Syllabus for the Academic Year 2019 - 2020 - ssit.edu.in SEM SYLLABUS.pdf · Syllabus for the...
Transcript of Syllabus for the Academic Year 2019 - 2020 - ssit.edu.in SEM SYLLABUS.pdf · Syllabus for the...
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Syllabus for the Academic Year – 2019 - 2020
Department: Electrical & Electronics Engineering Semester: III
Subject Name: ENGINEERING MATHEMATICS-III
INTEGRAL TRANSFORMS AND NUMERICAL TECHNIQUE
Subject Code: BS-18MA301 L-T-P-C: 4-0-0-4
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 Introduce the concept of Laplace Transform and problems
on periodic function.
2 Introduce the concept of solving Linear Differential
Equations by the method of Laplace Transform.
3 Represent a periodic function as a Fourier Series and
Compute the Fourier coefficients numerically.
4
To develop the proficiency in numerical techniques and
solving ordinary Differential Equations arising in
engineering applications.
Course outcome
Descriptions
CO1 Understand the basic concepts of Fourier series and Integral transforms.
CO2
Apply Laplace transform and inverse Laplace transform in solving
differential equation and integral equation arising in network analysis,
control system and others fields of engineering.
CO3
Demonstrate Fourier series and Integral transforms to study behavior of
periodic functions, discrete/continuous functions arising in single and
system, field theory and system communication.
CO4 Analyze and apply single step and multistep numerical methods in
engineering problems.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
UNIT Description Hours
I
Laplace Transforms
Definition, Laplace transforms of elementary functions and problems, periodic
functions, unit step functions, inverse Laplace transforms-problems. Solution
of linear differential equations by Laplace transform method.
10
II
Fourier Series Periodic functions, Dirichlet’s conditions. Fourier series of periodic functions
with period 2 and with arbitrary period .2l Fourier series of even and odd
functions. Half range Fourier series. Practical harmonic analysis.
Applications- frequency spectrum and examples from engineering field.
12
III
Fourier Transforms
Infinite Fourier transforms. Fourier Sine and Cosine transforms. Inverse
Fourier transforms, and simple problems.
Z-Transforms: Difference equations, basic definitions, Z-transform-
definition, Standard Z-transforms, Damping rule, Shifting rule, Initial value
and Final value theorems(without proofs) and problems, Inverse Z-transform,
Simple problems.
Applications-solutions of difference equations using Z-transforms.
10
IV
Numerical solution of ordinary differential equations of first order and
first degree- Taylor’s series method, Modified Euler’s method, Runge- Kutta
method of fourth order, Milne’s and Adams-Bash forth Predictor and
Corrector methods (No derivation of formulae).
10
V
Numerical solution of second order ODE: Runge- Kutta method and
Milne’s Predictor and Corrector method (No derivation of formulae).
Numerical Integration: Trapezoidal rule, Simpson’s thrd 83,31 rule,
Weddle’s rule, Romberg integration, Newton-cotes integration (without
proof)-problems.
10
Question paper Pattern:
1. The Question paper consists of 10 Questions (20 Marks each)
2. Two main Questions to be set in each unit and student will have a choice to select one of
them for answering.
Use Bloom’s taxonomy while preparing Question Paper.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Text Books:
Sl No
Text Book title Author Volume and Year of Edition
1 Higher Engineering Mathematics B.S. Grewal 43
rd Ed., 2015.
2 Advanced Engineering Mathematics E. Kreyszig 10
th Ed., 2015.
Reference Book:
Sl No
Text Book title Author Volume and Year of Edition
1 A text book of Engineering Mathematics N.P.Bali and Manish
Goyal
7th
Ed.,2010.
2 Higher Engineering Mathematics B.V.Ramana 2006
3 Higher Engineering Mathematics H.K.Das and
Er.Rajnish Verma
1st edition 2011
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Syllabus for the Academic Year – 2019 - 2020
Department: MATHEMATICS Semester: III
Subject Name: FUNDAMENTAL MATHEMATICS
Subject Code: MA-18DIP300 L-T-P-C: 3 – 0 – 0 - 3
Course Objectives:
Course Outcomes
After the successful completion of the course, the students are able
Course Objectives
The purpose of this course is to make students to develop a
basic Mathematical knowledge required for higher
semesters with few examples of its engineering
applications.
Course outcome
Descriptions
CO1 Understanding the basic concept of calculus like differentiation and
integration.
CO2 Understanding the concepts of partial differentiation and differential
equations arising in a variety of engineering applications.
CO3 Understanding the practical importance of Laplace transforms and their
utility in network analysis, circuit theory and convection problems.
CO4 To apply the concept of probability in problem solving and relate the
solutions to the various engineering streams.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
UNIT Description Hours
I
Differential Calculus: nth derivatives of some standard functions (without proof), Leibnitz’s Theorem (statement), Polar curves–angle between the radius vector and the tangent pedal equation-Problems. Taylor’s and Maclaurin’s series expansions of one variable - Illustrative examples.
Partial Differentiation: Partial derivatives, Euler’s theorem for homogeneous
functions of two variables. Total derivatives, Total differential, differentiation of
composite and implicit function, Jacobians.
8
II
Integral Calculus: Statement of reduction formulae forsinnx, cos
nx, and sin
mx
cosnx and evaluation of these with standard limits-Examples. Double and triple
integrals-Simple examples.
8
III
Ordinary differential equations (ODE’s): Introduction-solutions of first order
and first degree differential equations, exact, linear differential equations. Higher order ODE’s: Linear differential equations of second and higher order
equations with constant coefficients. Homogeneous /non-homogeneous
equations. Solutions of initial value problems.
9
IV
Laplace transforms: Definition, Laplace transforms of elementary functions. Properties, Transforms of derivatives and integrals, transforms of periodic function and unit step function-Problems only. Inverse Laplace Transforms.
8
V
Probability: Introduction, Sample space and events. Axioms of probability.
Addition and multiplication theorems, Conditional probability-illustrative
examples. Baye’s theorem-problems.
7
Question paper Pattern:
1. The Question paper consists of 10 Questions (20 Marks each)
2. Two main Questions to be set in each unit and student will have a choice to select one of
them for answering.
Use Bloom’s taxonomy while preparing Question Paper.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Text Books:
Sl No
Text Book title Author Volume and Year of Edition
1 Higher Engineering Mathematics
B.S.Grewal 43rd
Ed.,2015
2 Advanced Engineering Mathematics E.Kreyszig 10
th Ed.,2015
Reference Book:
Sl No
Text Book title Author Volume and Year of Edition
1 Advanced Engineering Mathematics Peter V. O’Neil 7th
Edition
2 Advanced Modern Engineering
Mathematics
Glyn James 4th
Edition, 2011
3 Higher Engineering Mathematics B.V.Ramana 2006
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Syllabus for the Academic Year – 2019 - 2020
Department: Electrical & Electronics Engineering Semester: III
Subject Name: ANALOG ELECTRONIC CIRCUITS
Subject Code: PC-18EE302 L-T-P-C: 2-0-2-3
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 To understand the concept of Diode Circuits, Biasing and
stabilization, Amplifiers and Oscillators
2 To apply the concept of clipping/clamping, operating point,
amplifier efficiency & stability of oscillator.
3 To design & analyze the rectifier circuits, Transistor
circuits, Amplifiers and Oscillators
4 To evaluate the performance of Rectifiers, Amplifiers and
Oscillators
Course outcome
Descriptions
CO1 Understand the concept of Diode Circuits, Biasing and stabilization,
Amplifiers and Oscillators
CO2 Apply the concept of clipping/clamping, operating point, amplifier
efficiency & stability of oscillator.
CO3 Design & analyze the rectifier circuits, Transistor circuits, Amplifiers and
Oscillators
CO4 Evaluate the performance of Rectifiers, Amplifiers and Oscillators
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
UNIT Description Hours
I Diode Circuits: Introduction, Diode equivalent circuits/model, clipping and
clamping circuits, full wave rectifier without and with C filter. 05
II
Transistor Biasing: Operating point, analysis and design of fixed bias circuit,
self bias circuit, Emitter stabilized bias circuit, voltage divider bias circuit, DC
bias with voltage feedback.
05
III
Multistage Amplifiers: Classification of amplifiers, Distortion in amplifiers,
frequency response of an amplifier, RC Coupled amplifier, Cascade and
cascade connections, Darlington circuits.
05
IV
Power Amplifiers: Introduction, Classification, Class A Power Amplifiers,
series fed Class A power amplifier-distortion, efficiency. Transformer coupled
Class A push-pull amplifiers: distortion, efficiency. Class B push-pull power
amplifier-distortion, Efficiency.
06
V Oscillators: Oscillator operation, phase-shift oscillator, Wein-bridge
oscillator, Tuned oscillator, Crystal oscillator. 05
LABORATORY EXPERIMENTS
1 Diode Clipping Circuits
2 Diode Clamping Circuits
3 Half wave Rectifier Circuit without and with filter
4 Full wave Rectifier Circuit without and with filter
5 BJT RC Coupled Amplifier.
6 Class B Push-Pull Amplifier
7 BJT -RC phase shift Oscillator
8 BJT –Hartley Oscillator
9 BJT –Colpitts Oscillator.
10 BJT -Crystal Oscillator
Question paper Pattern:
1. The Question paper consists of 10 Questions (20 Marks each)
2. Two main Questions to be set in each unit and student will have a choice to select one of
them for answering.
Use Bloom’s taxonomy while preparing Question Paper.
Text Books:
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Sl No
Text Book title Author Volume and Year of Edition
1 Electronic Devices and Circuits Millman, Halkias 4th Edition, 2015
2 Electronic Devices and Circuits David A Bell 5th Edition, 2008
Reference Book:
Sl No
Text Book title Author Volume and Year of Edition
1 Fundamentals of Analog Circuits Thomas L Floyd 2nd Edition, 2012
2 Electronic Devices and Circuits S.Salivahanan,
N.Suresh
3rd Edition, 2013
3 A Text Book of Electrical Technology,
Electronic Devices and Circuits
B.L. Theraja,
A.K. Theraja,
Reprint, 2013
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Syllabus for the Academic Year – 2019 - 2020
Department: Electrical & Electronics Engineering Semester: III
Subject Name: ELECTRIC CIRCUIT ANALYSIS
Subject Code: PC-18EE303 L-T-P-C: 3-2-0-4
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 To Develop the Analytical Skills to solve electrical Networks
2 To lay strong foundation in Mathematical and Electrical
Engineering fundamentals
3 To obtain the solution of Networks for steady state and transient
state conditions.
4
To apply different techniques/theorems to solve the circuit
problems.
Course outcome
Descriptions
CO1 Understanding the concept of circuit analysis using different techniques.
CO2 Applying different techniques/theorems to solve the circuit problems.
CO3 Analyze the circuit, for different condition using known methods.
CO4 Evaluate the electrical quantities for the circuit.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
UNIT Description Hours
I
Basic Concepts: Practical sources, Source transformations, Network reduction
using Star-Delta transformation, Loop and node analysis with linearly
dependent and independent sources.
08
II
Network Topology: Graph of a network, Concept of tree and co-tree,
Incidence matrix, tie –set & cut- set schedule, Formulation of equilibrium
equations for resistive networks, Principle of duality.
Resonant Circuits: Series and parallel resonance, Frequency response of series
and parallel circuits, Q factor, Bandwidth.
08
III
Network Theorems: Superposition, Reciprocity, Millman's, Thevenin's and
Norton's theorem, Maximum Power transfer theorem (independent sources
only).
08
IV
Transient behavior and initial conditions: Behavior of circuit elements under
switching condition and their representation, evaluation of initial and final
conditions in RL, RC and RLC circuits.
Laplace Transformation & Applications: Review of Laplace transforms,
Waveform synthesis, Initial and final value theorems, Step, ramp and impulse
responses, Convolution theorem, Solution of simple R-L, R-C, R-L-C
networks for AC and DC excitations using Laplace transforms.
08
V
Two port network parameters: Definition of z, y, h and transmission
parameters, modeling with these parameters, relationship between parameters
sets, Problems
08
Question paper Pattern:
1. The Question paper consists of 10 Questions (20 Marks each)
2. Two main Questions to be set in each unit and student will have a choice to select one of
them for answering.
Use Bloom’s taxonomy while preparing Question Paper.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Text Books:
Sl No
Text Book title Author Volume and Year of Edition
1 Network Analysis M.E. VanValkenburg 3
rd Edition, Reprint
2002
2 Network and systems Roy Choudhury 2
nd edition, 2006
reprint, New Age
3 Theory and Problems of Electric
Circuits
Schaum`s Series 2nd
Edition
Reference Book:
Sl No
Text Book title Author Volume and Year of Edition
1 Engineering Circuit Analysis Hayt, Kemmerly and
Durbin
6th
Edition, 2002
2 Network analysis and Synthesis F ranklin F. Kuo 2
nd Edition
3 Network Theory: Analysis and Synthesis Smarajit Ghosh PHI, 2005
4 Fundamentals of Electric Circuits Charles K, Alexander
and Mathew NO
Sadiku
3rd
Edition, TMH
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Syllabus for the Academic Year – 2019 - 2020
Department: Electrical & Electronics Engineering Semester: III
Subject Name: DC MACHINES AND SYNCHRONOUS MACHINES
Subject Code: PC-18EE304 L-T-P-C: 3-2-0-4
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 To Understand the concepts of excitation, characteristics,
Armature reaction and Commutation of DC Generator.
2 Have the Knowledge on Testing of DC motors and
methods of speed control.
3 To Analyzing the constructional details of synchronous machines
and salient pole theory.
4 To Evaluation of performance of synchronous machine
with the knowledge of their operating characteristics.
Course outcome
Descriptions
CO1 Understand the concepts of excitation, characteristics, Armature reaction
and Commutation of DC Generator.
CO2 Knowledge on Testing of DC motors and methods of speed control.
CO3 Analyzing the constructional details of synchronous machines and salient pole
theory.
CO4 Evaluation of performance of synchronous machine with the knowledge of their
operating characteristics.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
UNIT Description Hours
I
DC Generator: Types of excitation, No load & Load characteristics,
Armature reaction and its effects, Commutation, use of Inter poles and
compensating winding.
08
II
DC Motors:
(A) Characteristics of shunt, series, compound motors & their applications.
Speed control of shunt and series motors. Permanent magnet DC motor.
(B) Testing of DC machine: Losses & efficiency, direct loading, Swinburne’s
test and Hopkinson’s test.
08
III
Synchronous Machines: Basic Principles of Operation, Construction of Salient &
Non - Salient Pole Synchronous Machines, Generated Emf in a Concentrated
Winding, Effect of Distribution of Winding,
Salient Pole Synchronous Machines: Two Reaction Theory, Power- Angle
Diagram, Reluctance Power, Slip Test.
08
IV
Regulation by EMF, MMF and ZPF methods, Synchronizing to infinite bus
bars, parallel operation of alternators. 08
V
(A)Operating characteristics of synchronous Machine: Power-Angle
Characteristics, excluding armature resistance, operation at constant load with
variable excitation and vice versa for generating and motoring mode. V and Ʌ
curves of synchronous machines.
(B) Synchronous condenser, Power flow equation including armature
resistance, capability curves of synchronous generators. Hunting in
synchronous machines, damper windings, starting methods of synchronous
motor.
08
Question paper Pattern:
1. The Question paper consists of 10 Questions (20 Marks each)
2. Two main Questions to be set in each unit and student will have a choice to select one of
them for answering.
Use Bloom’s taxonomy while preparing Question Paper.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Text Books:
Sl No
Text Book title Author Volume and Year of Edition
1 Principles of Electrical Machines
V.K. Mehta & Rohith
Mehta
Reference Book:
Sl No
Text Book title Author Volume and Year of Edition
1 Electric Machines I J Nagrath and D P
Kothari
3rd
edition
2 Electric Machines, Ashfaq Hussian
3 Electrical Machinery Bhimbra 5
th edition
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Syllabus for the Academic Year – 2019 - 2020
Department: Electrical & Electronics Engineering Semester: III
Subject Name: ELECTRICAL MEASUREMENTS AND MEASURING
INSTRUMENTS
Subject Code: PC-18EE305 L-T-P-C: 3-0-0-3
Course Objectives :
Course Outcomes
Sl.No Course Objectives
1 To Provide detailed study of resistance, inductance and
capacitance measuring methods.
2 To provide elaborate discussion about extension of
instrument ranges.
3 To have an adequate knowledge in the measurement of
power and its related parameters.
4 To provide detailed study of analog, digital measuring
instruments and transducers.
Course outcome
Descriptions
CO1
Understanding the concept of transducers & measuring electrical
quantities.
CO2
Applying the measurement techniques to measure circuit parameters and
electrical quantities
CO3 Apply knowledge to select proper measuring instruments.
CO4 Design the proper instruments for measuring the electrical quantities.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
UNIT Description Hours
I
Measurement of Impedance : Classification of resistance ,Wheatstone
bridge- sensitivity analysis, limitations, Kelvin’s double bridge, Megger,
Measurement of earth resistance by fall of potential method, Andersons
bridge, Maxwell’s bridge, Schering’s bridge, Sources and detectors
09
II
Extension of Instrument ranges- shunts and multipliers, construction and
theory of instrument transformers, equations of ratio and phase angle errors of
C.T and P. T (derivation excluded), illustrative examples 08
III
Measurement of Power & Energy related Parameters: Construction and
operation – Dynamometer type wattmeter, LPF wattmeter, Digital energy
meter, Maximum demand indicator, Tri-vector meter, single phase power
factor meter(electrodynamometer type), Weston frequency meter and phase
sequence indicators.
08
IV
Electronic Instruments- Introduction, True RMS responding voltmeter,
Electronic multimeters, Digital Voltmeters – Ramp type, Successive
approximation, LCR meter, Dual trace Oscilloscope- introduction, basic
principle, block diagram, Dual beam and dual trace CROs.
08
V
Transducers - Introduction, electrical transducers, selection, resistive
transducers, strain gauges, expression for gauge factor, thermocouples, LVDT,
inductive transducers, capacitive transducers, Piezoelectric transducers, photo
electric transducers, Hall effect sensors, introduction to data acquisition system
07
Question paper Pattern:
1. The Question paper consists of 10 Questions (20 Marks each)
2. Two main Questions to be set in each unit and student will have a choice to select one of
them for answering.
Use Bloom’s taxonomy while preparing Question Paper.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Text Books:
Sl No
Text Book title Author Volume and Year of Edition
1 A course in Electrical and Electronic
Measurements and Instrumentation
A K Sawhney 2009
Reference Book:
Sl No
Text Book title Author Volume and Year of Edition
1 Electrical and Electronics Measurements
and instrumentation
J B Guptha 10th edition
2 Principles of measuring systems John P Beatly 3rd edition
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Syllabus for the Academic Year – 2019 - 2020
Department: Electrical & Electronics Engineering Semester: III
Subject Name: ELECTRICAL POWER GENERATION TECHNOLOGY
Subject Code: ES-18EE306 L-T-P-C: 3-0-0-3
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 Knowledge of various forms of electrical energy and its
utilization for both domestic & industrial applications
2 To understand the various methods of electrical power
generation using non-conventional energy sources
3 To understand the various methods of electrical power
generation using conventional energy sources
4 To analyze the environmental and cost economics of using
various conventional and non-conventional energy sources
Course outcome
Descriptions
CO1 Understanding the concept of energy sources and power generation
techniques.
CO2 Interpret the different methods of power generation.
CO3
Discriminate with different methods of power generations and its
implications.
CO4 Evaluate the economic aspects of power generations.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
UNIT Description Hours
I
Introduction to energy sources- Conventional energy sources-nuclear,
thermal, diesel, gas. Non-conventional energy sources- solar, wind, ocean,
tidal, geothermal. Energy scenario.
Solar Power Generation- Solar cell principle, basic Photovoltaic power plant,
applications of solar PV systems, advantages & disadvantages of PV energy
conversion, Solar pond electric power plant.
08
II
Wind and Biogas power generation- Basic components of wind energy
conversion system, classification of WECS- Horizontal axis & Vertical axis
machines, advantages & disadvantages of WECS, Biogas power generation,
types, advantages and disadvantages.
Ocean & Tidal power generation- Basic principle of ocean thermal energy
conversion, open cycle, closed cycle & hybrid cycle OTEC system, Tidal
power plants- Single basin & double basin arrangements, advantages &
limitations of tidal power generation.
08
III
Hydro-Electric Power Plant- Selection of site, classification of hydro electric
plants, general arrangement and operation of hydro electric plant.
Thermal Power Plant- Schematic layout & working of Thermal Power
Station, description of main parts of Thermal Power Plant.
08
IV
Nuclear Power Plant- Components of nuclear reactors, Schematic layout &
operation of nuclear power plant, types of nuclear reactors, radiation hazards
& safety precautions.
Diesel Power Plant- Components of diesel power plant, plant layout &
maintenance.
08
V
Economic aspects- Terms commonly used in system operation: Diversity
factor, load factor, plant capacity factor, plant use factor, plant utilization
factor, loss factor, load duration curve, energy-load curve, numerical problems.
Power factor improvement and tariffs.
08
Question paper Pattern:
1. The Question paper consists of 10 Questions (20 Marks each)
2. Two main Questions to be set in each unit and student will have a choice to select one of
them for answering.
Use Bloom’s taxonomy while preparing Question Paper.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Text Books:
Sl No
Text Book title Author Volume and Year of Edition
1 Non conventional sources of energy G. D. Rai 1994 edition
2 Electric Power Generation
Transmission and Distribution
S M Singh 2nd
edition
Reference Book:
Sl No
Text Book title Author Volume and Year of Edition
1 Solar energy Sukhatme 2
nd edition
2 Power System Engineering A Chakrabarthi, M L
Soni, P V Guptha &
Dhanpat,
US Bhatnaga
2009 edition
3 Elements of Power System Design M V Deshpande 2004 edition
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Syllabus for the Academic Year – 2019 - 2020
Department: Electrical & Electronics Engineering Semester: III
Subject Name: CIRCUIT SIMULATION AND MEASUREMENTS LABORATORY
Subject Code: PC-18EE3L01 L-T-P-C: 0-0-3-1.5
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 To Provide detailed experiment on measurement of
resistance, inductance & capacitance
2 To provide usage of PSPICE software package for the
analysis of Network Theorems
3 To provide detailed study on Resonant circuits.
4
Course outcome
Descriptions
CO1 Verify network theorems using software package.
CO2 Knowledge on Resonant Phenomenon using software package.
CO3
Perform experiments to measure resistance, Inductance & capacitance
using DC and AC bridges.
CO4
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
UNIT Description
I Measurement of low resistance using Kelvin’s double bridge
II Measurement of Inductance and quality factor of coil using Maxwell's Inductance
bridge
III Measurement of Capacitance and its dissipation factor using Desauty's bridge.
IV Verification of KCL & KVL for DC circuits using software package (PSPICE)
V Verification of Superposition theorem using software package.
VI Verification of Reciprocity theorem using software package.
VII Verification of Millman’s theorem using software package.
VIII Verification of Maximum Power Transfer theorem by:
i) conventional method ii) software package
IX Verification of Thevenin’s theorem by:
:i) conventional method ii)software package
X
Resonance characteristics for series and parallel circuits by:
i) Conventional method
ii) Software package
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
Syllabus for the Academic Year – 2019 - 2020
Department: Electrical & Electronics Engineering Semester: III
Subject Name: DC MACHINES AND SYNCHRONOUS MACHINES LABORATORY
Subject Code: PC-18EE3L02 L-T-P-C: 0-0-3-1.5
Course Objectives:
Course Outcomes
Sl.No Course Objectives
1 To provide a strong foundation on the no-load & load
characteristics of DC generator.
2 To impart knowledge on testing of DC machines
3 To evaluate the performance of Synchronous machines.
4 To have the knowledge of parallel operation of
synchronous generators.
Course outcome
Descriptions
CO1
Able to understand the basic concepts of DC Machines and Synchronous
Machines.
CO2
Formulate, analyze the working of DC Machines and Synchronous
Machines under no-load and load conditions.
CO3 Conduct tests and predetermine the performance of DC Machines and
Synchronous Machines. CO4
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
LIST OF EXPERIMENTS FOR
DC MACHINES AND SYNCHRONOUS MACHINES LAB
UNIT Description
I No load and Load characteristics of DC shunt generators.
II Load test on DC shunt motor and determination of speed-torque & BHP-efficiency
characteristics
III Speed control of dc motor by armature voltage control and flux control.
IV Swinburne’s test or No Load Test.
V Ward Leonard method of speed control of dc motor.
VI Hopkinson’s test or Back to Back Test or Regenerative Test
VII Voltage Regulation of an Alternator by EMF or Synchronous Impedance Method.
VIII Voltage Regulation of an Alternator by MMF or Ampere Turn Method
IX Voltage Regulation of an Alternator by ZPF or Potier Triangle Method
X Slip Test on a salient Pole Synchronous Machine.
XI Performance of synchronous generator connected to infinite bus, constant power –
variable excitation and vice-versa.
XII V & inverted V curve of synchronous motor.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
Department of Electrical & Electronics Engineering.
PC-18EE3L02: DC MACHINES AND SYNCHRONOUS MACHINES LAB
UNIT Description
FIRST CYCLE EXPERIMENTS
I No load and Load characteristics of DC shunt generators.
II Load test on DC shunt motor and determination of speed-torque & BHP-efficiency
characteristics
III Speed control of dc motor by armature voltage control and flux control.
IV Swinburne’s test or No Load Test.
V Slip Test on a salient Pole Synchronous Machine.
VI Voltage Regulation of an Alternator by EMF or Synchronous Impedance Method.
SECOND CYCLE EXPERIMENTS
VII Ward Leonard method of speed control of dc motor.
VIII Hopkinson’s test or Back to Back Test or Regenerative Test
IX Voltage Regulation of an Alternator by MMF or Ampere Turn Method
X Voltage Regulation of an Alternator by ZPF or Potier Triangle Method
XI Performance of synchronous generator connected to infinite bus, constant power –
variable excitation and vice-versa.
XII V & inverted V curve of synchronous motor.