electrical engineering final syllabus, Schemes and Mind Maps of Electrical Engineering

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DEPARTMENT OF ELECTRICAL ENGINEERING
SYLLABII FOR UG 1st, 2nd, 3rd, 4th, 5th, 6th, 7th & 8th SEMESTERS
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DEPARTMENT OF ELECTRICAL ENGINEERING

SYLLABII FOR UG 1st, 2nd^ , 3rd,^4 th^ , 5th^ , 6th^ , 7th^ & 8 th^ SEMESTERS

HOUR CREDIT 1st Semester Lecture Tutorial Practical Lecture Tutorial Practical Total 1 Language (Communication in English) 3 0 0 3 0 0 3 2 Engineering Chemistry-I 3 0 2 3 0 2 5 3 Engineering Physics-I 3 0 2 3 0 2 5 4 Engineering Mathematics-I 3 1 0 3 1 0 4 5 Engineering Mechanics I 3 1 0 3 1 0 4 6 Basic Electrical Engineering 3 1 2 3 1 2 6 6 Engineering Graphics-I 0 0 3 0 0 3 3 7 Workshop Practice-I 0 0 2 0 0 2 2 32 2 nd^ Semester 1 Introduction to programming 3 1 2 3 1 2 6 2 Engineering Physics-II 3 0 0 3 0 0 3 3 Disaster management 2 0 0 2 0 0 2 4 Engineering Mathematics-II 3 1 0 3 1 0 4 5 Engineering Chemistry-II 2 0 0 2 0 0 2 6 Engineering Mechanics –II 3 1 0 3 1 0 4 7 Basic Electronics 3 1 2 3 1 2 6 8 Engineering Graphics-II 0 0 3 0 0 3 3 9 Workshop Practice-II 0 0 3 0 0 3 3 33

3rd Semester 1 Mathematics III 3 1 0 3 1 0 4 2 Energy Conversion system I 3 1 0 3 1 0 4 3 Network Analysis 3 1 2 3 1 1 5 4 Digital Electronics 3 1 2 3 1 1 5 5 Object Oriented Programming 3 0 3 3 0 2 5 6 Solid state devices 3 0 0 3 0 0 3 7 Signal and Systems 3 0 3 3 0 2 5 31 4 th^ Semester 1 Energy Conversion System II 3 1 3 3 1 2 6 2 Power System I 3 1 0 3 1 0 4

3

Electrical Measurement and Measuring Instruments 3 1 2 3 1 1 5 3 Numerical Methods and Analysis 3 1 2 3 1 1 5 5 Analog Electronics 3 1 2 3 1 1 5 6 Elective I 3 0 0 3 0 0 3 28 5th Semester 1 Energy Conversion System III 3 1 3 3 1 2 6 2 Power System II 3 1 3 3 1 2 6 3 Microprocessors and Micro controller 2 0 4 2 0 2 4 4 Control System I 3 1 2 3 1 1 5 5 Electromagnetic Field Theory 3 1 0 3 1 0 4 25 6th semester 1 Power Electronics 3 1 3 3 1 2 6 2 Control System II 3 1 2 3 1 1 5 3 Digital Signal Processing 3 0 2 3 0 1 4 4 Industrial Instrumentation 3 1 2 3 1 2 6 5 Principle of Communication 3 0 2 3 0 1 4 6 Industrial Visit/ internship audit

st

Semester

1. Language (Communication in Engish)

Pronunciation, Vocabulary Extension, basic aspects of language skills, modes of writing, comprehension, composition, word-order.,structure of words etc. The fundamentals of Grammar, textual pieces for literary appreciation, non-traditional materials, newspaper articles, advertisements, notice writing, Soft Skills Development etc. The following textual pieces from "English for All" by Nilanjana Gupta, published by Mac Millan :

Text/Reference Books :-

  1. Shakespeare's Sister by Virginia Woolf
  2. Scientific Research for Amateurs by J.B.S. Haldane
  3. When I Have Seen by William Shakespeare
  4. Lines Written in Early Spring by William Wordsworth
  5. On His Blindness by John Milton
  6. Prospice by Robert Browning
  7. After Twenty Years by O' Henry
  8. The Adventures of the Blue Carbuncle by Arthur Conan Doyle

2. Engineering Chemistry I

a) Chemical Bonding: - Ionic and Covalent bonds; Valence Bond Theory (V.B.T) of covalency- atomic orbital.and their overlap, hybridization of orbitalsdefinition types and associated geometries, VSEPR theory, shapes of simple molecules like-H2O, CO2, NH3, CH4,C2H6, C2H2 BF3, PCl5, SF6 in the light of the hybridization state of the central atom and VSEPR effects; Molecular Orbital Theory (M.O.T)- concept of molecular orbital, molecular orbital energy level diagrams of homonuclear diatomic molecules-He2,O2, N2 and molecular ions, determination of bond order, bond length and magnetic properties from M.O diagrams; Noncovalent interactions- van der Waals and hydrogen bonding and their effect over physical properties of different substances,metallic bonds-Electron sea model. b) Fuels:- Definition and classification of fuels; Characteristics of a good fuel, comparison between solid, liquid and gaseous fuel; Calorific value of fuels- definition, units, higher and lower calorific value, determination of the calorific value of a solid fuel by bomb calorimeter; Solid fuel- coal, origin, types, proximate and ultimate analysis of coal; Liquid fuel- petroleum, origin, refining of crude, cracking, synthetic petrol, Fischer-Tropsch and Bergius method for the synthesis of gasoline,knocking c) Water:- Introduction; Hardness of Water- cause, types, units, disadvantages of using hard water fordomestic and industrial purposes ( e.g., scale and sludge formation in boilers, causticembitterment, boiler corrosion etc.), softening of hard water ( lime-soda, permutit and ionexchangeprocesses); Chemical analysis of Water- estimation of free chlorine, total alkalinity, hardness and dissolved oxygen, numerical based on determination of hardness. d) Pollution and its control: - Pollution- introduction, air pollutants, particulates, smog, photochemical smog, acid rain, green house effects, depletion of ozone layer, analysis of gaseous effluents-oxides of nitrogen, oxides of sulphur and H2S, control of air pollution- particulate emission, gaseous pollutants, water pollution- arsenic pollution and its remedies. Chemical analysis of effluent liquid streams, BOD, COD. e) Electrochemistry:- Arrhenius theory of electrolytic dissociation, classification of electrolytes; degree of dissociation of acids, dissociation constant of weak acids, Debye-Huckel theory, concept of pH and pOH, buffer solutions, solubility product, common ion effect, conductance of solutions- specific, molar and equivalent conductance, variation of molar conductance with dilution for strong and weak

electrolytes; Migration of ions- Kohlrausch's law of independent migration of ions, Ostwald's dilution law; transport number, Nernstequation for single electrode, electrochemical cells. f) Polymer Chemistry :- Introduction, types of polymerization, classification of polymers based on chaincharacteristics, source, method of synthesis and molecular forces involved, mechanism ofpolymerization reaction: cationic, anionic and catalytic polymerization; glass transition andcrystalline melting point temperatures, Factors influencing glass transition and crystalline melting point temperatures. Preparation, properties and uses of the following-Polyethylene, PVC, Polystyrene, PAN, Teflon, Nylon- 6:6, polyester ; Rubber- monomer,structure, compounding of rubber, vulcanization, synthetic rubbers- Buna-S, Buna-N, neoprene, butyl rubber and polyurethanes.

ENGINEERING CHEMISTRY I LABORATORY: List of experiments:

  1. Determinations of hardness of water.
  2. Determinations of percentage purity of lime stone sample.
  3. Determinations of dissolved oxygen in water.
  4. Determinations of sodium carbonate & sodium bicarbonate in a mixture.
  5. Determinations of iron content in a sample.
  6. Determinations of chloride content of water.
  7. Determinations of proximate analysis of coal.
  8. Determinations of flash point of an oil by penskymartein's closed cup flash point Apparatus.
  9. Determinations of viscosity of oil by redwood viscometer.
  10. Determination of Dissociation constant of weak acids by conductometric Titration.
  11. Determinations of carbon residue of oil by Conrad son's apparatus.
  12. Determination of pH of an electrolyte by potentiometer Titration.

Text/Reference books:

  1. Jain & Jain , Engineering Chemistry; 15th Edition,
  2. Engineering Chemistry; Wiley - India.
  3. S.S Dara, S chand Publisher , A Text Book of Engineering Practical Chemistry.
  4. Sashi Chawla, A text book of Engineering Chemistry;
  5. S.S Dara, S chand Publisher, A Text Book of Engineering Chemistry;
  6. A.K Dey, Environmental Chemistry, John Wiley.
  7. Ashim K das , Environmental chemistry with Green chemistry, Books and Allied Pvy. Ltd.
  8. Vanloon/Duffy, Environmental Chemistry ,2/E, Oxford University Press.
  9. O. G. Palanna, Engineering Chemistry, Tata Mc.Graw Hill Education Private Ltd. New Delhi. 3. Engineering Physics I
    1. Vector and Vector Differential Calculus: Types of Vectors, Orthogonal Representation of a Vector, Product of Vectors, Scalar TripleProduct, Vector Triple Product. Vector Differentiation, Scalar and Vector Fields,Directional Derivatives, Vector Differential Operator, Gradient, Divergence, Curl, Line, Surface & Volume integrals and their applications, Green's theorem.
    2. Mechanics: Newton's Laws of motion, Mechanics of a Particle, Limitations of Newtonian mechanics,Newton's laws of motion for a system of particles, Constraints, D'Alembert's Principle,Generalized Coordinates, Generalized velocity and momentum, Lagrangian formulation,Hamiltonian formulation. Streamline and turbulent motion, Stokes law,terminal velocity, Poiseuille's Equation, Bernouli's theorem, Venturimeter and otherapplications of Bernouli's principle. Reference frames, Lorentz transformation,postulates of relativity, relativistic mass and mass-energy relation.
    3. Vibration and Waves: Simple Harmonic Motion, superposition of two linear SHMs, Lissajous figures,Damped Vibration:- differential equation and solution, critical damping, logarithmicdecrement, analogy with electrical circuit. Progressive waves, Forced Vibration,Amplitude and Velocity Resonance, Sharpness of resonance and quality factor.
    4. Time Varying Field and Maxwell's Equation:

5. Engineering Mechanics I

Force Systems and Equilibrium Force moment and couple, principle of transmissibility, Varignon's theorem. Resultant of force system- concurrent and nonconcurrent coplanar forces, free body diagram, equilibrium equations and their uses in solving elementary engineering problems. Plane trusses Analysis of plane trusses and plane frames (Analytical and graphical methods). Method of joints, methods of sections, graphical method. Friction Coulumb's laws of fraction, belt fraction problems involving fraction related to practical application. Moment of Inertia and plane figure:- Moment of Inertia of a plane figure with respect to an axis in its plane, Moment of Inertia with respect to an axis perpendicular to the plane of the figure. Parallel axis theorem, perpendicular axis theorem. Polar moment of inertia Moment of inertia of material bodies: Mass moment of inertia in case of disc cone cylinder sphere slender rod Centre of gravity of rigid body Centre of gravity of right circular cone, cylinder,hemisphere and composite rigid body. Virtual work : Work of a force principle of virtual work & itsapplication, Constriction of force polygon, Raydiagram, Funicular polygon, Maxwelldiagrams. Mass moment of inertia in case of disc, cone,cylinder, sphere slender rod.

ENGINEERING MECHANICS LAB Syllabus based on Engineering Mechanics.

Text/Reference Books:

  1. Timoshenko and Young, Engineering Mechanics.
  2. R.S. Khurmi , A text Book of Engineering Mechanics.
  3. R.K. Bansal , A text Book of Engineering Mechanics. 6. Basic Electrical Engineering

Classification of devices of an electrical circuit; Basic devices: resistors, controlled sources, diodes, capacitors and inductors. Basic circuit analysis methods: nodal, mesh and modified nodal-analysis. Network Theorems: Tellegen's theorem, superposition theorem, Thevenin-Norton theorem, substitution theorem, reciprocity theorem, maxpower-transfer theorem, stardelta- transformation. Steady state sinusoidal analysis: phasors, phasor diagrams; Power in ac circuits, network analysis methods; Polyphase circuits. Electromagnetism---- Concept of inductance,, Magnetisation curve, Hysteresis loop and hysteresis loss, Eddy-current loss, mutual inductance, dot convention Classification of analog electrical measuring instruments working principles of indicating type of instruments. Electromagnetic laws, Basic principle of generator and motor, emf induced in a coil, concept of rotating magnetic field. Introduction to transformer.

BASIC ELECTRICAL ENGINEERING LABORATORY List of experiments

  1. Calibration of energy meter
  2. Characteristics of Fluorescent Lamp, Incandescent Lamp.
  3. Determination of fusing constant of a fuse wire.
  4. Determination of insulation resistance by using Megger.
  5. Measurement of 1 –phase & 3 -Phase paired by watt meters.
  6. Characteristics of R-L Circuit, R-C ckt, R-L-C series ckt.
  1. Study of different transformer connections.

Text/Reference Books:

  1. K.V.V. Murthy and M.S.Kamath, Basic Circuit Analysis, 1st edition (reprinted with corrections) Jaico publishing, 1998.
  2. W.H. Hayt and J.E. Kemmerley, Engineering Circuit Analysis, Int.St.Ed.(4th) McGraw Hill, 1986.
  3. S.K.Bhattacharya, 'Electrical Machines', Tata McGraw Hill Publishing company ltd,. second edition, 2007
  4. J. Nagrath and D. P. Kothari, 'Electric Machines', Tata McGraw Hill, 1985. 7. Engineering Graphics I

Drawing instruments and their uses, lines, lettering and dimensioning, scales, plains and diagonal scale, curves used in engineering practice, ellipse, parabola, hyperbola, cycloid, involutes orthographic projection, planes of projection, four quadrant, first angle projection, reference line, convention employed. Projection of points and lines, true length, true inclinations with reference plane, traces of a line, end view, and illustrative problems. Projection of planes, traces, end view planes perpendicular to one inclined to other reference planes. Projections of solid such as prism, pyramid, cone, cylinder, cube etc.

Text/Reference Books:

  1. N.D. Bhatt , Elementary Engineering Drawing (Plane and solid geometry).
  2. R.B Gupta , A text Book of Engineering Drawing.
  3. K.Venugopal , A text Book of Engineering Drawing.
  4. N.D. Bhatt, Machine Drawing. 5. R. K. Dhawan , A text Book of Machine Drawing (In first angle projection) **8. Workshop Practice I
  5. Fitting Shop** i) Introduction of hand Tools. ii) Job No. 01:- Making of Square bar from round bar of mild steel by metal wearing process. iii) Job No.02:- Making of V-Groove on Mild Steel Flat by metal cutting process. 2. Carpentry Shop i) Introduction of Hand Tools. ii) Job No.01:- Making of wooden End half lap joint. iii) Job No.02:- Making of wooden T-Joint. 3. Smithy Shop i) Introduction of Hand Tools ii) Job No.01:- To make square bar from round bar of Mild Steel by heating& hammering. iii) Job No.02:- To make Hexagonal bar from round bar of Mild Steel by heating & hammering.

nonuniform electric and magnetic fields, time varying electric and magnetic fields,applications of plasma physics (Fusion, Industrial), Confinement of plasma (magneticand LASER).

5. Laser and Optical Fiber: Spontaneous and stimulated emission, Einstein's A-B coefficient, meta-stable state, population inversion, basic principle of laser (three and four level), optical cavity and resonator, Ruby and He- Ne laser. Propagation of light in fiber, step and graded index fiber, numerical aperture, attenuation in optical fiber, introduction of optical window, application of laser and optical fiber.

Text/Reference Books:

1. Francis F. Chen , Plasma Physics and Controlled Fusion, Springer

  1. A. Ghatak, K. Thyagrajan, Lasers: Fundamentals and Applications, Springer
  2. K. Huang, Statistical Mechanics
  3. D.C. Tayal, Nuclear Physics, Himalaya House, Bombay
  4. Kittel, Introduction solid State Physics, Willy Eastern Limited
  5. A.K.Ghatak and S.Lokanathan, Quantum Mechanics, Macmillan India Limited
  6. Mark A. Ratner & Daniel Ratner, Nanotechnology: a gentle introduction to the next big idea, PHI
  7. Dattu Prasad Joshi, Engineering Physics, Tata Mc Graw Hill
  8. B.K. Agarwal, Elements of Statistical Mechanics
  9. R. Eisberg and Resnick, Quantum Physics of Atoms, Molecules, Solids, Nuclei and Particles, Wiley India Pvt. Ltd.
  10. Leonard I. Schiff, Quantum mechanics
  11. Dekker, Solid State Physics, McMillan Student Ed. 3. Disaster Management Elements of Engineering Seismology:- Earthquake occurrence in the world, causes of Earthquake,

Plate tectonics, Earthquake mechanism, seismic zoning map of India and its use. Earthquake phenomenon:- Focus, Epicenter, seismic waves, magnitude, intensity scale its co-

relation assessment and Do's and Don's for protection of life and property during disaster. Landslides:- Geo-technical aspects of landslides and control of Landslide Hazard.

Flood:- Flood control as a measure of Disaster Management and Mitigation Cyclone and Fire:- Cyclone Disaster Mitigation and ensuring wind and fire hazard safety during

disaster.

Text/Reference Books:

1. A.K.Mukhopadhay, Crisis and Disaster Management Turbulence and Aftermath, New Age International

Publishers.

  1. H.N.Srivastava, S.N. Bhattacharya. G.D.Gupta, Earthquake Geography and Management, New Age International Publishers.
  2. Thomas D. Schneid, Larry Collins, Disaster Management and Preparedness, Lewis Publishers, 2001.
  3. C. V. R. Murty, IITK-BMTPC Earthquake Tips: Learning Seismic Design and Construction, National Information Centre of Earthquake Engineering. **4. Engineering mathematics II
  4. Matrices :** Algebra of matrices, Vector spaceslinear dependence of vectors, basis, Linear

Transformations, Rank and inverse of a matrix, Solution of algebraic equations, consistency conditions, Hermitian, skew-Hermitian and Unitary matrices, by-linear form, eigen value and eigen

vectors. Cayley-Hamilton theorem.

2. Complex numbers : Exponential complex numbers and logarithm of a complex number,

circular, hyperbolic and inverse circular functions of complex numbers.

3. Function of a Complex Variable : Limit, continuity and differentiation, Analytic function,

Cauchy-Riemann equations, Conjugate functions, Application to two dimensional problems,

Taylor's and Laurent's expansions, Branch points, zeros, poles, residues, Cauchy's Integral theorem, simple problems on Contour Integration.

4. Integral Calculus : Improper Integrals, Beta and Gamma function. Double and Triple Integrals, Jacobians and transformation of co-ordinates.

5. Vectors: Scalar and vector triple product, space curves, Seret-Frenet formula, velocity and

acceleration-simple problems, moment of force, work done, angular velocity, relative velocity- imple applications. Vector function of one variable, vector differentiation and integration, gradient,

divergence and curl ---Applications. Stoke's theorem, Green's theorem, Gauss divergence theorem - simple applications to areas, Volumes and centre of Pressure.

Text/Reference Books:

1. Malik & Arora, Mathematical Analysis:

  1. H.K.Dass., Advanced Engineering Mathematics
  2. B.V.Ramana. Higher Engg. Mathematics
  3. E. Kreyszig , Advanced Engineering Mathematics.
  4. G.B.Thomas and R.L.Finney, Calculus and Analytic Geometry:
  5. M.L.Khanna , Vector Calculas 5. Engineering Chemistry –II

(a) Cement:- Introduction, classification; Portland Cement definition, raw materials, manufacture, ideal composition and physical requirement according to I.S code, chemical constitution of the finished product, setting and hardening, heat of hydration; Special Cements- high-alumina, white portland, water-proof cements etc. (b) Refractories:- Definition, objective of using, classification based on chemical nature; Properties- refractoriness, strength, dimensional stability, chemical inertness, thermal expansion, thermal conductivity, porosity, spalling, electrical conductivity etc. and interrelations between them; selection of good refractory; Common Refractory Bricks- silica, fireclay, high alumina, magnesite and zirconia bricks, properties and uses. (c) Corrosion:- Introduction, definition, classification; Dry Corrosion factors effecting dry corrosion, mechanism, types, oxidation corrosion, Pilling-Bedworth rule, corrosion by other gases, hydrogen related corrosion, liquid metal corrosion; Wet Corrosion- types, chemical corrosion, factors affecting chemical corrosion, mechanism of wet corrosion- electrochemical mechanism, evolution of H2 and absorption of O2 types; Differential aeration theory, passivity, pitting, waterline and stress corrosion; Corrosion Control purification, alloying, application of protective coatings, cathodic protection etc. (d) Lubricants:- Introduction; Mechanism- thick-film, thin-film and extreme pressure lubrication; Classification of Lubricants- lubricating oils, greases and solid lubricants, their properties, use and additives required (e.g., anti-oxidants, corrosion preventers etc.); Properties of Lubricating Oils- viscosity, flash and fire-point, cloud and pour point, oiliness, carbon residue, aniline point etc. ; Cutting fluids. (e) Thermochemistry:- Different types of energy and other definitions; Endothermic/ Exothermic Reactions and Energy Diagrams; thermochemistry stoichiometry, enthalpy, standard enthalpy of formation and reaction, Hess's Law, heat of solution, heat of neutralization.

Text/Reference Books:

  1. Jain & Jain , Engineering Chemistry; 15th Edition,
  2. Engineering Chemistry; Wiley - India.
  3. S.S Dara, S chand Publisher , A Text Book of Engineering Practical Chemistry.
  4. Sashi Chawla, A text book of Engineering Chemistry;
  5. S.S Dara, S chand Publisher, A Text Book of Engineering Chemistry;
  6. A.K Dey, Environmental Chemistry, John Wiley.
  7. Ashim K das , Environmental chemistry with Green chemistry, Books and Allied Pvy. Ltd.
  8. Vanloon/Duffy, Environmental Chemistry ,2/E, Oxford University Press.
  9. O. G. Palanna, Engineering Chemistry, Tata Mc.Graw Hill Education Private Ltd. New Delhi.
  1. Experiments on class-A, class-B and AB of transistor power amplifiers.
  2. Experiment on uncontrolled Diode-Bridge rectifier.
  3. Determination of hybrid parameters of a transistor.
  4. Characteristics of JFET, MOSFET.
  5. Study of characteristics of Mono-stable, Bistable and a-stable multi vibrators using bipolar transistors.
  6. Experiment on Schmitt Trigger Circuit.
  7. Study of LED, photo-Diodes, Photo-Transistors, Light Development Resistors and Opto- Isolators.

Text/Reference Books :-

1. Vladimir V.Mitin, Viatcheslav A. Kochelap, Michael A. Stroscio, Introduction to Nanoelectronics -

Science, Nanotechnology,Engineering and Application, Cambridge University Press.

  1. D. De and K. P. Ghatak , Basic Electronics, Pearson Education.
  2. R.F. Pierret, Semiconductor Device Fundamentals, Pearson Education.
  3. Robert F Pierret and Gerold W.Neudeck , Modular Services on Solid State Device, Addison Wesley Publishing Company
  4. K. Sedra & Smith, Microelectronic Circuits , Oxford
  5. D. Carlo & Lin , Linear Circuit Analysis, Oxford University Press 8. Engineering Graphics II
  1. To draw sectional views, true shape of section of solid like Prism, Pyramid, cones cylinder with and without sections.
  2. To draw views and Isometric projection of solids like Pyramid, Prism, cones, cylinder, sphere and hemisphere.

3) Development of surface prism, Pyramid, cones, cylinder with and without sections.

  1. To draw sketch of bolts, nuts, rivets and riveted joints.
  2. To draw plan, elevation, side view of machine parts with and without sections.

**9. Workshop Practice II

  1. Machine Shop** a) Introduction of operation of Machine Tools. b) Job No. 01:- Facing and Turning operation by using Lathe machine. c) Job No. 02:- Step turning operation by using Lathe machine. 2. Fitting Shop Introduction of Precision Tools. Job No. 01:- Making of an External Thread by using Die and Die Stock Job No. 02:- Making of an Internal Thread by using Tap and Tap wrench. 3. Welding Shop a) Introduction to Welding Machines and related Tools. b) Job No.01:- Lap joining of two metal plates by arc welding process. c) Job no.02:- Butt joining of two metal plates by arc welding process. 4. Forging Shop a) Introduction of forging process and related tools. b) Job No.01:- Making of mild steel ring by forging process. c) Job NO.02:- Making of Square punch from round Mild Steel Bar. 5. Pattern Shop a) Introduction of wood working Machine Tools. b) Job No.01:- Making of wooden Knuckle Joint. c) Job No.02:- Making of wooden Halving Joint. 6. Sheet Metal Shop a) Introduction of machine tools & hand tools. b) Job No. 01:- Metal sheet single seam joining.

c) Job No. 02:- Metal sheet joining by riveting.

7. Casting Shop a) Introduction of Casting process & related tools. b) Job No. 01:- metal casting using a pattern of Knuckle Joint. 8. Automobile Shop a) Introduction of working principle of IC Engine. b) Demonstrations of different parts of an IC engine

combination of coupled circuit. Classification of passive filters, characteristics, equation of filter networks, resonance, bandwidth and selectivity, quality factor.

Text Books:

  1. Franklin Kuo, Network Analysis And Synthesis , Wiley international, 2 nd^ edition.
  2. M.E. Van Valkenburg, Network Analysis , PHI, 3 rd^ edition. Reference Books:
  3. W.H.Hyatt and J.E.Kemmerly , Engineering Circuit Analysis , McGraw-Hill.
  4. A.E Fitzgerald, David E. Higginbotham, Arvin Grabel, Basic Electrical Engineering , McGraw-Hill, 5 th Edition. 4. Digital Electronics

Number systems and codes, Boolean algebra, logic gates, tristate logic, minimization using Karnaugh map, NAND and NOR gate implementation. Combinational systems: combinational logic circuit design, code converters , BCD to seven segment decoder, full adder, half adder, 4-bit magnitude comparator, encoders, decoders. Sequential systems: R-S Latch, master-slave, edge/level- triggered flip-flops, design of flip-flops, shift registers, serial and parallel loading; memory: ROM, PROM, EPROM, EEPROM, RAM, introduction to memory organization, circuit design using decoders, MUX and DEMUX etc., design using multiplexers, ROM, PAL, PLA, design of synchronous counters, mod-k or divide-by-k counters, decade counter, BCD counter, ring counters, Johnson or twisted-ring counter, counter application; logic families : TTL, ECL, CMOS, calculation of noise margins, fan in and fan-out.

Text Books:

  1. H. Taub and D. L. Schilling , Digital Integrated Electronics, McGraw-Hill, 1977.
  2. M. Morris Mano, Digital Design , Prentice Hall, 3 rd^ Edition, 2002. Reference Books:
  3. W. I. Fletcher, An Engineering Approach to Digital Design, Prentice-Hall 1980.
  4. T.M. Floyd , R.P. Jain, Digital fundamentals , Pearson Education 5. Object Oriented Programming

A look at procedure-oriented programming, object oriented programming paradigm, basic concepts of object oriented programming, benefits of OOP, object oriented languages. Tokens, keywords, identifiers and constants, basic data types, user-defined and derived data types, type compatibility, reference, variables, scope resolution operator, type casting, implicit conversion, operator precedence, control structures, structure, function. Class specification, class objects, accessing class members, data hiding, empty classes, pointers within a class, passing objects as arguments, returning objects from functions, friend functions and friend classes, constant parameters and member functions, structures and classes, static members, objects and memory resource, class design steps. Constructors, destructor, constructor overloading, order of construction and destruction, constructors with default arguments, nameless objects, dynamic initialization through constructors, constructors with dynamic operations, constant objects and constructor, static data members with constructors and destructors, nested classes. Defining operator overloading, overloading unary operators, overloading binary operators, overloading binary operators using friends, manipulation of strings using operators, rules for overloading operators, type conversions. Deriving derived classes, single, multilevel, multiple, hierarchical, hybrid inheritance, constructors & destructors in derived classes, constructors invocation and data members initialization, virtual base classes, abstract classes, delegation. Pointers to objects, this pointer, pointers to derived classes, virtual functions, implementation of run-time polymorphism, pure virtual functions. Classes for file stream operations, opening and closing a file, file pointers and their manipulations, sequential input and output operations, error handling during file operations, command line arguments. Class templates with multiple parameters, function templates, overloading of template functions, member function templates. Object-oriented analysis and design, procedure oriented development tools, prototyping paradigm.

Text Books:

  1. Budd, Object Oriented Programming , Addison Wesley,
  1. K.R Venugopal, Rajkumar, Mastering C++, TMH. Reference Books:
  2. Lip man and Lajole, C++ Primer , Addison Wesley.
  3. B. Stroustrup, The C++ Programming language , Addison Wesley 6. Solid State Devices

Introduction to semiconductor equations and carrier statistics: poisson's and continuity equations,(physics) Fermi-Dirac statistics semiconductor diodes: barrier formation in metal- semiconductor junctions, PN homo- and hetero- junctions; CV characteristics and dopant profiling; IV characteristics; small signal models of diodes, applications, bipolar transistors : I-V characteristics and Elers-Moll model; small signal models; charge storage and transient response field effect devices : JFET/HFET, MIS structures and MOSFET operation; JFET characteristics and small signal models; MOS capacitor CV and concept of accumulation, depletion and inversion; MOSFET characteristics and small signal models.Power semiconductor devices –power diodes - power transistors - SCRs - Triac - GTO - Power MOSFETs – IGBTs etc.- principles of operation and characteristics, device specifications and ratings,

Text Books:

1. B.G. Streetman, Solid State Electronic Devices , Prentice Hall of India, New Delhi, 1995.

  1. D. A. Neamen, Semiconductor Physics and Devices (IRWIN) , Times Mirror High Education Group, Chicago) 1997. Reference Books:
  2. A.S. Sedra and K.C. Smith, Microelectronic Circuits , Saunder's College Publishing, 1991
  3. J. Millman and A. Grabel, Microelectronics , McGraw Hill, International, 1987. 7. Signals and systems

Different types of signals: continuous and discrete, impulse sequence, impulse functions and other singularity functions. Types of system: continuous and discrete linearity, time invariance and causality; convolution: convolution sum, convolution integral and their evaluation; time-domain representation and analysis of LTI systems based on convolution and differential equations and difference equation. Multi input-multi output discrete and continuous systems: transform domain considerations: Laplace transforms and Z-transforms; applications of transforms to discrete and continuous systems-analysis; transfer function, block diagram representation.Fourier series and Fourier transform, sampling theorem, discrete Fourier transform (DFT), estimating Fourier transform using DFT. DTFT, DFT, FFT.

Text Books: 1.A.V. Oppenheim, Schafer, R. W,A.S. Willsky and I.T. Young, Signals and Systems , Prentice Hall, 1983

  1. R.F. Ziemer, W.H. Tranter and D.R. Fannin, Signals and Systems - Continuous and Discrete , 4 th^ edition ,Prentice Hall, 1998. Reference Books:
  2. A. Papoulis, Circuits and Systems , Modern Approach, HRW, 1980
  3. Kuo, B. C, Automatic Control System , Prentice Hall of India

angle errors and their computations, specific differences for measuring and protection CTs. Testing of energy meters- phantom loading tests, different types of errors of an energy meter and their remedies, Oscilloscope- construction, working principle, measurement of voltage, time & frequency, Lissajous patterns, digital voltmeter, ammeter, frequency meter, resistance meter, energy meter and digital multimeter.

Text Books:

  1. E.W. Golding & F.C.Widdis, Electrical Measurements & Measuring Instruments , A.H.Wheeler & Co.
  2. Helfrick and Cooper, Modern Electronic Instrumentation and Measurement Techniques , Prentice-Hall, Reference Books:
  3. F. K. Harris , Electrical Measurement.
  4. Ernest Frank , Electrical Measurement Analysis. 4. Numerical Methods and Analysis

Solution to algebraic and transcendental equations by regula-falsi method, iteration method, Newton-Raphson method, simultaneous linear algebraic equations by Gauss-Jordon method, Crout’s method, factorization method, Gauss-Seidel iterative method, determination of eigen values. Numerical differentiation based on interpolation, numerical integration, a general quadrature formula for equidistant ordinates, the trapezoidal rule, Simpson’s 1/3rd^ and 3/8th^ rules, Weddles rule, Method of undetermined coefficients, extrapolation method. Numerical solution of ordinary differential equations of first order by Euler’s and Runge –Kutta’s method.Introduction to interpolation, interpolation with equal intervals, different interpolation methods (Newton-Gregory forward and backward difference formulae), interpolation with unequal intervals, divided differences and table, Newton’s divided difference formulae, central difference interpolation formulae (Gauss, Stirling, Bessel formulae), piecewise and spline interpolation, (cubic splines) least squares approximations.

Text Books:

  1. Robert J. Schiling and Sandra L. Harris, Applied Numerical Methods for Engineers using Matlab and C , Thomsom Asea Pte. Ltd.
  2. S.S. Sastry , Introductory methods of numerical analysis , 4 th^ edition, PHI Learning Pvt. Ltd., 2005 Reference Books:
  3. E. Kreyszig, Advanced Engineering Mathematics , 9 th^ edition, Wiley publication
  4. S. A. Mollah, Numerical methods , T.M.H. publication 5. Analog Electronics

Semiconductor diode characteristics, transistor characteristics, analysis and design of different biasing circuits, h-parameter model of BJT, mid frequency and low frequency analysis of CE, CB and CC amplifier, hybrid-pi model of BJT, high frequency analysis of BJT amplifiers, transistors as a switch; transient switching characteristics of transistors. Analysis and design of different biasing circuits of FET amplifiers small-signal low frequency model of FET, mid frequency and low frequency analysis of CS, CG and CD amplifiers, small-signal high frequency model of BJT, high frequency analysis of FET amplifiers, bode plots. General theory of feedback, stability of feedback amplifier, different feedback topologies effect of different parameters of an amplifier, frequency response of 2pole/3 pole feedback amplifiers, bode plot, gain and phase margin, compensation, method analysis, design examples. Differential amplifiers using BJT and FET characteristics of op- amp, ideal and non ideal properties, high frequency effects on op-amp gain and phase, bodes plot slew rate limitation, linear and non-linear circuit applications of op-amps, spice analysis of op-amp circuit integrator differentiator ,comparators, Schimitt trigger (inv and non-inv), triggerable and non-triggerable multivibrator, triangular and sinusoidal wave generators, precision rectifier, gyrator network, frequency dependent negative resistance (FDNR), peak detector, Wein bridge oscillator, phase shift oscillator, quadrature oscillator. Oscillators, harmonic oscillators, tuned oscillator, Colpits oscillator, Hartely oscillator. Voltage regulators, design of series voltage regulator, series regulator with current pre-regulator.

Text Books:

  1. J. Millman and A. Grabel,, Microelectronics , McGraw Hill, International, 1987.
  2. J. Millman and C. C. Halkias., Electronic Devices and Circuits , McGraw-Hill, New York. Reference Books:
  3. A.S. Sedra and K.C. Smith, Microelectronic Circuits , Saunder's College Publishing, 1991
  4. R. Boylestad and L. Nashelsky , Electronic Devices and Circuit Theory, Prentice Hall Publishing Co 6. Elective-I