161_course details b.e.electrical engineering
TRANSCRIPT
SYLLABUS
8.3 SCHEME OF EXAMINATION (SEMESTER PATTERN):
8.3.a B.E. 1st year ANNUAL PATTERN – (Common to All Branches, Except in Architecture)
Year Sub.Code Subject Name L T P D Perio
d .per
week
Max
marks
theory
Pape
r
Colleg
e
Asses.
Max
marks
pract
Pract Colleg
e
Asses.
Paper
Duratio
n
1 1-1 Applied Mathematics-I 3 1 4 100 80 20 0 3
1 1-2 Applied Mathematics-II 3 1 4 100 80 20 0 3
1 1-3 Applied Physics 2 1 4 7 100 80 20 50 25 25 3
1 1-4 Applied Chemistry 2 1 4 7 100 80 20 50 25 25 3
1 1-5 English 1 1 2 100 80 20 0 3
1 1-6 Social Sciences 1 1 2 100 80 20 0 3
1 1-7 Engineering Mechanics 2 1 1.5 4.5 100 80 20 50 25 25 3
1 1-8 Engineering Drawing 1 0 3 4 100 80 20 50 25 25 4
1 1-9 Electrical Engineering 2 1 1.5 4.5 100 80 20 50 25 25 3
1 1-10 Workshop 0 0 4 4 100 50 50
Total 17 8 15 3 43 900 350 Total
Max
Marks
1250
8.3.g SEMESTER PATTERN – BRANCH : ELECTRICAL ENGINEERING (ELECTRONICS & POWER) Direction No. 9 of 2001
Sem Sub.Code Subject Name L T P Perio
d .per
week
Max
marks
theory
Pape
r
Colleg
e
Asses.
Max
marks
pract
Pract Colleg
e
Asses.
Paper
Duratio
n
3 3-EE-1 Applied Mathematics-III 3 1 0 4 100 80 20 3 Period
3 3-EE-2 Steam And Hydroturbines 3 1 0 4 100 80 20 3 Period
3 3-EE-3 EMMI 4 1 2 7 100 80 20 50 25 25 3 Period
3 3-EE-4 Network Analysis 4 1 2 7 100 80 20 50 25 25 3 Period
3 3-EE-5 Electronic Devices & Circuits 4 1 2 7 100 80 20 50 25 25 3 Period
Total
Credit Points=18+2.5+3=23.5
18 5 6 29 500 150 Tot.Ma
rks. 650
Sem Sub.Code Subject Name L T P Perio
d .per
week
Max
marks
theory
Pape
r
Colleg
e
Asses.
Max
marks
pract
Pract Colleg
e
Asses.
Paper
Duratio
n
4 4-EE-1 Electrical Engg. Maths 3 1 0 4 100 80 20 3 Period
4 4-EE-2 Elements Of Electromagnetics 4 1 0 5 100 80 20 3 Period
4 4-EE-3 Digital Circuits 4 1 2 7 100 80 20 50 25 25 3 Period
4 4-EE-4 Electrical Machines-I 4 1 2 7 100 80 20 50 25 25 3 Period
4 4-EE-5 Computer Programming 4 1 2 7 100 80 20 50 25 25 3 Period
Total
Credit Points=19+2.5+3=24.5
19 5 6 30 500 150 Tot.Ma
rks. 650
Sem Sub.Code Subject Name L T P Perio
d .per
week
Max
marks
theory
Pape
r
Colleg
e
Asses.
Max
marks
pract
Pract Colleg
e
Asses.
Paper
Duratio
n
5 5-EE-1 Electrical Power System-I 4 1 0 5 100 80 20 3 Period
5 5-EE-2 Instrumentation 4 1 0 5 100 80 20 3 Period
5 5-EE-3 Electrical Machine Design 4 1 0 5 100 80 20 3 Period
5 5-EE-4 Microprocessor & Interfacing 4 1 2 7 100 80 20 50 25 25 3 Period
5 5-EE-5 Electrical Machines-II 4 1 2 7 100 80 20 50 25 25 3 Period
5 5-EE-6 Electrical Engg. Workshop 0 0 2 2 50 25 25
Total
Credit Points=20+2.5+3=25.5
20 5 6 31 500 150 Tot.Ma
rks. 650
8.3.g SEMESTER PATTERN – BRANCH : ELECTRICAL ENGINEERING (ELECTRONICS & POWER) Direction No. 9 of 2001
Sem Sub.Code Subject Name L T P Perio
d .per
week
Max
marks
theory
Pape
r
Colleg
e
Asses.
Max
marks
pract
Pract Colleg
e
Asses.
Paper
Duratio
n
6 6-EE-1 Power Station Practice 4 1 0 5 100 80 20 3 Period
6 6-EE-2 Industrial Eco. & Management 3 1 0 4 100 80 20 3 Period
6 6-EE-3 Elect. Drives & Their Control 4 1 0 5 100 80 20 3 Period
6 6-EE-4 Linear Electronics Circuits 4 1 2 7 100 80 20 50 25 25 3 Period
6 6-EE-5 Control System-I 4 1 2 7 100 80 20 50 25 25 3 Period
6 6-EE-6 Com. Aided Elect. Engg. Drawing 1 0 2 3 50 25 25
Total
Credit Points=20+2.5+3=25.5
20 5 6 31 500 150 Total
650
Sem Sub.Code Subject Name L T P Perio
d .per
week
Max
marks
theory
Pape
r
Colleg
e
Asses.
Max
marks
pract
Pract Colleg
e
Asses.
Paper
Duratio
n
7 7-EE-1 Control System-II 4 1 0 5 100 80 20 3 Period
7 7-EE-2 Electrical Power-II 4 1 0 5 100 80 20 3 Period
7 7-EE-3 Elective-I 3 1 0 4 100 80 20 3 Period
7 7-EE-4 High Voltage Engineering 4 1 2 7 100 80 20 50 25 25 3 Period
7 7-EE-5 Power Electronics 4 1 2 7 100 80 20 50 25 25 3 Period
7 7-EE-6 Project Seminar 0 0 3 3 50 50
Total
Credit Points=19+2.5+3.5=25
19 5 7 31 500 150 Total
650
Sem Sub.Code Subject Name L T P Perio
d .per
week
Max
marks
theory
Pape
r
Colleg
e
Asses.
Max
marks
pract
Pract Colleg
e
Asses.
Paper
Duratio
n
8 8-EE-1 Power Semiconductor Based Drives 4 1 0 5 100 80 20 3 Period
8 8-EE-2 Elective –II 3 1 0 4 100 80 20 3 Period
8 8-EE-3 Switchgear & Protection 4 1 2 7 100 80 20 50 25 25 3 Period
8 8-EE-4 Comp. Appl. In Electrical Engg. 4 1 2 7 100 80 20 50 25 25 3 Period
8 8-EE-5 Project 0 0 6 6 150 75 75
Total
Credit Points=15+2+5=22
15 4 10 29 400 250 Total
650
ELECTIVE-I ELECTIVE-II
1] Non Conv. Energy Sources 1] EHVAC and HVDC TRANS
2] I.T. and its app. in P.S. control 2] E.I.D.
3] FUZZY LOGIC and neural networks 3] Adv. Micro. PERI
4] FLEX A.C. Transmission systems 4] BIOMED. Engg.
5] Entrepreneurship Devp. 5] DSP 6] OPT. TECH.
FIRST YEAR
1-1 Applied Mathematics-I
Section-A
1. Differential Calculus:
Unit 1: Successive differentiation, Taylor's and Maclaurin's series for one variable. Tangents and Normals, subtangent and
subnormal (Cartesian form), Curvature and Radius of curvature (Cartesian, Parametric and polar form), centre of
curvature (Cartesian form only), L'Hospital's rule. Maxima and Minima of function of one variable.
Unit 2 Partial differentiation, Function of several variables, first and higher order derivatives, Euler's theorem, chain rules
and total differential co-efficient, Jacobians, Taylor's and Maclaurin's series of two variables, Maxima & Minima of
function of two variables, Lagrange's method of undetermined multipliers. (22 Periods)
2. Analytical Trigonometry:
Unit 3: Cartesian and polar forms of complex numbers, D-Moilver's theorem, hyperbolic functions and their inverse,
Logarithm of complex quantities, summation of series. (C + is Method).
(10 Periods)
Section-B
3. Theory of equations: Unit 4: General properties of polynomial equations, relation between roots & coefficients, transformation of equations,
Horner's method of synthetic division. (7 Periods)
4. Integral Calculus:
Unit 5: Beta Gamma functions, Differentiation of definite Integral, Tracing of curves (Cartesian & Polar curves)
rectification of simple curves, quadrature, volumes and surface of solids of revolutions (Cartesian, Polar &
parametric forms). Theorem of Pappus and Guldin, mean value and root mean square values.
5. Analytical solid Geometry:
Unit 6: Cartesian, cylindrical and spherical system of co-ordinates and their transformations, Detail study of lines of planes
in Cartesian system. Shift of origin, projection of segment, projection of plane-closed curves, projection of lines and
planes. Shortest distance between two lines, Equations of sphere, right circular cylinder and right circular cone.
Books Recommended:
1. Engg. Mathematics: H.K.Das. (S.Chand & Co)
2. Plane Trigonometry Part II: S. L. Loni, (S.Chand & Co)
3. Mathematics for Engineers: Chandrika Prasad (Prasad Mudranalaya, Allahabad)
4. Higher Algebra: Hall & Knight
5. Higher Engineering Mathematics: B. S. Grewal (Khanna Publishers, N Delhi
6. Analytical Solid Geometry: Shantinarayan. (S.Chand & Co)
7. A textbook of Engineering Mathematics vol. I & II : Prof. D. T. Deshmukh
8. Applied Mathematics: Ramana murthy Srinivas
1-2 Applied Mathematics-II
Section A
Unit 1
Scalar triple product, vector triple product, quadruple product of vectors. First order first-degree differential
equation, variable separable, homogeneous, reducible to homogeneous, linear, reducible to linear and exact
differential equations (excluding the cases of integrating factor).
Unit 2:
Linear differential equation with constant coefficients, the operator l/f (D), method of variation of parameters,
simple simultaneous diff. equation, homogeneous differential equations, differential equations of the type d2y/dx2 = f
(Y), Cauchye’s Applications of differential equations to simple Electrical circuits and Mechanics. (Only up to
second order) (20 periods)
Unit 3:
Differentiation of vectors, Gradient of Scalar point function, directional derivatives, divergence and curl of vector
point function, solenoidal motion and irrotational motion.
Vector integration, line, surface and volume integrals, stoke's theorem, Gauss divergence theorem, Green's theorem
in plane (statement only), Greens identities and their simple applications.
Section B
Unit 4: Finite Differences:
Difference table, operator E and factorials, functions Newton's forward and backward inter-polation formula, central
differences, stirling's formula (without proof), Lagrange's interpolation formula, Numerical differentiation and
integration, difference equations with constant coefficients.
(15 Period)
Statistics and Probability:
Unit 5:
Fitting of a straight-line y = a + bx, parabola y = a + bx+cx2, and the curves y = abx, y= azb and y = axb by method of
Least square, Linear regression and correlation, rank correlation, Binomial, Poisson and Normal distribution.
(9 periods)
Unit 6: Multiple Integrals and Their Applications:
Elementary of double integrals, change of variable a (simple transformation), change of order of integration
(Cartesian and polar), applications to mass, area, volume and center of gravity (Cartesian & polar form), elementary
triple integrals. (10 periods)
Books:
1. Engg. Mathematics: H.K.Das (S.Chand & Co)
2. Mathematics for engineers: Chandrika prasad, (Prasad Mudranalaya, Allahabad)
3. Higher Engineering Mathematics: B. S. Grewal (Khanna Publishers, N Delhi)
4. Vector analysis: M. R. Spiegel. (McGraw Hill)
5. Textbook of Engineering Mathematics: Deshpande & Ghangrekar (Asmita Publishers, Nagpur)
6. Finite Differences: H. C. Saxena (S.Chand & Co)
7. A textbook of Engineering Mathematics vol. II & I: Prof. D. T. Deshmukh
8. Advanced Engineering Mathematics: H.K.Das (S.Chand & Co)
9. Applied mathematics: Raman murthy
1-3 Applied Physics
Unit 1: The quantum nature of radiation, Photoelectric effect, Compton effect, Wavelike character of particle, Davisson and
Germer's experiment, De Broglie wavelength, Heisenberg's uncertainty principle, Schrodinger's wave equation
(qualitative aspect),
Unit 2: Crystal structure (s.c, b.c.c. & f.c.c.), Atomic packing, coordination numbers, Miller indices, Bragg's law.
Unit 3: Formation of energy bands in solids (energy level approach), classification of solids in conductors, insulators and
semiconductors, Energy band diagram for silicon and germanium semiconductors; Fermi energy, Fermi level in
intrinsic and extrinsic semiconductors Dependence of fermi level on impurity concentration and temperature, p-n
junction, Transistor, Hall effect.
Unit 4: Motion of charged particles in uniform electric and magnetic fields, Thomson's method for determination of e/m of
the electron, electrostatic and magneto static focusing (qualitative idea). Elementary ideas of CR.O. And electron
microscope, Bainbridge mass spectrograph, cyclotron.
Unit 5: Spontaneous and stimulated emission of radiation. Coherence, Laser: Working principle, different types and
applications, Interference in thin films.
Unit 6: Polarization: Double refraction, production and detection of plane, circularly and elliptically polarized light, quarter
and half wave plates, Babinet compensator.
Books:
1. Engineering Physics by M.N.Avadhanulu Kshirsagar
2. Physics for students of science and engineering, part II by David Halliday and Robert Resnick
3. Electronics Engineering Materials and Devices by John Allison (TMH)
4. Modern Physics by Sproull (Jonn Wiley & Co.)
5. Lasers Theory and Application by M.N.Avadhanulu.
Reference Book: 1. Electronics Devices & Circuits by Milman and Halkias.
2. Materials Science by Raghawan.
3. Optics by Brijalal and Subramanium).
4. Optics by Ajay Ghatak. (TMH)
5. Physics I & II by Resnick and Halliday. (Wiley Eastern)
6. Optics by Hecht.
7. Modern Physics by Richtmayer Kennard. (TMH)
8. Modern Engg. Physics by A.S.Vasudeva. (S.Chand & Co.)
Applied Physics: Practical
1. E/m for electron.
2. C.R.O. and its basic capabilities, measurement of amplitude phase and frequency.
3. Characteristic of junction diode and its use as rectifier.
4. Characteristics of transistor.
5. Photocell, work function, Detection and measurement of optical radiation
6. Activation energy of semiconductor.
7. Band gap determination with reverse biased p-n junction.
8. Newton's ring use of thin film interference in micro measurement and surface topography
9. Rydberg constant determination from hydrogen spectrum.
10. e and o of birefringent material prism and the study of plane of polarization of ordinary and
11. Extraordinary ray.
12. Biprism.
13. Hall effect in p-type and n-type semiconductor, Hall probe and magnetic field measurement
14. Diffraction Grating.
Book: 1. Experiments in Engg. Physics by M.N.Avadhanulu, Dani, Pokley.
Scope of Syllabus III 'Physics' For First B. E.
(Wherever necessary)
1. Schrodinger wave Equation:
Derivation not required, Emphasis on physical significance. Application of Schrodinger equation for one dimensional
(infinite) potential well.
2. Crystal structure:
Crystal structure on cubic system (s.c. b.c.c. and f.c.c.) Number of atoms per unit cell, coordination number. Relation
between atomic radius and lattice cell parameters. Packing fraction and density calculation.
3. P.N. Junction:
Formation, characteristics and application as half wave rectifier only.
4. Transistor:
Transistor action. Elementary idea of CB & CE configurations. Transistor as an amplifier.
5. CRO:
Block diagram, Brief description of various blocks. More emphasis on CRT and time base (Circuit details not required).
Application for frequency and phase measurement.
6. Electron Optics:
Electron refraction, Bethe's Law, Lens action of electric and magnetic field, Electron Microscope.
7. Interference:
Interference in thin film by reflection. Uniform thickness and wedge shaped film and Newton's ring. Application of thin film
in reflection and antireflection coating.
8. Lasers:
Concept of three level and four level lasers, Working of Ruby, He-Ne and Semiconductor lasers.
List of Experiments
1. Determination of the resistivity of a semiconductor wafer and a study of its variation with temperature using four probe
method.
2. Determination of the band gap in a semiconductor using a p-n junction diode in reverse bias condition.
3. A study of the characteristics of a thermistor.
4. A study of a single beam cathode ray oscilloscope:
(i) Familiarization
(ii) Verification of calibration of vertical amplifier:
(iii) Determination of dc and ac voltages;
(iv) Verification of calibration of the time base and determination of frequency of ac signals.
5. Determination of e/m of an electron using Thomson's method.
6. Determination of e/m of an electron using helical method.
7. A study of the Hall effect:
(i) Determination of Hall coefficient
(ii) Determination of the majority carriers and.
(iii) Determination of the charge carrier density.
8. A study of dual trace CRO:
(i) Familiarization
(ii) Determination of phase difference by direct method.
(iii) Determination of phase and frequency using Lissajous patterns.
9. A study of the characteristics of germanium and silicon diodes and their comparison.
10. A study of the characteristics and verification the stabilizing action of zener diode.
11. A study of the rectifier and filter characteristics.
12. A study of the input, output and transfer characteristics of a PnP / NPN transistor in common base configuration.
13. A study of the input, output and transfer characteristics of a PnP / NPN transistor in common emitter configuration.
14. A study of the common emitter amplifier characteristics.
15. Determination of the wavelength of sodium light using fresnel's biprism.
16. Determination of the radius of curvature of a Plano-convex lens using Newton's rings.
17. Determination of the principle refractive indices of quartz crystal.
18. Determination of the wavelengths of spectral lines using a plane transmission grating.
Note:
Minimum of Ten experiments are to be performed out of which at least two should be from optics.
List of Experiments for Demonstration:
1. A study of atomic packing and the three cubic unit cells.
2. Determination of the thickness of a thin foil-using wedge.
3. A study of production and analysis of polarized light.
4. A study of solar cell characteristics.
5. A study of interference, diffraction and double refraction by using a laser source.
6. Familiarization with LDR, LED, Photocell and Phototransistors.
1-4 Applied Chemistry (Theory)
Unit 1: Water Treatment: (17 periods)
1. Brief introduction regarding sources, impurities in water.
2. Hardness of water, types, determination of hardness using EDTA method.
3. Brief discussion and chemistry involved in the process of sedimentation, coagulation, filtration and sterilization, UV,
Ozone, chlorination including break point chlorination.
4. Softening of Water:
(i) Lime-soda, process: Principles in hot, cold, lime-soda process.
Problems based On- (a) Lime-soda calculation, (b) Zeolite, (c) Hardness of water by complexometry.
(ii) Zeolite softener, demineralization by synthetic ion exchange resins, Comparison between lime-soda, Zeolite and ion
exchange process.
5. Cooling water characteristics and Langelier index.
7. Boiler Troubles: Carryover priming, foaming, scales, sludges, caustic embrittlement, boiler corrosion-causes and effects
on boiler operation and methods of prevention. External and internal conditioning, i.e. phosphate, carbonate and calgon
conditioning, Requirements of feed water for modern high-pressure boilers.
Unit 2: Corrosion of Metals and Alloys: (10 periods)
Electrochemical corrosion- General revision of concept of electrode potential, galvanic cells, electrochemical and galvanic
series, causes of corrosion, mechanism of direct chemical attack, pilling- Bed worth rule, concentration cells. Differential
aeration theory of corrosion, types of corrosion, pitting corrosion, intergranular stress, waterline and microbial corrosion.
Corrosion prevention: (a) Design and material selection, (b) Anodic and Cathodic inhibitors, (c) Cathodic and Anodic
protection, (d) Protective coatings- types of surface, coatings and its application.
Unit 3: Cement: (10 Periods) Manufacture of Portland
Cement- Raw materials, chemical composition, proportion and roll of microscopic constituents, cement modulus i.e. lime
saturation factor, Silica modulus and alumina factor, dry and wet processes of manufacture. Setting and hardening of cement.
Types of cement i.e. pozzolanic, white, rapid hardening, high alumina, low heat cement, additives i.e. accelerators, retarders
air entrainment and water repellants and their different properties.
Environmental Chemistry and Control of Environmental Pollution: Earth's radiation balance, particles, ions and
radicals in atmosphere-formation and significance, greenhouse effect, consequences of depletion of ozone layer by human
activities, temperature inversion.
Air Pollution: Natural and man made pollutants, (CO, NOx, HC, SOx, SPM) Acid rain, effect of pollutants on humans,
general idea of pollution control techniques, lead free petrol and catalytic converters.
Water Pollution: Classification of pollutants (organic and inorganic); sediments, insecticides, heat and their effects on
humans, methods for waste water treatment-only general idea of preliminary, primary and tertiary treatment techniques,
pollution due to paper, sugar, steel and cement industries.
Unit 4: (15 periods)
Fuels: Introduction, calorific value, higher and lower calorific value, determination of calorific value by Bomb calorimeter
and Boy's calorimeter.
Solid Fuels: Carbonization of coal: Low temperature and high temperature carbonization, manufacture of coke-by Otto-
Hoffman’s by-product recovery process. Ultimate analysis of coal, its significance, storage of coal, spontaneous, combustion,
pulverized coal as fuel
.Liquid Fuels: Use of gasoline and diesel in internal combustion engine, knocking and chemical constitution, octane
number, cetane number, doping agents, Mining & Fractional distillation of crude petroleum (boiling point wise separation
only). Fisher-tropsch process for manufacture of synthetic gasoline. Thermal catalytic cracking of petroleum, Aviation petrol.
Gaseous Fuels: Study of natural gas L.P.G.Non- conventional energy sources: Wind energy, solar, tidal waves energy.
Unit 5: Lubricants & Combustion Calculations: (10 periods)
Introduction, lubrication mechanism, hydrodynamic, boundary and extreme pressure lubrication. Classification of lubricants-
solid, semisolid and liquid lubricants, blended oils, synthetic lubricants, lubricating emulsions. Properties of greases, drop
point and consistency test, properties of liquid lubricants with more stress on flash point, viscosity and viscosity index,
Aniline point, Cloud & Pour point, criteria of selection of lubricants for specific purposes. Significance of flue gas, analysis
by Orsat apparatus, simple combustion calculations.
Unit 6: Polymers And Plastics As Engineering Materials: (8 periods)
Polymer-Definition, classification (on structural aspects only) of polymers, types of polymerization, explanation with
examples of addition and condensation polymerization. Characteristics of polymers, structure and properties of polymers.
Moulding of plastics, thermosetting and thermoplastic resins. Preparation from monomer, properties and industrial
applications of polyethylene, PVC Teflon, polystyrene, Bakelite. Silicones and their industrial applications. Natural rubber-
structure, preparation and properties, compounding of rubber, vulcanization and uses. Synthetic rubber- study of SBR, Nitrile
rubber, Neoprene, Silicone rubber, polyurethanes properties and uses. Fiberglass and composite materials, Fiber and glass
reinforced plastic-properties and uses, optical fibers a brief idea.
Applied Chemistry (Practical)
The chemistry practical syllabus is proposed to contain, 15 experiments of which a minimum ten should be performed. Six
should be performed from Group I and Four from Group-II. In addition to these experiments DEMONSTRATIONS should
be carried out of the following experiments. :
1. Determination of calorific value of a solid fuel using Bomb Calorimeter.
2. Gas analysis using Orsat Apparatus. .
In addition to the above TWO experiments, if time permits, demonstration of any one or more of the following
experiments may be undertaken.
(i) Determination of PH of water sample by PH meter.
(ii) Determination of conductivity or conduct metric titration.
(iii) Determination of Iron by colorimeter.
(iv) Potentiometric titrations.
3. If possible, visit to industries should be arranged.
LIST OF EXPERIMENTS
Any TEN experiments out of following should be performed in academic session. Any SIX experiments from group- I and
any Four from group-II should be performed
Group-I:
1. To estimate the amount of ferrous and ferric ions present in the given solution or from ore.
2. Determination of hardness of water by complex metric method.
3. To estimate the amount of Ni2+ ions in a given solution by complex metric method.
4. Estimation of free chlorine in the water by iodometry.
5. Type and extent of alkalinity by Warder's method.
6. Determination of dissolved oxygen in a water sample
7. Removal of Ca2+ by ion-exchange resin.
8. Determination of C.O.D. in waste Water
9. Determination of Copper by Iodometry.
Group-II:
1. Determination of Viscosity of lubricating oil at different temperatures by Redwood Viscometer No.1 or No.2.
2. Determination of flash point of lubricating oil by two different flash point apparatus close cup or by open cup.
3. Proximate analysis of coal.
4. Determination of Al2O 3 and Fe2O ratio of cement.
5. Soponification number of animal/vegetable oil.
6. Neutralization number of animal/vegetable oil.
7. Determination of molecular weight of a polymer by viscosity measurements.
8. Determination of carbon residue of lubricating oil by Conradson’s Apparatus.
9. Determination of rate of corrosion by weight loss by corrossometer.
Books Recommended:
Theory:
Text Books:
1. A Text Book of Engineering Chemistry by S.S. Dara( S. Chand & Co. New DELHI,).
2. Engineering Chemistry by P.C. Jain and Monika Jain( Dhanpat Rai & Sons, New Delhi, Fifth Edition).
3. Engineering Chemistry (volume I &II) by Rajaram and Kuriacose
4. Environmental Chemistry and Pollution control l- Dara
Practical:
Text Book on Experiments and Calculation in Engineering Chemistry by S.S. Dara,
(S. Chand & Co. New Delhi).
Reference Rooks:
1. Engineering Materials by Jastrzebsiki (Tokyo).
2. Corrosion Engineering by Fontana and Green
3. Chemistry of Engineering Materials by Robert G.Leighou (McGraw Hill, New York).
4. Chemistry of Engineering Materials by Loyd A. Munro (Prentice Hall Inc. N.J.).
5. Chemistry for Engineers by Edward Cartmell by Butterworths, London.
6. Water treatment for industrial and other uses by Eskel Nordell (Reinhold, New York).
7. Applied chemistry for engineers by T.S. Gyngell.
8. Water Treatment by F.I Bilane (Mir Publishers, Moscow).
9. Elements of Fuel Technology by G.W. Himus (Leonard HilI Ltd., London).
10. Chemtech Vols I to IV Editor D. Venkateshwarlu, Chemical Development Center IIT Madras, 1979.
1-5 English
A.1. Composition:
Unit-I: Exercises of free essay writing with particular emphasis on clear self-expression
(Free essay of about 400 words on any topic). 10 marks.
Unit-II: Principles and Practice of letter writing and business correspondence. 07 Marks
Unit-III: 3.Technical report writing. 08 Marks
B.1. Grammar:
Unit-IV:
Correction of common errors
Exercise on rewrite as directed
Correct use of words, idioms, phrases, prepositions etc. 15marks
Unit-V:
C. Principles of public speaking 13 Marks
PRECIS WRITING 07 Marks
Text Book:
Unit-VI:
1. English prose for Pleasure and Profit by R.N. Roy 20 Marks
2. Public speaking and influencing men in business by Dale Carnegie. 13 Marks
3. Professional Communication Skills – Bhatia Sheikh
Syllabus with Patter of Question Paper:
(A) Text for detailed study:
English prose for pleasure and profit by R.N.Roy (S.Chand & Co.)
(B) Public speaking and influencing men in business: Dale Carnegie.
Q.1. One question out of two on the essays (3, 4, 5,8,9) of R. N. Roy’s text to be answered from.
(10 Marks)
Q.2. One question out of two on essays (10, 12, 14, 15, 16) of R. N. Roy’s text from.
(10 Marks)
Q.3. Two out of four questions to be answered from the following chapters from the book of public speaking
(1,2,4,6,7,8,9,11) (13 Marks)
Q.4. Précis writing of passages outside the textbook. (07 Marks)
Q.5. One letter out of two to be written. (07 Marks)
Q.6. Technical Report writing (one out of two). (08 Marks)
Q.7. One Essay out of four to be written in about 300 words. (10 Marks)
Q.8. Grammar:
Active and passive Voice. (02 marks)
Direct and indirect speech (02 marks)
Transformation of sentences. (05 marks)
Use of phrases and idioms. (03 marks)
Correction of sentences. (03 marks)
Books:
1. High School English Grammar and Composition by Wren & Martin S. Chand & Co.
2. English Grammar composition; Pink, Thomas, S.Chand
3. Modern English Grammar Usage and Composition by N. Kishnaswamy. The Macmillan Co. or India Limited.
1-6 Social Sciences
Unit 1: Concept of culture and civilization. Social sciences and its utility, Applied Humanities and Social Engineering.
Unit 2: Development of Human Civilization with specific reference to monumental studies of Engineering skill, Ancient
Indian Civilization, Evolution of Indian Civilization during 19th and 20th Century.
Unit 3: Meaning and scope of Industrial Psychology and Industrial Sociology. Fatigue in industry. Selection and Training of
workers, Motives for work, Legislative measures for workers welfare.
Unit 4: Environment in Industry: Internal and External, Emerging industrial culture in India.
Organizational behavioral dynamics: Leadership in Industry.
Unit 5: Indian Constitution and Federal System. Fundamental Rights and Directive principles, Role of bureaucracy in
modern Society.
Unit 6: Concept of industrial democracy, Works organization: power, authority, and status system, formal and informal
organization, Industrialization and Urbanization: Study of slums.
Books:
1. Shabbir Sheikh – Dwadashiwar: New Look in Social Sciences
2. A History of World Civilization by J.E.Swain, (Eurasta Publishing House)
3. Sociology by Rao, (Kitab Mahal Publications)
Reference books:
1. Vidya Bhushan & Sachdeva: An Introduction to Sociology Kitab Mahal Publication.
2. Yogesh Atal: Social Science: The Indian Scene Abhinav Publication, New Delhi.
3. Rajni Tandon: Applied Humanities, Sterling Publication.
4. J.E.Swain: A History of World Civilization, Eurasia Publication, and New Delhi.
5. J.M.Roberts: The Hutchinson History of the World, B. T. Publication, and Bombay.
6. Waddell: The Makers of Civilization in Race & History, S. Chand & Co. Ltd.
7. Mason, Haire: Industrial Social psychology (In Handbook Psychology -VoI.II)
8. Durga Dass Basu: Introduction to Constitution of India Prentice HalI of India.
9. Pascual Gisbert SJ. : Fundamentals of Industrial Sociology Tata McGraw Hill.
10. Schnieder Egnc: Industrial Sociology.
11. N.R.Sheth: Industrial Sociology in India, Allied Publication, New Delhi.
12. G. Homans: Juman Group.
13. Jacobson, H.B. & Roucak, .J .S.: Automations & Society (Edited).
14. Dylee: India’s Constitution, S.Chand New Delhi.
15. Rao: Sociology S.Chand New Delhi
I-7 Engineering Mechanics
Section-A
Unit 1: 1. Important Vector Quantities: Position-vector, moment of a force about a point about an axis, couples, couple moment as
a free vector. (3 Periods)
2. Equivalent force systems.
Resultant of a 2 dimensional distributed loads and three-dimensional general force System Wrench.
(3 periods)
Unit 2: 3. Equations of Equilibrium:
(i) Free body diagrams, Equations of equilibrium coplanar concurrent and Non-concurrent systems, General spatial force
system; simple machines (Differential axle and wheel, single and double purchases Crab). Velocity, Ratio, Mechanical
advantage, efficiency etc.
Unit 3. (ii) Application of graphic statistics to reactions of simple supported beams and trusses.
(iii) Analysis of simple pin jointed frames by method of joints method of sections and
Graphical methods. (18 periods)
4. Friction forces: Law of Coulomb friction, problems involving dry friction, simple applications like Wedges and band
brakes. (06 periods)
Section-B
Unit 4:
5. Centriods and Moments of Inertia: Second Moment and products of inertia of plane areas, Moment of inertia of masses.
Transfer theorems for moment of inertia and Product of inertia, Polar moment of inertia, Principal axes, Mohrs circle of
inertia. (6 periods)
6. Introduction of Virtual work theorem: Principle of Virtual work applied to equilibrium of Mechanisms, simple beam,
pin-jointed frames. (5 periods)
7. Dynamics of a particle:
Unit 5: Rectilinear motion of a particle with constant and variable acceleration. Rectangular components of curvilinear motion Radial
and tangential components of acceleration, Kinetics of particle and several interconnected particles. Translation of bodies-
force inertia method, D'Alambert’s Principle, work Energy method, (Expressions based on center of mass)
(12 periods)
8. Methods of Momentum:
Unit 6: Linear impulse momentum, considerations for a system of particles, Conservation of Linear momentums, Elastic impact of
two bodies, Direct central impact.
List of Experiments:
(Any 8 out of the following)
1. Reactions at the supports of a simple beam.
2. Study of forces in jib crane and shear leg.
3. Coil Friction.
4. Determination of coefficient of friction by inclined plane.
5. Equilibrium of vertical Mast under general spatial force system.
6. Moment of Inertia of flywheel.
7. Verification of Newton’s second law of motion by Flettchers trolley.
8. Single and Double purchase crab.
9. Differential wheel and axel.
10. Study of gear trains.
11 Graphic statistics - one problem on resultant of coplanar forces/ Beam reactions/ stress diagram for simple truss.
Books:
1. Engineering Mechanics: F. L. Singer
2. Engineering Mechanics: Timoshenko & Young
3. Engineering Mechanics: Bear & Johnstom
4. Engineering Mechanics: I. H. Shames
5. Engineering Mechanics: Askhedkar & Kulkarni
6. Engineering Mechanics: R.S.Khurmi
1-8 Engineering Drawing
Unit 1:
1. Use of various drawing instruments, lettering and I.S.I. Standards for drafting.
2. Plane Geometry:
Construction hand use of various scales, construction of drawing curves such as Parabola, ellipse, hyperbola,
involutes, cycloids, spiral and helix, Loci of points on links of simple mechanisms.
Unit 2:
3.Solid Geometry:
Methods of orthographic projections, projections on auxiliary planes. Projection of Points lines and plane.
Unit 3:
Projections of simple solids, such as cylinders, cones, prisms and Pyramids with varying position of axes and ground
lines.
Unit 4:
Section of solids. Development, of plane and curved surfaces.
Unit 5:
Interpenetration of solids such as cylinders, cones and prisms,
Unit 6 :
Introduction to isometric projections.
4. Blue Print:
Reading of blue prints such as building plan, machines etc.
Practical:
Each Candidate shall submit a set of sketches, drawing sheets based on the
Above syllabus.
Books:
1. Engg. Drawing by N.D Bhatt
2. Engg. Drawing by R.K.Dhawan (S.Chand)
3. Engg. Drawing by Phakatkar (Nirali Prakashan)
4. Fundamentals of Engg. Drawing by Warren Luz.
5. A textbook of Engg. Drawing by Dr.A.R.Bapat
6. First year Engineering Drawing-Parkinson Sinha:(Wheeler)
1 – 9 Electrical – Engineering
Unit 1: Electric circuits:
Circuits Elements (R, L, C), Kirchhof's Laws, Superposition Theorem, Voltage source, (definition, characteristics, of
practical source, equivalent current source) and Star-Delta transformation.
Magnetic Circuits:
Flux, mmf, reluctance, analogous electric circuits, simple calculations for composite magnetic circuits.
Unit 2: A. C. Circuits:
Periodic functions, average & rms values, Steady state behavior with sinusoidal, excitation, phasor representation, reactance
and impedance, series and parallel a.c. circuits, resonance, power in a.c. circuits, power factor, principle of generation of
single phase & Three phase voltages. Power in Balanced three phase AC systems.
Unit 3: Electrical Measurement:
Definitions of indicating, integrating and recording instruments, deflecting controlling and damping mechanisms. Ammeters
and voltmeters of permanent magnet moving coil type and moving iron type, electrodynamometer type Wattmeters,
Induction type single-phase energy meter.
Unit 4: Single Phase Transformers:
Introduction, basic principles, construction, phasor diagram for transformer under no load and transformer on load, Balance
of mmf on two sides, phasor diagram, equivalent Circuit, loses, efficiency, regulation, Open-circuit & short-circuit tests.
Unit 5: Rotating Electrical Machines:
D. C. Machines:
Introduction, construction, EMF & Torque equation, classification, self excitation of D.C. Shunt generators, EMF
voltage, current relations in Generator and motor. Characteristics, starting and speed control of D.C. Motors.
Unit 6: Three-phase induction motor:
Construction, rotating field, synchronous speed, Rotor current, torque and Slip Principle of Single phase Capacitor Start
motor.
Note: The scope of the topics will be as contained in the Reference book.
Books:
1.Elements of Electrical Science by P. Mukhopadhyaya -Nem Chand & Bros. Roorkee - 7 published in 1989.
2.A textbook of electrical technology Vol. I&II by B.L.Theraja (M/s S.Chand & Co., W. Delhi 1959).
3.Electrical Technology: Cotton (wheeler)
Practical Work:
Based on above course.
Textbook for Practical Work:
1. A text Book on Laboratory Course in Electrical Engineering by S.G. Tarnekar & P.K. Kharbanda, M/s. S. Chand &
Co., NEW DELHI 1980.
1 – 10 Workshop Practice
Carpentry:
Identifying some common types of timber and their engineering application, Names and uses of Carpenter’s Tools Various
types of wood working joints and their application. (2 jobs).
Smithy:
Hand Tool:
1. Workshop Technology by H.S.Khurmi
B. E.THIRD SEMESTER
3SEE01 APPLIED MATHEMATICS - III
Unit. 1: Laplace Transforms
Laplace transforms and their simple properties, simple applications for Laplace transforms to solve ordinary
differential equations including simultaneous equations, solution of one-dimensional partial differential
equations by transform method.
Unit. 2: Complex Variables
Use of various tools and equipments in Smithy shops Demonstration of various operations and their applications.
Operation of the smithy hearth and various other hand and power forging equipments. (1 job).
Fitting:
Use of fitting tools, equipment and measurement instruments, Practice in the method of making and use of measuring
instruments, Chipping, filing, drilling, tapping scraping operations. (1 job)
Welding:
Name and uses of gas and electric welding, tools and equipment; gas and electric welding, operation practice. (1 job)
Use and handling of common hand tools.
Books:
Analytic function, Cauchy-Riemann conditions, conjugate functions, singularities, Cauchy's integral theorem and
integral formula (statement only), Taylor's and Laurent's theorem (statement only), Residue theorem, contour
integration.
Unit. 3: Calculus of Variations
Maxima and Minima of functionals, variations and its properties Euler's equation, Functionals dependent on first
and second order derivatives, simple applications.
Unit. 4: Fourier series and signal spectra
Introduction, the Fourier theorem, Evaluation of Fourier coefficients, considerations of symmetry, (odd even,
rotational), exponential form; Fourier series, Fourier integral theorem, Fourier transform and continuous spectra.
Unit. 5: Partial Differential Equation
Partial Differential Equation of first order first-degree i.e. Lagrange’s form, Linear, homogeneous partial differential
equation of nth order with constant coefficient, method of separation of variables. Application to transmission lines.
Unit. 6: Matrices
Inverse of matrix by adjoint method and its use in solving simultaneous equations, rank of a matrix, consistency of
system of equation, inverse of matrix by partitioning method. Linear dependence. Linear and orthogonal
transformations, characteristics equations, eigen values and eigen vectors. Reduction to diagonal form, Cayley -
Hamilton Theorem (without proof) statement and verification, Sylvestor's theorem, Association of matrices with
linear differential equation of second order with constant coefficient. Determination of largest Eigen value and
eigenvector by iteration method.
Books:
1. Advanced Engineering Mathematics, Kreyszing. (John Wiley & Sons)
2. Higher Engineering Mathematics, B.S. Grewal. (Khanna Publishers)
3. Linear Network Theory by Kelkar, Pandit (for unit no. 4).
(Pratibha Publication, Nagpur)
Reference Books:
1. Mathematics for engineers by Chandrika Prasad.
2. Advanced mathematics for engineers by Chandrika Prasad.
3. Applied mathematics for engineers by L. A. Pipes and Harville.
4. A textbook of applied mathematics P.N. and J.N. Wartikar.
3SEE-02 STEAM AND HYDROTURBINES
Unit. 1: a) PROPERTIES & SYSTEM: Introduction, properties of thermodynamic system such as specific volume,
density, temperature, pressure etc. Their units and measurements. Laws of thermodynamics. Flow process and Non-
Flow process.
b) ANALYSIS OF SYSTEM: Conservation of energy and mass and their application to various thermodynamics
systems such as steam plant, I.C. plant, Refrigeration and all Air - conditioning plant.
Unit. 2: IDEAL GASES AND VAPOURS: Difference between gases and vapors, Law of perfect gases, heating and
expansion of gases, Internal energy and specific heats of gases. Universal gas constant work done, changes in
Internal energy, heat absorbed and rejected during various thermodynamic processes, P.V. diagrams.
Unit. 3: PROPERTIES OF STEAM: Critical state sensible heat, Latent heat and total heat of steam, Internal energy of
steam, dryness fraction, steam tables and their use. Entropy concept, entropy change for an ideal gas and steam. T
and H charts, Carnot Rankine and Modified Rankine cycle, regenerative cycle.
Unit. 4: Steam Nozzles and turbines, flow of steam through convergent divergent nozzles.
Unit. 5: General study of steam and hydro Turbines Classification. Method of reducing rotor speed, Governing of turbines
(No rigorous mathematical treatment is contemplated).
Unit. 6: CONDENSERS: Different type of condensers. Their construction and principles of working.
Books:
1. Engineering Thermodynamics by P.K. Nag (TMH).
2. Thermal Engineering by R.S. Khurmi (S.Chand)
3. Elements of Heat Engines by Patel Karamchandani (Vol. I, II, III). (Vadodara Acharya Publishers)
3SEE-03 ELECTRICAL MEASUREMENT & MEASURING INSTRUMENTS
Unit. 1: MEASURING INSTRUMENT: Classification. Analog & Digital instruments, comparison of Analog & Digital
Instruments, Advantages of digital instruments classification of analog instruments. Absolute & secondary
instruments, indicating type instruments. Recording type instruments, Loading effect of instruments. Measurement
of Resistance: classification, measurements by voltage drop method. Measurement of medium resistance: Whetstone
Bridge.
Low resistance: Kelvin's Double Bridge. High resistance: Ohmmeter, Megger & loss of charge method, Earth
resistance: earth tester.
Unit. 2: MEASUREMENT OF INDUCTANCE AND CAPACITANCE: General theory of AC bridges, study of
Maxwell, Hay’s, Owen's, Desauty’s, Wein’s, Schering bridges, detectors for A.C bridges.
Unit. 3: D.C. AND A.C POTENTIOMETERS: Principles and use of D.C. potentiometer for calibration purposes, principle
and application of A.C. potentiometer.
Unit. 4: Ammeters, Voltmeters, Principle of moving coil, moving iron & Dynamometer type instruments, extension of range
using series and shunts, errors due to extension of range, Digital voltmeters: Type of DVM, Ramp type DVM.
Integrating type DVM.
Unit. 5: MEASUREMENT OF POWER, ENERGY: Measurement of active and reactive power in poly phase circuits
using dynamometer type instruments. Measurement of energy in single and poly phase circuits using induction type
instruments. Errors in power and energy measurements Maximum Demand indicator, Trivector meter.
Unit. 6: INSTRUMENT TRANSFORMER: General theory extension of range using C.T & P.T., Errors in instrument
Transformer, Applications of instrument transformers for metering & protection.
SPECIAL INSTRUMENTS: Power factor meter, frequency meter, synchroscope, Rectifier type instrument,
Digital frequency meter basic circuit (Block Diagram), Time base start & stop gate and complete simple circuit.
PRACTICALS BASED ON ABOVE SYLLABUS
Books:
1. A course in Electrical & Electronics measurement and instrumentation by A.K. Sawhney, Dhanpat Rai & Sons,
Delhi
2. Electrical Measurements by Rajendra Prasad, Khanna Publishers, Delhi
3SEE-04 NETWORK ANALYSIS
Unit 1: Nodal and mesh basis equilibrium equations, matrix approach for complicated network containing voltage, current
sources and reactance, source transformations, duality.
Unit 2: Network Theorems: Superposition, Reciprocity, Thevenin’s, Norton’s, maximum power transfer, compensation,
Tellegen's theorem as applied to A.C. circuits.
Unit 3: Trigonometric and exponential Fourier series, discrete spectra and symmetry of waveforms, steady state response of
a Network to non-sinusoidal periodic inputs. Fourier transforms and continuous spectra.
Unit 4: Laplace transform and properties, partial fractions, singularity functions, waveforms synthesis. Analysis of RC, RL
and RLC network with and without initial conditions with Laplace transforms, evaluation of initial condition,
Unit 5: Transient behavior, concept of complex frequency, Driving points and transfer functions, poles, zeros of immittance
function, their properties, and sinusoidal response from pole-zero locations, convolution theorem and integral
solution.
Unit 6: Two port network parameters and inter-connections, study of series and parallel resonance in a.c. three phase
unbalanced circuit and power calculations.
Books:
1. Network Analysis by Van Valkenburg
(Prentice Hall of India Pvt. Ltd., New Delhi, 1974).
2. Linear Network Theory by Kelkar and Pandit
(Pratibha Publications, Nagpur 1995).
3. Circuits and Network by A. Sudhakar and S.P. Shyam Mohan
(Tata McGraw Hill Publishing Co. Ltd. New Delhi 1994)
Reference:
1. Network and system by D. Roychoudhary
(Wiley Eastern Ltd. New Delhi 1988).
2. Network Analysis by G.K. Mithal
(Khanna Publication, Delhi, 1974).
3. Electrical circuits by Del Toro
(Prentice Hall of India Pvt. Ltd., New Delhi).
3SEE-05 ELECTRONIC DEVICES & CIRCUITS
Unit 1: SEMICONDUCTOR DIODES AND POWER SUPPLIES: Intrinsic and extrinsic semiconductors, theory of PN
junction, diode junction, capacitance, zener diodes, vector diodes, Tunnel diodes, Power supplies, Half wave & full
wave Rectifiers. Voltage doublers, filters, ripple factors. Zener and Emitter follower type series regulators.
Unit 2: JUNCTION TRASISTORS: Theory of operation, static, characteristics, break down voltage, current voltage
power limitations. Biasing of BJT different biasing arrangement. Stability factor. Thermal run-away, power
transistors.
Unit 3: BJT ANALYSIS: Small signal analysis of CE, CB, CC amplifier and comparison. High frequency analysis,
calculation of frequency response, gain bandwidth product.
Unit 4: POWER AMPLIFIER: Classification A, B, AB, C classes efficiency, push pull configuration (A, B, AB)
complimentary symmetry, Distortions and cross over distortion.
Unit 5: POSITIVE AND NEGATIVE FEEDBACK AMPLIFIER: Feed back amplifiers, classification. Practical circuits
applications, advantages, Stability, Oscillators, Barkhaysen criterion RC, LC and Crystal Oscillators.
Unit 6: FET AND IT'S ANLYSIS: Field effect transistor and MOSFET, Principle of operation and characteristics, biasing
arrangement, small signal analysis of CG, CS, high frequency analysis.
Practical based on above syllabus.
1. Diode Characteristics.
2. CE amplifier characteristics.
3. FET and MOSFET characteristics.
4. Half wave, full wave rectifier with and without filters.
5. EF type regulator.
6. RC phase shift oscillator.
7. Push pull amplifier.
8. Voltage series feedback amplifier frequency response.
9. Voltage regulator.
10.Zener Regulator.
Books:
1.Millman and Halkias: Integrated Electronics, McGraw Hill.
2.Millman and Halkias: Electronic Devices and Circuits, McGraw Hill.
Reference Books:
1. Schilling and Below: Electronics Circuits Discrete and Integrated, McGraw Hill.
2. Bapat: Theory and problems in ckt. Analysis (McGraw Hill).
3. Carr: Electronics Devices (Tata McGraw Hill).
B.E. FOURTH SEMESTER
4SEE-01 ELECTRICAL ENGINEERING MATHEMATICS
Unit 1: ROOT LOCUS TECHNIQUES: Mathematical modeling of physical systems and its differential equations
(Mechanical systems-basic translational and rotational elements, electrical system –basis, R-L-C series and parallel
circuits), concept of transfer function, transfer function for elementary R-L-C circuits, elementary block diagram of
single input single output, closed loop system and its reduction.
Laplace transform of step, ramp and parabolic signals. Time response of first order and general second order
systems for unit step input. Concept of characteristics equation q (s) =0. c (t) vs. time response.
Root locus concept, construction of root locus (scope limited to up to third order system), time constant and pole
zero form of generalized characteristics equation q (s) = 1 + G (s) H (s)=0, construction rules (derivations may be
excluded). Determination of roots for specified open loop gain, determination of open gain for a specified damping
ratio.
Unit 2: POLAR AND BODE PLOTS: Concept of sinusoidal transfer functions, Polar plots (scope limited to up to third
order system) Bode Plots - basic concepts, general procedure for constructing Bode plots, concept of octave and
decade, determination of gain and phase cross over frequencies and corresponding phase angle and log magnitude.
Determination of transfer function from asymptotic Bode plots.
Unit 3: Z. TRANSFORM: Definition and properties, inversion z-transforms, z-transforms pairs, correlation with Laplace
transform, Laplace transform and z-transformation pairs, z-transfer functions for linear discrete systems, linear
difference equation, inverse z-transform and response of linear discrete systems (power series method, partial
fraction expansion method).
Unit 4: FUZZY SETS AND NEURAL NETWORK: Fuzzy sets and systems, crisp sets, overview of fuzzy logic and
classical logic, fuzzy compliments, fuzzy union, intersection and combination of these fuzzy sets operation trips and
fuzzy relations. Introduction to neural network algorithms, back probation and delta rule, Hebbian learning.
Unit 5: NUMERICAL METHODS FOR ALGEBRIC AND TRANSCENDENTAL: Solution of linear and non-linear
algebraic and transcendental equation, method of false position, Newton -Raphson method, system of linear
equations, Gauss elimination method, Gauss -Seidal method, Crout's method.
Unit 6: NUMERICAL METHOD FOR DIFFERENTIAL EQUATIONS: Numerical solution of ordinary differential
equation by Taylor's series method, Runge Kutta method, modified Euler method, predictor corrector method,
solution, simultaneous differential equations.
Text. Books: -
1. Control systems Engineering, I.J. Nagrath and M. Gopal
(for Units 1,2,3 and 4).
2. Numerical Methods, S.S. Sastri.
3. Fuzzy Engineering, Bari Kosko
4. Neural Network, James A. Freeman and David Skapure.
Reference Books:
1. Fuzzy sets Uncertainty and information, George, J. Klir and Tina A. Folger.
4SEE-02 ELEMENTS OF ELECTROMAGNETICS
Unit 1: VECTOR ANALYSIS :Idea of vector & Scalars, vector Algebra, vector addition, vector subtraction, dot product,
scalar product in Cartesian co-ordinates system, conversion of variable from Cartesian to Cylindrical system and
vice versa. Spherical co-ordinate system, transformation of Cartesian to Spherical and vice versa.
Unit 2: Coulomb's law, Electrical field intensity and electric flux density, field of 'n' point charges, field due to continuous
volume charge distribution, field of line charge, field of sheet of charge, concept of flux density.
Unit 3: Gauss's law, Energy and potential of charge system, Application of Gauss’s law, divergence theorem, Definition of
potential difference and potential, potential of a point charges, potential field of system of charge, potential gradient,
energy density in electrostatic field.
Unit 4: Conductors, Dielectric and Capacitance and Poisson's and Laplace's equations, current and current density, continuity
of current, metallic conductors properties and boundary conditions, nature of dielectric materials capacitance and
capacitances, Capacitance of parallel plate capacitors, capacitance of two wire line, Poisson's and Laplace Equations.
Unit 5: The steady Magnetic field and magnetic forces, Biot- Savarts law, Ampere's Circuital Law, Stoke’s theorem,
Magnetic flux density, scalar and vector Magnetic potentials, force on moving charge, force between differential
elements, nature of Magnetic materiel, Magnetization and permeability, Magnetic circuits, potential energy and
forces on magnetic materials, Inductance and mutual inductance.
Unit 6: Maxwell's equations & boundary conditions. Elementary idea of Electromagnetic waves, uniform plane wave.
Books:
1. Hayt. W.H.: Engineering Electromagnetic. 3rd Edition McGraw Hill.
4SEE-03 DIGITAL CIRCUITS
Unit 1: Analog Vs Digital System, transistor as a switch, Boolean algebra, Boolean identities logic problems, Binary, Gray,
Octal, Hex and ASCII codes, gates and their truth tables, D' Morgan's law, Sum of product and product of Sums.
Unit 2: Combinational basic concepts, SSI, MSI and VLSI circuit classification, standard TTL, CMOS characteristics,
Decoders, Encoders, Multiplexers, Demultiplexers, code converters, characteristics of display devices, standard
configuration of gates as SSI/MSI/LSI circuits. Arithmetic Circuits -Adders, subtractors (half and full), BCD adder /
subtractor, concept of ALU.
Unit 3: Karnaugh Map, simplification of sum of product and products of sum, solution to problems using MUX as a function
generator, simplification of logical functions using Quine-Mclausky method.
Unit 4: Introduction to flip-flop, latches, concept of clock, Memory organization with flip-flop as basic cell, RAM, ROM,
EPROM and EEPROM and overview, Master slave combination and conversion of one type to another type of flip-
flops. Multivibrators and their design parameters.
Unit 5: Excitation table and introduction to sequential circuits, counters synchronous / Asynchronous, Different module
counters with rest/ clear facility, Design of counters of arbitrary module with K-maps. Lock free counters.
Unit 6: Introduction to sequential system, Design of sequential system using Moore and Miley model, fundamental mode
sequential circuits.
Books:
1. Digital Integrated Electronics- By Herbert Taub (McGraw Hill).
2. Digital logic Design - By R.P. Jain (P.H.I)
3. Introduction to digital system - By Palmer (M.T.G).
4SEE-04 ELECTRICAL MACHINE - I
Unit 1: 3- PHASE TRANSFORMER: - Transformer operation and principle & open circuit & short circuit test on three
phase transformer, determination of equivalent circuit parameters, Regulation, Efficiency, Magnetizing current and
harmonics, polarity test, various connections with vector groups.
Unit 2: Three phase to two-phase conversion, parallel operation of three phase transformer, method of cooling, temperature
rise test, maintenance of transformer, insulation of transformer.
Unit 3: D.C. MACHINES: - Basic principle & operation. Armature reaction & commutation, Compensating winding,
interpoles. Type of excitation. Characteristics of shunt, series & compound motor and generator, speed control of
D.C. Shunt & series motor, constant horsepower & constant torque drives of D.C. Motor.
Unit 4: THREE PHASE INDUCTION MOTOR: - Types of induction motor and production of torque. Torque-slip
characteristics, No load and blocked rotor test, equivalent circuit & determination of equivalent circuits parameters.
Circle diagram, losses, efficiency, double cage motor, operating characteristics & influence of machine parameter on
the performance of motor.
Unit 5: Starting of 3 phase I.M., speed control of I.M. by pole changing, frequency control, rotor resistance by varying
supply voltage, braking, regenerative braking, dynamic braking, crawling & cogging.
Unit 6: SINGLE-PHASE Induction Motor: - Double field revolving and cross field theory, split phase motor, shaded pole
motor, equivalent circuit, Torque- slip characteristics.
BOOKS RECOMMENDED: -
1. Electrical Machines by P.K. Mukherjee & S. Chakraborty,
Dhanpat Rai & Sons.
2. Electrical Machines by Dr. P.S. Bimbhra, Khanna Publishers
3. Electrical Machines by I.J. Nagrath & Dr. D.P. Kothari,
Tata McGraw Hill.
4. Performance & Design of A.C. M/C. by M.G. Say,
CBS Publishers & Distributors
Eight to Ten Practical based on the above syllabus.
4SEE-05 COMPUTER PROGRAMMING
Unit 1: Introduction to computers and operating systems. Working with DOS, WINDOWS, and Networking.
Unit 2: Structure of 'C' program, Data types, Storage class, variables, expression and operators.
Unit 3: Program control statements, Concept of Function and Recursion, I/O through Printf, scanf, File I/O Open, Close,
Read and Write.
Unit 4: Arrays, Searching (Linear & Binary). Sorting (Bubble, Selection Sort). File Handling.
Unit 5: Pointers and structures, Singly linked list Insertion, deletion, and updating.
Unit 6: Introduction to 'C++' concepts.
BOOKS: -
1. A Text books on Programming languages C & C++ by Kakade & Deshpande. (S.Chand Publishers)
2. Pascal & C Programming by Venugopal. (TMG)
3. C programming languages by B.W. Kernighan and D.M. Ritchie.
(Pearson Education Asia)
4. Let us C by Y. Kanetkar. (BPB Publication)
5. Computer Programming in C by BalaguruSwami.(TMG)
B.E. FIFTH SEMESTER
5SEE-01 ELECTRICAL POWER SYSTEM-I
UNIT- 1: Structure of electrical power system, brief exposure of generation, transmission and distribution aspects, elementary
consideration of economic bulk power supply system, use of high voltage general system consideration, idea about
substation, concept of real, reactive and complex power, load and their characteristics, voltage and frequency
dependence of loads.
UNIT- 2: Representation of power system elements, models and parameters of generator, transformer and transmission lines,
per unit system presentation.
UNIT-3: Elementary distribution scheme: Feeders and distributors, LT and HT cables.
UNIT-4: Voltage regulation and efficiency of power transmission lines using simple series equivalent representation, T-
representation and by circle diagram using generalized constant.
UNIT-5: Interconnection of system elements to form two bus system, illustration of active and reactive power transmission.
Introduction to load flow studies in multibus system (Methods of solution not expected). Introduction of frequency
and voltage as system state indicators.
UNIT-6: Elementary concepts of real and reactive power control. Steady state performance of turbine governors, load sharing
between generators, preliminary concepts of automatic voltage regulators for turbo generators, Insulation of
overhead lines, string efficiency, types of insulators.
Books:
1. Modern Power System Analysis by I.J. Nagrath & Dr. D.P.Kothari (McGraw Hill).
2. Electric Energy System Theory an introduction by Elgerd
(McGraw Hill).
3. Elements of Power System Analysis by Stevenson. (McGraw Hill)
4. Westinghouse transmission and distribution handbooks.
5. Power System Analysis by Wadhwa C.L. (New Age International)
5SEE-02 INSTRUMENTATION
UNIT-1: GENERALIZED INSTRUMENTATION SYSTEMS: - Active and passive transducers, Digital and analog mode
of operation. Static and dynamic characteristics and performance of instruments. Statistical treatment of
measurement errors. Gaussian distribution, probability tables, combination of errors.
UNIT-2: MOTION MEASUREMENT:- Relative and absolute motion measurement, measurement of velocity and
acceleration. Electrical transducer for motion measurement, LVDT, piezoelectric transducers variable inductance
transducer, measurement of shaft torque and power.
UNIT-3: TEMPERATURE MEASUREMENT: - Laws of thermo - electric circuits. Thermocouples cold junction
compensation, thermistors, radiation thermometry. Broad band narrow band radiation methods. Two color
pyrometers optical pyrometers, temperature compensation of temperature sensors, heat flux sensors.
UNIT-4: MISCELLANEOUS MEASUREMENTS: - Brief treatment of principles used in the measurement of liquid level,
flow pressure and pH. Cathode ray oscilloscopes. Introduction to data acquisition systems.
UNIT- 5: METHODS OF ANALOG TO DIGITAL CONVERSION: - Error in A to D conversion, application in digital
voltmeter, electronic frequency, time period measurement.
UNIT-6: INTEGRATED CIRCUITS IN INSTRUMENTATION: - Operational amplifiers (741) comparators (339),
Timers (555), Function generators (2206), constant current source using ICD. Elementary idea of Microprocessor
based instrumentation.
Books:
1. Measurement systems, application and design by E.O. Doeblin (MGH).
2. Electronic Instrumentation and measurement Technique by W.D. Cooper. (Prentice Hall).
3. Instrumentation for Engineering Measurements by Dalley, Railey, Mc Connel (John Wiley and Sons).
4. Electrical and Electronic Measurement and Instrumentation by A.K.Sawhney. (Dhanpat Rai & Sons).
5. Instrumentation Devices and System by Rangan (Tata McGraw Hill).
5SEE-03 ELECTRICAL MACHINES DESIGN
Unit 1: REVIEW OF MATERIAL USED IN CONSTRUCTION OF ELECTRICAL MACHINES: - Classification of
insulating materials depending upon permissible temperature rise, properties of transformer oil. Standard
specification, C.M.R. and short time of machines. Heating and cooling characteristics.
Unit 2: TRANSFORMER DESIGN: - Specific loading, equation for voltage per turn for power and distribution
transformer output equation.
Unit 3: Principal of electric and magnetic circuit design method of cooling and cooling circuit design. Estimation of
performance characteristics from the design data.
Unit 4: INDUCTION MOTOR: - Main dimensions, output equation, loading constant estimation of axial lengths, air gap
diameter, winding design.
Unit 5: Air gap length, slot combination for stator and rotor of I.M. cage rotor and wound rotor design. Calculation of no
load current and other performance on characteristics for design data.
Unit 6: SYNCHRONOUS MACHINE: Air gap length, methods of obtaining sinusoidal O/P voltage, field coil design for
salient pole machine and for turbo generator rotor, ventilation of synchronous generator, cooling air circuits, closed
ventilation / quantity of cooling medium hydrogen and water as cooling media.
Books:
1. Performance and Design of A.C. Machines by M.G. Say
(CBS Publications)
2. Electrical machine Design by A.K. Sawhney
(Dhanpatrai & Sons, Delhi).
3. Electrical Machine Design by Balbir Singh
(Brite students Publication, Pune).
4. Power Transformer by S.B. Vasntinsky
(P.S.G. College of Technology Coimbtore-4).
5. Electrical Machine Design by M.V. Deshpande (TMH).
5SEE-04 MICROPROCESSOR AND INTERFACING
UNIT-1: VLSI circuit concept. Approach to integrated system design using Microprocessors. Bus concepts. Address, Address
Data and control. Organization of computer with MPU, Bits/ Bytes / Words/ Long words - their ranges accuracy and
precision. Memory organization. Linear / Absolute decoding.
UNIT-2: Introduction to Intel's 8085A Architecture description software instructions. Addressing mode advantages. Timing
diagrams assess. Assemblers and Dissemblers (By Hand Coding).
UNIT-3: Flag structure concept of PSW stacks and subroutines simple and Nested PUSH, POP instruction and
CALL/RETURN instruction. Stack manipulations, simple programs.
UNIT-4: Interrupts - Concept and structure in 8085. Interrupt services routines. Advanced instructions and programming of
8085A.
UNIT-5: Method of data transfer - serial, parallel, synchronous, asynchronous, IN/OUT instructions. Timing diagrams simple
hardware interface to 8085 of standard Latches/Buffers/Keys/display devices as I/O ports. Handshaking concept.
Architecture and interface of 8255 and 8253 to 8085.
UNIT-6: Hardware considerations - bus contention. Slow memory interfacing complete signal description of 8085.
Multiplexed Key board/Display interface and assembler directives. General awareness about micro computer system
related products.
Books:
1. Programming and interfacing 8085A by Gaonkar. (Wieley Eastern)
2. Programming of 8085 by D.V. Hall. (McGraw Hill)
3. Intel Microprocessors by Goody. (Tata McGraw Hill)
4. Microprocessor principles and Applications by Pal. (Tata McGraw Hill)
5. Microprocessors principles and Applications by Gilmore. (Tata McGraw Hill).
5SEE-05 ELECTRICAL MACHINES –II
UNIT-1: THREE PHASE SYNCHRONOUS GENERATORS: Introduction, constructional features of cylindrical and
salient pole rotor machines, introduction to armature winding and field windings, MMF of armature and field
windings, induced EMF.
UNIT-2: STEADY STATE OPERATION OF THREE PHASE SYNCHRONOUS GENERATORS: Phasor diagram,
regulation, steady state performance of three phase synchronous generator.
UNIT-3: SYNCHRONIZING OF GENERATOR WITH ANOTHER GENERATOR: Parallel operation, experimental
determination of parameters, short circuit ratio, losses and efficiency.
UNIT-4: SYNCHRONOUS MACHINES ON INFINITE BUS: Phasor diagram, expression for torque, load / torque angle,
synchronous motor operation, effects of variable excitation and power input on generator operation and effect of
variable excitation and load on motor operation.
UNIT-5: TRANSIENT BEHAVIOR: Sudden 3 - phase short circuit. Transient and sub- transient reactances and their
measurement. Time constant and equivalent circuit diagram, damper windings.
UNIT-6: INTRODUCTION TO SPECIAL MACHINES: Repulsion motors, AC series motors, universal motors,
reluctance motor, hysteresis motor, schrage motor, power selsyn, position selsyn (only elementary aspects of the
above types are expected).
BOOKS:
1. Electrical Machines by Dr. P.K. Mukherjee and S. Chakravarti,
Dhanpat Rai & Sons.
2. Electrical Machinery by A.E.Fitzgerald and Kingsley Charles and Kusco, McGraw Hill.
3. Electrical Machines by I.J.Nagrath and Dr.D.P.Kothari, TATA McGraw Hill
4. Electrical Machinery by P.S. Bhimbra, Khanna Publishers.
5. Generalized theory of Electrical Machines by Dr. P.S.Bimbhra,
Khanna Publishers.
B.E. SIXTH SEMESTER
6SEE-01 POWER STATION PRACTICE
UNIT-1: SOURCES OF ELECTRICAL ENERGY: - Coal, oil, natural gas, water power, nuclear fission and fusion. Their
scope and potentialities for energy conversion. Generation different factors connected with a generating station,
connected load, maximum demand, demand factor, load factor, diversity factor, plant capacity and utilization factor, load
curve, load duration curve, load survey, base load and peak load station, advantages of interconnection.
UNIT-2: THERMAL STATIONS: - Choice of site, location, size and number of units, general layout, major equipment,
essential and non-essential auxiliaries, electric supply to auxiliaries, cost of generation, effect of different factors on
costs.
UNIT- 3: HYDRO STATION: - Hydrology, stream flow, flow duration curve, power duration curve, mass curve, reservoir
capacity, type of hydropower plants and their field of use, pumped storages plants and their utility, surge tanks,
governing characteristics of turbine and hydro generators.
UNIT-4: NUCLEAR STATION: - Principle of Nuclear energy, materials, types of nuclear reactors, breeder reactors, location,
material for moderator and control rods, cost economics
UNIT-5: VOLTAGE CONTROL OF A.C. GENERATOR: - Exciter instability, methods of stabilizing exciter voltage,
Automatic voltage regulator action. Tariff – different consideration of flat rate and two part, economical choices
UNIT-6: NON-CONVENTIONAL TECHNIQUES OF ENERGY PRODUCTION: -
i) SOLAR ENERGY: - Introduction, Physical principles of conversion of solar radiation into heat, Solar energy
collectors, solar energy storage, electrical power generation and other miscellaneous applications of solar energy.
ii) WIND ENERGY: - Introduction, Basic principles of wind energy conversion, wind Delta, energy estimation, site
selection. Basic component of wind energy conversion system, wind turbines and their analysis, wind Electrical
generation, stand-alone and grid connected wind electrical power systems, various application of wind energy.
iii) ENERGY FROM TIDES AND OCEANIC WAVES - Introduction, Basic principle of Tidal power site selection
storage and plant layout for Tidal power plant, Introduction to wave energy and its Energy plants, Wave energy based
power plants layout, Analysis of Tidal and wave energy plants.
Books: -
1. Electric power stations by Car.
2.Electric power system control by H.P. Young.
3. Generating Stations by Lowels.
4. Elements of Power Station design by M.V. Deshpande
(3rd Edition, New Delhi ,Wheeler Publication Co. Ltd. 1997).
5. Energy Conversion and power generation by L.D. Agrawal and J.K. Mittal.
6. Non-conventional energy sources by G.D. Rai
(2nd Edition, Delhi, Khanna Publication 1992)
7. Generation of Electrical Energy by B.R.Gupta
(3rd Edition, New Delhi , EURASIA Publication House).
6SEE-02 ENGINEERING ECONOMICS AND INDUSTRIAL MANEGMENT
UNIT-1: Demand utility and indifference curves, approaches to analysis of demand, elasticity of demand, measures of
demand elasticity, factors of production, advertising elasticity, marginalization.
UNIT-2: Laws of returns and costs, price and output determination under perfect competition, monopoly, monopolistic
competition, oligopoly, depreciation and methods for its determination.
UNIT-3: Function of Central and commercial banks, inflation, deflation, stagflation, direct and indirect taxes, monetary and
fiscal cycles measures to control inflation, New Economic Policy, Liberalization, Globalization, Privatization,
Market friendly state. Fiscal policy of the government, meaning and phases of business.
UNIT-4: Definition, nature and scope of management, functions of management – planning, organizing, directing,
controlling, and communicating.
UNIT-5: Meaning of marketing managements, concepts of marketing, marketing mix, administrative and cost plus pricing,
channels spoof distribution, advertising and sales promotion.
UNIT-6: Meaning, nature and scope of financial management, brief outline of profit and loss account, balance sheet, budgets
and their importance, ratio analysis, principles of costing.
Text / reference books: -
1. Modern Economics by H.L. Ahuja.
2. Modern Economic Theory by K.K. Dewett.(Shyamlal Charitable Trust)
3. Monetary Economics, by M.L. Seth.(S Chand & Co)
4. Industrial Management by I.K. Chopde, A.M. Sheikh.(S Chand & Co)
5. Business Organization and Management by S.A. Sherlekar.
6. Managerial Economics by Joel Dean.
7. Managerial Economics by Pylee.
8. Economics by Samuelson.
6S-EE-03 ELECTRICAL DRIVES AND THEIR CONTROL
UNIT-1; Definition classification and speed torque characteristics of common drive motors and then characteristics under
starting, running, braking and speed control.
UNIT-2: SELECTION OF MOTOR: Power capacity for continuous and intermittent periodic duties flywheel effect.
UNIT-3: PLC, its Programming and its application in electrical drives.
UNIT-4: AC AND DC CONTRACTORS AND RELAYS: Lock out contactors, magnetic structure, operation arc
Interruption, contactor rating, H.V. contactors, control circuits for automatic starting and braking of DC motor. And
three phase induction motor. Control panel design for MCC.
UNIT-5: TRACTION MOTORS MOTOR USED IN AC/DC TRACTION: - Their performance and desirable
characteristics, requirements and suitability of motor for traction duty. Traction motor control – control of DC
traction motor. Series parallel control with numerical starting and braking of traction motor.
UNIT-6: Brief idea about drives commonly used in industries. Digital control of electric motor, Block diagram arrangement,
comparison with other methods of control.
BOOKS:-
1. Magnetic Control of Industrial motors by Heumann.
2. A course in Electrical Power by Soni, Gupta and Bhatangar.
3. Modern Electrical Traction by H. Pratap.
4. Art and Science of Utilization of Electrical Energy by H. Pratap.
6S-EE-04 LINEAR ELECTRONICS CIRCUIT
UNIT-1: Basic operational amplifier circuits: Differential amplifier stages, current sources, biasing, level shifting
techniques, common mode and difference mode gains and impedance of a differential stage.
UNIT-2: Overload protection circuits, Frequency response and compensation, characteristics of ideal non-ideal operational
amplifier Error measurement of various parameters.
UNIT-3: Simple Linear Circuits: Inverting, non-inverting, buffer amplifier, summer, integrator, differentiator, log, antilog,
Multiplier, divider circuits. Differential amplifier configuration, bridge amplifier, instrumentation amplifier,
grounding and shielding problem in instrumentation amplifier.
UNIT-4: Precision rectifiers, RMS to DC conversion, constant current and voltage sources sinusoidal oscillator with
frequency and amplitude stabilization Elementary idea of active filter with Butter worth 2nd order filter design
procedure.
UNIT-5: Application of operational amplifier for clipping, clamping comparator circuits with nonlinear components.
Multiplexes, Astable, nonstable, bistable multivibrator circuit using O.A. sample/ Hold circuits, D/A and A/D
conversion circuits. Phased locked loops.
UNIT-6: Study of Linear ICS like LM741, LM555, LM556, LM565, LM339 and LM 723.
Books: -
1. Linear integrated Circuits Manual I, II, II, National Semiconductor.
2. Linear Application Handbook National Semiconductor.
3. Daily: Operational Amplifier (Tata McGraw Hill).
4. Wait: Introduction to Operational Amplifier (TMH).
5. France: Designing with OP Amps.
PRACTICALS BASED ON ABOVE SYLLABUS
6S-EE-05 CONTROL SYSTEM – I
UNIT-1: Introduction to need for automation and automatic control. Use of feedback, broad spectrum of system application.
Mathematical modeling (Electrical & Electromechanical), differential equations, Transfer functions, block diagram,
signal flow graph, application to elementary system simplifications. Effect of feedback on parameter variations,
disturbance signal, servomechanism and regulator. Control system components, electrical, electromechanical, their
functional analysis and input output representation.
UNIT-2: Time response of system, first order and second order system, standard inputs, concept of gain and time constant.
Steady state error, type of control system, and approximate methods for higher order system.
UNIT-3: Stability of control systems, condition of stability, characteristics equation, Routh Hurwitz criterion, special cases
for determining relative stability.
UNIT-4: Root location and its effect on time response, elementary idea of root locus, effect of addition of pole and zero on
proximity of imaginary axis.
UNIT-5: Frequency response method of analyzing linear system, Nyquist and Bode plot, stability and accuracy analysis from
frequency response, open loop and close loop frequency response, Nyquist criterion, effect of variation of gain and
addition of pole and zero on response plot, stability margin in frequency response.
UNIT-6: State variable methods of analysis, characteristics of system state, choice of state variables, representation of vector
matrix differential equation, standard form, and relation between transfer function and state variables.
BOOKS: -
1. Automatic Control Systems by B.C. Kuo (P.H.).
2. Control Systems Engineering by I.J.Nagrath/ M.Gopal.
(New Age International Pvt. Ltd.)
3. Linear System Design by John J. D’Azzo and Constantine H.Houpis (McGraw Hill)
Reference book:
1. Control Systems, Principles & Design by M. Gopal. (Tata McGraw Hill)
Practical:
Based on above syllabus. At least two practicals should be set using related software.
6S-EE-06 COMPUTER AIDED ELECTRICAL ENGG. DRAWING (PRACTICALS)
Objective: -
Drawings are the powerful tools used by Engineers to represent the concepts on paper. Conventional drawing
methods are time consuming & difficult to edit.
With the availability of powerful packages for drawing and analysis of Electrical Systems, need is being felt to
introduce this practical to converse the Electrical Engineering students with the latest trends in drawing, designing &
analysis.
Efforts should made to make this as practically oriented as possible so that the students are not only able to prepare
the drawing, but also have fair insight into the different aspects of the components of the electrical systems.
The packages suggested are only as guidelines. Similar other packages may also be used to achieve objectives &
scope.
SCOPE:
1. Line diagram single phase, three phases of a factory layout and a substation.
Circuit analysis (Voltage, Current Power etc.) for generation transmission and distribution systems.
(MATLAB – Simulink pack – power system block set)
Drawing and layouts of DP structure and its components, insulators and bushing, substation assemblies, indoor / outdoor,
plinth / pole mounted transformers / switchgears, cable layouts, transmission towers and transmission systems, winding
diagram for motors
(AUTOCAD or any 2-D CAD software / PS CAD / ETAP)
General arrangement diagram of power and motor control centers, schematic / single line diagram of electrical / electronics /
illumination layout in industry / office / house, electronic circuits layouts, flow charts
(Visio Technical)
SEVENTH SEM B.E. ELECTRICAL
7S-EE-0l CONTROL SYSTEMS -II
UNIT – 1 COMPENSATION: Review of performance Analysis of type 0, type 1 & type 2 systems. Need for compensation.
Performance Analysis of Compensators in time & frequency domain, Bode Plots. Design of Compensators is not
required.
UNIT-2 DESIGN BY STATE VARIABLE FEEDBACK: Review of state variable representations. Solution of state
equation. Controllability & Observability. Design by State Variable Feedback.
UNIT-3 OPTIMAL CONTROL SYSTEM: Performance Index. Desirability of single P.I., Integral square error, parameter
optimization with & without constraints. Optimal control problem with T.F. approach for continuous time system
only.
UNIT–4 NON LINEAR CONTROL SYSTEMS: Types of non - linearities. Characteristics of NLCS. Inherent &
intentional non- linearities. Describing function method for Analysis. Describing function of some common non-
linearities. Stability analysis. Limit cycles & stability of limit cycles.
UNIT-5 PHASE PLANE METHOD: Singular points. Stability from nature of singular points. Construction of trajectory by
Isoclines & Delta method, Computation of time.
UNIT-6 SAMPLED DATA CONTROL SYSTEMS: Representation SDCS, Sample & Hold circuit. Z-Transform. Inverse
Z- Transform & solution of difference equations. 'Z' & 'S' domain relationship. Stability by Bi-linear transformation
& Jury's test. Discritization of continuous time state equation. Solution of Discrete time state equations.
Controllability &. Observability of Discrete time systems.
BOOKS :
1. Control System Analysis by Nagrath & Gopal (New Age International Pvt. Ltd.)
2. Linear System Analysis by D' Azzo & Houpis (McGraw Hill)
3. Modem Control Engineering by Ogata. (Prentice Hall)
4. Modem Control Theory by M Gopal. (Wiley Eastern)
7S- EE-02 ELECTRICAL POWER- II
UNIT 1: SYMMETRICAL COMPONENT TRANSFORMATION: Three phase power in unbalanced circuit in terms of
symmetrical component. Sequence impedances of Generator. Transformer Transmission line & Passive loads. Phase
shift in star I delta three-phase transformer (Y d1, Y d11 connection.).
UNIT 2: SYMMETRICAL FAULT ANALYSIS: Without & \with prefault load current. Selection of Circuit Breakers ratings,
current limiting reactors.
UNIT 3: UNSYMMETRICAL FAULT ANALYSIS: L-G, L-L-G, L-L, open conductors faults analysis using symmetrical
components.
UNIT 4: STABILITY OF POWER SYSTEM- Steady state, Dynamic and Transient stability definition. Dynamics of
synchronous machine, swing equation, swing equation for machines swinging coherently and Non- Coherently.’
Power angle equation. Steady state stability studies.
TRANSIENT STABILITY STUDIES: -
Swing curve. Equal Area criterion for transient stability. Application of equal area criterion for different disturbances.
Solution of swing equation by point-by-point method. Methods of improving transient stability. .
UNIT 5: ECONOMIC OPERATION OF POWER SYSTEM: Introduction, Distribution of load between units within the plant
Optimum generation scheduling considering transmission losses. Representation of transmission loss using loss
formula coefficient. Derivation of loss formula co-efficient, simulation of co-ordination equation on digital computer.
UNIT 6: i) GROUNDING OF NEUTRAL in power system.
ii) SHUNT & SERIES COMPENSATION-Generalized equation, shunt reactor compensation of very long line with
intermediate switching station, series capacitor compensation at line center, shunt reactors at both ends and series
capacitor in middle of line. Elementary idea of sub synchronous resonance problem and counter measures.
Books:
1. Elements of Power System Analysis by Stevenson (MGH)
2. Modem power System analysis by I.J. Nagrath & D.P.Kothari (MGH)
3.ElectricalPower System Analysis by Wadhwa C.L. (New Age International)
4. Extra High Voltage AC. Transmission Engineering by R D. Begamudre.
Note: - Unit 6 (ii) - Scope will be limited to the treatment given in recommended Book (4).
7S-EE-O3 (1) ELECTIVE-I NON-CONVENTIONAL ENERGY SOURCES
UNIT-1 SOLAR RADIATION & IT" MEASUREMENT: Solar Constant, Solar radiation at earth's surface, solar radiation
geometry, solar radiation measurement estimation of average solar radiation, solar radiation on tilted surfaces.
UNIT-2 SOLAR ENERGY COLLECTORS: Physical Principles of the conversion of solar radiation into heat, flat plate
collectors, transitivity of cover systems, energy balance equation and collector efficiency concentrating collectors,
comparison concentrating and flat plate collectors, selective absorber coatings.
SOLAR ENERGY STORAGE: Solar Energy Storage system (Thermal, E1ectrial, Chemical, Mechanical), Solar
ponds.
UNIT-3 APPLICATION OF SOLAR ENERGY: Solar water heating, space heating, space cooling, solar thermal heat
conversion, photovoltaic solar energy conversion, solar pumping, solar cooking,
UNIT-4 WIND ENERGY: Basic principles of wind energy conversion, wind energy conversion, wind data & energy
estimation, site selection consideration, basic components of wind energy conversion system (WECS), classification of
WEC systems, generating system energy storage, application of wind energy.
UNIT-5 ENERGY from OCEANS: Ocean thermal electric conversation (OTEC), Claud & Anderson cycles, evaporators,
Bio-fouling, Hybrid cycle
ENERGY FROM TIDES: Introduction basic principles of Tidal power, components of Tidal Power Plants, operation
methods of utilization of Tidal Energy; Estimation of Energy & Power in simple single basin Tidal system,
Advantages & limitations of Tidal Power Generations, energy & power from wares, wave energy conversions devices,
small scale hydro electric power generation.
UNIT-6 OTHER NON-CONVENTIONAI, ENERG Y SOURCE. (Brief Introduction to operating principles only): Energy
from Bio –Mass, Geothermal Energy, MHD power generation.
TEXT BOOK:
1. Non Conventional Energy Sources G.D. Rai, Khanna publishers.
7S- EE-03(2) Elective-I I.T. & ITS APPLICATIONS IN POWER SYSTEM CONTROL
UNIT-1 Real-time issues on signal transmission and control, Communication systems for industrial automation, Data
acquisition and Supervisory control, Control of discrete manufacturing processes. Intelligent systems for Monitoring,
supervision and control, Case studies of industrial control systems.
UNIT-2 Energy Auditing-Introduction, importance of Energy Audit basic terms of energy audit, Procedure for carrying energy
audit, instruments used for energy audit such as power analyzer multipoint heat flow meter, lux meter portable infrared
radiation thermometer, thermocouple based temperature indicator. Energy Conservation & Management, Need &
importance of Energy Conservation & Management, payback period, return on investment (ROI),life cycle costs
,specific energy consumption. Calculation of Energy costs of specified products & simple systems. Analysis of
selected energy intensive units like iron-steel, cement, petroleum refining etc.
UNIT-3 Principles of multi-objective Energy management with emphasis on conservation, User-friendly software development
on Windows 9x. UNIX Platforms for Energy Conservation &. Management Studies.
UNIT-4 Serial data communication using RS232 and RS485 based system, distributed measurement system. IEEE488 protocol.
UNIT-5 Local area networks - Common topologies. Medium access control-round-robin, reservation and contention based
strategies. ALOHA protocol and its variants. CSMA and CSMA/CD protocols. Token-ring protocol. IEEE 802
standards for local area networks High. Speed LANs - Fast and Gigabit Ethernet. FDDl Wireless LANs. Internet
Working Repeaters, bridge routers and gateway. TCP protocol swite computing. Name Service. Application
protocols over TCP/IP. Network-Security.
UNIT-6 Design of microprocessor based Instrumentation systems, design. Interfacing circuits and data acquisition systems.
Books :
1. Microprocessor & Interfacing by D.V Hall.
2. LANE by Keiser, Mc. Graw Hill
3. Energy management by William T. Synder & Fredric W. Symonds, vol II
4. Energy management Handbook by W. C. Turker
7S-EE-O3 (3) ELECTIVE-l FUZZY LOGIC & NEURAL NETWORK
UNIT –1: INTRODUCTION:
1. Fuzzy sets, Approximate reasoning, Representing set of rules.
2. Fuzzy knowledge based.(FKBC)parameters. Introduction rule and data base inference engine, choice of
fuzzification and & defuzzification procedure
UNIT -2: NONLINEAR FUZZY CONTROL
Introduction, Control problem, FKBC as nonlinear transfer element, types of FKBC.
UNIT - 3: ADAPTIVE FUZZY CONTROL
Introduction, design, and performance evaluation, main approach to design.
UNIT-4: I. Fundamental concept of ANN.
2. Model of Artificial Neural Network (ANN), Learning & adaptation learning rules.
FEED FORWARD NETWORK:
Classification Model, feature & decision regions, minimum distance, Classification, perceptron, delta learning rules
for multiperceptron layer, Generalized leaming rules, back propagation Algorithm, back propagation training
leaming factors.
UNIT - 5: RECURRENT NETWORKS
Mathematical foundation of discrete time gradient type hope field networks, transient response & relaxation
modeling.
UNIT-6: ASSOCIATIVE MEMORIES & SELF ORGANIZING NETWORKS.
Basic concept & performance analysis of recurrent associative memory, Bidirectional associative memory,
Hamming net & MAXNET Unsupervised laming of clusters, counter propagation network, feature mapping self
organizing feature maps, cluster discovery network (ART 1)
BOOKS:
1. Introduction of Artificial Neural Networks by Jacek Zurada (JPH).
2. Neural Network & Fuzzy system by Bart Kosko (PHI).
3. Neural Networks: Comprehensive Foundation by Simon Hayking (Maxwell) Macmillan, Canada Inc).
4. An Introduction to Fuzzy Control by D. Driankov (Narosa).
5. Fuzzy sets: Uncertainty & information by Klir & Folger (PHI)
6. Digital Image processing (AWFC) by Gonzalez.
7. Fuzzy Sets and Fuzzy Logic Theory and applications by Gearge D.Klir / Bo Yuan.
7S-EE-O3 (4) Elective I FLEXIBLE AC TRANSMISSION SYSTEMS
Unit-I: FACTS CONCEPT AND GENERAL SYSTEM CONSIDERATION
Transmission Interconnection, Flow of Power in an AC System, factors affecting the Loading Capability, Power
Flow and Dynamic Stability Consideration of Transmission interconnection, Importance of controllable. Parameters,
FACTS Controller.
Unit-2: VOLTAGE-SOURCED AND CURRENT. SOURCED CONVERTERS
Unit-3: STATIC SHUNT COMPENSATORS: SVC AND STATCOM
Objectives of shunt Compensation, Methods of Controllable VAR Generation, Static Var Compensators SVC and
STATCOM, Comparison Between STATCOM and SVC, Static Var System.
Unit-4: STATIC SERIES COMPENSATORS: GCS, TSSC, TCSC AND SSSC
Objectives of series Compensation, Variable Impedance Type Series Compensators, Switching Converter Type
Series Compensators, External (System) Control for Series Reactive Compensators.
Unit-5: STATIC VOLTAGE AND PHASE ANGLE REGULATORS; TCVR AND TCPAR
Objectives of Voltage and Phase Angle regulators, Approaches to Thyristor Controlled Voltage and Phase Angle
Regulators (TCVR and TCPARs), Switching Converter-Based Voltage and Phase Angle regulator, Hybrid Phase
Angle Regulators.
Unit-6: COMBINE COMPENSATORS (UPFC, IPFC) AND SPECIAL PURPOSE FACTS CONTROLLERS '
The Unified Power Flow Controller (UPFC}, Interline Power Flow Controllers Generalized and Multifunctional
FACTS Controllers, Sub synchronous Resonance, NGH-SSR Damping Scheme, Thyristor-Controlled Braking
Resistor (TCBR)
BOOKS :
1. Understanding FACTS by Narayan G. Hingorani and Laszlo Gyigyi (Standard Publishers)
Reference:
1. Flexible AC Transmission System (FACTS) Edited by Yang Hua Song and Johns (IEEE Publishers)
7S-EE-O3 (5) Elective I ELECTRICAL INSTALLATION DESIGN
Unit 1: Load forecasting, regression analysis numerical based on linear and exponential trends. Electrical installation for
domestic commercial and industrial consumers, calculation of connected load, selection of transformers, switchgear
cables and wires, single line diagram, special provision for high rise buildings (IER-50-A), earthing requirement,
megger and earth tests, use of earth leakage circuit breakers. (Special reference to be given to IER2)
Unit 2: Cables –PVC and XLPE cables their construction in brief, current ratings, specification, derating factors megger and
continuity test. ver head distribution lines up to 33KV, line apparatus and basic construction in brief c1earance
selection of AAC and ACSR conductors , voltage drop calculation .Selection of Insulators, earthing requirement
(special reference to be given to IER 77.79.80.81.87.89.90.91.92)
Unit 3: Illumination design definitions, polar curves, simple calculations, working principles of fluorescent, sodium vapor
Basic Concept of Voltage-Sourced Converters, Single-Phase Full-Wave Bridge Converter Operation,
Single Phase Leg Operation, Square-Wave Voltage Harmonics for Single Phase Bridge, Three-Phase Full-Wave
Bridge Converter. Sequence of Valve Conduction, Process in. Each Phase-Leg, Transformer connection for 12-
PluseOperation, Three Level Voltage Sourced Convert, Pulse-Width Modulation Converter, Generalized Technique
of Harmonic Elimination and Voltage Control, Basic Concepts of Current-Sourced Converters, Thyristor-Based
Converters (with Gate Turn -On), Current Sourced Converter with Turn-Off Devices, Current Sourced Versus
Voltage Sourced Converters.
and mercury vapors lamps. Capacitors and P.F. improvement – determination of rating and location of capacitors,
calculation of payback period for additional capacitors.
Unit 4: Substation Single line diagram plan, elevation, and clearances for 11 KV pole mounted, 11 KV plinth mounted (up
to 1000 KVA and above 1000 KVA), 33 KV (up to 2500 KV A & above 2500 KV A) Substations. Single line
diagram for substation with two transformer in parallel, Specifications of isolators, lightening arrestors, horn gap
fuses, D.O. fuses, circuit breakers instrument transformers power transformer various bus bar systems, load
transfer.(Special reference to be given IER (31,33,35,43,44,45A4,50,51,54,55,58,64A,67,IS3043).
Unit 5: Determination of fault level of various locations in substation, use of current limiting reactors. Philosophy of
protective relaying, over current. earth fault, REF protection, earth leakage protection, OTI WTI, Buchholz relays.
Fire lighting equipment, restoration of a person affected by electric shock. Earthing types. Measurement of earth
resistance.
Unit 6: Site testing of transformer (Visual, pre-commissioning tests like megger magnetic balance turns ratio) testing of oil,
operational test for Buchholz OTI, WTI, alarm and trip functions.
BOOKS
1. Electric Power Distribution system by Pabla (TMH).
2. A Course in Electric Power by Soni, Gupta, Bhatnagar (Dhanpat Rai)
3. Electrical substation Engineering Practice by S. Rao (Khanna Publication)
4. Electrical Engineering Handbook by Wadhwa
5.Electrical Installation Design by Jain, Bajaj (IER, 1956,LatestEdition)
7S-EE-04 HIGH VOLTAGE ENGINEERING
Unit 1: BREAKDOWN MECHANISM IN DI-ELECTRIC: Ionization process, Townsend's criterion for Break down, Break
down in electro-negative gases, Time-lag for B.D., Streamer theory for B.D in gases, Paschen’s law; B.D in non-uniform
field. Corona discharges and introduction of corona, post B.D. phenomenon and applications, practical considerations in
using gases for insulation purpose, vacuum insulation, Liquid as insulators, conduction and B.D. in pure and commercial
liquids. Intrinsic, electromechanical & thermal B.D., B.D. of solid di-electrics in practice, B.D. in composite dielectrics
Unit 2: LIGHTING AND SWITCHING OVER VOLTAGES: Mechanism of lightening, types of strokes, parameter and
characteristics of lightening strokes, characteristics of switching surges, power frequency over voltages. Control of over
voltage due to switching. Protection of lines by ground wires, protection by lightning Arrester, gap type and gapless
L.A., selection of L.A. ratings, surge-absorbers.
Unit 3: TRAVELING WAVES AND INSULATION COORDINATION: Traveling waves on transmission lines,
Classification of lines, attenuation and distortion of traveling waves, reflection and transmission of waves, behavior of
rectangular waves at transition points. Introduction to insulation coordination, associated terms, impulse wave form.
Introduction to BIL reduced BIL and SIL.
Unit 4: GENERATION OF HIGH VOLTAGE AND CURRENTS: Generation of High D.C voltages by rectifiers, voltage
doubler and multiplier, circuits (Derivations of expression not required), electrostatic machines, Generation of high AC
voltages by Cascade transformers, Resonant transformers, generation of high frequency AC high voltage. Generation of
impulse voltages, Standard impulse wave shapes, analysis of model and commercial impulse generation circuits, wave
shape control. Marx circuit, tripping and control of impulse generation, generation of switching surges generation of
impulse current.
Unit 5: MEASUREMENT OF HIGH VOLTAGE AND CURRENT: Measurement of high AC and DC voltage by micro
ammeter, generating voltmeter resistance and capacitance potential divider, series impedance voltmeter, CVT, Magnetic
type potential transformers, electrostatic voltmeter. Peak reading AC voltmeter. Sphere gap arrangement. Measurement
of impulse voltage by potential dividers and peak reading voltmeters. Measurement of High AC DC current;
measurement of nigh frequency and impulse current by resistive shunt (Bifilar strip shunt only,)
Unit 6: NON DESTRUCTIVE AND HIGH VOLTAGE TESTING OF ELECTRICAL APPARATUS: Non destructive
testing Measurement of DC Resistivity, measurement of Dielectric constant and loop-factor (low and power frequency
only), Schering bridge for high charging circuits, for high dissipation factor, for three terminal measurement, transformer
ratio arm bridges, partial discharge measurements by straight detectors & by balance detectors, calibration of detectors,
discharge detection in power cables. High voltage testing. Testing of insulators, bushings, isolators, circuit breakers,
cables, transformers, lightning arresters and power capacitors.
Books:
1. High Voltage Engineering by M.S. Naidu and V. Kamaraju (TMG).
2. High Voltage Engineering by C.L.Wadhwa. (New Age International).
7S- EE-05 POWER ELECTRONICS
Unit 1: SCR AND ITS CHARACTERISTICS: Gate characteristics, SCR turn off, ratings, series and parallel connections
of SCRs. Triac and its applications, Unijuction transistors, Triggering circuits and opto couplers.
Unit 2: LINE COMMUTATED CONVERTERS: Working of single pulse converter, two pulse mid point converter.
Three pulse midpoint converter and 3 phase six pulse bridge converters, effect of source inductance in converters,
effect of free wheeling diode.
Unit 3: SINGLE PHASE AND THREE PHASE HALF CONTROLLED CONVERTERS: Speed control of d.c. Motors using
line commutated converters. Cycloconverters (single phase).
Unit 4: STATIC CONTROLLABLE SWITCHES: Characteristic and working of MOSFET Gate turn off thyristor and
insulated gate bipolar transistor, protection of SCR gate circuit protection, over voltage and over current protection,
snubber circuit design, converter circuit faults and their protection.
Unit 5: D.C. CHOPPERS: Principles of step down chopper, step up chopper classification, impulse commutated and
resonant pulse choppers. Multi phase choppers. Application of choppers, Inverters: Basic series resonant. Inverter,
half bridge and full bridge series resonant inverters.
Unit 6: Single phase and three phase bridge invertors, commutation and trigger-circuits for forced commutated thyristor
inverters. Output voltage control, Harmonics in output voltage waveform, Harmonic attenuation by filters. Harmonic
reduction by pulse width modulation techniques. Analysis for single pulse width, modulation. Working of current
source inverters few applications of inverters.
BOOKS:
1. Power Electronics circuits Devices and Applications by M. H. Rashid. (Prentice Hall)
2. Power Electronics by C.W. Lander. (TMH)
2. Thyristor and their Applications by Dr. M.Ramamoorty
(Affiliated East West Press)
4. Thyristor and their Applications by Dr. G.K.Dubey and Doralda and Joshi. (Wiley Eastern)
EIGHTH SEM B. E. ELECTRICAL
8S-EE-O1 POWER SEMICONDUCTOR BASED DRIVES
Unit 1: Dynamics of electric drives and control of electric drives, energy conservations in electric drives.
Unit 2: D.C. MOTOR DRIVES: Controlled rectifier fed D.C. Drives, single phase and three phase rectifier control of D.C.
Separately excited motor. Dual converter control of D.C separately excited motor. Power factor, supply harmonics
and ripple in motor current. Chopper controlled dc drives of separately excited dc motor, chopper control of series
motor, source current harmonics.
Unit 3: INDUCTION MOTOR DRIVES: Stator voltage control, variable frequency control using voltage source invertors, current
sourced invertors and cycloconverter.
Unit 4: SYNCHRONOUS MOTOR DRIVE; Starting Braking of synchronous motor, variable frequency control self
controlled synchronous motor drive employing load com mutated thyristor inverter of cycloconverter, starting of
large synchronous motors.
Unit 5: Brushless dc motor, stepper motor, switched reluctance motor drives and eddy current drives. Introduction to solar and battery
powered drives.
Unit 6: TRACTION DRIVES: Conventional dc and ac traction drives, semiconductors converter controlled Drives, 25KV
AC traction using semiconductor converter controlled dc motor. DC traction using semiconductor, chopper
controlled dc motors, poly phase AC motors for traction drives.
BOOKS:
1. Fundamentals of Electric drives by G. K. Dubey. (Narosa Publications)
2. Modem Electric Traction by H. Pratap
3. Electric drives concepts and applications by V.Subramanian.(TMH)
8S-EE-O2 (1) ELECTIVE-II EHV AC & HVDC TRANSMISSION
Unit 1: (i) Power Handling capacities of EHV AC transmission lines. (ii) Voltage, gradients, Electric field of point charge,
sphere gap, line-charge, single and three phase lines and bundled conductors. Maxwell's potential coefficients,
Mangoledt formula.
Unit 2: (i) Electrostatic and electromagnetic fields of EHV line, electric shock and Threshold current, capacitance of long object;
calculation of electrostatic field of AC. Lines (3-phase single and double circuit lines only). Effect of high electrostatic
field, measurement of electrostatic field, induced voltages in insulated ground wires, electromagnetic interference (ii)
Corona, types, critical disruptive voltages, factors affecting corona, methods for reducing corona power loss, corona
current wave form, charge voltage diagram, audible noise and radio interference.
Unit 3: (i) Comparison of EHVAC and HVDC systems. (ii) Conversion from AC to DC. Rectifiers, converters, conversion from DC
to AC, Invertors. (iii) Kinds of DC link. (iv) Earth electrode and earth returns: Introduction, objectives, location and
configuration, resistance of electrodes, means of reducing earth electrode resistance, trouble caused by earth current and
remedies. (v) Multi terminal HVDC system: Introduction, 2-pole transmission, MTDC system with series and parallel-
connected converters, advantages, applications, configurations and types.
Unit 4: (1) Power flow control in HVDC system: Constant current, constant voltage, constant ignition and extinction angle control,
control characteristics. (ii) Parallel operation of AC and DC links (Synchronous and Asynchronous links)
Unit 5: (i) Harmonic Filters: Introduction, Filters, surge capacitors and damping circuits, shunt filters, series filters, AC filters,
design of AC. filters and tuned filters, double frequency and damped filters, cost consideration. Rating, harmonics on
D.C. side of converter, D.C. Harmonic filters. (ii) Reactive power compensation: Reactive power requirements of HVDC
converters, substations, effect of delay angle and extinction angle on reactive power.
Unit 6: (1) HVDC circuit breakers Introduction, construction, principle, switching energy interruption of DC current, application of
MRTB. Types of HVDC C.B. capability and characteristics of HVDC circuit breakers (ii) HVDC substation protection
against short circuit introduction, fault Clearing, protective zones, protection symbols, HVDC line pole protections (fault
clearing and re-energizing), (iii) HVDC sub-station protection against over voltage, difference between Insulation
coordination of AC and DC systems, fundamentals of switching over voltages, O.V. on A.C sides, and on D.C side,
surge- Arresters protection scheme. Insulation coordination and protection margin.
BOOKS: - 1. EHV AC and HVDC Transmission Engineering and practice by S.Rao.
2. Electrical Power Systems (2nd Edition) by C.L. Wadhwa (New Age International Pvt. Ltd.).
3. EHV AC Transmission If by Begamudre
8S-EE-02(2) Elective II ENTREPRENEURSHIP DEVELOPMENT
UNIT 1 Need analysis, market survey, and characteristics of market, sample survey, demand forecasting, secondary data,
accuracy, and confidence level uncertainty.
UNIT 2 Technical feasibility: Process selection, level of automation, plant capacity, acquiring technology, appropriate
technology plant location, Equipment selection & procurement Govt. policies.
UNIT 3 Economic feasibility: Cost of project, working capital analysis, fixed cost, means of finance, estimation of sales and
production price analysis, break even point, projected cash flow statements, projected balance sheet, projected profit
and loss statement projected cash projected cash flow, rate of return, discounted payback period, cost benefit
analysis, return after taxes.
UNIT 4 Project Planning & Control: CPM, PERT. Optimum project duration, resource allocation, updating.
UNIT 5 Project report: Preparation of project report, risk analysis, sensitivity analysis, and methods of raising capital.
UNIT 6 Project review: Initial review, performance analysis, ratio analysis, sickness, project revival, environmental & social
aspects.
RECOMMENDED BOOKS:
1. Projects by Prasanna Chandra (Tata Mc Graw Hill publishing company Ltd.)
2. CPM & PERT by Shrinath (East West publisher).
3. Projects by P.K Joy (Mc. Millan).
4. Engineering Economy by H.G. Thuesen, W.J. Fabricky, G.J. Thuersen, (Prentice hall of India Pvt. Ltd.)
8S-EE-02(3) ELECTIVE-II ADVANCED MICROPROCESSORS AND PERIPHERALS
Unit 1: Introduction to 16 bit microprocessors. 8086/8088 CPU architecture, memory organization and interfacing.
Addressing modes, instruction Set, examples Pseudo opcodes with ASM-86.
Unit 2: Interfacing of peripherals 8255 and 8253 with 8086. Architecture, operation and interfacing of 8251, 8257 with 8085 and
8086/8088.
Unit 3: Architecture, operation and interfacing of 8259,with 8279, with 8085 and 8086/8088.
Unit 4: Multiprocessor system bus, 8087 coprocessor with architecture and instruction set, organization of PCXT / AT motherboard.
Unit 5: Introduction to 80286, 386, 486 architecture. Concepts of Cache, associated/virtual memory. DOS structure.
Unit 6: Architecture of 8051 microcontroller, its important features, interface with parallel and serial I/O (Instruction set not
included.)
BOOKS:
1. Programming and interfacing of 8086/8088 by D. V.Hall (McGraw Hill).
2. Programming and Interfacing 8086 by Leu and Gibson (PHT).
REFERENCE:
1. Intel Reference Manuals for j) Microprocessor and ii) microcontrollers.
2. 80286/80386 Assembly Language by Murary (Tata McGraw Hill).
3. 80386 Assembly Language by Fernandez: (T.M.H.)
8S-EE-02(4) ELECTIVE-II BIOMEDICAL ENGINEERING
UNIT 1: Introduction: Human body physiology and subsystems, Biochemistry, Measurement of Electrical activities of human
body.
UNIT 2: Electrocardiography, Electro -encephalography, electromyography, Electro ethnography, Principles specifications
and interpretation of records.
UNIT 3: Measurement of no electrical quantity in human body, Measurement of blood flow respiration rate and depth heart
rate.
UNIT 4: ESR blood pressure, temperature PH impedance of various parts GSR mobility of internal organs.
UNIT 5: Control of body functioning: Stimulator for muscle and nervous system cardiac pacemaker.
UNIT 6: Blood pump respiration controller myo electric control of paralyzed muscles.
BOOKS:
1. Biomedical Instrumentation & Measurements by L.Cronwel (McGraw Hill)
2. Biomedical Engineering System by L. Cronwel (McGraw Hill).
3. Bioelectric Phenomena by Robert Blensev (McGraw Hill).
8S-EE-02(5) ELECTIVE-II DIGITAL SIGNAL PROCESSING
UNIT 1: Discrete time signals & systems, Discrete time signals, Discrete time systems, Linearity, causality, stability, static
dynamic, Time Invariance Time variance, classification of discrete time systems, linear convolution, circular
convolution, cross correlation, Autocorrelation.
Linear constant coefficient difference equations, sampling theorem & sampling process, Reconstruction of sampling
data, convolution.
UNIT 2 Frequency domain representation of discrete time signals and systems, Fourier transformer of discrete time signals,
properties of discrete time Fourier transformer,
UNIT 3 The Z - transform: Definition. Properties of the region of convergence for the Z- transform, Z - transform properties,
Inverse Z - transform using contour integration, complex convolution theorem, Parseval’s theorem, unilateral Z -
transform, stability interpretation using Jury's array.
UNIT 4 Transform analysis of LTI system & structures for discrete - time system: Frequency response of LTI system,
relationship between magnitude & phase, all pass system, minimum phase system, linear system with generalized
linear phase.
Block diagram representation & signal flow graph representation of linear constant Coefficient difference equations,
basic structures for IIR systems, transposed forms, basic network structures for FIR systems, lattice structures..
UNIT 5 Filter design techniques: Design of discrete time IIR filters from continuous time filters. Frequency transformations
of low pass IIR filters, Design of FIR filters by windowing, FIR filter design by Kaiser Window method. Frequency
sampling method.
UNIT 6 Discrete Fourier Transform: Discrete Fourier series, properties of discrete Fourier series discrete Fourier transform,
properties of DFT, circular convolution using discrete Fourier transform. Decimation in time FFT algorithm,
decimation in frequency FFT, FFT of long sequences using overlap add & overlap save method.
BOOKS:
1. Discrete time signal processing 2nd Edition by Alan V. Oppenheim, Ronald W. Schafer & Buch Pearson.
2. Digital Signal Processing - A Computer based approach by Sanjit K. Mitra.
REFERENCE:
1. Digital signal processing Theory & application by. Prows and Manolakis, 3rd edition PHI Ltd.
8S EE 02 (6) Elective III OPTIMIZATION TECHNIQUES
UNIT-I: Introduction: Concept of optimization, statement of optimization problem. Classification of optimization problems,
optimization techniques.
UNIT-2: Classical Optimization Techniques: Single variable optimizations, multivariable optimization with no equality and
in equality constraints, solution using lagrangian multipliers, Kunh - Tucker Conditions.
UNIT-3: Linear Programming (Simplex method): Application of linear programming, standard form & geometry of linear
programming problems, definitions & theorems, solution of system of linear simultaneous equations, pivotal
reduction of a general system of equations, simplex algorithm.
UNIT-4: Nonlinear Programming- I dimensional minimization methods:
Introductions, unimodal functions, elimination methods, direct root methods.
UNIT-5: Nonlinear programming-II: Unconstrained optimizations techniques-
Introductions, Direct search methods, Random & Grid search methods, Powell's method. Indirect search method,
Canchy's method, Fletchor Reaves method, Newton's method.
UNIT-6: Nonlinear Programming Ill: Constrained Optimization techniques:
Introduction, characteristics of constrained problem, sequential linear programming, Zoutendijk's method of feasible
directions, Rosen's gradient projection method.
TEXT BOOKS:
1. Engineering Optimization: Theory & practical (Third Edition), by S.S. Rao, New Age International.
8SEE-O3 SWITCH GEAR AND PROTECTION
Unit 1 General philosophy of Protective Relaying: Protective zones, primary protection, back up protection Remote and
Local Back up selectivity.
Unit 2: Medium voltage Line Protection: Over current relaying, directional- over current relay.
Unit 3: High Voltage Line Protection: Distance relays, carrier distance Schemes. Unit carrier schemes.
Unit 4: Equipment Protection: Principles of differential relaying, protection of generator, transformers and bus Bars by
differential relaying and other relays. Protection Induction Motors against overloads, short circuits. Thermal relays,
miniature circuit.
Unit 5: Introduction static relays: Comparison of static and electro mechanical relays, two input amplitude and phase
comparator and their duality. Generation of various distance relay characteristics using above comparators.
Unit 6: Switchgear: Circuit breakers. Arc interruption theory, recovery and Restricting voltages, RRRV, breaking of
inductive and capacitive currents, C.B, ratings, different media of arc interruption, overview of oil circuit breakers,
construction and operation of Air blast, SF6 and vacuum breakers.
Books:
1. Art and science of Protective Relaying by Mason.
2. Protective Relaying, Vol. I & II by Warrington.
3. Switchgear and Protection by Sunil S.Rao.
4. Switchgear and Protection by Ravindranath and Chander. (Khanna Publications)
5. Power System Protection and Switchgear by B.Ram (TMG).
8SEE-04 COMPUTER APPLICATIONS IN ELECTRICAL ENGINEERING
Unit 1: Incidence & Network Matrices: Graph incidence Matrices, Primitive network, and formation of network matrices by
Singular transformations.
Unit 2: Algorithm for formation of Bus Impedance and Bus Admittance matrix for system without mutual coupling.
Unit 3: Three phase Networks: Three phase balance network elements with balanced and unbalanced excitation, incidence and
network matrices for three-phase element. Algorithm for formation of three-phase bus impedance matrix without
mutual coupling. .
Unit 4: Load Flow Studies: Power system load flow equations, solution Technique, Gauss Seidel, Newton Raphson and fast
decoupled technique with and without voltage control buses. Representation of tap changing and phase shifting
transformers, Elementary load flow programs.
Unit 5: Short circuit studies: Three phase network short circuit calculations using bus impendence matrix for balance and
unbalanced faults. Computer programme for short circuit studies on simple system.
Unit 6: Transient Stability studies: Modeling of synchronous machine. power system network for transient stability studies,
Numerical solution of swing equation by modified Euler and Runge Kutta 4th order method. Elementary computer
programme for the transient stability study.
BOOKS:
1. Computer method in power system analysis by Stagg and Ele Abiad (McGraw Hill)
2. Electric Energy System Theory and introduction by Oile J.Elgard. (TMH)
3. Elements of power system analysis by William D. Stevenson.(TMH)
4. Computer Analysis of Power system by R.N.Dhar.