp and impulse function. Response of R-C,
R-L series
circuit
to these signals. Use of PSPICE for analysis.
Second
order circuits: Source free Series RLC circuit, Step response of series R-L-C
Circuit,
General
second order circuits, Transient response of second order circuits using
PSPICE/MATLAB.
(06)
SECTION-II
6.
Sinusoidal steady state
analysis: Properties of sinusoidal
functions, Phasor, Impedance and
admittance,
Series and parallel resonance, Q factor, Selectivity and band width, A.C.
network
solution
using Norton’s theorem, Thevenin’s theorem, Superposition theorem, Sinusoidal
steady
state
analysis using PSPICE/MATLAB. (05)
7.
Coupled Circuits: Self and Mutual Inductance, Dot convention, Energy
in coupled circuits,
Ideal
Transformer, Tuned Circuits. (03)
8.Two port networks:
Single port and two port networks, Driving point function, Transfer
function
of two port network. Z parameters. Y parameters, Hybrid parameters. ABCD
parameters,
Inter relation between parameters, parameters of interconnected two port
network.
(04)
9.Network Solution using Laplace transform: Introduction to Laplace transform, Properties of
Laplace
transforms, impulse function, application to solution of differential equation
describing
volatage-current
relationship for circuit in time domain, transformed circuit, transfer
function,
Determination
of Initial Conditions. (05)
10.Fourier Transform:
The trigonometric Fourier series, symmetry properties. Response to
periodic
excitation, experimental Fourier series frequency spectra. Fourier transforms
Use of
Fourier
series in network analysis. (03)
List of Experiments: Any eight experiments to be performed from following
list
1.
Study of Ladder Network
2.
Verification of Star Delta transformation
3.
Verification of Superposition and Maximum power transfer Theorem
4.
Verification of Norton’s and Thevenin’s Theorem
5.
Study of step response of R-C , R-L and R-L-C Series circuit and verification
using
Pspice
6.
Observation of series and parallel resonance
7.
Calculations of Z, Y, ABCD and Hybrid parameters of two port network
8.,9,10.
Three programs of Network solution based on Pspice/ MATLAB software.
Reference Books:
•
L.P.Huelsman, Basic circuit theory,Third edition,
PHI Publication.
•
Van Valkenburg: Network Analysis , Third Edition,
PHI publication.
•
C. K. Alexander, M.N.O.Sadiku: Electrical Circuits,
Second Edition Tata McGrawhill
•
Mittal G.K.: Network Analysis, Fourth Edition,
Khanna Publications
S.E.(ELECTRICAL) PART-I ( SEM- III )
(Revised Syllabus)
4. D.C.MACHINES AND TRANSFORMERS
Teaching Scheme : Examination Scheme
Lect.: 4 hr/week Theory : 100 Mark
Practical : 2 hr/week Term Work : 25 Mark
POE :
50 Mark
SECTION –I
1.
DC.MACHINES :Construction of D.C. machines, magnetic circuit of d.c
machines,
commutator and brush arrangement, EMF equation, torque
equation,
power flow diagram of dc machines. (4)
2.
ARMATURE WINDING : Simple lap winding and wave winding,
winding
diagram and tables, brush position, dummy coils (2)
3.
ARMATURE REACTION : MMF due to armature winding, flux
distribution
due to armature current and resultant flux distribution in a
machine.
Demagnetization and cross magnetization ampere turns,
principle
of compensation, compensating winding and its use in machines.
(4)
4.
D.C. MOTORS : Concept of back emf, characteristics of d.c. motors ,
Method
of speed controls, electro breaking, parallel and series operation of
motor
. (5)
5.
TESTING OF D.C. MACHINES : Losses and efficiency , Break test,
swinburn’s
test, hopkinson’s test, redardation test,Field test on d.c series
motor
(5)
SECTION –II
6.
UNIVERSAL MOTOR : Development of torque ,power ,rotational and
transformer
emf in commutator winding, commutation in universal
motor,
complexer diagram, circle diagram, operation on A.C. and D.C.
supply,
compensated winding, application. (4)
7.
SINGLE PHASE TRANSFORMER : Construction and type, EMF
equation
phaser diagram, equivalent circuit, efficiency ,losses ,regulation,
Experimental
determination of equivalent circuit parameters and
calculation
of efficiency and regulation, parallel operation . (6)
8.
POLY PHASE TRANSFORMER : a)Construction ,single phase bank
,polarity
test, transformer winding, Grouping YD1, YD11, DY11, DZ1,
DZ11
, YZ1, YZ11 (5)
9.
PERFORMANCE OF TRANSFORMERS :Switching inrush current,
Harmonics
in exciting current causes and effects, Harmonics with
different
transformers, connection, tertiary winding, oscillating neutral,
Testing
of transformers , heat run test, sumpners test, Equivalent delta
test..
(5)
-----***----
TERM WORK :
a)Minimum
Eight experiment
based on above syllabus.
b)
Ten MATLAB exercises
on software based analysis.
LIST OF EXPERIMENTS:
1.
Speed control of dc shunt motor (i) Armature control method (ii) Field control
method
2.
Determination of efficiency of DC motor by swimbuns test
3.
Determination of efficiency of DC motor by Hopinkinson.s test
4.
Break test on shunt motor
5.
Field test on series motor
6
Load test on compound motor I) cumulative ii) differential
7.
To perform open circuit and short circuit test for determining equivalent
circuit
parameter
of a single phase transformer
8
Parallel operation of single phase transformer.
9.
Scott connection
10.
Equivalent Delta test or Heat run Test for three phase transformer.
11.
DY1 and DY11 parallel and connection
12.
load test on transformer (single and three phase)
13.
Polarity test on transformer (single and three phase)
RECOMMENDED BOOKS
1.
Electrical Machines by SK Bhattacharya, Tata Mc Graw Hill, New Delhi
2.
Electrical Machines by SK Sahdev, Unique International Publications, Jalandhar
3.
Electrical Machines by Nagrath and Kothari, Tata Mc Graw Hill, New Delhi
4.
Electrical Machines by SB Gupta, SK Kataria and Sons, New Delhi
5.
Electric Machine, By Fitzerald and Kingsley (Tata McGraw Hil
6.Alternating
current Machines, By M.G. Say.
S.E. (ELECTRICAL) (PART –I) SEM –III
5. GENERATION AND ITS ECONOMICS
Teaching Scheme: Examination Scheme:
Lectures: 3 hrs/week Theory: 100 Marks
SECTION – I
1.
Hydroelectric generation –
Hydrology,
run off and stream flow, hydrograph, flow duration curve, mass curve,
reservoir
capacity, dam storage reservoir, surge tank, penstock, spillway, tail race.
Classification
of hydroelectric plants on the basis of head, advantages and
disadvantages
of low, medium and high head plants, pumped storage plants –
types
and their advantages, different types of water-turbines, layout of different
types
of hydro power plants. (4)
2.
Nuclear power generation –
Principle
of nuclear power generation, nuclear fission and fusion processes,
materials
used as nuclear fuel.
Nuclear
reactor – Main parts of reactor and their functions, classification
construction
and operation of reactors such as boiling water reactor, pressurized
water
reactor, heavy water cooled and moderated (CANDU) type reactor, gas
cooled
reactor and liquid metal cooled reactor. Control of reactors, shielding of
reactors.
Nuclear
power plants – Selection of site, schematic layout of nuclear power
plants.
(4)
3.
Recent trends in electrical power generation –
General
layout and operating principle of – wind power plant, tidal power plant,
geothermal
power plant, solar power plants and fuel cells. Comparison of these
plants
on the basis of installation cost, running cost, reliability and environmental
effects.
(6)
4.
Supply requirements of generating station –
Types
of loads – residential, industrial, commercial, traction, irrigation loads,
variation
of these load demands, various factors affecting generation such as –
maximum
demand, average demand, demand factor, diversity factor, numericals.
Total
load demand and its variation, chronological load curve, load duration
curve,
energy load curve, mass curve, plant capacity factor and plant load factor,
numericals.
(6)
SECTION – II
5.
Cost of generation –
fixed
and running cost of power plants, annualized fixed and running charges,
depreciation
fund and its calculation by straight line method, sinking fund method
and
fixed percentage method, numericals.
Fixed
and running cost of generation, overall cost for hydroelectric plats, thermal
plants
and nuclear plants, effects of various factors (like load diversity, load
factor
and
load curve) on cost of generation. (6)
6.
Generating station –
Selection
of site – factors affecting choice of site, minimum kVA transmission
method,
C.G. method.
Determination
of size of generating station – selection of size and number of
generating
units, operating and spinning reserve units.
Comparison
of various types of generating stations – site, cost, time required for
completion,
space, reliability and environmental effects. (6)
7.
Tariffs –
Different
types of tariffs such as fixed rate tariff, block rate tariff, two-part tariff,
maximum
demand tariff, penalty for low p.f. and power factor tariff, off peak
tariff,
numericals based on these tariffs, Spot pricing or time of day (T.O.D.)
tariff,
M.D. calculation.
Introduction
to Electricity Act 2003, deregulation in power industry. (7)
Text books:
1
Generation of Electrical Energy - B.R. Gupta, S. Chand & Co. Ltd, V
edition,
2005.
2
Electrical Power - S.L Uppal, Khanna Publishers, X edition, 1984.
3
Electrical Power - Soni, Gupta, Bhatnagar, Dhanpatrai & Sons, IX edition,
1989.
Reference books:
1
Principles of Power Systems - V.K. Mehta, S. Chand & Co. Ltd., Reprint,
1995
2
Indian Electricity Act 2003.
S.E. ( ELECTRICAL ) PART-I (SEM-III)
6. INTRODUCTION TO PSPICE & MATLAB
Teaching Scheme: Examination Scheme:
Lecture 1 Hr/week Term work: 50marks
Practical 2Hrs/week
SECTION I
1.
Introduction to Matlab
Matlab
environment, different windows in matlab, getting help, Important
commands,
matlab as scratchpad, different types of files in matlab, complex
variables
and operations, plot commands (01)
2.
Matrices & vectors
Matrix
manipulation, matrix and array operations, arithmetic operators , relational
operators,
logical operators, solution of matrix equation Ax= B , Gauss
elimination,
inverse of matrix Eigen values and Eigen vectors, Determinant, least
square
solutions (02)
3.
Branching statements, loops and programming design
if
statements, for loops, while, switch, Break and continue, nesting loops,
if
else with logical arrays, function programming (02)
SECTION II
4.
Symbolic manipulation
Calculus
– limit, continuity, differential calculus, differential equation,
integration,
integral transforms, Taylor series (02)
5.
Signals manipulations
Plotting
standard signals, continuous and discrete such as step, ramp, sine,
Generating
signals from combination of different. signals, and manipulation of
signals.
(02)
6.
Transforms and simulink
Laplace,
Z and fourier transform, Inverse transforms, transfer function, partial
fraction
expansions, introduction to simulink, simulation of linear system in
transfer
domain and ordinary differential equation domain (02)
7.
Introduction to PSPICE (01)
REFERENCE BOOKS:
1.
Matlab programming for Engineers by Stephen Chapman Pub Thomson
Learning
2nd edition, 2002
2.
Getting started with MATLAB by Rudra Pratap Pub Oxford University press
3.
Contemporary linear systems using MATLAB by Robert Strum and Donald
Kirk
Pub Thomson Learning.
4.
Mastering MATLAB by Duane Hanselman & Bruce Little field Pub Pearson
Education
2005
5.
A guide to MATLAB by Brain R. Hunt, Ronald L. Lipsman & Jonathan M.
Rosenberg
Pub Cambridge University Press 2002
6.
Linear Algebra and differential Equations using MATLAB by Martin
Golubitsky,
Michael Dellnitz Pub, International Thomson 1999
7.SPICE
for Circuits and Electronics using PSpice by Muhammad Rashid pub
PHI
2nd Edition 2003.
List
of Experiments
1.
Introduction to MATLAB Environment
2.
To study simple matrix and array manipulations using Matlab
3.
Programming using MATLAB
4.
Calculus using MATLAB
5.
To plot signals discrete and continuous using MATLAB
6.
Function programming and Matlab
7.
Calculation of Laplace, Z, Inverse Laplace, Z, Partial fraction expansion and
transfer function using Matlab
8.
Signal Manipulation using Matlab.
9.
Simulation of linear system using Matlab
10.
Introduction to PSpice.
Note:
Minimum Eight experiments are to be conducted based on the above list.
S.E ( Electrical ) Part-I ( SEM -III)
7. Advanced ‘C’ Programming
Teaching Scheme:
Lectures: - 01Hr/week Examination Scheme:
Practical: - 02Hrs/week TW- 50 marks
1)
C Fundamentals, Operators & expression, data I/P & O/P, Control
statements, (2)
functions,
Program structure, arrays.
2)
Pointers (3)
a)
Fundamentals
b)
Point Declaration
c)
Passing Pointer to Function
d)
Pointer & One Dimensional Array
e)
Operation Pointers
f)
Pointer & multidimensional array
g)
Passing Function to other Function
h)
More about pointer declaration
3)
Structure & pointer (2)
a)
Passing Structures to functions
b)
Self referential structures
c)
Unions
4)
Data Files (2)
a)
Opening & Closing of Data Files
b)
Creating & Processing Data Files
c)
Unformatted Data Files
5)
Low Level Programming (2)
a)
Register Variables
b)
Bitwise Operator
c)
Bit Fields
6)
Additional Features Of C (1)
a)
Enumeration
b)
Command Line Parameter
c)
Macros
d)
C Preprocessor
7)
MATLAB with C (1)
File
Handling in MATLAB with C codes.
TERM WORK: - Minimum TEN Programs covering all Topics with One
Small
Project.
REFERENCE
BOOKS: -
1.
Programming With C Bryan Gottfried ,Schaum’s Outline
2.
Programming in Ansi C E Balguruswamy(TMH)
3.
Let us C Yashwant Kanetkar[BPB]
4.
C Made easy Herbert Schield
5.
Understanding pointers in C Yashwant Kanetkar[BPB]
6.
Getting started with MATLAB RUDRA PRATAP[OXFORD]
S. E. ( ELECTRICAL ) PART – II ( SEM -IV)
1. SIGNALS & SYSTEMS
Teaching Scheme: Examination Scheme:
Lecture 4hrs/week Theory 100 marks
Tutorials 1hr/week Term work 25 marks
SECTION I
3.
Introduction to signals & systems
Continuous
& discrete signal: size of signal, signal operations, classification of
signals,
standard test signals, singularity functions.
Continuous
& discrete systems: Classification of systems, system models of
Electrical
systems (8)
4.
Description and analysis of system
Continuous
& discrete systems: zero state response, zero input response,
convolution
sum and convolution integral, graphical representation of
convolution,
block diagram representation of differential and difference equation,
FIR
and IIR systems (8)
5.
System Analysis using Laplace transform
Laplace
transform: A brief introduction to Laplace transform its properties and
inverse
Laplace transform, transfer function analysis, solution of LTI differential
equation.
(4)
SECTION II
4.
System analysis using Z-transform
A
brief introduction to Z–transform, its properties & inverse – Z transform,
connection
between Laplace transform and Z–transform, transfer function
analysis,
solution of LTI difference equation, and stability in Z-domain.
(4)
5.
Fourier analysis of continuous signals
Periodic
representation by trigonometric Fourier series, Fourier spectrum,
Dirichlet’s
condition, exponential Fourier series, exponential Fourier spectra,
Parseval’s
theorem, Fourier transform and its properties, Relation between
Fourier
and Laplace Transform, Fourier spectrum (6)
6.
Fourier analysis of discrete signal
A
brief introduction to discrete Fourier series, D.T.F.T., properties of D.T. F.
T.,
relation
between DTFT & Z-transform, DTFT spectrum (8)
7.
Sampling, corleation and spectral density
Sampling
methods, representing CT signals by samples, sampling DT signals,
correlation
and Fourier series, energy and power spectral density of signals
(6)
REFERENCE BOOKS:
1.
Linear systems and signals by B. P. Lathi, pub Oxford University press, 2nd
Edi,
2005
2.
Signals and systems by M. J. Roberts pub Tata Macgraw Hill 2005
3.
Signals and systems by Simon Haykin pub Wiley 2003
4.
Signals and systems by C. T. Chen pub Oxford 3rd
Edition 2004.
S. E. ( ELECTRICAL ) PART – II ( SEM -IV)
2. A.C. MACHINES
Teaching Scheme : Examination Scheme
Lect.: 4 hr/week Theory : 100 Mark
Practical : 2 hr/week Term Work : 25 Mark
POE : 50 Mark
SECTION – I
1.
THREE PHASE INDUCTION MOTOR :
A]
Construction, Principle of
operation,
phaser diagram, equivalent circuit, analysis based on approximate
equivalent
circuit,, Torque equation, speed equation, speed torque curve, No load
test,
Blocked rotor test, and circle diagram, starting and types of starter, ratio of
starting
torque to full load torque. (6)
B]
Slip ring Induction Motor : Effect of
increase in rotor resistance,
starting,
speed control of motor.
Double
Cage Induction Motor (D.C.I.M.) :
Construction ,Characteristics
and
Equivalent circuit. (4)
C]
Speed control of Induction Motor :
Change of supply frequency, pole
changing,
cascading, Injection of EMF in secondary (4)
D]
Application and Testing: Testing as per I.S.S.,
Industrial applications
of
induction Motor.
Synchronous
Induction Motor : Construction ,Circle diagram,
Phaser
diagram
(4)
2.
SINGLE PHASE INDUCTION MOTOR : Types, Construction ,Principle of
operation,
phaser diagram, equivalent circuit, Experimental determination of
parameter,
application (5)
SECTION –II
3.
SYNCHRONOUS GENERATOR : Construction ,Principle of operation, EMF
equation,
leakage reactance, armature reaction, armature resistance and reactance,
field
excitation system, damper winding (5)
4.
THREE PHASE WINDING : Single layer, double layer, Integral and fractional
slot
winding, distribution factor, pitch factor , Elimination of harmonics voltage.
(4)
5.
PERFORMANCE OF SYNCHRONOUS GENERATOR : Calculation of voltage
regulation
by synchronous Impedance method, Zero power factor method, MMF
method,
experimental setup for above method, rating, efficiency and losses,
method
of synchronizing. , synchronizing power ,hunting, damping operation
single
and Infinite bus, power angle equaction, short circuit ratio and its
significance.
Two
reaction Theory : Phaser diagram, slip test, power angle equation,
saliency
power. (6)
6.
SYNCHRONOUS MOTOR : Method of starting,phaser diagram, torque and
torque
angle equation , V –curves and experimental setup, hunting and damping ,
synchronous condenser. (5)
TERM WORK :
A)
Minimum Eight experiment based on above syllabus.
B)
Ten MATLAB exercises
on software base analysis
LIST OF EXPERIMENTS :
1.
No load and Blocked rotor test on induction motor and
performance
of I.M. from circle diagram
2
.Study of A.C. Machines.
3.
Study of starters.
4.
Speed control of Induction Motor
5.
Parameter calculation of single phase induction motor from No
load
and Blocked rotor test
6.
Determination of voltage regulation of alternator using
Synchronous
Impedance method.
7.
Determination of voltage regulation of alternator using MMF
method
8.
Determination of voltage regulation of alternator using Zero power
factor
method.
9.
Synchronization of alternator with bus bar
10.
Parallel operation of alternator.
11.
V-Curves of Synchronous motor.
12.
Study of starting method of synchronous motor.
REFERENCE BOOKS :
1
Electrical Machine -3/E –S.J.Chapman –Mc Graw Hill
2
Performance and design of A.C.Machines – M.G.Say
3
Performance and design of A.C Commutator motors –
O.E.Taylor.
4
Theory of A.C. Machines – Langes dorf
5
A.C. Machines -Puchastein Lioyd and Conard.
6
Electrical Technology – H.Cotton.
S.E. (ELECTRICAL) PART II ( SEM – IV )
3. INDUSTRIAL MANAGEMENT AND ECONOMICS
Teaching Scheme: Examination
Scheme
Lectures: 3 hrs./week Paper:
100 marks
Tutorial: 01 hr / week TW:25
marks
SECTION I
1.
Industrial Management: Principles of management, Importance of
management,
Functions
of management, planning, Organisation, staffing, directing, Public relation
(04)
2.
Production Management: Production and Cost Control, Budgetary control,
purchasing,
storekeeping.
(03)
3.
Personnel Management:Definition and concept, Aims, Objective and
Functions of
Personnel
Management, Principles of good Personnel policy
(04)
4.
Financial Management: Types of Capital, Source of finance, Capital
building,
Institutions
of Industrial finance.
(04)
5.
Marketing Management: Functions of Marketing, Market research, Marketing
management
and its function, Sales Management, Sales organization, Function sales
department,
sales forecasting, The selling and marketing concept
(03)
6.
Network Analysis: Network Techniques, Terms related to Network
Planning, PERT,
CPM,
Applications of Network Technique.
(02)
SECTION II
7.
Material Management: Introduction to Material Management, Purchasing,
Purchase
Organisation,
Buying Technique, Purchasing procedure, Inventory control, Inventory
Management,
Material requirement planning
(03)
8.
Wage Administration: Definition of Salary, different wage schemes,
Advantages and
disadvantages
of them, Incentive, need, types, its merits and demerits.
(03)
9.
Total Quality Management: Definition, Defining quality obstacles, Benefits
of TQM,
ISO
registration benefits, ISO 9000 series standards, sector specific standards,
ISO 9001
requirements,
Introduction to ISO 14000 series.
(03)
10.
Industrial Acts.: Indian factory act, Indian Electricity act, The
Payment wages act, The
Workmen’s
compensation act.
(03)
11.
Management Information Systems: Introduction,, Definition, Elements of MIS,
Structure
of MIS, Information System requirement, Information based support system.
(02)
12.
Engineering economics: Definition and concept, Importance of economics,
valu and
Price,
Income, Demand and supply, Law of substitution, Functions of Banks, Types of
Banks,
Commercial banks, Exchange banks, RBI, Stock exchange, Principle of
Taxation,
Direct and Indirect tax, Free trade and Protection, Introduction of Special
Economic
Zones. (06)
REFERENCES BOOKS:
1.
Industrial Engineering and Management: O.P. Khanna; Dhanpatrai and Company
2.
Management Information Systems By G.B. Davis, M.H. Olson: Mc Grawhill;
International
Edition
3
Total Quality Management By D.H. Besterfield, C.B. Michana & others; PHI
Pvt. Ltd.
4.
ISO 900 quality systems: A. N. Singh; Dolphin Book N Delhi
5.
Business organization and management: M.C. Shukla; S. Chand
S. E. ( ELECTRICAL ) PART – II ( SEM -IV)
4. ELECTRICAL MEASUREMENT
Teaching Scheme : Examination Scheme
Lect.: 3 hr/week Theory : 100 Mark
Practical : 2 hr/week Term Work : 25 Mark
Tutorial:1
hr POE : 25 Mark
SECTION –I
1.
BASIC CONCEPT OF MEASUREMENT : International Standards, Primary
Standards,
secondary Standards, Working Standards., Types of Error, Type of
uncertainties.
uncertainty measurement method, direct method and comparison
method
(4)
2.
MOVING COIL INSTRUMENTS :
a) Moving coil instrument :
scale
andpointer, moving coil, damper and restoring spring ,Bearing and suspensions, magnetic
path, Properties of damped mass spring system : Step response, theoretical
analysis of the step response, determination of torque intertia,
Determination
of damping constant, Damping of Galvanometer. linear and non
linear
scales.
Multi range ammeter and voltmeter. : Shunting technical realization of a multi
range
ammeter ,calculation of current divider circuit, Voltmeter, series resistor
technical
realization of a multi range voltmeter, calculation of series resistance
(8)
3.
MOVING IRON INSTRUMENT : Construction and principle of operation of
attraction
and Repulsion type, limitation, scale equation of moving iron for
power
factor measurement ,synchronoscope. (4)
4
POWER AND ENERGY MEASUREMENT : Dynamometer wattmeter, power
factor
measurement, power measurement in single phase circuit, active and
reactive
power measurement in three phase circuit using wattcmeters,
Construction
and working principle of single phase and Three phase energy
meter,
Error and their compensation, Three phase Trivector meter . (4)
SECTION –II
5
MEASUREMENT OF CIRCUIT PARAMETERS :
A.C. Bridges : measurement
of
Inductance and Capacitance ,frequency measurement ,Methods of
measurement
of low, medium and High range resistance., Whetstone and slide
wire
bridge. (6)
6
MEASUREMENT USING DIGITAL INSTRUMENTS : Digital meters :
Ammeter,
Voltmeter,multimeter, Wattmeter, Energy meter. Basic circuitry of
electronic
counter, frequency measurement using electronic counter . (4)
7
ADVANCED MEASUREING INSTRUMENT : Digital Oscilloscope, wave and
spectrum
analyzer, Harmonic distortion analyzer (4)
8
C.T. and P.T : Construction and working principle, phasor diagram, application
of
C.T.
and P.T. (4)
TERM WORK :
Minimum Eight experiment from following list.
LIST OF EXPERMENTS :
1
Measurement of power by two wattmeter method
2.
Measurement of reactive power.
3.
Calibration of single phase and three phase Energy meter.
4.
Measurement of inductance by using bridges
5.
Measurement of capacitance by using bridges
6.
Study of Measuring instruments (M.I.,PMMC)
7.
Measurement of power by ammeter and voltmeter.
8.
Measurement of KVAR,KVA ,KW by using Trivector meter.
9.
Measurement of high resistance by loss of charge method..
10.
Study of digital meters
11.
Study of C.T. and P.T
12.
Study of Harmonic distortion analyzer
TEXT BOOKS :
1.
Electrical & Electronic Measurement -- A.K.Sawhney
2.
Instrumentation Devices & Systems --- Rangan,Mani ,Sharma
3.
Process Control Instrumentation Technology – Johnson
4.
Industrial Instrumentation and Control – S.K.Singh
5.
Electrical & Electronic Measurement ---Golding
6.
Electrical measurement and measuring Instrumentation - G.P.Gupta.
S.E. (Electrical) -Part II ( SEM -IV)
5. DIGITAL SYSTEMS AND MICROPROCESSOR
Teaching Scheme: Examination Scheme:
Lectures- 04 hrs / week Theory – 100 marks
Pract- 02 hrs / week TW- 25 marks
Tutorial:
01 Hr./week POE- 50 marks
SECTION I
1.Fundamentals of digital system (06)
Binary
arithmetic, binary codes, digital logic families- TTL, CMOS, interfacing
CMOS
& TTL.
2.Combinational and sequential digital circuits (10)
Standard
representation for logical function, k- map representation, simplification
of
logical functions by using k- map,
Design
procedure, adder, code converter- BCD to Gray converter, magnitude
comparator,
decoder, de-multiplexer.
Flip-flops,
triggering of flip-flops, shift registers, ripple (asynchronous) counter,
synchronous
counter, timing sequences. Counter design-using flip-flop, special counter
IC’s.
3.
Fundamentals of microprocessor. (07)
Address
bus, data bus, control bus, architecture of microprocessor 8085- ALU,
general
purpose registers, flag register, timing & control unit, interrupt control,
serial i/o control.
SECTION II
4,
Assembly language programming, (08)
Addressing
modes, instruction set of microprocessor 8085- data transfer,
arithmetic,
logical, branching, stack, i/o & machine control, subroutine, delay
routine,
display
routine, stack operation, interrupt of 8085, ISR.
5.
Memory interfacing (04)
ROM,
RAM, CAM- content addressable memory, CCD- charge coupled device
memory,
memory chips.
Memory
organization, addressing technique-IO mapped IO, Memory mapped IO,
memory
interfacing to 8085.
6.
Peripheral chips (10)
IC
8255, IC 8253, IC 8279, IC 8259,
Introduction,
schematic block diagram, operating modes, interfacing techniques,
assembly
language program for interfacing these chips to 8085,
Voltage
and current measurement by ADC 0808/0809, DAC0800
TERM WORK:
DIGITAL SYSTEMS
List of experiments
1.
Study of circuits and families: AND, OR, NAND, NOR, XOR, Operations using
TTL
and CMOS ICs.
2.
Study of flip-flop: S-R, D Type- Truth tables and K- maps.
3.
Study of flip-flop: J-K, Master slave J-K- Truth tables and K- maps
4.
Study of adder-half, full, BCD
5.
Study of subtract or.
6.
Study of counters- up down, decade, synchronous, binary, BCD counter
7.
Study of MUX, DEMUX
Minimum five experiments of Digital Electronics.
MICROPROCESSOR
i)
Minimum five medium to high skill level experiments on assembly language
Programming.
ii)
Minimum five medium to high skill level experiments on interfacing of 8255,
8279,
8253, ADC & DAC chips.
RECOMMENDED BOOKS:
1.
Modern digital electronics- R.P. Jain- TMG
2.
Fundamentals of digital circuits- Anand Kumar, PHI
3.
Digital logic and computer design- Mano M.M , PHI
4.
Digital principles and applications- Leach & Malvino
5.
Microelectronics – Jacob Millman, Arvin Grabel, MGH
6.
Microprocessor architecture, programming and applications- R. S. Gaonkar
7.
0000 to 8085 introduction to Microprocessor for Engineers & Scientists-
P.K. Ghosh, P. R. Sridhar.
8.
Fundamentals of microprocessor and microcomputer- B. Ram.
S. E. ( ELECTRICAL ) PART – II ( SEM -IV)
6. INTRODUCTION TO ADVANCED PACKAGES – LAB VIEW
Teaching Scheme: Examination Scheme:
Lecture : Nil Theory : Nil
Practical: 2 hr/week Term work: 50 marks
OBJECTIVE: To get “the students familiar with LAB
VIEW SOFT WARE & it’s
Applications
LAB VIEW: Basic introduction of LABVIEW ,(a graphical processing language),
Introduction,
START, Programs, LAB VIEW, study of different MENUS, Different
ICONS,
RUN, RUN REPEATEDLY, STOP, PAUSE/CONTINUE (used to control the running of VI) ,
FONTS, ALGNMENT, DISTRIBUTION (used in building front panels),
TEXT MENU items (e.g
FILE,EDIT,OPERATE,PROJECT,WINDOWS,HELP),
Different
libraries (e.g Tempsystem libraries of VIS),
controls,
indication and sub-VIS ,
Study
regarding use of LAB VIEW for simple functions.
TERM WORK:
Term
Work should consist of study of different LAB
VIEW modules
Minimum
Eight (08) experiments should be performed based on use of LAB VIEW
software
from the following or equivalent .
1.LAB
VIEW development system.
2.LABVIEW
state chart module.
3.LABVIEW
PDA module
4.LABVIEW
REAL-TIME module.
5.LABVIEW
FPGA module
6.LABVIEW
control design & Simulation module.
7.LABVIEW
Touch panel module
8.LABVIEW
for M/C vision
9.LABVIEW
Training card
10.LABVIEW
PID CONTROL TOOL KIT
REFERENCE:
LAB
VIEW Manuals
