ࡱ> q` bjbjqPqP 4p ::T+<<<<<((O4L(((((((",h.B(-AXOAA(/(A0(A(. H* $E<r U@E(0( .a| ..e4c>', 1$9ccc((ccc(AAAAd<< EN04 101 Engineering Mathematics IModule No : 2Module Name : Module II: Infinite Series (15 hours)Notion of convergence and divergence of infinite series - ratio test - comparison test - Raabe`s test - root test - series of positive and negative terms - absolute convergence - test for alternating series - power series - interval of convergence - Taylors and Maclaurins series expansion of functions - Leibnitz formula for the nth derivative of the product of two functions - use of Leibnitz formula in the Taylor and Maclaurin expansionsBooks : 1.Michael D. Greenberg, Advanced Engineeing Mathematics(second edition), Pearson Education Asia. 2.Wylie C.R. and L.C. Barrent, Advanced Engineering Mathematics, McGraw Hill 3.Kreyszig E., Advanced Engineering Mathematics, Wiley Eastern 4.Piskunov N., Differential and Integral calculus, MIR Publishers 5.Ayres F., Matrices, Schaum's Outline Series, McGraw Hill 6.Sastry, S.S., Engineering Mathematics-Vol.1 and2., Prentice Hall of India References : 1.Michael D. Greenberg, Advanced Engineeing Mathematics(second edition), Pearson Education Asia. 2.Wylie C.R. and L.C. Barrent, Advanced Engineering Mathematics, McGraw Hill 3.Kreyszig E., Advanced Engineering Mathematics, Wiley Eastern 4.Piskunov N., Differential and Integral calculus, MIR Publishers 5.Ayres F., Matrices, Schaum's Outline Series, McGraw Hill 6.Sastry, S.S., Engineering Mathematics-Vol.1 and2., Prentice Hall of India Module No : 3Module Name : Module III: Matrices (21 hours)Rank of a matrix - reduction of a matrix to echelon and normal forms - system of linear equations - consistency of linear equations - Gauss` elimination - homogeneous linear equations - fundamental system of solutions - solution of a system of equations using matrix inversion - Eigen values and eigen vectors - Cayley-Hamilton theorem - Eigen values of Hermitian, skew-Hermitian and unitary matrices- Diagonalisation of a matrix using Eigen values and Eigen vectors- quadratic forms- matrix associated with a quadratic form- definite, semidefinite and indefinite forms.Books : 1.Michael D. Greenberg, Advanced Engineeing Mathematics(second edition), Pearson Education Asia. 2.Wylie C.R. and L.C. Barrent, Advanced Engineering Mathematics, McGraw Hill 3.Kreyszig E., Advanced Engineering Mathematics, Wiley Eastern 4.Piskunov N., Differential and Integral calculus, MIR Publishers 5.Ayres F., Matrices, Schaum's Outline Series, McGraw Hill 6.Sastry, S.S., Engineering Mathematics-Vol.1 and2., Prentice Hall of India References : Module No : 4Module Name : Module IV: Fourier series and harmonic analysis (15 hours)Periodic functions - trigonometric series - Fourier series - Euler formulae - even and odd functions - functions having arbitrary period - half range expansions - approximation by trigonometric polynomials - minimum square error - numerical method for determining Fourier coefficients - harmonic analysis Books : 1.Michael D. Greenberg, Advanced Engineeing Mathematics(second edition), Pearson Education Asia. 2.Wylie C.R. and L.C. Barrent, Advanced Engineering Mathematics, McGraw Hill 3.Kreyszig E., Advanced Engineering Mathematics, Wiley Eastern 4.Piskunov N., Differential and Integral calculus, MIR Publishers 5.Ayres F., Matrices, Schaum's Outline Series, McGraw Hill 6.Sastry, S.S., Engineering Mathematics-Vol.1 and2., Prentice Hall of India References :  EN04 102 Engineering Mathematics IiModule No : 1Module Name : Ordinary differential equationsEquations of first order - separable, homogeneous and linear types - exact equations - orthogonal trajectories - linear second order equations - homogeneous linear equation of the second order with constant coefficients - fundamental system of solutions Solutions of the general linear equations of second order with constant coefficients- method of variation of parameters - Cauchy's equation - simple applications of differential equations in engineering problems, including problems in mechanical vibrations, electric circuits and bending of beamsBooks : References : Module No : 2Module Name : Laplace transformsGamma and Beta functions - definitions and simple properties - Laplace transform - inverse transform - Laplace transform -shifting theorems-Transforms of derivatives and integrals - differentiation and integration of transforms - transforms of unit step function and impulse function - transform of periodic functions - solution of ordinary differential equations using Laplace transformsBooks : References : Module No : 3Module Name : Vector differential calculusVector function of single variable - differentiation of vector functions - scalar and vector fields - gradient of a scalar field - divergence and curl of vector fields - their physical meanings - relations between the vector differential operatorsBooks : References : Module No : 4Module Name : Double and triple integrals and their evaluation - line, surface and volume integrals - Green`s theorem - Gauss` divergence theorem - Stokes` theorem (proofs of these theorems not expected) - line integrals independent of the pathBooks : References :  EN04 103A Engineering Physics (A)Module No : 2Module Name : Module II (11 hours )Interference of light- Interference due to division of amplitude- Interference from plane parallel thin films- Colours of thin films in reflected and transmitted light- Newtons rings- Meaurement of wavelength and refractive index- Thin wedge shaped film- Air wedge- Testing of optical planeness of surfaces. Interferometry- Michelsons interferometer Types of fringes- Visibility of fringes-Application of Michelsons interferometer in determination of wavelength of monochromatic light, resolution of spectral lines and refractive index of gases. Diffration of light-Introduction of Fresnel and Fraunhoffer class of diffraction and their distinction- Fresnels diffraction and rectilinear propogation of light-Diffraction pattern due to straight edg and expression for intensity maximum and minimum- Fraunhoffer diffraction Simple theory of diffraction grating, its construction and working- Rayleighs criteria. for resolution of spectral lines- Resolving power and dispersive power of grating.Books : Text 1.Sreenivasan M .R, Physics for Engineers, New Age International 2.Vasudeva A.S; Modern Engineering Physics, S. Chand 3.S.O. Pillai, Solid state physics, New Age InternationalReferences : Reference books 1.Tyagi, M.S. Introduction to semi conductor materials and devices, John Wiley and Sons 2.Mayer, Intoduction to classical and modern optics, Arendt 3.John Senior, Fibre optic communiction 4.G Aruldhas Quantum mechanics Prentice Hall of India 5.Murukesan R. Modern Physics -S.Chand and Co 6.Brijlal and Subrahmanyam N, Text book of Optics, S.Chand 7.Kale Gokhale; Fundamentals of Solid State Electronics, Kitab Mahal 8.Gupta S.L. and Kumar, V; Solid State Physics, K.Nath Module No : 2Module Name : Module II ( 11 hours) Quantum mechanics Newtonian mechanics and quantum mechanics The wave function Schrodingers wave equation for free particle Potentials in Schrodinger equation Time dependent Schrodinger equation Time independent Schrodinger equation - Expectation values - Derivation of Schrodinger equation Application - Particle in a box (Motion in one dimension) Ultrasonics - Piezo effect Piezo electric crystal production and detection of ultrasonics Applications of ultrasonics NMR and ESR - Basic principles of Nuclear Magnetic Resonance (NMR) and Electron Spin Resonance (ESR) Experimental method for detection of NMR and ESR Applications.Books : References : Module No : 3Module Name : Module III (11 hours).Poarisation of light- Double refraction- Huygens explanationof double refraction in uniaxial crystals-Positive and negative crystals- Nicol prism, construction and working Quarter and half wave plates- Theory of circularly and elliptically polarised light, their production and detection- Rotatory polarisation- Laurents half shade (brief explanation)- Laurents half shade polarimeter- Applications of polarised light. Laser physics- Basic concepts and properties of laser- Spontaneous and stimulated emission- Expression for ratio of their coefficients- Absorption,-population inversion and optical pumping-Construction and components of a laser-Ruby,Helium and Neon and semiconductor lasers- Applicattion of lasers. Basic principle of holography and its application. Fibre optics- Basic principle fibre dimensions and construction- Step index single mode and multi mode fibre- Graded index fibre-Numerical aperature and acceptance angle- Signal distortion in optical fibres and transmission losses( brief ideas only)- optic fibre communication (block diagram) and its advantages- Applications of optic fibres. Books : Text 1.Sreenivasan M .R, Physics for Engineers, New Age International 2.Vasudeva A.S; Modern Engineering Physics, S. Chand 3.S.O. Pillai, Solid state physics, New Age InternationalReferences : Reference books 1.Tyagi, M.S. Introduction to semi conductor materials and devices, John Wiley and Sons 2.Mayer, Intoduction to classical and modern optics, Arendt 3.John Senior, Fibre optic communiction 4.G Aruldhas Quantum mechanics Prentice Hall of India 5.Murukesan R. Modern Physics -S.Chand and Co 6.Brijlal and Subrahmanyam N, Text book of Optics, S.Chand 7.Kale Gokhale; Fundamentals of Solid State Electronics, Kitab Mahal 8.Gupta S.L. and Kumar, V; Solid State Physics, K.Nath Module No : 3Module Name : Module III (11 hours) Laser Physics - Basic concepts of laser Spontaneous and stimulated emission Absorption Population inversion Optical pumping Construction and components of laser Ruby Laser, Helium Neon Laser and semiconductor Laser Applications - Basic principle of holography and its application. Fibre Optics - Basic Principle - Fibre constructions - Fibre dimensions - Light propagation in fibre - Signal distortion in optical fibers and transmission losses (brief ideas only) - Light wave communication using optical fibers and its advantages - Applications.Books : References : Module No : 4Module Name : Module I (11 hours)Semi conductor Physics- Formation of energy bands in solids- Classification of solids on the basis of energy band gap-Intrinsic and extrinsic semiconductors- Elemental and compound Semiconductors- Fermi level in intrinsic semiconductor- Electron and hole concentrations in intrinsic semi conductor in thermal equilibrium- Law of mass action-Electrical conductivity of intrinsic semiconductor- Fermi level in n-type and p-type semiconductors- Electrical conductivity of extrinsic semi conductor- Diffusion and total current. Application of semi conductors- Band model of p-n junction- Junction diode and its characteristics- characteristics of a transistor in common emitter configuration- Input, output resistance and current amplification factor- Light emitting diode, photo diode,solar cell, photo resistor (LDR),photo transistor, liquid crystal display(LCD) and zener diode- Avalanche and zener breakdown- Application of zener diode as a voltage regulator. Hall effect in semiconductors- Derivation of Hall coefficient-Determination of Hall coefficient by measuring Hall voltage-Applications of Hall effect Super conductivity- Properties of super conductors (critical magnetic field,Meisnner effect, critical current,flux quantisation)- Types of super conductors- BCS theory of super conductivity (qualitative)-Josephons effect- Theory of d.c. Josephons effect- SQUID - Applications of super conductivity Books : Text 1.Sreenivasan M .R, Physics for Engineers, New Age International 2.Vasudeva A.S; Modern Engineering Physics, S. Chand 3.S.O. Pillai, Solid state physics, New Age InternationalReferences : Reference books 1.Tyagi, M.S. Introduction to semi conductor materials and devices, John Wiley and Sons 2.Mayer, Intoduction to classical and modern optics, Arendt 3.John Senior, Fibre optic communiction 4.G Aruldhas Quantum mechanics Prentice Hall of India 5.Murukesan R. Modern Physics -S.Chand and Co 6.Brijlal and Subrahmanyam N, Text book of Optics, S.Chand 7.Kale Gokhale; Fundamentals of Solid State Electronics, Kitab Mahal 8.Gupta S.L. and Kumar, V; Solid State Physics, K.Nath Module No : 4Module Name : Module IV (11 hours).Plancks quantum theory- Absorbing power, reflecting power and transmitting power of a body or surface- Perfect black body- Distribution energy in the spectrum of a black body- Weins displacement law- Plancks hypothesis- Derivation of Plancks law of radiation. Quantum mechanics- Distinction between Newtonian and quantum mechanics- Schroedinger wave equation for free particle Potential in schrodinger equation Time dependant and time independant schroedinger equations and their derivations- Expectation values- Applications-Particle in a box (motion in one dimension). Ultrasonics- Piezo electric effect- Piezo electric crystal- Production of ultrasonics by piezo-electric oscillater- Detection of ultrasonics General properties and applications of ulltrasonics Ultrasonic diffractometer and determination of velocity of ultrasonics in a liquid. Books : Text 1.Sreenivasan M .R, Physics for Engineers, New Age International 2.Vasudeva A.S; Modern Engineering Physics, S. Chand 3.S.O. Pillai, Solid state physics, New Age InternationalReferences : Reference books 1.Tyagi, M.S. Introduction to semi conductor materials and devices, John Wiley and Sons 2.Mayer, Intoduction to classical and modern optics, Arendt 3.John Senior, Fibre optic communiction 4.G Aruldhas Quantum mechanics Prentice Hall of India 5.Murukesan R. Modern Physics -S.Chand and Co 6.Brijlal and Subrahmanyam N, Text book of Optics, S.Chand 7.Kale Gokhale; Fundamentals of Solid State Electronics, Kitab Mahal 8.Gupta S.L. and Kumar, V; Solid State Physics, K.Nath  EN04 103A(P) Physics Lab( A)Module No : 1Module Name : all1.Band gap energy in a semi conductor using a reverse biased p-n junction. 2.Static characteristcs of a transistor (p-n-p or n-p-n )in common emitter configuration. 3.Characteristics of a Zener diode 4.Characterisitics of a LED.and wave length of emitted radiation 5.Characterisitc of a photo diode. 6.Characterisitic of a photo resistor (LDR) 7.Voltage regulation using Zener diode 8.Wavelength of mercury spectral lines using diffraction grating and spectrometer. 9.Refractive indices of ordinary and extra ordinary rays in calcite or in quarts prisms. 10.Wave length of sodium light by Newtons rings method. 11.Diameter of a thin wire or thickness of a thin paper by air wedge method. 12.Specific rotatory power of cane sugar solution using polarimeter. 13.Frequency of an electrically maintained tuning fork(transverse and longitudinal mode) 14.Wave length and velocity of ultrasonic waves using ultrasonic difractometer. 15.Divergence of laser beamsusing He-Ne laser or diode laser 16.Wave length of laser using transmission grating. 17.Resolving and dispersive power of a grating . 18.Wave length of a monochromatic light by straight edge using laser beam. 19.Characterics of a solar cell. 20.Plancks constant using photo-electric cell or solar cell 21.Hall coefficient by measuring Hall voltage in a semi conductor. 22.Measurement of numerical aperature , acceptance angle and attenuation in an optical fibre. 23.Measurement of displacements using optic fibre. 24.Michelsons inerfeometer-determination of wavelength of a monochromatic source, resolution of spectral lines and refractive index. of a gas. ( Any 12 experiments should be done ) Books : References : Reference Books:- 1 Practical Physics with viva voice- Dr. S.L.Guptha and Dr.V Kumar- Publishers- Pragati Prakashan. 2 Experiments in Engineering Physics- M.N. Avadhanulu, A.A.Dani, and R.M.Pokley- Publishers- S. Chand. EN04 104A Engineering Chemistry AModule No : 1Module Name : Structure of solids - geometry of crystalline solids - space lattices - crystal structure - Bragg's law of X-ray diffraction - covalent solids - ionic solids - metals and alloys - noncrystalline states - crystal imperfections - point defects - dislocations - conductors and resistors - free electron theory - super conductors - semiconductors - intrinsic and extrinsic - semiconductor materials and their fabrication - liquid crystals - dielectric materials - polarization - feroelectric materials Books : References : Module No : 3Module Name : Module -3 (9 Hours)Electrochemistry: Single Electrode potential (theory Nernst equation, derivation from thermodynamic principles) types of electrodes (M|M+, M|MA|A-, M|A+,A+2, Pt|H2|H+, Pt|Cl2|Cl-, Pt|O2|OH- -glass electrode) Electrochemical cells-concentration cells-Salt bridge Liquid junction potential- emf measurement Poggendorfs compensation method- digital method electrochemical series over voltage theory application in corrosion control Polarography- storage cells lead acid, Ni/Cd, Fuel cells H2/O2 fuel cells(Bacon cell), Hydrocarbon/air fuel cell-Bio-chemical fuel Cell . (5 Hours) Acid- Bases (Lowry-Bronsted and Lewis concepts examples) concept of pH pH measurement (instrumental details required) - Dissociation constants-Potentiometric titrations-(Neutralization, Oxidation-reduction, and Precipitation ) Buffer solutions Hendersons equation for calculation of pH (4 Hours) Books : References : Ref: S.Glasstone (1997) Textbook of Physical Chemistry Macmillan, New Delhi, pp-1320 P.W.Atkins (1987) Physical Chemistry Oxford University Press, Oxford, pp-857 C.A.Hampel (Ed)(1964 ) Encyclopedia of Electrochemistry, Reinhold Publishing Corporation, New York, pp-1206 A.Standen (Ed) (1964) Kirk-Othmr Encylopaedia of Chemical Technology, Vol.3, John Wiley and Sons.Inc, New York, pp-925Module No : 3Module Name : Module2 (13 Hours)High Polymers and Lubricants- Classification of Polymers-(Natural and Synthetic, Organic and Inorganic, Thermoplasic and Thermosetting, Plastics, Elastomers, Fibres and liquid resins) Polymerization (Chain polymerization Polythene- PVC- Teflon polystyrene -poly-methylmethacrylate) Condensation polymerization(Polyamide and Polyesters) Co-polymerization (Buna-S, Buna-N, PVC- Co-polyvinylacetate, PAN-Co-polyvinyl Chloride),Coordination polymerization (Ziegler- Natta Polymerization)-Electrochemical Polymerization- Metathetical Polymerization-Group transfer Polymerization (3 Hours) Mechanism of polymerization (Cationic, anionic, and free radical).Polymerization techniques( Bulk polymerization, Solution polymerization, Suspension polymerization, Emulsion polymerization, Melt polycondensation, Solution polycondensation, Interfacial condensation, Solid and Gas Phase Polymerization (2 Hours) Structure relation to properties(Chemical resistance, Strength, Plastic deformation, Extensibility, Crystallinity) -Mol.Wt of Polymers-Number average Molecular wt, Weight average Mol.wt- Gel Permeation Chromatography (1 Hour) Thermosetting resins (Bakelite, Urea-Formaldehyde, Silicones), Thermoplastic resins (Acrylonitrile, PVC, PVA ,PS, PMMA, PE).-Fibres (Nylon6, Nylon66,Nylon6,10, Cellulose fibres, dacron, Kevlar) Application of polymers in electronic and electrical industry. Elastomers-Natural rubber-Structure-Vulcanization-Synthetic rubbers (Neoprene, Buna-S, Buna-N, thiokol, Silicone rubber) ( 3 Hours) Compounding of Plastics ( Fillers, Plasticizers, lubricants, pigments, antioxidants, Stabilizers) and Fabrication (Calendering, Die Casting, Film casting, Compression, injection, Extrusion and Blow moulding , Thermoforming, Foaming, Reinforcing) ( 1 Hour) Lubricants: Theory of friction mechanisms of lubrication Fluid film or hydrodynamic, thin film or boundary lubrication, extreme pressure lubrication-Classification of Lubricants-(Liquid(animal and vegetable oils, Petroleum oils),Semi-solid (Ca-soap grease, Li-soap grease, Al-soap grease, Axle grease) Solid lubricants (Graphite, Molybdenum di-sulphide- Structure relation to lubrication property) and synthetic lubricants (Di-basic acid esters, Poly glycol ethers, Organo phosphates, Organo silicones) ). Properties of Lubricants (Viscosity index, Cloud point and pour point, flash point and fire point, Corrosion stability, Emulsification, Aniline point). Additives and their functions (Fatty acids, Sulphurised fats, Phenols, Calcium sulphonates, Organo-metallics, Hexanol, Amine phosphates, Tricresyl phosphates, Silicon polymers) (3 Hours) Books : References : Ref: B.R.Gowariker et.al (2002) Polymer Science New Age International pp-505 B.W.Gonser et.al (1964) Modern Materials-advances in development and application Vol 1-7, Academic Press, New York. Module No : 4Module Name : High polymers and lubricants - polymerisation and functionality - chain, condensation and copolymerisation - mechanism - coordination polymerisation - polymerisation processes - structure, properties and molecular weight of polymers - thermosetting and thermoplastics materials - application in electrical and electronic industries - elastomers - vulcanization - synthetic rubbers - lubricants - theory of friction - mechanisms of lubrication - classification and properties of lubricants - additives - synthetic lubricants - solid lubricants Books : References :  EN04 105 Humanities Module No : 1 Module Name : Module I (10 hours) Introduction to English usage and grammar-Review of grammar - affixes, prefixes, suffixes, participles and gerunds - transformation of sentences - commonly misspelt words - correction of mistakes - punctuation - idioms - style - vocabulary building Reading comprehension -Exposure to a variety of reading materials, articles, essays, graphic representation, journalistic articles, etc. Writing comprehension-Skills to express ideas in sentences, paragraphs and essays Books : References : Reference books 1.Huddleston R., English Grammer - An outline, Cambridge University Press 2.Pennyor, Grammar Practice Activities, Cambridge University Press 3.Murphy, Intermediate English Grammar, Cambridge University Press 4.Hashemi, Intermediate English Grammar-Supplementary Exercises with answers", Cambridge University Press 5.Vesilind; Engineering, Ethics and the Environment, Cambridge University Press 6.Larson E; History of Inventions, Thompson Press India Ltd. 7.Bernal J.D., Science in History, Penguin Books Ltd 8.Dampier W.C., History of Science", Cambridge University Press 9.Encyclopedia Britannica, History of Science, History of Technology 10.Subrayappa; History of Science in India, National Academy of Science, India 11.Brownoski J, Science and Human Values, Harper and Row 12.Schrodinger, Nature and Greeks and Science and Humanism, Cambridge University Press 13.Bossel, H, Earth at a Crossroads - paths to a sustainable Future, Cambridge University Press 14.McCarthy, English Vocabulary in Use, Cambridge University Press 15.Anna University, English for Engineers and Technologists, Orient Longman 16.Meenakshi Raman et al., Technical communication Principles and practice, Oxford University Press Module No : 2 Module Name : Module II (10 hours) Technical communication and report writing Technical communication and report writing Need, importance and characteristics of technical communication correspondance on technical matters-aspects of technical description of machinery, equipment and processes - giving instructions in an industrial situation - note taking and note making - correspondence on technical topics - different types of technical reports Books : References : Reference books 1.Huddleston R., English Grammer - An outline, Cambridge University Press 2.Pennyor, Grammar Practice Activities, Cambridge University Press 3.Murphy, Intermediate English Grammar, Cambridge University Press 4.Hashemi, Intermediate English Grammar-Supplementary Exercises with answers", Cambridge University Press 5.Vesilind; Engineering, Ethics and the Environment, Cambridge University Press 6.Larson E; History of Inventions, Thompson Press India Ltd. 7.Bernal J.D., Science in History, Penguin Books Ltd 8.Dampier W.C., History of Science", Cambridge University Press 9.Encyclopedia Britannica, History of Science, History of Technology 10.Subrayappa; History of Science in India, National Academy of Science, India 11.Brownoski J, Science and Human Values, Harper and Row 12.Schrodinger, Nature and Greeks and Science and Humanism, Cambridge University Press 13.Bossel, H, Earth at a Crossroads - paths to a sustainable Future, Cambridge University Press 14.McCarthy, English Vocabulary in Use, Cambridge University Press 15.Anna University, English for Engineers and Technologists, Orient Longman 16.Meenakshi Raman et al., Technical communication Principles and practice, Oxford University Press Module No : 3 Module Name : Module III (14 hours) History of science and technology Science and technology in the primitive society the development of human civilization from primitive to modern society- impact of sciences and technology on societies Cultural and industrial revolutions - the rise and development of early Indian science contribution of Indian scientist-JC Bose, CV Raman, Visweswaraya-Ramanujam and Bhabha- Gandhian concepts- recent advances in Indian science Books : References : Reference books 1.Huddleston R., English Grammer - An outline, Cambridge University Press 2.Pennyor, Grammar Practice Activities, Cambridge University Press 3.Murphy, Intermediate English Grammar, Cambridge University Press 4.Hashemi, Intermediate English Grammar-Supplementary Exercises with answers", Cambridge University Press 5.Vesilind; Engineering, Ethics and the Environment, Cambridge University Press 6.Larson E; History of Inventions, Thompson Press India Ltd. 7.Bernal J.D., Science in History, Penguin Books Ltd 8.Dampier W.C., History of Science", Cambridge University Press 9.Encyclopedia Britannica, History of Science, History of Technology 10.Subrayappa; History of Science in India, National Academy of Science, India 11.Brownoski J, Science and Human Values, Harper and Row 12.Schrodinger, Nature and Greeks and Science and Humanism, Cambridge University Press 13.Bossel, H, Earth at a Crossroads - paths to a sustainable Future, Cambridge University Press 14.McCarthy, English Vocabulary in Use, Cambridge University Press 15.Anna University, English for Engineers and Technologists, Orient Longman 16.Meenakshi Raman et al., Technical communication Principles and practice, Oxford University Press Module No : 4 Module Name : Module IV (10 hours) Humanities in a technological age Humanities in a technological age Importance of humanities to technology, education and society - relation of career interests of engineers to humanities - relevance of a scientific temper - science, society and culture Books : References : Reference books 1.Huddleston R., English Grammer - An outline, Cambridge University Press 2.Pennyor, Grammar Practice Activities, Cambridge University Press 3.Murphy, Intermediate English Grammar, Cambridge University Press 4.Hashemi, Intermediate English Grammar-Supplementary Exercises with answers", Cambridge University Press 5.Vesilind; Engineering, Ethics and the Environment, Cambridge University Press 6.Larson E; History of Inventions, Thompson Press India Ltd. 7.Bernal J.D., Science in History, Penguin Books Ltd 8.Dampier W.C., History of Science", Cambridge University Press 9.Encyclopedia Britannica, History of Science, History of Technology 10.Subrayappa; History of Science in India, National Academy of Science, India 11.Brownoski J, Science and Human Values, Harper and Row 12.Schrodinger, Nature and Greeks and Science and Humanism, Cambridge University Press 13.Bossel, H, Earth at a Crossroads - paths to a sustainable Future, Cambridge University Press 14.McCarthy, English Vocabulary in Use, Cambridge University Press 15.Anna University, English for Engineers and Technologists, Orient Longman 16.Meenakshi Raman et al., Technical communication Principles and practice, Oxford University Press  EN04 106 A Engineering Graphics (A) Module No : 4 Module Name : Module - IV (12 Hours - 3 drawing exercises) a) Introduction to isometric projection - isometric scale - isometric views - isometric projections of prisms, pyramids, cylinder, cone, spheres, sectioned solids and combinations of them. Principle of oblique projection - cavalier, cabinet and general oblique projections of solids and simple objects. b) Introduction to perspective projections - Classification of perspective views - parallel, angular and oblique perspectives - visual ray method and vanishing point method of drawing perspective projection- perspective views of prisms, pyramids and circles. Books : Text books 1.John K.C., Engineering Graphics, Jet Publications 2.P.I. Varghese, Engineering Graphics, VIP Publications 3.Bhatt N.D., Elementary Engineering Drawing, Charotar Publishing House Reference books 4.Luzadder W.J., Fundamentals of Engineering Drawing, Prentice Hall of India 5.Narayana K.L and Kannaiah P, Engineering Graphics, Tata McGraw Hill 6.Gill P.S., Geometrical Drawing, Kataria and sons References : Module No : 4 Module Name : Module IV (22 hours - 6 drawing exercises) a) Introduction to machine drawing - Types of sectional views - Full-sectional and half-sectional views of simple machine components. b) Conventional representation of threaded fasteners - Drawing of nuts, bolts, washers and screws - Locking arrangements of nuts - Bolted and screwed joints - Foundation bolts of eye end type, hook end type and split end type. Note: All drawing exercises mentioned above are for class work. Additional exercises wherever necessary may be given as home assignments. Books : References : Module No : 5 Module Name : Module - V(12 Hours - 6 drawing exercises) a) Introduction to multiview projection of objects - the principle of the six orthographic views - convertion of pictorial views of simple engineering objects into orthographic views. b) Conventional representation of threaded fasteners. Drawing of nuts, bolts, washers and screws . Locking arrangements of nuts. Bolted and Screwed joints. Foundation bolts of eye end type, hook end type and split end type. NOTE: All drawing exercises mentioned above are for class work. Additional exercises where ever necessary may be given as home assignments. Books : Text books 1.John K.C., Engineering Graphics, Jet Publications 2.P.I. Varghese, Engineering Graphics, VIP Publications 3.Bhatt N.D., Elementary Engineering Drawing, Charotar Publishing House Reference books 4.Luzadder W.J., Fundamentals of Engineering Drawing, Prentice Hall of India 5.Narayana K.L and Kannaiah P, Engineering Graphics, Tata McGraw Hill 6.Gill P.S., Geometrical Drawing, Kataria and sons References : Module No : 6 Module Name : Module - 0 ( 8 Hours - 1 Drawing exercise) Drawing instruments and their use - different types of lines - lettering and dimensioning - familiarization with current Indian Standard Code of practice for general engineering drawing. Construction of ellipse, parabola and hyperbola. Construction of cycloid, involute and helix. Introduction to Computer Aided Drafting. (For practice only, not for University Examination) Module - 1 (12 Hours - 3 drawing exercises) a) Introduction to orthographic projections - vertical, horizontal and profile planes - principles of first angle and third angle projections. Projections of points in different quadrants. Orthographic projections of straight lines parallel to one plane and inclined to the other plane - straight lines inclined to both the planes and occupied in one quadrant- traces of lines. b) True length and inclination of a line with reference planes. Line occupied in more than one quadrant. Line inclined to the two reference planes but parallel to the profile plane. line dimensioned in surveyors unit. Books : Text books 1.John K.C., Engineering Graphics, Jet Publications 2.P.I. Varghese, Engineering Graphics, VIP Publications 3.Bhatt N.D., Elementary Engineering Drawing, Charotar Publishing House Reference books 4.Luzadder W.J., Fundamentals of Engineering Drawing, Prentice Hall of India 5.Narayana K.L and Kannaiah P, Engineering Graphics, Tata McGraw Hill 6.Gill P.S., Geometrical Drawing, Kataria and sons References : Module No : 7 Module Name : Module - II (16 Hours - 3 drawing exercises) a) Projections of plane laminae of geometrical shapes parallel to one plane and inclined to the other plane - plane laminae inclined to both the planes. Auxiliary projections of plane laminae. Projections of laminae inclined to the two reference planes but perpenticular to the profile plane. b) Projections of polyhedra and solids of revolution - frustums - projections of solids with axis parallel to one plane and inclined to the other plane. Projections of solids with the axis inclined to both the planes.(Solids to be drawn : Cube, prisms, pyramids, tetrahedron, cone, and cylinder.)Projections of solids on auxiliary planes. Projections of combinations of solids. ( Solids to be drawn : Prisms, pyramids, tetrahedron, cube, cone, and sphere) Books : Text books 1.John K.C., Engineering Graphics, Jet Publications 2.P.I. Varghese, Engineering Graphics, VIP Publications 3.Bhatt N.D., Elementary Engineering Drawing, Charotar Publishing House Reference books 4.Luzadder W.J., Fundamentals of Engineering Drawing, Prentice Hall of India 5.Narayana K.L and Kannaiah P, Engineering Graphics, Tata McGraw Hill 6.Gill P.S., Geometrical Drawing, Kataria and sons References :  EN04 107 A Engineering Mechanics(A) Module No : 1 Module Name : Principles of statics Free body diagrams Coplanar forces and Force systems Resultant and equilibrium conditions for concurrent, parallel and general system of forces Solution of problems by scalar approach. Introduction to vector approach (Application to simple problems only) Concurrent forces in space Resultant Equilibrium of a particle in space Non-concurrent forces in space - Resultant of force systems. Books : References : Module No : 2 Module Name : Module I (17 hours) Principles of statics Free body diagrams Coplanar forces and Force systems Resultant and equilibrium conditions for concurrent, parallel and general system of forces Solution of problems by scalar approach. Introduction to vector approach (Application to simple problems only) Concurrent forces in space Resultant Equilibrium of a particle in space Non-concurrent forces in space - Resultant of force systems. Books : Text Books 1.Timoshenko and Young, Engineering Mechanics, McGraw Hill Publishers 2.Hibbeler, Engineering Mechanics, Vol.I statics, Vol II Dynamics, Pearson 3.Shames, I.H., Engineering Mechanics- Statics and Dynamics, Prentice Hall of India References : Reference Books 1.Beer,F.P. and Johnson, E.R., Mechanics for Engineers- Statics and Dynamics, McGraw Hill Publishers. 2.Rajasekharan and Sankarasubramanian, Engineering Mechanics, Vikas Publishing House Module No : 3 Module Name : Module II (17 hours) Friction Laws of friction Simple contact friction problems Wedge Screw jack and its efficiency. Properties of surfaces First moment and centroid of curve and area Centroid of composite plane figures Theorems of Pappus-guldinus- Second moments of plane figures and composite sections Transfer theorems Polar moment of area Product of area and Principal axes (conceptual level treatment only). Moment of inertia of a rigid body M.I of a lamina M.I of 3 dimensional bodies (cylinder, circular rod, sphere). Books : Text Books 1.Timoshenko and Young, Engineering Mechanics, McGraw Hill Publishers 2.Hibbeler, Engineering Mechanics, Vol.I statics, Vol II Dynamics, Pearson 3.Shames, I.H., Engineering Mechanics- Statics and Dynamics, Prentice Hall of India References : Reference Books 1.Beer,F.P. and Johnson, E.R., Mechanics for Engineers- Statics and Dynamics, McGraw Hill Publishers. 2.Rajasekharan and Sankarasubramanian, Engineering Mechanics, Vikas Publishing House Module No : 3 Module Name : Introductin to structural mechanics - Different types of supports, loads and beams-Reactions at supports. Shear force and Bending moment in beams shear force and bending moment diagrams for cantilever and simply supported beams (only for concentrated and uniformly disttributted load cases). Planae trusses-Types of trusses (Perfect, Deficient and Redundant trusses) - Analysis of trusses - Method of joints- Method of sections. Books : References : Module No : 4 Module Name : Module IV (15 hours) Kinetics of rectilinear motion Newtons second law DAlemberts principle Motion on horizontal and inclined surfaces Analysis of lift motion - Motion of connected bodies. Curvilinear motion Equation of motion Tangential and normal acceleration - Centripetal and centrifugal forces Motion of vehicles on circular path. Work, Power and Energy Work done by a force Work of the force of gravity and force of spring - Work-energy equation Transformation and conservation of energy Applications to problems. Kinematics of rotation Rigid body rotation about a fixed axis Rotation under the action of constant moment. Introduction to mechanical vibrations - Simple harmonic motion free vibration Oscillation of spring - Torsional vibration Books : Text Books 1.Timoshenko and Young, Engineering Mechanics, McGraw Hill Publishers 2.Hibbeler, Engineering Mechanics, Vol.I statics, Vol II Dynamics, Pearson 3.Shames, I.H., Engineering Mechanics- Statics and Dynamics, Prentice Hall of India References : Reference Books 1.Beer,F.P. and Johnson, E.R., Mechanics for Engineers- Statics and Dynamics, McGraw Hill Publishers. 2.Rajasekharan and Sankarasubramanian, Engineering Mechanics, Vikas Publishing House  AI04 108 Basic Electronics Module No : 1 Module Name : Module 1 (Hours 10) Electron ballistics Motion of electron in Electric field Two dimensional motion of electrons in uniform electric field- motion of electron in transverse magnetic filed Electron motion in parallel electric and magnetic fields- Electron motion in perpendicular electric and magnetic field. Electrostatic and magnetic deflection sensitivities. CRO- Principle, CRT, block diagram of CRO. Magnetic focusing-electrostatic focusing, applications of CRO. Multimeter-principle of measurement of voltage, current and resistance. Vacuum diode, triode and pentode- principles of operation only. Books : Text Books 1.Milman, J. and Halkias, C. Electronic Devices and Circuits, Tata McGraw Hill. 2.Adel S. Sedra and Kenneth C. Smith, Microelectronic Circuits, Oxford University Press. References : Reference 1.Boylestad, R. and Nashelsky, L. Electronic Devices and Circuit Theory, PHI/Pearson 2.Boggart T.F. Electronic Devices and Circuits, UBS. 3.Horenstein, M. N. Micro Electronics Circuits, PHI. Module No : 2 Module Name : Module 2 (Hours 12) Electronic components (Brief discussion only-construction aspects not required). Resistors-fixed and variable, different types, characteristics, colour coding and tolerance. Capacitors-fixed and variable, different types, characteristics. Inductors, Relays and transformers-different types The ideal diode- terminal characteristics of practical diodes- analysis of diode circuits-DC model of the diode- Zener diodes- clipping and clamping circuits Transistors- Physical structure and modes of operation- graphical representation of transistor characteristics- DC equivalent model and analysis- The three configuration- comparison and basic applications- Junction filed effect transistors- structural features, operation and VI characteristics. Books : Text Books 1.Milman, J. and Halkias, C. Electronic Devices and Circuits, Tata McGraw Hill. 2.Adel S. Sedra and Kenneth C. Smith, Microelectronic Circuits, Oxford University Press. References : Reference 1.Boylestad, R. and Nashelsky, L. Electronic Devices and Circuit Theory, PHI/Pearson 2.Boggart T.F. Electronic Devices and Circuits, UBS. 3.Horenstein, M. N. Micro Electronics Circuits, PHI. Module No : 3 Module Name : Module 3 (Hours 10) Graphical analysis of BJT operations- Biasing- load line, Q-point effect of Q-point location on allowable signal swing- different resistor biasing circuits- various biasing technique- using two DC sources- potential divider biasing, collector feed back biasing- Bias stability- definition of stability factors- calculation of stability factor for potential divider biasing circuit. Books : Text Books 1.Milman, J. and Halkias, C. Electronic Devices and Circuits, Tata McGraw Hill. 2.Adel S. Sedra and Kenneth C. Smith, Microelectronic Circuits, Oxford University Press References : Reference 1.Boylestad, R. and Nashelsky, L. Electronic Devices and Circuit Theory, PHI/Pearson 2.Boggart T.F. Electronic Devices and Circuits, UBS. 3.Horenstein, M. N. Micro Electronics Circuits, PHI. Module No : 4 Module Name : Module 4 ( Hours 12) Rectifiers and power supplies Half wave and full wave rectifiers. Definition and derivation of rectifier specifications such as PIV, DC output voltage, ripple factor, efficiency, rectification factor- rectifiers with filter: Inductive filter-analysis capacity filter- LC and pi filters. Simple Zener regulator working analysis and design Series voltage regulator analysis and design. Books : Text Books 1.Milman, J. and Halkias, C. Electronic Devices and Circuits, Tata McGraw Hill. 2.Adel S. Sedra and Kenneth C. Smith, Microelectronic Circuits, Oxford University Press. References : Reference 1.Boylestad, R. and Nashelsky, L. Electronic Devices and Circuit Theory, PHI/Pearson 2.Boggart T.F. Electronic Devices and Circuits, UBS. 3.Horenstein, M. N. Micro Electronics Circuits, PHI.  EE04 109 Basic Electrical Engineering Module No : 1 Module Name : Module 1 (10 hours) Elementary concept and definitions of current, voltage, power and energy Introductory circuit analysis - Independent voltage and current sources- Dependent voltage and current sources - Source transformation - Ohms law Kirchoffs laws Solutions of simple series, parallel and series-parallel circuits with DC excitation Solutions of resistive circuits with dependent sources Mesh analysis and Nodal analysis Nodal conductance matrix and mesh resistance matrix. Basic network theorems Linearity Concept of a linear element Concept of a linear circuit Passive vs. active elements Bilateral & unilateral elements Thevenins theorem Nortons theorem Superposition theorem Substitution theorem Maximum power transfer theorem. Books : Text Books Hughes E. Electrical technology, Pearson Education. D.P. Kothari & Nagarth Theory and problems of Basic Electrical Engineering Prentice Hall (India) PVT LTD. Referance Edminister J A. Electric circuits, Schaums series. McGraw Hill Van valkenberg, Electric circuits and network analysis, Prentice Hall (India) PVT LTD. Smarjith Ghosh Fundamentals of Electrical and Electronics Engineering Prentice Hall (India) PVT LTD. References : Module No : 2 Module Name : Module II (12 hours) Magnetic circuits MMF Magnetic flux Reluctance Comparison of magnetic and electric circuits Magnitisation curves of ferromagnetic materials Solution of magnetic circuits. Faradays laws of electromagnetic induction - Lenzs law - Dynamically and statically induced emfs - Self and mutual inductances - Inductances in series and parallel Mutual flux and leakage flux - Coefficient of coupling - Dot convention- Cumulative and differential connection of coupled coils. Electostatics - Capacitance- Parallel plate capacitor - Capacitors in series and parallel Charging and discharging of capacitor - Energy stored in electrostatic fields potential gradient Dielectric strength. Two terminal element relationships V-I relationship for inductance and capacitance. Time domain analysis of circuits - Linier differential equations for series RL and RC, parallel RL and RC, series RLC and parallel RLC circuits - Complete solution for step/dc, voltage/current inputs Natural response Transient response - Time constant - Rise and fall times Determination of initial conditions. Books : Text Books Hughes E. Electrical technology, Pearson Education. D.P. Kothari & Nagarth Theory and problems of Basic Electrical Engineering Prentice Hall (India) PVT LTD. Referance Edminister J A. Electric circuits, Schaums series. McGraw Hill Van valkenberg, Electric circuits and network analysis, Prentice Hall (India) PVT LTD. Smarjith Ghosh Fundamentals of Electrical and Electronics Engineering Prentice Hall (India) PVT LTD. References : Module No : 3 Module Name : Module III. (12 hours) Single phase AC circuits: Alternating quantities - Generation sinusoidal emf.-Mathematical equations - Definitions and explanations of the terms: wave form, cycle, time period, frequency, amplitude, phase, phase difference, rms value, average value, form factor and peak factor - Calculations for square, triangle, trapezoidal and sinusoidal waveforms. Phasor representation of sinusoidal qualities - Phase difference - Addition and subtraction of sinusoids Symbolic representation - Cartesian, polar and exponential forms. Analysis of ac circuits: R, L, C, RL, RC and RLC circuits using phasor concept -Concept of impedance, admittance, conductance and susceptance Power in single phase circuits Instantaneous power - Average power - Active and reactive powers - Apparent power - Power factor - Complex power Solutions of series, parallel and series-parallel AC circuits. - Series and parallel resonances Q-factor - Frequency response curves - Half power frequencies Bandwidth Application of Thevenins and Nortons theorems for AC circuits. Books : Text Books Hughes E. Electrical technology, Pearson Education. D.P. Kothari & Nagarth Theory and problems of Basic Electrical Engineering Prentice Hall (India) PVT LTD. Referance Edminister J A. Electric circuits, Schaums series. McGraw Hill Van valkenberg, Electric circuits and network analysis, Prentice Hall (India) PVT LTD. Smarjith Ghosh Fundamentals of Electrical and Electronics Engineering Prentice Hall (India) PVT LTD. References : Module No : 4 Module Name : Module IV (10 hours) Analysis of polyphase circuits 2 phase circuits Three phase AC circuits Generation of 3 phase AC voltages Balanced system Phase sequence Star-delta transformation Balanced 3 phase AC source supplying balanced 3 phase star connected and delta connected loads 3 wire and 4 wire systems - Neutral current Active power, reactive power, apparent power, and power factor Power factor improvement Unbalanced systems Neutral shift (explanation and concept only) Three phase power measurement Three wattmeter and Two wattmeter methods. Books : Text Books Hughes E. Electrical technology, Pearson Education. D.P. Kothari & Nagarth Theory and problems of Basic Electrical Engineering Prentice Hall (India) PVT LTD. Referance Edminister J A. Electric circuits, Schaums series. McGraw Hill Van valkenberg, Electric circuits and network analysis, Prentice Hall (India) PVT LTD. Smarjith Ghosh Fundamentals of Electrical and Electronics Engineering Prentice Hall (India) PVT LTD. References :  AI04 111(P) Electrical And Electronics WorkshopModule No : 1Module Name : allPart A: Electrical Workshop (2 hours per alternate weeks) 1.Familiarisation of various types of Service mains - Wiring installations - Accessories and house-hold electrical appliances 2.Methods of earthing - Measurement of earth resistance - Testing of electrical installations - Precautions against and cure from electric shock 3.Practice of making Britannia joints on copper / aluminium bare conductors 4.Practice of making Married joints on copper / aluminium conductors 5.Practice of making T joints on copper / aluminium conductors 6.Wiring practice of a circuit to control 2 lamps by 2 SPST switches 7.Wiring practice of a circuit to control 1 lamp by 2 SPDT switches 8.Wiring practice of a circuit to control 1 fluorescent lamp and 1 three-pin plug socket 9.Wiring practice of a main switch board consisting of ICDP switch, DB, MCB's, and ELCB's 10.Familiarisation of various parts and assembling of electrical motors and Wiring practice of connecting a 3-phase / 1-phase motor with starter Internal work assessment Workshop practicals and record = 15 Test/s = 10 Total marks = 25 Part B Electronics Workshop (2 hours per alternate weeks) 1.Familiarisation of various electronics components such as resistors, AF&RF chokes, capacitors, transistors, diodes, ICs and transformers 2.Assembling and soldering practice of single phase full wave bridge rectifiers circuit with capacitor filter 3.Assembling and soldering practice of common emitter amplifier circuit 4.Assembling and soldering practice of common emitter amplifier circuit on PCB 5.Assembling and soldering practice of non inverter amplifier circuit using OPAMP on PCB 6.Assembling of a timer circuit IC555, phase shift oscillator circuit using OPAMP and JK flip-flop using NAND gates on a bread-board 7.Coil winding - Single layer and multi layer - Demonstration 8.Miniature transformer winding - Demonstration 9.PCB layout using software like ORCARD, CIRCUITMAKER, EDWIN 10.PCB fabrication - Demonstration Internal work assessment Workshop practicals and record = 15 Test/s = 10 Total marks = 25 Books : References :  EN04 301A ENGINEERING MATHEMATICS III (Common for all branches except CS and IT)  Module I: Linear Algebra Vector spaces Linear dependence and independence, and their computation Bases and dimension Subspaces Inner product spaces Gram-Schmidt orthogonalisation process Linear transformations Elementary properties of linear transformations Matrix of a linear transformation. (Proofs of theorems omitted.) Module II: Fourier Transforms Fourier integral theorem (proof not required) Fourier sine and cosine integral representations Fourier transforms Fourier sine and cosine transforms Properties of Fourier transforms Singularity functions and their Fourier transforms. Module III: Probability Distributions Random variables Mean and variance of probability distributions Binomial and Poisson distributions Poisson approximation to binomial distribution Hypergeometric and geometric distributions Probability densities - Normal, uniform, and gamma distributions. Module IV: Theory of Inference Population and samples Sampling distributions of mean and variance Point and interval estimations Confidence intervals for mean and variance - Tests of hypotheses - Hypotheses concerning one mean, two means, one variance, and two variances Test of goodness of fit. Text Books: For Module I K.B.Datta, Matrix and linear algebra for Engineers, Prentice-Hall of India, New delhi, 2003 (Sections: 5.1, 5.2, 5.3, 5.4, 5.5, 5.8, 6.1, 6.2, 6.3) For Module II C.R.Wylie & L C Barrett, Advanced Engineering Mathematics (sixth Edition), McGraw Hill ( Sections: 9.1, 9.3, 9.5) For Module III Richard A Johnson, Miller & Freunds probability and Statistics for Engineers, Pearson Education,2000) (Sections : 4.1, 4.2, 4.3, 4.4, 4.6, 4.8, 5.1, 5.2, 5.5, 5.7) For Module IV Richard A Johnson, Miller & Freunds probability and Statistics for Engineers, Pearson Education,2000) (Sections : 6.1, 6.2, 6.3, 7.1, 7.2, 7.4, 7.5, 7.8, 8.1, 8.2, 8.3 9.5)    AI04 302 COMPUTER PROGRAMMING IN C (Common for all branches except CS, IT and PT)  Module 1(12 hours) Programming and problem solving Basic computer organization Developing algorithms Flow charts High level and low level languages Compilers and Interpreters Steps involved in computer programming Writing, Compiling and Executing a program Debugging a program Description of a programming language Module II (18 hours) Basics of C Overview of C Program structure Lexical elements Numerical constants Variables Arithmetic operators Arithmetic Expressions Arithmetic conversion Increment and Decrement operators Assignment Expressions Multiple assignments Input and Output Format specifiers Fundamental data types Bit level operators and applications Relational operators Relational expressions Logical operators Logical expressions Conditional operator Precedence and associativity of operators Module III (16 hours) Compound statements Conditional statements if statement if else statement nested if statement switch statement Loop control statements while statement - do while statement for statement continue statement break statement go to statement Functions user-defined functions library functions Recursion Global, local and static variables Module IV (20 hours) Arrays single dimensional multi dimensional Arrays in functions Stacks Strings String processing Bit-wise operators Enumerated data types Structures Typedef Structures in Arrays Arrays in Structures Unions Pointers Pointers and Arrays Pointers and Functions Linear linked lists and list operations Files sequential files unformatted files text files.   AI04 303 ELECTRIC CIRCUITS & NETWORK THEORY (Common with EC04 303)  Objectives To expose the students to basic concepts of electric circuits and methods of circuit analysis in time domain and frequency domain To introduce the fundamentals of filter circuits Module I (14 hours) Review of Network theorems. Signal representation Impulse, step, pulse and ramp functions. Laplace Transform-properties-solution of differential equation (review). Circuit analysis applications of Laplace Transform-Notions of impedance and admittance-Nodal and loop analysis in the s-domain. Use of Laplace Transform in the transient analysis of RC and LC networks with impulse, step, exponential, pulse and sinusoidal inputs. Initial and final value theorems, step input for RLC circuits. Module II (12 hours) Network functions The concept of complex frequency driving point and transfer functions Impulse response Poles and Zeros of network functions, their locations and effects on the time and frequency domain responses. Restriction of poles and zeros in the driving point and transfer function. Time domain behaviour from the pole zero plot. Frequency response plots Bode plot. Module III (13 hours) Parameters of two-port network impedance, admittance, transmission and hybrid Conversion formulae. Attenuators propagation constant, types of attenuators T, ( and Bridged T. Analysis of interconnected two port networks-parallel, series, and cascade connections of 2 port networks simple problems. Characteristic impedance and propagation constant. Module IV (13 hours) Filters- Introduction and basic terminology types of filtering- L.P filter basics- Butterworth LP filter transfer characteristics- Basic passive realization of Butterworth transfer functions. Frequency transformations- transformations to high pass, band pass and band elimination.Chebyshev filters- characteristics- poles of the Chebyshev function.    AI04 304 ELECTRICAL ENGINEERING (Common with EC04 304)  Module I: DC machines (10 hours) Types of DC machines - DC generators - emf equation - Open circuit and load characteristics of different types of DC generators - DC motors - Principle of operation - Types - Torque equation - Characteristics - Starters Module II: Transformers (10 hours) Principle of operation - emf equation - Phasor diagram - Equivalent circuit - OC and SC tests - Basic principles of auto transformer and three phase transformer Module III: AC machines (17 hours) Alternator - Rotating field - Frequency effect of distribution of winding - emf equation Bsic principles of synchronous motor Losses and Efficiency - Torque equation - Starting methods - Induction motor - Constructional features - Principle of operation of 3 phase induction motor - Vector diagram and equivalent circuits - Starting and speed control of squirrel cage and wound rotor induction motor Module IV: Electrical measurements (15 hours) Principle of Indicating instruments- moving coil, moving iron and dynamometer type instruments - Extension of range of voltmeter and ammeter - Measurement of 3 phase power by two wattmeter method Principle and working of Induction type energy meter- DC slidewire, potentiometer - Wheat stone bridge - Kelvin's double bridge - AC bridges - Schering bridge, Maxwell's bridge    AI04 305 DIGITAL SYSTEMS (Common with BM04 305)  Objective To introduce the concepts of digital logic systems. Topics covered are Boolean algebra, flip-flops, counters, shift registers, Digital IC technologies, and sequential networks. Module I (12 hours) Analog and digital representation, Review of number systems-representation-conversions, rs and (r-1)s complement representation. Binary codes-error detection and error correction. Review of Boolean algebra- theorems, sum of product and product of sum simplification, canonical forms-minterm and maxterm, Simplification of Boolean expressions-Karnaugh map (upto 4 variables), completely and incompletely specified functions, Quine McCluskey method (upto 5 variables). Implementation of Boolean expressions using universal gates. Module II (12 hours) Combinational logic circuits- adders, subtractors, BCD adder, ripple carry look ahead adders, parity generator, decoders, encoders, multiplexers, demultiplexers, Realisation of boolean expressions- using decoders-using multiplexers. Memories ROM- organisation, expansion. PROMs. RAMs Basic structure, organization, Static and dynamic ROMs, PLDs, PLAs. Sequential circuits latches, flip flops SR, JK, D, T, and Master slave flip flops, edge triggering, asynchronous inputs. Module III (16 hours) Shift registers, Universal shift register, applications. Binary counters Synchronous and asynchronous-up/down counters, mod-N counter, Counters for random sequence. Multivibrators astable and monostable multivibrators using gates. Integrated circuit technologies Characteristics and parameters. TTL Circuit-totem pole output-open collector-tristate gates-Schottky TTL, ECL, NMOS and PMOS logic, CMOS logic, BiCMOS and Gallium-Arsenide digital circuits. Module IV (12 hours) Synchronous sequential networks: structure and operation, analysis-transition equations, state tables and state diagrams, Modelling- Moore machine and Mealy machine- serial binary adder, sequence recogniser, state table reduction, state assignment. Asynchronous sequential circuit basic structure, equivalence and minimization, minimization of completely specified machines    AI04 306 ELECTRONIC CIRCUITS  Objective To provide a comprehensive understanding of electronic circuits based on transistors/ MOSFETs Module I (14 hours) General characteristics of amplifiers Amplifier classification Transistor hybrid model CE, CB and CC configuration Comparison Analysis of Transistor amplifier using h-parameters current gain, voltage gain, input impedance, and output impedance The amplifier with emitter resistor Darlington and Bootstrapped emitter followers. FET Small signal model- Low frequency CS and CD amplifier FET biasing. Module II (14 hours) Hybrid-( CE transistor model-expression for hybrid-( conductance elements in terms of low frequency hparameters, Hybrid-( capacitances, The CE short circuit current gain, cut off frequencies, parameters f and fT, Gain bandwidth product, Miller effect, Multistage amplifier, Principles of RC coupling and Transformer coupling, Cascade and Cascode amplifiers. High frequency analysis of FET amplifier CS and CD amplifier configurations Voltage gain, input impedance and output impedance. Module III (12 hours) Enhancement type MOSFET device structure, operation, currentvoltage characteristics, Depletion type MOSFET, DC analysis of MOSFET circuits, MOSFET as an amplifier Biasing in MOSFET amplifier circuits, Single stage IC MOS amplifiers, All NMOS amplifier stages, CMOS logic inverter, MOSFET as an analog switch, MOSFET internal capacitances and high frequency model, The MESFET. UJT Construction, Working principle and characteristics UJT relaxation oscillator. Module IV (12 hours) Differential amplifier The BJT differential pair small signal and large signal operation of differential amplifier, CMRR, input resistance, voltage gain, non-ideal characteristics of differential amplifier, current sources, active load, MOS differential amplifier, BiCMOS amplifier, GaAs amplifier.    AI04 307(P) ELECTRONICS LAB  Objectives To train the students to obtain the characteristic curves of semiconductor devices like diode, transistor, FET, and UJT. To provide experience on design, testing, and analysis of electronics circuits-clipping and clamping circuits, RC filters, rectifiers, amplifier, voltage regulator, etc. To expose the students to simulation of electronics circuits using any software. Study of laboratory instruments like CRO, Multimeter, Function Generator, Power Supply, etc. Characteristics of diode Zener diode- Characteristics, as a voltage regulator Characteristics of Transistor-Common emitter configuration-Evaluation of h-parameters Characteristics of FET Clipping and clamping circuits. UJT Characteristics, UJT Oscillator Frequency response of RC Low pass and high pass filters Rectifiers-half wave, full wave, bridge-with and without filter- ripple factor and regulation Common emitter amplifier with four resistor bias circuit, and coupling and bypass capacitors-frequency response characteristics Series voltage regulator circuit with feedback FET/MOSFET- as an amplifier- FET/MOSFET as a switch, Transistor as a switch Differential amplifier-Measurement of CMRR a) Introduction to any circuit simulation software, eg. PSPICE/EDSPICE/MULTISIM, etc. b) Simulation of following experiments diode characteristics transistor/MOSFET characteristics rectifier circuits clipping and clamping circuits RC Low pass and high pass filters-frequency response common emitter amplifier Transistor/MOSFET as a switch  AI04 308(P) ELECTRICAL ENGINEERING LAB  Plot open circuit characteristics of DC shunt generator for rated speed - Predetermine O.C.C. for other speeds - Determine critical field resistance for different speeds Load test on DC shunt generator - Plot external characteristics - Deduce internal characteristics Load test on DC series motor - Plot the performance characteristics OC and SC tests on single phase transformer - Determine equivalent circuit parameters - Predetermine efficiency and regulation at various loads and different power factors - verify for unity power factor with a load test Load test on 3 phase cage induction motor - Plot performance curves Resistance measurement using a) Wheatstone's bridge b) Kelvin's double bridge Measurement of self inductance, mutual inductance and coupling coefficient of a) Transformer windings b) air cored coil Power measurement in 3 phase circuit - Two wattmeter method Extension of ranges of ammeter and voltmeter using shunt and series resistances Calibration of Single phase energy meter by direct loading  SYLLABI OF FOURTH SEMSTER EN04 401A ENGINEERING MATHEMATICS-IV (Common for all branches except CS and IT)  Module I: Functions of a Complex Variable I Functions of a complex variable Derivatives and analytic functions Cauchy-Reimann equations - Laplace equation Conformal mapping Exponential function Trigonometric functions - Hyperbolic functions - Logarithm - Linear fractional transformations Module II: Functions of a Complex Variable II Line integral in the complex plane Cauchys integral theorem (Proof of existence of indefinite integral to be omitted) Cauchys integral formula Derivatives of analytic functions (Proof to be omitted) -Taylor series Laurent series Singularities and zeros - Residues and residue theorem Evaluation of real integrals Module III: Series Solutions of Differential Equations (i) Power series method for solving ordinary differential equations Legendres equation and Legendre polynomials Rodrigues formula Generating functions Relations between Legendre polynomials Orthogonality property of Legendre polynomials (proof omitted) (ii) Frobenius method for solving ordinary differential equations Bessels equation Bessel functions Generating functions Relations between Bessel functions Orthogonality property of Bessel functions (proof omitted). Module IV: Partial Differential Equations Basic concepts - Classification of linear PDEs Derivation of the one-dimensional wave equation and the one-dimensional heat equation Solutions of these equations by the method of separation of variables Solutions satisfying initial and boundary conditions D Alemberts solution of the one-dimensional wave equation Steady-state two dimensional heat flow. Text Book: Ervin Kreyszig, Advanced Engineering mathematics (8th Edition ) John Wiley & Sons Module I Sections: 12.3, 12.4, 12.5, 12.6, 12.7, 12.8, 12.9 Module II Sections: 13.1, 13.2, 13.3, 14.4, 15.1, 15.2, 15.3, 15.4 Module III Sections: 4.1, 4.3, 4.4, 4.5 Module IV Sections: 11.1, 11.2, 11.3, 11.4, 11.5    EN04 402 ENVIRONMENTAL STUDIES (Common for all branches)  Objective: The importance of environmental science and environmental studies cannot be disputed. Continuing problems of pollution, loss of forest, solid waste disposal, degradation of environment, loss of bio diversity etc have made everyone aware of environment issues. The objective of this course is to create general awareness among the students regarding these environmental issues. Module I (12 Hours) The Multidisciplinary nature of environmental studies Definition - scope and importance-need for public awareness. Natural Resources Renewable and non-renewable resources: Natural resources and associated problems - forest resources: Use and over exploitation, deforestation, case studies. Timber extraction, mining, dams and their defects on forests and tribal people. - Water resources: Use and over- utilization of surface and ground water, floods, drought, conflicts over water, dams-benefits and problems. - Mineral resources: Use and exploitation, environmental effects of extracting and using mineral resources, case studies. - Food resources: World food problems, changes caused by agriculture overgrazing, effects of modern agriculture, fertilizer-pesticide problems, water logging, salinity, case studies. - Energy resources: Growing energy needs, renewable and non renewable energy sources, use of alternate energy sources, case studies - Land resources: Land as a resource, land degradation, man induced land slides, soil crosion and desertification - Role of an individual in conversation of natural resources - Equitable use of resources for sustainable lifestyle. Module II (14 Hours) Ecosystems - Concept of an ecosystem - Structure and function of an ecosystem - Producers, consumers and decomposers - Energy flow in the ecosystem - Ecological succession - Food chains, food webs and ecological pyramids - Introduction, types, characteristic features , structure and function of the following ecosystem:-Forest ecosystem - Grassland ecosystem - Desert ecosystem - Aquatic ecosystem(ponds, streams, lakes, rivers, oceans, estuaries) Biodiversity and its conservation Introduction Definition: genetic, species and ecosystem diversity - Biogeographical classification of India - Value of biodiversity: consumptive use, productive use, social, ethical, aesthetic and option values - Biodiversity at global, national and local levels - India as a mega-diversity nation Hot-spots of biodiversity - Threats to biodiversity: habitat loss, poaching of wild life, man-wildlife conflicts - Endangered and endemic species of India - Conservation of biodiversity: In-situ and Ex-situ conservation of biodiversity. Module III (11 Hours) Environmental Pollution Definition - Causes, effects and control measures of:- Air pollution - Water pollution - Soil pollution -Marine pollution-Noise pollution -Thermal pollution - Nuclear hazards - Solid waste Management: Causes, effects and control measures of urban and industrial wastes -Role of an individual in prevention of pollution - Pollution case studies - Disaster management : floods, earthquake, cyclone and landslides - Environmental Protection Act - Air (Prevention and Control of Pollution ) Act - Water (Prevention and Control of Pollution) Act - Wildlife Protection Act - Forest Conservation Act - Issues involved in enforcement of environmental legislation - Public Awareness Module IV (10 Hours) Social Issues and the Environment From unsustainable to sustainable development - Urban problems related to energy - Water conservation, rain water harvesting, watershed management - Resettlement and rehabilitation of people; its problems and concerns,case studies - Environmental ethics: Issues and possible solutions - Climate change, global warming, acid rain, ozone layer depletion, nuclear accidents and holocaust. Case studies - Wasteland reclamation - Consumerism and waste products Human Population and the environment Population growth, variation among nations - Population explosion Family welfare Programme - Environment and human health Pollution hazards, Sanitation and health - Human Rights for clean environment - Value Education - HIV/AIDS-social concern - Women and Child Welfare - Role of information Technology in Environment and human health - Case studies Field Work (5 Hours) Visit to a local area to document environmental assets river/forest/grassland/hill/mountain Visit to local polluted site Urban/Rural/Industrial/Agricultural Study of common plants, insects, birds Study of simple ecosystems pond, river, hill slopes, etc. Text books 1.Clark, R.S. Marine Pollution. Clanderson Press Oxford 2.Mhaskar A.K, Matter Hazardous. Techno-science Publications 3.Miller, T.G. Jr. Environmental Science. Wadsworth Publishing Co. 4.Townsend, C., Harper, J. and Michael Begon, Essential of Ecology. Blackwell Science 5.Trivedi. R.K. and Goel . P.K. Introduction to air pollution. Techno Science Publications Reference Books Agarval. K.C.2001 Environmental biology. Nidi Publ. Ltd. Bikaner Bharucha Erach, Biodiversity of India, Mapin Publishing Pvt. Ltd., Ahmedabad 380 013, India, Email: mapin@icenet.net Brunner, R.C. 1989. Hazardous Waste Incineration. McGraw Hill Inc. 480p Cunningham, W.P., Cooper, T.H., Gorhani, E & Hepworth, M.T. 2001Environmental encyclopedia Jaico publ. House Mumbai 1196p De, A.K. Environmental Chemistry. Wiley Eastern Ltd. Down to Earth, Centre for Science and Environment Gleick, H.P. 1993. Water in crisis. Pacific Institute for Studies in Dev., Environment and security, Stockholm Env. Institute. Oxford Univ. Press. 473p Hawkins, R.E. Encyclopedia of Indian Natural History, Bombay Natural History Society, Bombay Heywood, V.H. & Watson, R.T. 1995. Global Biodiversity Assessment. Cambridge Univ. Press 1140p. 10.Jadhav, H. & Bhosale, V.M. 1995. Environmental Protection and Laws. Himalaya Pub. House, Delhi 11. Mckinney, M.L. & School, R.M. 1996. Environmental Science system & Solutions, Web enhanced edition, 639p. 12.Odum, E.P. 1971. Fundamentals of Ecology. W.B.Saunders Co. USA, 574p 13. Rao, M.N. & Datta, A.K 1987. Waste Water treatment. Oxford & IBH Publ. Co. Pvt. Ltd., 345p 14.Sharma, B.K. 2001. Environmental Chemistry. Goel Publ. House, Meerut. 15. Survey of the Environment, The Hindu (M) 16.Trivedi, R.K., Handbook of Environmental Laws, Rules, Guidelines, Compliances and Standards, Vol I and II . Enviro Media 17.Wagner.K.D. 1998. Environmental Management. W.B. Saunders Co. Philadelphia, USA 499p Magazine Internal assessment: 2 Tests = 20 Field work and Report (Internal Assessment) = 25 Regularity = 5 Total marks = 50 UniversityExamination Pattern : Q I- 16 short answer questions (4 from each module) of 5 marks each with a choice to answer any 12 (12X5) Q II - 2 questions A and B of 10 marks from module I with choice to answer any one Q III - 2 questions A and B of 10 marks from module II with choice to answer any one Q IV - 2 questions A and B of 10 marks from module III with choice to answer any one Q V - 2 questions A and B of 10 marks from module IV with choice to answer any one AI04 403 INTRODUCTION TO MICROPROCESSORS (Common with BM04 403)  Objectives This course aims to equip the students with the basic knowledge of architecture, programming, and interfacing of the microprocessor 8085. A brief study of the microprocessor 8086 also is intended. Module I (12 Hours) Concepts of Microprocessors, microcomputers and assembly language, Microprocessor architecture, Memory organization, Memory mapped I/O and I/O mapped I/O modes. I/O interfaces. The 8085 MPU: Buses and signals, instruction format, Flags, Interrupts, Addressing modes, DMA Module II (13 Hours) Programming with 8085: Basic Instructions, Logic operations, Branch operations, Data transfer, 16-bit operations. Counter and Timing delays, stacks and subroutines. Code Conversion, BCD arithmetic. Module III (14 Hours) Intel 8086 processor, Architecture, Concept of memory segmentation, Addressing modes, Instruction set, Assembly language programming, Assemblers with an example MASM/TASM/NASM, Interrupts, Timing diagrams, Minimum and Maximum mode, Concepts of pipelining and parallelism Module IV (13 hours) Interfacing, Address decoding, Interfacing chips: Programmable Peripheral Interface (8255), Programmable Timer (8253/54), Programmable Interrupt Controller (8259), Programmable keyboard/display controller (8279), DMA and DMA controller (8237\57), ADC & DAC, Serial I/O and Data communication    AI04 404 ANALOG ELECTRONICS AND PULSE CIRCUITS  Objectives To provide a comprehensive understanding of the following areas of analog electronics and pulse circuits Power amplifiers Feedback amplifiers Wave shaping circuits Time base generators Timer IC 555 and its applications Module I (12 hours) Power amplifiers Class A large signal amplifiers harmonic distortion Transformer coupled Class A power amplifier efficiency, Push pull amplifiers Class B push pull amplifier, class B push pull circuit with complimentary symmetry, Class AB amplifier, Biasing the class AB circuit, Class C amplifiers, Tuned BJT amplifiers Synchronous and stagger tuning. Module II (13 hours) Feedback amplifiers principles of feedback in amplifiers, advantages of negative feedback, voltage series, current series, voltage shunt and current shunt feedback circuitsanalysis. Oscillatorscriteria for oscillationRC phase shift and Wien bridge oscillator, Hartley, Colpitts and crystal oscillator-frequency stability. Module III (14 hours) Linear wave shaping high pass and low pass circuits analysis steady state output for step, pulse, square wave and ramp inputs. Transistor as a switch-application-logic inverter, Ebers-Moll model of BJT-minority-carrier storage in the base of a saturated transistor. Multivibrators-Bistable multivibrator Triggering circuits Commutating capacitors - Schmitt trigger circuit Monostable and Astable multivibrators. Module IV (13 hours) Voltage time base generators General features of time base signal Miller and Bootstrap time base generators Current time base generators - transistor circuits. Timer IC 555Block diagramAstable and Monostable circuits using IC 555, PLLbasic principleapplications.    AI04 405 ELECTRONIC INSTRUMENTATION & MEASUREMENTS  Objectives To impart knowledge in the area of measurement principles To provide in depth understanding of operation, performance, and applications of important measuring instruments used in electronics laboratories. Module I (15 hours) Generalized configurations of Instruments Functional element, Analog and Digital modes, Null and deflection methods, Methods of correction. Static characteristics of instruments- Calibration, accuracy, precision, bias, sensitivity, linearity, threshold, resolution, hysterisis and dead space. Measurement errors-various types. Measurement standards and calibration. Uncertainty analysis-estimation of precision uncertainty, probability distributions, Theories based on population and sample, t-test comparison, goodness of fit, propagation of uncertainty, examples of uncertainty analysis, Chi-squared distribution, graphical presentation of data-line fitting, method of least squares, curve fitting. Module II (12 hours) Dynamic characteristics Modelling, digital stimulation methods, response to first and second order instruments for standard test signals-frequency response. Dead time elements. Response of an Instrument to periodic and transient inputs. Determination of measurement system parameters. Units, dimensions and standards. Digital instruments-basic blocks. Signal generators low frequency signal generators, function generator, pulse, RF signals, sweep generators, Frequency synthesizer, arbitrary waveform generator. Module III (12 hours) Analog to digital converters-Tracking, successive approximation, charge distribution, flash, subranging, and integrating type ADCs. Digital to analog converters-weighted resistor, weighted capacitor, potentiometric, and R-2R ladder type DACs. Bipolar DACs, Master-slave DACs. Performance specifications of ADCs and DACs. Module IV (13 hours) Cathode ray oscilloscope (review), Special purpose oscilloscopes-delayed time-base, analog storage, sampling oscilloscopes. Digital storage oscilloscopes-DSO applications. Graphic Recording Instruments: strip chart recorder, X-Y recorder, Plotter, liquid crystal display (LCD). Waveform analysing instruments: Distortion meter, Spectrum analyser, Digital spectrum analyser, Q meter, Watt-hour meter, Power-factor meter, Instrument transformers, Thermocouple instruments, Peak response voltmeter, True RMS meter    AI04 406 LINEAR INTEGRATED CIRCUITS AND APPLICATIONS (Common with BM04 406)  Objectives To expose the students to the principles of integrated circuit fabrication To provide in depth understanding of the fundamentals of Op-Amp and various circuits using Op-Amp. Module 1 (12 hours) Integrated circuit-fabrication, monolithic IC technology, basic planar processes, fabrication of a typical circuit, active and passive components of ICs- fabrication of BJTs and FETs-CMOS technology, thin and thick film technology, technology trends. Module 2 (14 hours) Introduction to Operational amplifier: block diagram representation, analysis of a typical Op-Amp circuit, constant current bias, current mirror, the ideal Op-Amp, equivalent circuit of an Op-Amp, ideal voltage transfer curve, offset error voltages and currents, CMRR, PSRR. frequency Response of an Op-Amp (brief discussion): compensating networks, high frequency Op-Amp equivalent, open loop and closed loop frequency response, slew rate, causes of slew rate, effect of slew rate in applications. 741 Op-amp-Simplified internal circuit. Module 3 (14 hours) Op-Amp with negative feedback-non Inverting and inverting amplifiers- I/P resistance with feedback, O/P resistance, band width, voltage follower, concept of virtual ground, I to V converter, differential amplifier with one Op-Amp, instrumentation amplifier, AC amplifiers with single supply voltage, summing, scaling and averaging amps, V to I converter with floating load, V to I converter with grounded load. integrator, differentiator, comparator, zero crossing detector, timing mark generator, sample and hold circuit, Precision Diode, Precision rectifier, average detector, peak detector, logarithmic and antilog amplifiers, analog Multiplier. Module 4 (12 hours) Oscillators: principles, types, frequency stability, phase shift oscillator, Wien bridge oscillator. Astable, monostable, bistable multivibrators, triangular wave generator, saw tooth wave generator. Active Filters: first order Butterworth low pass, high pass, band pass and band stop filters, second Order Butterworth low pass, high pass, band pass and band stop filters, all pass filter, universal active filters, switched capacitor filter-theory of operation, switched capacitor integrator.    AI04 407(P) ANALOG ELECTRONICS LAB  Objectives To provide hands-on experience on design, testing, and analysis of various transistor circuits To provide hands-on experience on design, testing, and analysis of Op-Amp circuits To provide training on simulation of transistor and Op-Amp circuits using any suitable software Transistor Circuits Power Amplifier circuits-class A and class AB Schmitt trigger circuit Phase shift/Wien bridge/Hartley Oscillator Tuned amplifiers-frequency response. Bootstrap sweep circuit. Astable, Monostable/Bistable multivibrator circuits Op-Amp Circuits Measurement of important Op-Amp parameters such as CMRR, slew rate, open loop gain, input and output impedances, GBW product. Op-Amp (use IC 741) basic circuits voltage follower, inverting and non-inverting amplifier, integrator and differentiator circuits-frequency response Wien bridge oscillator with amplitude stabilization Astable and monostable multivibrators Second order LPF/ HPF Precision rectifier, Sample and hold circuit Simulation of Circuits Simulation of few transistor circuits (Oscillators, Schmitt trigger circuit, astable multivibrator, etc.), and Op-Amp Circuits (Basic circuits, Astable and monostable multivibrators, LPF/HPF, Rectifier, etc.) using any software like PSPICE, EDSPICE, MULTISIM, etc.  AI04 408(P) DIGITAL ELECTRONICS LAB  Objectives To provide hands-on experience on design, testing, and analysis of various digital circuits To provide training on simulation of digital circuits using any suitable software Characteristics of TTL and CMOS gates. Realization of logic circuits using TTL/CMOS (NAND / NOR) gates. Arithmetic logic circuits like Half adder, Full adder, Half subtractor, Full subtractor 4-bit adder/subtractor, BCD adder-7483 circuits. Astable and Monostable multivibrators using TTL/CMOS gates Realization of RS, T, D, JK and JK Master Slave flip-flops using gates. Realisation of Shift Registers- ring counter, Johnson counter Counter Circuits-Up/down Counter-asynchronous & synchronous Counter ICs, Monostable multivibrator IC-74123 Arbitrary Sequence generator BCD to Decimal and BCD to 7-segment decoder & display Multiplexers and Demultiplexers-Realisation of combinational circuits Simulation of Digital circuits- combinational and sequential circuits- using any software package Adder/Subtractor circuits JK Master Slave flip-flops using gates Shift register UP/DOWN Counter Arbitrary Sequence Generator Introduction to VHDL: 2 simple examples  AI04 501 Signals And Systems Module No : 1 Module Name : Module I (12 hours) Introduction to signals and systems-classification of signals-basic operations on signals-elementary signals-concept of system-properties of systems-stability, invertibility, time invariance, linearity, causality, memory, time domain description-convolution-impulse response-representation of LTI systems-differential equation and difference equation representation of LTI systems Books : 1.S. Haykin and B. V. Veen, Signals and Systems, John Wiley & Sons, N. Y., 2002 2.A. V. Oppenheim, A. S. Willsky and S. H. Nawab, Signals & Systems, 2nd ed., Prentice Hall of India, New Delhi, 1997 References : 1.C. L. Philips, J. M. Parr, E. A Riskin, Signals, Systems and Transforms, 3rd ed., Pearson Education, Delhi, 2002 2.R. E. Zeimer, W. H. Tranter, and D. R. Fannin, Signals and Systems: Continuous and Discrete, 4th ed., Pearson Education, Delhi, 1998 Module No : 2 Module Name : Module II (15 hours) Fourier representation of continuous time signals- Fourier transform-existence of the Fourier integral- FT theorems-energy spectral density and power spectral density-frequency response of LTI systems-correlation theory of deterministic signals-condition for distortionless transmission through an LTI system- transmission of a rectangular pulse through an ideal low pass filter-Hilbert transform-sampling and reconstruction Books : References : Module No : 3 Module Name : Module III (13 hours) Fourier representation of discrete time signals- discrete Fourier series and discrete Fourier transform- Laplace Transform analysis of systems-relation between the transfer function and differential equation-causality and stability-inverse system- determining the frequency response from poles and zeroes Books : References : Module No : 4 Module Name : Module IV (14 hours) Z-transform-definition- properties of the region of convergence- properties of the Z-transform- analysis of LTI systems-relating the transfer function and difference equation-stability and causality-inverse systems-determining the frequency response from poles and zeroes Books : References :  AI04 502 Control Engineering Module No : 1 Module Name : Module 1 (10 Hours) System Analysis: Systems, subsystems, and stochastic and deterministic systems - Principles of automatic control -Open loop and closed loop systems -Principles of superposition and homogeneity Transfer Function Approach: Mathematical models of physical systems and transfer function approach -Impulse response and transfer function -Determination of transfer functions for simple electrical, mechanical, electromechanical, hydraulic and pneumatic systems - Analogous systems -Multiple-input-multiple-output systems: Block diagram algebra - block diagram reduction -Signal flow graphs -Mason's gain formula. Books : References : Module No : 2 Module Name : Module II (14 hours) Time Domain Analysis: Standard test signals -Response of systems to standard test signals -Step response of second order systems -Time domain specifications (of second order system) -Steady state response -Steady state error -Static and dynamic error coefficients -Zero input and zero state response -Stability of linear systems -absolute stability -relative stability -Hurwitz and Routh stability criterion -Root locus method -construction of root locus -root contours -root sensitivity to gain k -effect of poles and zeros and their locations on the root locus. Books : References : Module No : 3 Module Name : Module III (14 hours) Frequency Domain Analysis: Frequency response representation -Frequency domain specifications -Correlation between time and frequency response -Polar plots -Logarithmic plots -Bode plots - All pass, minimum-phase and non minimum-phase systems -Transportation lag - Stability in frequency domain -Nyquist stability criterion -Stability from polar and bode plot -Gain margin and phase margin -relative stability -M-N circles -Nichols chart. Books : References : Module No : 4 Module Name : Module IV (14 Hours) State Variable Analysis: Concepts of state, state variables, state vector and state space -State model of continuous time systems -Transformation of state variable -Derivation of transfer function from state model -invariance property -state diagram -State variable from transfer function -bush or companion form -controllable canonical form - observable canonical form -Jordan canonical form -Diagonalization -State transition matrix -computation of state transition matrix by Laplace transform, Cayley-Hamilton theorem -Controllability and observability of a system. (proof not required) Books : Text Books 1.I. J. Nagrath and M. Gopal, Control Systems Engineering, New Age International Publishers, New Delhi, 1997 2.K. Ogata, Modern Control Engineering, 4th ed., Pearson Education, Delhi, 2002 3.B. C. Kuo, Automatic Control Systems, 7th ed., Prentice Hall of India, New Delhi, 1995 4.R. C. Dorf and R. H. Bishop, Modern Control Systems, 10th ed., Pearson Education, Delhi, 2004 References : Reference Books 1.G. J. Thaler, Automatic Control Systems, Jaico Publishing House, Mumbai, 2005 2.M. Gopal, Digital Control and State Variable Methods, 2nd ed., Tata McGraw Hill, New Delhi, 2003 Module No : 5 Module Name : Module II (12 hours) Introduction to 80386 Memory management unit Descriptors, selectors, description tables and TSS Real and protected mode Memory paging Pentium processor -Special features of the Pentium processor Branch prediction logic Superscalar architecture, microprocessors - state of the art Books : References : Module No : 6 Module Name : Module III (16 Hours) 8051 Microcontroller: Overview of 8051 family, architecture of 8051, Program counter, ROM space in 8051, data types and directives, flags and PSW register, register bank and stack, Addressing modes. Instruction set-.Arithmetic instructions JUMP, LOOP,CALL instructions, time delay generations Books : References :  AI04 503 Advanced Micro ProcessorsModule No : 1Module Name : Module I (13 hours)Intel 8086, format:, Assembler directives and operators, Assembly process, Linking and relocation, stacks, procedures, interrupt routines, macros. 8086 hardware design - Bus structure, bus buffering and latching, system bus timing with diagram, Minimum and maximum mode configurations of 8086, Multi processor configuration, 8087 co-processor architecture and configuration, Memory (RAM and ROM) interfacing, memory address decoding.Books : Text Books 1.D. V. Hall, Microprocessors and Interfacing: Programming and Hardware, 2nd ed., Tata McGraw Hill, 1999. 2.M. A. Mazidi and J. G. Mazidi, The 8051 Microcontroller and Embedded Systems, Pearson Education, Delhi, 2004References : Reference Books 1.Y. C. Liu and G. A. Gibson, Microcomputer system: The 8086/8088 family, 2nd ed., Prentice Hall of India, New Delhi, 1986 2.B. Brey, The Intel Microprocessors, 8086/8088, 80186, 80286, 80386 and 80486 architecture, Programming and interfacing, 6th ed., Prentice Hall of India, New Delhi, 2003 3.K. J. Ayala, The 8051 Microcontroller Architecture, Programming And applications, Penram International Publishing, Bombay, 1996 4.R. Kapadia, 8051 Microcontroller and Embedded Systems, Jaico Publishing House, Mumbai, 2005Module No : 2Module Name : Module IV (12 Hours)Assembly Language programming in 8051 (some simple programs): programs using arithmetic and logic instructions, single bit instructions and programs, Timer/counter programming, 8051 serial communication programming, programming timer interrupts. Interfacing with 8255PPI, Stepper motor, keyboard, DAC, external memoryBooks : References :  AI04 504 Computer Organization Module No : 1 Module Name : Module 1 (14 hours) Basic Structure of Computer Hardware & Software Functional units, Basic Operational Concepts, Bus Structures, Software, Performance, Historical Perspective. Addressing Methods and Machine program sequencing Memory Locations, Addresses encoding of Information, Main Memory Operations, Instructions & Instruction Sequencing, Addressing Modes, Assembly Language, Basic Input Output Operations, Stacks and Queues, Subroutines. The Processing Unit Fundamental Concepts Fetching a word from memory, Storing a word in memory, Register Transfers, Performing an arithmetic or logic operation, Register Gating and Timing of Data Transfers. Execution of a complete Instruction, Hardwired Control, Performance Considerations , Microprogrammed Control. Books : References : Module No : 2 Module Name : Module II (13 hours) Input Output OrganizationAccessing I/O Devices, Interrupts, Direct Memory Access, I/O Hardware, Standard I/O Interfaces. The Memory Basic concepts, Semiconductor RAM memories, Read Only Memories, Speed, Size and Cost, Cache Memories, Performance Considerations, Virtual Memories, Memory Management Requirements. ArithmeticNumber Representations, Addition of Positive Numbers, Design of Fast Adders, Signed Addition and Subtraction, Arithmetic and branching Conditions, Multiplication of Positive numbers, Signed Operand Multiplication, Fast Multiplication, Integer Division, Floating Point Numbers and Operations. Books : References : Module No : 3 Module Name : Module III (13 hours) PipeliningBasic Concepts, Instruction Queue, Branching, Data Dependency, Influence of Pipelining on Instruction Set Design, Multiple Execution Units, Performance Considerations. Computer peripheralsI/O DevicesVideo Terminals, Communication with remote terminal, Video Displays, Flat panel Displays, Graphic Input Devices and Printers. On-Line StorageMagnetic-Disk Systems, Magnetic Tape Systems CD- ROM Systems. System Performance ConsiderationsDisk Access Considerations, Communication Line Considerations. Books : References : Module No : 4 Module Name : Module IV (12 hours) Introduction to parallel processingPipelining An Overlapped parallelismParallelism in unipolar systems, Parallel Computer structures, Architectural classification schemes. Principles of pipelining & Vector processingPrinciples of Linear pipelining, Classification of pipeline processors, General pipelines and reservation tables, interleaved memory Organizations, Instruction and Arithmetic pipelines, Principles of designing pipelined processors, Vector processing Requirements. Structures for array processors: SIMD Array processor, SIMD Interconnection networks. Parallel Processing Applications Books : 1.V. C. Hamacher, Z. G. Vranesic, and S. G. Zaky, Computer Organization, 4th ed., McGraw-Hill, New York, 1996 2.K. Hwang and F. A. Briggs, Computer Architecture and Parallel Processing, McGraw-Hill, N.Y., 1984. References : 1.Y. C. Liu and G. A. Gibson, Microcomputer system: The 8086/8088 family, 2nd ed., Prentice Hall of India, New Delhi, 1986  AI04 505 Power Electronics Module No : 1 Module Name : Module I (13 hours) Power semiconductor devices: Power diodes-types, power transistors, thyristor family, SCRs, Triac, GTOs, power MOSFETs, IGBTs, MCTs-static and dynamic characteristics, protection circuits, series and parallel connections, turn-on characteristics, turn off characteristics Books : References : Module No : 2 Module Name : Module II (12 hours) Controlled rectifiers- single phase and three phase converters-power factor improvements-design of converter circuits-AC voltage controllers-single phase and three phase-cyclo converters-single phase and three phase, design of AC voltage controller circuits. Books : References : Module No : 3 Module Name : Module III (15 hours) DC choppers principle of step down and step up operations step down chopper with RL load, Classes of chopper, MOSFET/IGBT choppers. DC to AC converters: Thyristor inverters, McMurray-McMurray Bedford inverter, current source inverter, voltage control waveform control, inverters using devices other than thyristors, vector control of induction motors. Books : References : Module No : 4 Module Name : Module IV (12 hours) DC and AC power supplies: Switched mode, resonant, bi-directional and multistage conversions, buck, boost, buck boost regulators. UPS-block diagram, types. Drive requirements and design of simple drive circuits for power BJT, MOSFET and IGBT. Advanced control of power electronic circuits using microprocessors, microcontrollers, isolation amplifier circuits, synchronisation circuits. Books : 1.M. H. Rashid, Power Electronics: Circuits, Devices and Applications, 3rd ed., Pearson Education, Delhi, 2002 2.N. Mohan, T. M. Underland, and W. P. Robbins, Power Electronics: Converter, Applications and Design, John Wiley & Sons, New York, 1995 References : 1.G. K. Dubey, S. R. Doradla, A. Joshi and R. M. K. Sinha, Thyristorised Power Controllers, New Age International Publishers, New Delhi, 1996 2.P. S. Bimbhra, Power Electronics, Khanna Publishers, New Delhi, 2002 AI04 506 Transducers Module No : 1 Module Name : Module I (12 hours) Definition of transducersclassification-based on transduction principle, measurand, material and technology-Analog and digital transducers, Active and passive transducers, Primary and secondary transducers. Resistive TransducersPotentiometers, Resistance thermometers, Hot-wire anemometer, Resistive magnetic flux transducer, Resistive optical radiation transducer, Thermistors, Strain gauge-types-gauge factor. Books : References : Module No : 2 Module Name : Module II (16 hours) Mechanical input elements springs, membranes, thin plates, diaphragms, capsules, bellows, Bourdon tubes. Damping devices. Inductance Transducers-transformer type, LVDT-characteristics, electromagnetic and magnetostrictive transducers. Capacitive, Piezoelectric, Thermoelectric, Photoelectric, Hall effect, and Ionization transducers. Digital Transducers. Books : References : Module No : 3 Module Name : Module III (12 hours) Measurement of displacement, velocity, and acceleration. Measurement of force and torque, Analytical balance, Weighing systems, Load cells-different types. Mechanical, hydraulic, electric, and transmission type torque dynamometers. Books : References : Module No : 4 Module Name : Module IV (12 hours) Measurement of strain, Vibration measurementvibration characteristicsvibration sensing devicesBonded Strain gauge, Piezoelectric, Servo, and digital accelerometers. Shock Measurements. Measurement of Viscosity Saybolts viscometer rotameter type viscometer consistency meter. Measurement of pH basic principle electrodes pH measuring circuit digital pH meter. Books : 1.D. V. S. Murty, Transducers and Instrumentation, Prentice Hall of India, New Delhi, 1995 2.H. K. P. Neubert, Instrument Transducers: An Introduction to their Performance and Design, 2nd ed., Oxford University Press, New Delhi, 2003 3.C. S. Rangan, G. R. Sarma, and V. S. V. Mani, Instrumentation: Devices and Systems, 2nd ed., Tata Mc-Graw Hill, New Delhi, 1997 References : 1.D. Patranabis, Sensors and Transducers, 2nd ed., Prentice Hall of India, New Delhi, 2003 2.E. O. Doebelin, Measurement Systems: Application and Design, 4th ed., McGraw-Hill, New York, 1990 3.A. K. Sawhney, A course in Electrical and Electronic Measurement and Instrumentation, Dhanpat Rai & Sons, New Delhi, 1999.  AI04 507(P) Power Electronic LabModule No : 1Module Name : 1.SCR characteristics 2.Triac and Diac characteristics 3.Phase controlled rectifier-resistance triggering 4.Phase controlled rectifier- UJT triggering 5.Chopper circuits 6.MOSFET characteristics 7.Simple DC to AC inverter circuit 8.Driven DC to AC inverter using MOSFET & IC 9.IGBT characteristics 10.Inverter circuit using IGBT 11.Digital triggering circuit for phase controlled rectifiers 12.Application of ICS: PWM IC TL 494, optocoupler IC -MCT2E 13.DC motor speed control Using digital logic circuits/microprocessor/PC 14.AC motor speed control Using digital logic circuits/microprocessor/PC 15.Simulation of power electronic converter and inverter circuits using software like MATLAB, PSPICEBooks : References :  AI04 508(P) Micro Processors & Micro Controller LabModule No : 1Module Name : I. Assembly language programming based on 8085 Kit 1.Programs based on Arithmetic and Logic instructions 2.Array- Largest of arrays 3.8 bit Multiplication 4.Programs involving subroutines, stacks II. Assembly language programming based on 8086 Kit 5.Addition / Subtraction of 64 bit Numbers. 6.Sorting of an array 7.Programs with lookup table 8.Square root of a 32 bit number, Average of n numbers III. Interfacing programs based on 8085/8086 Kit 9.ADC & DAC 10.Stepper motor (forward & backward motion) 11.Hex key pad 12.Seven segment display 13.8251 USART IV. Assembly language programming based on 8051 Kit 14.Addition / Subtraction of 64 bit Nos. 15.Sorting of an array 16.Programs with lookup table 17.Square root of a 32 bit no, Average of n numbers V. Interfacing programs based on 8051 Kit 18.ADC & DAC 19.Stepper motor (forward & backward motion) 20.Hex key pad 21.Seven segment display 22.8251 USART VI. ALPs using TASM/NASM 23.Simple programs listed above with usage of all assembler directives 24.Downloading the assembled programs to 8086 kitBooks : References :  AI04 601 Engineering Economics & Principles Of Management Module No : 1 Module Name : Module I (13 Hours) Module I (13 Hours) 1.Introductory Background Nature and scope of Economics, Science, Engineering and Technology, their relationship with economic development. 2.Basic Economic Concepts Wants and utility, Demand and supply, Elasticity of demand and supply, concept of cost and revenue, concept of equilibrium and margin, wealth and capital. 3.Money and Banking Functions of money Functions of banks Commercial and Central Banks. Monetary policy of the Reserve Bank of India. Books : References : Module No : 2 Module Name : Module II (13 Hours) 1.Industrialisation and Economic Planning in India Need for industrialization, Development of Indian Industry since independence, Role of public sector in India, Industrial Policy of the Government of India. A brief study of Five Year Plans of India. 2.Agriculture Role of Agriculture in Indian Economy Problems of Indian Agriculture Green Revolution in Indian Features and effects. 3.Foreign exchange and International Trade Determination of rate of exchange Balance of payments and Trade Indias Foreign Trade Policy A short note on International Monetary Fund (I.M.F.). Books : References : Module No : 3 Module Name : Module III (13 hours) Part B: Principles of Management Objective: An elementary level exposure of management principles relevant for industrial sector. Module III (13 hours) Need for management principles of management management functions span of control delegation directing leadership and motivation (basic concepts only) Theories of scientific management (an overview only expected) - Fredric Taylors theory Frank Gilbreths theory Henry Foyals theory present concepts of management. Financial management objectives and functions time value of money (numerical examples included) basics of financial accounting (problem solving not required) profit and loss account balance sheet (only introduction) sources of industrial finance shares debentures public deposits bank loans financial institutions. Books : References : Module No : 4 Module Name : Module IV (13 hours) Marketing management concept of market and marketing marketing mix market research advertising and sales promotion. Scope and objective of Human Resource Management manpower recruitment analysis recruitment and training job analysis job evaluation wages and incentives. Decision making Introduction and definition techniques of decision making decision making process under certainty, uncertainty and risk (problems not included). Network analysis CPM and PERT (analysis of simple networks). Books : 1.F. Mazda, Engineering management, Addison Wesley, Longman Ltd., 1998 2.O. P. Khanna, Industrial Engineering and Management, Dhanpat Rai and Sons, Delhi, 2003. 3.P. Kotler, Marketing Management: Analysis, Planning, Implementation and Control, Prentice Hall, New Jersey, 2001 4.Venkata Ratnam C.S & Srivastva B.K, Personnel Management and Human Resources, Tata McGraw Hill. 5.Prasanna Chandra, Financial Management: Theory and Practice, Tata McGraw Hill. 6.1.K. K. Dewett, Modern Economic Theory, Shyam Lal Charitable Trust, New Delhi, 1995 References : 1.Koontz H, ODonnel C & Weihrich H, Essentials of Management, McGraw Hill. 2.Satya Raju R & Parthasarathy A, Management: Text & Cases, Prentice Hall. 3.Ramaswamy V.S & Namakumari S, Marketing Management : Planning, Implementation and Control, MacMillan  AI04 602 Digital Signal ProcessingModule No : 1Module Name : Module 1 (13 hours)Review of Discrete Fourier Series and Discrete-Time Fourier Transform Frequency domain sampling and reconstruction of discrete time signals The Discrete Fourier Transform DFT as a linear transformation relationship to other transforms properties of DFT Linear filtering methods based on DFT frequency analysis of signals using DFT- Efficient computations of the DFT- Fast Fourier Transform algorithms direct computation, divide-and-conquer approach, radix-2, radix-4 and split radix algorithms implementation of FFT algorithms Applications of FFT Books : References : Module No : 2Module Name : Module II (12 hours)Structures for realization of discrete time systems structures for FIR and IIR systems signal flow graphs, direct-form, cascade-form, parallel form, frequency sampling, lattice and transposed structuresrepresentation of numbers & errors due to rounding and truncation - Quantization of filter coefficients round off effects in digital filters limit cycle oscillations, scaling for overflow prevention. Books : References : Module No : 3Module Name : Module III (14 hours)Design of digital filters general considerations causality and its implications, characteristics of practical frequency selective filters design of FIR filters symmetric and antisymmetric, linear phasedesign of IIR filters from analog filters using approximation of derivatives, impulse invariance, bilinear transformation, matched-z transformation, characteristics of standard filters and their designs Frequency transformations in the analog and digital domains.Books : References : Module No : 4Module Name : Module IV (13 hours)Computer architectures for signal processing Harvard architecture, pipelining, multiplier-accumulator, special instructions for DSP, replication, on chip storage, extended parallelism general purpose DSP Processors implementation of DSP algorithms for various operations special purpose DSP hardware hardware digital filters and FFT processors case study and overview of TMS320 series processor. Books : 1.J. G. Proakis and D. G. Manolakis, Digital Signal Processing: Principles, Algorithms, and Applications, 3rd ed., Pearson Education, Delhi, 1996 2.E. C. Ifeachor, B. W. Jervis, Digital Signal Processing: A Practical Approach, 2nd ed., Pearson Education, Delhi, 2002References : 1.V. Oppenheim, and R. W. Schafer, Discrete-time Signal Processing, 2nd ed., Pearson Education, Delhi, 1999 2.S. K. Mitra, Digital Signal Processing: A Computer Based Approach, 2nd ed., Tata Mc-Graw Hill, 2001 AI04 603 Biomedical Instrumentation Module No : 1 Module Name : Module I (11 Hours) Development of Biomedical Instrumentation, biometrics, Man-instrument system-components-block diagram, Physiological systems of the body (brief discussion), Problems encountered in biomedical measurements. Sources of bioelectric potentials resting and action potentials propagation of action potentials- bioelectric potentials- examples (ECG, EEG, EMG, ERG, EOG, EGG, etc.) Biopotential electrodestheory-microelectrodes- skin surface electrodes- needle electrodes- biochemical transducers- transducers for biomedical applications. Books : References : Module No : 2 Module Name : Module II (14 Hours) Heart and cardiovascular system (brief discussion), electro-conduction system of the heart. Electrocardiography- Electrodes and leads-Einthoven triangle, ECG readout devices, ECG machine-block diagram. Measurement of Blood Pressure direct and indirect measurements oscillometric measurement, ultrasonic method, Measurement of blood flow and cardiac output, Plethysmography photoelectric, impedance, and capacitance plethysmographs, Measurement of heart sounds-phonocardiography Books : References : Module No : 3 Module Name : Module III (15 Hours) Electroencephalogram- anatomy of nervous system (brief discussion)- neuronal communication- EEG measurement. Muscle response - Electromyogram (EMG) - Nerve Conduction velocity measurements - Electromyogram measurements. Physiology of respiratory system (brief discussion), Respiratory parameters-spirometer, pneumograph, body plethysmographs, gas exchange and distribution, Respiratory therapy equipment. Cardiac pacemakers internal and external pacemakers, defibrillator, artificial heart valves, heart lung machine Books : References : Module No : 4 Module Name : Module IV (12 Hours) X-rays- principle of generation, uses of X-rays -diagnostic still picture, fluoroscopy, angiography, tomograms, Endoscopy, Diathermy. Basic principle of computed tomography, magnetic resonance imaging system and nuclear medicine system-radiation therapy. Ultrasonic imaging system- introduction and basic principle. Instruments for clinical laboratory tests on blood cells Chemical tests Electrical safety Physiological effects of electric current shock hazards from electrical equipment methods of accident prevention. Introduction to expert system and hospital management, Introduction to telemedicine. Books : 1.L. Cromwell, F. J. Weibell, and L. A. Pfeiffer, Biomedical Instrumentation and Measurements, Pearson Education, Delhi, 1990 2.J. J. Carr and J. M. Brown, Introduction to Biomedical Equipment Technology, 4th ed., Pearson Education, Delhi, 2001 References : 1.J. G. Webster, Medical Instrumentation Application and Design, 3rd ed., John Wiley & Sons, N.Y., 1998 2.R. S. Khandpur, Handbook of Biomedical Instrumentation, 2nd ed., Tata McGraw Hill, New Delhi, 2003  AI04 604 Electronic Communication System Module No : 1 Module Name : Module I (15 hrs) Electromagnetic spectrum-Elements of a Communication System-Classification of communications-Transmission Lines, (Brief description only)-basic types, characteristic impedance, SWR, Antennas (brief description only)- antennas operation, basic antenna types-RF wave propagation (brief description only)-modulation-AM principle, generation-SSB techniques-principle, generation-angle modulation-theory and generation of PM and FM-Comparison of AM, PM, FM Books : References : Module No : 2 Module Name : Module II (12 hrs) Super heterodyne receivers- Receiver parameters - AM receivers- IF and its selection, automatic gain control, AM demodulator circuits, SSB receivers, demodulation of SSB, receiver types, FM receiver-FM demodulators, FM noise suppression, Pulse modulation, Principle of PAM, PWM & PPM modulation and demodulation Books : References : Module No : 3 Module Name : Module III (14 hrs) Digital communication-baseband transmission and reception-digital carrier system-PCM, Delta modulation, DPCM, generation and demodulation, Signal to noise ratio, Digital modulation schemes-ASK, FSK, PSK, DPSK, M-ary signaling schemes multiplexing TDM, FDM, WDM Books : References : Module No : 4 Module Name : Module IV (11 hrs) (Block diagram approach only) Microwave communication transmitter-receiver - repeater, Satellite communication-Optical fibre link, satellite system, Cellular radio system-Telemetry functional block, standards, landline telemetry, electrical telemetry-analog and digital techniques in telecontrol Books : 1.W. Tomasi, Electronic Communication System, Pearson Education, Delhi, 2001 2.D. Roddy and J. Coolen, Electronic Communications, 4th ed., Pearson Education, Delhi, 2000 3.D. Patranabis, Telemetry principles, Tata McGraw Hill, New Delhi, 1999 References : 1.L. Frenzel, Jr., Communication Electronics, 3rd ed., Tata McGraw Hill, New Delhi, 2000 2.L. W. Couch, Digital and Analog Communication Systems, 6th ed., Pearson Education, Delhi, 2001 3.T. Viswanathan, Telecommunication Switching System & Networking, Prentice Hall of India, New Delhi, 1997  AI04 605 Advanced Control Theory Module No : 1 Module Name : Module I (13 hours) Optimal control system-definition- design using state variable feedback and error squared performance indices. Shaping the dynamic response-need for pole placement, Pole placement by state feedback, Ackermanns formula, State feedback control for inverted pendulum system, linear observers-need -structure of an observer, design of observer. Introduction to non linear control systems-phase plane analysis. Books : References : Module No : 2 Module Name : Module II (13 hours) Discrete time systems - analogies with continuous-time systems, Z-transforms (review), mathematical models for LTI discrete-time systems. State model of linear discrete-time systems, state models from linear difference equations/system functions, derivation of system function from state model, solution of state equations- state transition matrix, controllability and observability conditions. Linear continuous-time systems with sampled inputs- closed loop feedback sampled-data systems-Stability analysis in the z-plane- Jurys stability test. Books : References : Module No : 3 Module Name : Module III (14 hours) Controller principles-process characteristics-control system parameters. Discontinuous controller modes, Continuous controller modes-Proportional, integral and derivative modes, Composite control schemes PI, PD and PID controllers Integral windup, Effects of proportional, integral, derivative, and composite control modes on the response of a controlled process- design considerations. Circuit realization of composite control schemes-PI, PD, & PID, Modifications of PID control schemes-two degrees of freedom control. Controller tuning-criteria for good control, tuning rules- IAE, ISE, ITAE and decay ratio, Ziegler Nichols rules, Cohen and Coon rules, auto tuning feature. Books : References : Module No : 4 Module Name : Module IV (12 hours) Robust control systems-system sensitivity, analysis of robustness, systems with uncertain parameters, Design of robust control systems-design considerations. Robust PID controlled systems-design procedure. Internal model design, robust internal model control system. Lyapunov Stability analysis (basics only)-Direct method of Lyapunov, Stability in the sense of Lyapunov, asymptotic stability, graphical representation of stability, asymptotic stability, and instability, Lyapunov stability analysis of LTI systems. Books : 1.R. C. Dorf and R. H. Bishop, Modern Control Systems, 8th ed., Pearson Education, Delhi, 2004 2.C. D. Johnson, Process Control Instrumentation Technology, 7th ed., Prentice Hall of India, New Delhi, 2003 3.K. Ogata, Modern Control Engineering, 4th ed., Pearson Education, Delhi, 2002 4.K. Ogata, Discrete-time Control Systems, 2nd ed., Prentice Hall Inc., New Jersey, 1992 Reference Books References : 1.B. C. Kuo, Automatic Control Systems, 7th ed., Prentice Hall of India, New Delhi, 1995 2.I. J. Nagrath and M. Gopal, Control Systems Engineering, New Age International Publishers, New Delhi, 1997 3.K. J. Astrom and T. Hagglund, PID Controllers: Theory, Design, and Tuning. 2nd ed., Instrument Society of America, Research Triangle Park, NC, 1995 4.C. L. Phillips and H. T. Nagle, Digital Control System Analysis and Design, 3rd ed., Prentice-Hall, Englewood Cliffs, N. J., 1995. 5.  AI04 606 Industrial Instrumentation Module No : 1 Module Name : Module I (14 hours) Measurement of Temperature: Definitions and standards calibration Thermal expansion methods Bimetallic, Liquid-in-glass, Pressure thermometers. Thermocouples-Law of thermocoupleCommon thermocouples Reference junction considerations measuring circuits, thermopiles. RTDs RTD materials 3 lead and 4 lead RTDs Junction semiconductor sensors Digital thermometers. Radiation thermometry radiation fundamentals total radiation type optical pyrometer Ratiometric type. Quartz crystal thermometer. Books : References : Module No : 2 Module Name : Module II (14 hours) Measurement of Pressure: Units of pressure manometers different types elastic type pressure gauges Bourdon tubes bellows diaphragms Electrical methods elastic elements with LVDT and strain gauges capacitive type pressure gauge Piezo resistive pressure sensor capacitive typeresonator pressure sensor. Measurement of high pressure. Low pressure measurements McLeod gauge thermal conductivity gauges Ionization gauge hot cathode and cold cathode types testing and calibration of pressure gauges dead weight testerDifferential pressure transmitter. Books : References : Module No : 3 Module Name : Module III (12 hours) Measurement of FlowFlow characteristicsClassification of flowmetersHead type with restrictionVenturi tube, Flow nozzle, Orifice, dall tube installation of head flow meters tapping & piping arrangements, pilot tube. Variable area flowmetersrotameter, piston type. Positive displacement type flowmeters, Turbine type flowmeter, Mass flowmeters. Electromagnetic flowmeter, Vortex flowmeter Books : 1.D. Patranabis, Principles of Industrial Instrumentation, 2nd ed., Tata McGraw Hill, New Delhi, 1996 2.E. O. Doebelin, Measurement Systems: Application and Design, 4th ed., McGraw-Hill, New York, 1990 3.C. S. Rangan, G. R. Sarma, and V. S. V. Mani, Instrumentation: Devices and Systems, Tata McGraw Hill, New Delhi, 1997 References : Module No : 4 Module Name : Module IV (12 hours) Flow measurement using hotwire anemometry, Ultrasonic flowmeter-Doppler, cross-correlation, transit time types. Measurement of LevelFloat types-different schemes, displacer types, hydrostatic, and thermal effect types. Resistance, capacitance, and nuclear radiation techniques of level measurement. Ultrasonic method. Books : 1.D. Patranabis, Principles of Industrial Instrumentation, 2nd ed., Tata McGraw Hill, New Delhi, 1996 2.E. O. Doebelin, Measurement Systems: Application and Design, 4th ed., McGraw-Hill, New York, 1990 3.C. S. Rangan, G. R. Sarma, and V. S. V. Mani, Instrumentation: Devices and Systems, Tata McGraw Hill, New Delhi, 1997 References : 1.D. V. S. Murty, Transducers and Instrumentation, Prentice Hall of India, New Delhi, 1995 2.T. G. Beckwith, R. D. Marangoni, and J. H. Lienhard, Mechanical Measurements, 5th ed., Pearson Education, Delhi, 1993  AI04 607(P) Instrumentation LabModule No : 1Module Name : AI04 607(P): INSTRUMENTATION LAB(Any fourteen experiments) 1.Instrumentation amplifier using Op-Amps-gain and CMRR 2.Active notch filter/Narrowband active filter (using Op-Amp) 3.Analog to digital converter circuit 4.Digital to analog converter circuit 5.Frequency to voltage converter, Voltage to frequency converter 6.Astable and monostable multivibrators using IC 555 7.Voltage regulators: IC 723, 78XX, 79XX family 8.Design of PLL for given lock and capture ranges, frequency multiplication 9.Measurement using Schering bridge/Hay bridge 10.Study of dead weight tester and calibration of pressure gauge 11.Measurement using LVDT 12.Measurement using a)strain gauge b)pressure transducer 13.Measurements using Photocell/LDR 14.Temperature measurement using RTD 15.Temperature measurementusing thermocoupleusing diode 16.Measurement of distance using ultrasonic method 17.Measurement of PH and viscosity 18.Measurement of level 19.Flow measurement Books : References :  AI04 608(P) Mini ProjectModule No : 1Module Name : Mini ProjectThe objective of mini project is to estimate the ability of the students to transform the theoretical knowledge acquired so far into a working model of an electronics/instrumentation system. It enables the students to gain experience in organisation and implementation of a small project and thus acquire the necessary confidence to do main project in the final year. In this practical course, each group consisting of three/four members is expected to design and develop a moderately complex electronics/instrumentation system with practical application; this should be a working model. The basic concepts of product design may be taken into consideration while designing the product. The students will submit a report on the mini project and demonstrate the mini project. A committee consisting of three faculty members specialised in electronics/instrumentation engineering will perform the assessment of the miniproject. 50% of the total marks to be awarded by the guide and the remaining 50% by the evaluation committee.Books : References :  AI04 701 Process Controll Instrumentation Module No : 1 Module Name : Module I (12 hours) Introduction to process control process variables degrees of freedom. Process modelling Liquid level system-Linearization example Two-tank liquid-level system interacting and non-interacting systemsThermal processMixing processHeat exchangerDistillation column. Dynamics of 1st and 2nd order systems, Batch process and Continuous process. Self-regulation. Control systems with inverse response. Books : 1.G. Stephenopoulos: Chemical Process Control: An Introduction to Theory and Practice, Pearson Education, Delhi, 2004 2.D. R. Coughanowr, Process Systems Analysis and Control, 2nd ed., McGraw Hill, New York, 1991 3.C. D. Johnson, Process Control Instrumentation Technology, 7th ed., Pearson Education, Delhi, 2003 4.M. L. Luyben and W. L. Luyben, Essentials of Process Control, Tata McGraw Hill, New York, 1997 References : Reference Books 1.C. T. Kilian, Modern Control Technology Components and Systems, 2nd ed., Thomson Asia, Singapore, 2001 2.D. M. Considine, Process/Industrial Instruments and Controls Handbook, 4th ed., McGraw-Hill, New York, 1993 Module No : 2 Module Name : Module II (13 hours) Final control-final control operation, signal conversions-analog electrical signals-digital electrical signals, pneumatic signals, Electrical actuatorselectric linear motors, Hydraulic systems-basic principle- hydraulic pumps- hydraulic actuators- pressure control valves- accumulator- directional control valves, Pneumatic systems-compressor-dryer-tank-actuators. I/P, P/I converters, Valve positioner. Switches-different types, Relays-electromechanical-solid state relays. Books : 1.G. Stephenopoulos: Chemical Process Control: An Introduction to Theory and Practice, Pearson Education, Delhi, 2004 2.D. R. Coughanowr, Process Systems Analysis and Control, 2nd ed., McGraw Hill, New York, 1991 3.C. D. Johnson, Process Control Instrumentation Technology, 7th ed., Pearson Education, Delhi, 2003 4.M. L. Luyben and W. L. Luyben, Essentials of Process Control, Tata McGraw Hill, New York, 1997 References : Reference Books 1.C. T. Kilian, Modern Control Technology Components and Systems, 2nd ed., Thomson Asia, Singapore, 2001 2.D. M. Considine, Process/Industrial Instruments and Controls Handbook, 4th ed., McGraw-Hill, New York, 1993 Module No : 3 Module Name : Module III (15 hours) Control valves construction, characteristics, different types ball, gate, butterfly, and other types, Valve sizing, cavitation and flashing, control valve noise and methods of its reduction. Advanced Control Strategies-Cascade control-Feed forward control-Ratio Control-Internal model control- Selective control schemes- Split-range control -Adaptive control -Inferential control. Books : References : Module No : 4 Module Name : Module IV (12 hours) Process identification-purpose-step testing-pulse testing-ATV method-Least squares method-relationship among time, Laplace, and frequency domains. Multivariable controlcontrol of interacting systemsresponse of multi-loop control systemnon-interacting controlstability of multivariable systems Books : 1.G. Stephenopoulos: Chemical Process Control: An Introduction to Theory and Practice, Pearson Education, Delhi, 2004 2.D. R. Coughanowr, Process Systems Analysis and Control, 2nd ed., McGraw Hill, New York, 1991 3.C. D. Johnson, Process Control Instrumentation Technology, 7th ed., Pearson Education, Delhi, 2003 4.M. L. Luyben and W. L. Luyben, Essentials of Process Control, Tata McGraw Hill, New York, 1997 References : 1.C. T. Kilian, Modern Control Technology Components and Systems, 2nd ed., Thomson Asia, Singapore, 2001 2.D. M. Considine, Process/Industrial Instruments and Controls Handbook, 4th ed., McGraw-Hill, New York, 1993 3.P. Harriot, Process Control, Tata McGraw-Hill, New Delhi, 1972 4.D. E. Seborg,, T. F. Edgar, and D. A. Mellichamp, Process Dynamics and Control, 2nd ed., John Wiley & Sons, New York, 2004  AI04 702 Data And Computer Communications Module No : 1 Module Name : Module I (13 hrs) Data communication and networking overview- Data communication, data communication networking, - Examples of networks - PSDN & Broadband networks, Multi-service networks, standards, Data transmission, concepts, analog and digital transmission, transmission impairment, channel capacity Guided and Wireless transmission Signal encoding Techniques. Books : 1.W. Stallings, Data and Computer Communications, 7th ed., Pearson Education, Delhi, 2003 2.F. Halsall, Data Communications, Computer Networks and Open Systems, 4th ed., Pearson Education, Delhi, 2002 References : Reference Books 1.B. A. Forouzan, Data Communications and Networking, 3rd ed., Tata Mc-Graw Hill, New Delhi, 2004 2.U. D. Black, Data Communications and Distributed Networks, 3rd ed., Prentice Hall of India, New Delhi, 2005 Module No : 2 Module Name : Module II (13 hrs) Digital data communication Techniques Asynchronous and Synchronous Transmission - Bit / character oriented synchronisation Errors Error detection methods parity, cyclic redundancy Error correction circuits common circuits interfacing characteristics communication control devices statistical, time division multiplexing, asymmetric digital subscribers line XDSL, spread spectrum and code division multiple access (Brief description only) Protocol basics Data link control protocol, Flow control, Error control, Link management. Books : 1.W. Stallings, Data and Computer Communications, 7th ed., Pearson Education, Delhi, 2003 2.F. Halsall, Data Communications, Computer Networks and Open Systems, 4th ed., Pearson Education, Delhi, 2002 References : Reference Books 1.B. A. Forouzan, Data Communications and Networking, 3rd ed., Tata Mc-Graw Hill, New Delhi, 2004 2.U. D. Black, Data Communications and Distributed Networks, 3rd ed., Prentice Hall of India, New Delhi, 2005 Module No : 3 Module Name : Module III (13 hrs) Computer networks - local area networks, wired LANs topologies and transmission media Medium access control methods LAN protocol Architecture, Bridges, wireless LANs Technology, high speed LANs Ethernet switching FDDI, Bridges wide area networks Circuit switching and Packet switching, asynchronous transfer mode, routine and congestion control in switched data networks- cellular wireless network Books : 1.W. Stallings, Data and Computer Communications, 7th ed., Pearson Education, Delhi, 2003 2.F. Halsall, Data Communications, Computer Networks and Open Systems, 4th ed., Pearson Education, Delhi, 2002 References : Reference Books 1.B. A. Forouzan, Data Communications and Networking, 3rd ed., Tata Mc-Graw Hill, New Delhi, 2004 2.U. D. Black, Data Communications and Distributed Networks, 3rd ed., Prentice Hall of India, New Delhi, 2005 Module No : 4 Module Name : Module IV (13 hrs) Communication architecture and protocol Internet working architecture, protocol standards, transport protocol inter-network protocol application support protocols network security distributed application Books : 1.W. Stallings, Data and Computer Communications, 7th ed., Pearson Education, Delhi, 2003 2.F. Halsall, Data Communications, Computer Networks and Open Systems, 4th ed., Pearson Education, Delhi, 2002 References : Reference Books 1.B. A. Forouzan, Data Communications and Networking, 3rd ed., Tata Mc-Graw Hill, New Delhi, 2004 2.U. D. Black, Data Communications and Distributed Networks, 3rd ed., Prentice Hall of India, New Delhi, 2005  AI04 703 Digital Mos CircuitsModule No : 1Module Name : Module I (11 hours)Short and narrow channel effects in MOS transistor (MOST)- -sub threshold current sub threshold current-channel length odulation-drain indused barrier lowering-hot electron effects- velocity saturation of charge carriers. Scaling of MOST-constant voltage and constant field scaling digital MOSFET model-series connection of MOSFETBooks : References : Module No : 2Module Name : Module II (15 hours)MOS inverters resistive load NMOS load-pseudo NMOS and CMOS inverters-calculation of input high and low and output high and low levels- power dissipation calculation of delay times for CMOS inverter- COMS ring oscillator design of super buffer-estimation of inter connect parasitics and calculation of inter connect delay.Books : References : Module No : 3Module Name : Module III (13 Hours)MOS logic circuits- CMOS NOR ,NAND AOI and OAI gates- full-adder-SR and JK latches- C2MOS latch transmission gates simple circuits using TG-basic principles of pass transistor logic-voltage bootstrapping BI-CMOS logic circuits-BI-CMOS inverter with resistive base pull down and active base pull down-BI-CMOS switching transient- simple gates using BI-CMOS onfigurations, identifiers, data objects, Data types, and operators in VHDL. Entity declaration. Books : References : Module No : 4Module Name : Module IV (13 hours)Dynamic CMOS logic precharge/evaluate logic-cascading problem-dominologic-cascading domini logic gates-charge sharing in domino logic-solutions to charge sharing problem-relaisation of simple function using domino logic.NORA logic true single phase clock dynamic logic-basic ideas of adiabatic logic. Books : 1.Sung MO Kang and Yusuf Leblebici,CMOS digital integrated circuits-analysis & Design MGH. 2.Jacob Baker R,Li H W and Boyce D E,COMS- Circuit Design, Layout And Simulation,PHI 3.Ken Martin ,Digital Interated Circuit Design, Oxford Univ.Press 4.Rabacy J M, Digital Interated Circuis-A Design Perpective,Prentice Hall 5.Yuan Taur and Ning T H ,Fundamentals of Modern VLSI devices ,Cambrdge Univ.Press References :  AI04 704 Advanced Instrumentation Module No : 1 Module Name : Module I (13 hours) Measurement of Humidity and Moisture- dry and wet bulb psychrometerhair hygrometer Wire electrode type hygrometer dew cell electrolysis type hygrometer commercial type dew point meter different methods of moisture measurement. Measurement of densityliquid density measurementgas densitometers. Conductivity measurement. Smart sensors-block diagram, Smart transmitter. Recent trends in sensor technology Semiconductor sensorsFilm sensors-MEMS-Nanosensors. Books : References : Module No : 2 Module Name : Module II (13 hours) Time measurement using digital techniquesSmall time interval measurementPeriodic timeTime interval between two events defined by voltage levelstime constantPhase measurement Capacitance measurementQuality factor of a ringing circuit Frequency measurement using digital techniques Ratio of two frequenciesHigh frequencyPower system frequency deviationLow frequencyTime reciprocating circuitPeak frequency. Books : References : Module No : 3 Module Name : Module III (15 hours) Voltage measurement using digital techniques ADCs (review), Input circuits of digital voltmeterauto zero circuitbipolar operationbuffer circuitprotectionauto rangingtracking method. Ratiometric Measurements-ApplicationsMeasurement of modulation index, Q of a coil (any one method) Noise in instrumentation systems, electromagnetic interference, methods of noise coupling, noise sources, grounding. Virtual Instrumentationconceptshistorical perspectivevirtual versus real instrumentationadvantages of virtual instrumentationblock diagram and architecture of a virtual instrumentPhysical quantities and analog interfaces Hardware and softwareUser InterfacesApplications of virtual instrumentation. Books : References : Module No : 4 Module Name : Module IV (11 hours) Common Instrument Interfaces RS232C, RS422A, RS 432A, RS485A, USB, General Purpose Interface Bus (GPIB), Standard Commands for Programmable Instrumentation (SCPI), VME Extensions for Instrumentation (VXI), Multisystem Extension Interface (MXIbus), Enhanced Parallel Port. Virtual Instrument Software Architecture (VISA) Books : 1.D. Patranabis, Principles of Industrial Instrumentation, 2nd ed., Tata McGraw Hill, New Delhi, 1996 2.T. S. Rathore, Digital Measurement Techniques, 2nd ed., Narosa Publishing House, New Delhi, 2004 3.G. W. Johnson, LabVIEW Graphical Programming: Practical Application in Instrumentation and Control, 2nd ed., McGraw Hill, New York, 1997 References : 1.D. Patranabis, Sensors and Transducers, 2nd ed., Prentice Hall of India, New Delhi, 2003 2.H. R. Taylor, Data Acquisition for Sensor Systems, Chapman & Hall, London, 1992 3.J. Y. Beyon, Hands-On Exercise Manual for LabVIEW Programming, Data Acquisition and Analysis, Prentice Hall PTR, 2001  AI04 705B Wireless Communication Systems Module No : 1 Module Name : Module I (14 hours) Microwave Communication Advantages analog and digital microwave FM Microwave radio system Repeaters Diversity reception Protection switching arrangements FM microwave radio stations. Satellite Communication Introduction Keplers laws Orbits Geostationary orbits Antenna look angles Classification Spacing and frequency allocation System parameters Link Models Link budget. Books : References : Module No : 2 Module Name : Module II (13 hours) Satellite Multiple Access System FDM/FM Satellite systems Multiple accessing Channel capacity Satellite Navigation. Spread spectrum Concept frequency hopping and Direct sequence CDMA Generation of spreading sequences. Introduction to modern wireless communication systems: Second generation cellular networks Third generation wireless networks Wireless local loop and LMDS wireless LANs Personal area networks. Books : References : Module No : 3 Module Name : Module III (12 hours The cellular concept frequency reuse - Handoff strategies Interference and system capacity- Improving coverage and capacity in cellular systems. Mobile Radio Propagation Practical link budget design using path loss models outdoor and indoor propagation models Fading and Multipath channels and their parameters. Books : References : Module No : 4 Module Name : Module IV (13 hours) Multiple Access Techniques for wireless communications FDMA, TDMA, SSMA, SDMA. Pact radio. Codes for Mobile Communication. Wireless systems and standards GSM CDMA digital (IS-95) Cordless systems Wireless Local Loop Mobile IP 386 Wireless application Protocol. Wireless LAN Infrared, Spread Spectrum and Narrow band Microwave LANs. Bluetooth Overview Radio, base band and Link Manager specifications Logical link control and adaptation Protocol. Books : 1.W. Tomasi, Advanced Electronics Communication systems, 4th ed., Pearson Education, Delhi, 2001 2.T. S. Rappaport, Wireless Communication Principles and Practice, 2nd Ed., Pearson Education, Delhi, 2002 3.W. Stallings, Wireless Communications and Networks, 7th ed., Pearson Education, Delhi, 2002 References : 1. D. Roddy and J. Coolen, Electronic Communications, 4th ed., Pearson Education, Delhi, 2000 2.J. Schiller, Mobile Communications, Pearson Education, Delhi, 2000 3.W. L. Pritchard, H. G. Suyderhoud, and R. A. Nelson, Satellite Communication System Engineering, 2nd ed., Pearson Education, Delhi, 1993 4.T. Pratt and C. W. Postian, Satellite Communications, John & Sons, New York, 1999 5. M. Richharia, Mobile Satellite Communications: Principles and Trends, Pearson Education, Delhi, 2003.  AI04 705C Digital Image Processing Module No : 1 Module Name : Module I (16 hours) Introduction - digital image representation - fundamental steps in image processing - elements of digital image processing systems. digital image fundamentals - elements of visual perception - a simple image model - sampling and quantization - basic relationship between pixels - image geometry - image transforms - Fourier transform - discrete Fourier transform - Properties of 2D-fourier transform (DFT) - FFT algorithm- other separable image transforms. Books : References : Module No : 2 Module Name : Module II (12 hours) Image enhancement - point processing - spatial filtering - frequency domain - color image processing - image restoration - degradation model - diagonalization of circulant and block circulant matrices, deconvolution, inverse filtering- Wiener filtering -least mean square filter Books : References : Module No : 3 Module Name : Module III (12 hours) Image compression - image compression models - elements of information theory basic ideas of variable length coding, predictive coding, transform coding- error-free compression - lossy compression - image compression standards Books : References : Module No : 4 Module Name : Module IV (12 hours) Image reconstruction from projections - basics of projection - parallel beam and fan beam projection - ART -method of generating projections - Fourier slice theorem - filtered back projection algorithms - testing back projection algorithms. Books : R. Gonzalez and R. E. Woods, Digital Image Processing, 2nd ed., Pearson Education, Delhi, 2002. References : 1.A. K. Jain, Fundamentals of Digital Image Processing, Prentice Hall of India, New Delhi, 1988 2.A. Rosenfeld and A. C. Kak, Digital Picture Processing, 2nd ed., Academic Press, New York, 1997 3.W. K. Pratt, Digital Image Processing, 3rd ed., John Wiley & Sons, New York, 2001 4.Andrews A. C and Hunt B. R., Digital Image Restoration, Prentice Hall, New Jersey, 1997  AI04 705D Nonlinear Controll SystemsModule No : 1Module Name : Module I (14 hours)Nonlinear systems-introduction-behaviour of nonlinear systems-jump resonance-limit cycles. Common physical nonlinearities-saturation-friction-backlash- dead zone-relay. Multivariable nonlinearities (definition), The phase-plane method-basic concepts-singular points-nodal point-saddle point-focus point-vortex point. Construction of phase trajectories-analytical method-graphical methods-isocline method, delta method, Example problems.Books : 1.J. Slotine and W. Li, Applied Nonlinear Control, Prentice Hall, Englewood Cliffs, 1991 2.I. J. Nagarath and M. Gopal, Control system Engineering, Wiley Eastern, New Delhi, 1995 3.H. Marquez, Nonlinear Control Systems: Analysis and Design, John Wiley & Sons, New York, 2003 References : 1.M. Vidyasagar, Nonlinear Systems Analysis, 2nd ed., Prentice Hall, Englewood Cliffs, 1993. 2.H. K. Khalil, Nonlinear Systems, 3rd ed., Prentice Hall, Englewood Cliffs, N.J., 2001.Module No : 2Module Name : Module II(12 hours)Describing function method-basic concepts, derivation of describing functions-dead zone and saturation, relay with dead-zone and hysterisis, backlash, Stability of nonlinear systems- analysis by describing function-using Nyquist stability criterion- limit cycles-Reliability of describing function analysisBooks : References : Module No : 3Module Name : Module III(14 hours)Stability of nonlinear systems-Lyapunov theory (review)- autonomous and non-autonomous systems-equilibrium points, Stability in the sense of Lyapunov, asymptotic stability and exponential stability, Linearization and local stability, Lyapunovs direct method, positive definite functions and Lyapunov functions, Lyapunov theorem for local stability and global stability, Analysis based on Lyapunovs direct method-LTI systems-Krasovskiis method, Variable gradient method for constructing Lyapunov functions-simple examples, Popovs stability criterion. Stability of non-autonomous systems (basic concepts only)-Lyapunovs direct method simple problemsBooks : References : Module No : 4Module Name : Module IV(12 hours)Feedback Linearization-discussion of basic concepts using simple examples-controlling the fluid level in a tank, two-link robot, input state linearization- input-output linearization- mathematical tools-Lie derivative and Lie brackets- properties of Lie brackets, Frobenius theorem- simple example problems. Books : References :  AI04 705E Embedded Systems Module No : 1 Module Name : Module I (13 hours) An Introduction to Embedded Systems: Real-Time Systems. Hard Real-Time. Soft Real-Time. Real-Time Embedded Systems. Embedded Processors. The Advent of PC Embedded Systems. PC Hardware Components. Embedded system Design: Tools and components Books : 1.M. A. Mazidi and J. G. Mazidi, The 8051 Microcontroller and Embedded Systems, Pearson Education, Delhi, 2004 2.D. E. Simon, An Embedded Software Primer, Pearson Education, Delhi, 2004 References : 1.C. Hollabaugh, Embedded Linux: Hardware, Software, and Interfacing, Pearson Education, Delhi, 2004 2.R. Grehan, R. Moote, and I. Cyliax, Real-Time Programming: A Guide to 32-bit Embedded Development, Pearson Education, Delhi, 2004 3.Intel Data Book Vol. 1, Embedded Microcontrollers and Processors 4.Intel Data book, EBK 6496-16 bit embedded controller Hand book Module No : 2 Module Name : Module II (13 hours) Embedded System Hardware Approach: Overview of 8051 family, ADC /DAC Interface issues, Timer/Counter Programming in the 8051. 8051 Serial Communication. Interrupts Programming. Real World Interfacing: Sensors. Stepper Motor, Keyboard, DAC. 8051/31 Interfacing to External Memory. Books : References : Module No : 3 Module Name : Module III (13 hours) Intel 80196 microcontroller CPU operation Memory space software overview Peripheral overview Interrupts -Programming concepts (Not in detail). Peripheral Interface Controller(PIC)-General architecture-PIC16F84-Architecture-Addressing modes-Instruction set-Simple Programming (Not in detail) Books : References : Module No : 4 Module Name : Module IV (13 hours) Embedded System Software: Round-Robin with Interrupts. Function-Queue-Scheduling Architecture. Introduction to Real-Time Operating Systems. Real-Time Operating System Architecture. Selecting an Architecture. Tasks and Task States. Tasks and Data. Real Time and Embedded Linux: Features Books : References :  AI04 801 Computer Aided Process ControlModule No : 1Module Name : Module1(12 hours)Introduction to Computer Aided Process control-Basic building blicks- Classification- Architecture, Direct Digital Control- DDC software. Supervisory control. Data acquisitionm system- Computer intefacing for Data Acquisition and Control Data Acquition using standard Add-on cards. Data loggers- announciators. Smart transducers and transmitters. Introduction to RTOS- examples. Introduction to SCADA system- Applications.Books : 1.S.K singh, Computer aided process Control, prentice Hall of India, New Delhi,2003 2.M. Chidambram, Computer Control Processes, Narosa Publications House , New Delhi 2002 3.K. Kant, Computer Based Industrial Control, prentice Hall of India , New Delhi,1997 4.C.D Johnson Process control Instrumentation technology 7th ed. 5.C.T. Killian Modern Control Technology components and systems 2nd ed.,Thomson Asia, Singapore 2001 References : 1.G. Dunning, Introduction of programmable Logic Controllers, Delmar Publishing, Boca Ration, FL, 19998 2.K.J. Astrom and B. Wittenmark Computer Control Systems Theory and Design, prentice Hall, Englewood cliffs, 1984 Module No : 1Module Name : Module1(12 hours)Introduction to Computer Aided Process control-Basic building blicks- Classification- Architecture, Direct Digital Control- DDC software. Supervisory control. Data acquisitionm system- Computer intefacing for Data Acquisition and Control Data Acquition using standard Add-on cards. Data loggers- announciators. Smart transducers and transmitters. Introduction to RTOS- examples. Introduction to SCADA system- Applications.Books : References : Module No : 2Module Name : ModuleII (14 hours)Discrete state process control- characteristics- event sequencing- Programmable logic controller(PLCs) architecture and hadwarre- Functional blocks symbols- PLC programming- Relay logic- Ladder diagram- Timers- Counters- PLC operation- Analog interfacing- PLC selection-- Micro PLCs. Networking of PLCs, Design of interlocks and alarams using PLC, PID control on PLC, Creating ladder diagrams from process control descriptions Books : References : Module No : 3Module Name : ModuleIII(12 hours)Distributed control systems ; overview PLC versus DCS system architecture DCS software configuration. DCS communication field bus systems HART protocol MAP/TOP-MODBUS-PROFIBUS-OPC. Integration with PLC integration with computers. Example of a DCS, PLC controllers and DCS in plant examplesBooks : References : Module No : 4Module Name : ModuleIV (14 hours)Introduction to optimal control theory. Design of digital control system model identification the principles of least squares minimam variance control. Self tuning regulators Adaptive and predictive control AI and expert systems. Fuzzy logic controller ( brief discussion, basic principles only) block diagram methodology control of single input and two input systems examples. Artificial neural network (brief discussion, basic principles only)Books : 1.S.K singh, Computer aided process Control, prentice Hall of India, New Delhi,2003 2.M. Chidambram, Computer Control Processes, Narosa Publications House , New Delhi 2002 3.K. Kant, Computer Based Industrial Control, prentice Hall of India , New Delhi,1997 4.C.D Johnson Process control Instrumentation technology 7th ed. 5.C.T. Killian Modern Control Technology components and systems 2nd ed.,Thomson Asia, Singapore 2001 References : 1.G. Dunning, Introduction of programmable Logic Controllers, Delmar Publishing, Boca Ration, FL, 19998 2.K.J. Astrom and B. Wittenmark Computer Control Systems Theory and Design, prentice Hall, Englewood cliffs, 1984 AI04 802 Analytical Instrumentation Module No : 1 Module Name : Module I (13 hours) Spectral analysis-electromagnetic radiation and its interaction with matter-Beers law. Spectrophotometry-radiation sources, wavelength selection, filters, monochromators, prisms, grating, detectors, readout modules, ultraviolet spectrophotometer, single beam and double beam photometers, filter photometers-visible and near IR photometers, use of microprocessors in photometry Books : 1H. H. Williard, L. L. Merrit, J. A. Dean, and F. A. Settle, Instrumental Methods of Analysis, 7th ed., CBS Publishers and Distributors, India, 1988 2D. A. Skoog, F. J. Holler, and T. A. Nieman, Principles of Instrumental Analysis, 6th ed., Thomson Learning, U. K., 1998 3R. S. Khandpur, Handbook of Analytical Instruments, Tata McGraw Hill, New Delhi References : 1R. K. Jain, Mechanical and Industrial Measurements, Khanna Publishers, Delhi, 1985 Module No : 2 Module Name : Module II (12 hours) Infrared spectrophotometer-sources- detectors-FTIR-flame emission and atomic absorption spectrometry, Radiation sources-wavelength choice-cells and detectors-atomic emission spectrometry-plasma excitation-thermal analysis- principles and instrumentation. Differential thermal analysis-thermo gravimetric analysis Books : 1H. H. Williard, L. L. Merrit, J. A. Dean, and F. A. Settle, Instrumental Methods of Analysis, 7th ed., CBS Publishers and Distributors, India, 1988 2D. A. Skoog, F. J. Holler, and T. A. Nieman, Principles of Instrumental Analysis, 6th ed., Thomson Learning, U. K., 1998 3R. S. Khandpur, Handbook of Analytical Instruments, Tata McGraw Hill, New Delhi References : 1R. K. Jain, Mechanical and Industrial Measurements, Khanna Publishers, Delhi, 1985 Module No : 3 Module Name : Module III (12 hours) Raman spectrometry-principles and instrumentation, X-ray techniques, diffraction of X-rays-Braggs law. X-ray spectrometer- principles and instrumentation- X-ray absorption fluorescence spectrometry- principles and instrumentation-Magnetic resonance techniques-nuclear magnetic resonance-measurement techniques-ESR spectrometer Books : 1H. H. Williard, L. L. Merrit, J. A. Dean, and F. A. Settle, Instrumental Methods of Analysis, 7th ed., CBS Publishers and Distributors, India, 1988 2D. A. Skoog, F. J. Holler, and T. A. Nieman, Principles of Instrumental Analysis, 6th ed., Thomson Learning, U. K., 1998 3R. S. Khandpur, Handbook of Analytical Instruments, Tata McGraw Hill, New Delhi References : 1R. K. Jain, Mechanical and Industrial Measurements, Khanna Publishers, Delhi, 1985 Module No : 4 Module Name : Module IV (15 hours) Mass spectrometry-principle - magnetic deflection type, time of flight, quadrpole types. Chromatography-general principles-classification-gas chromatography-various types-liquid chromatography, high performance liquid chromatography, gas-liquid chromatography, chromatographic detectors. Gas Analysers thermal conductivity type thermal analyser Oxygen analyser CO monitor dust and smoke measurement industrial analysers. Books : 1H. H. Williard, L. L. Merrit, J. A. Dean, and F. A. Settle, Instrumental Methods of Analysis, 7th ed., CBS Publishers and Distributors, India, 1988 2D. A. Skoog, F. J. Holler, and T. A. Nieman, Principles of Instrumental Analysis, 6th ed., Thomson Learning, U. K., 1998 3R. S. Khandpur, Handbook of Analytical Instruments, Tata McGraw Hill, New Delhi References : 1R. K. Jain, Mechanical and Industrial Measurements, Khanna Publishers, Delhi, 1985  AI04 803 Optoelectronic Instrumentation Module No : 1 Module Name : Module I (14 hours) Fundamentals of optics-light sources-principle of polarization-diffraction and interference. Display devices-light emitting diode-plasma displays-liquid crystal displays-photo detectors-PIN diodes-avalanche photodiodes-optocouplers-various types-modulation of light-electro-optic, magneto-optic, acoustic-optic modulators, Interferometry-Michelson, Fabry-Perot, Jamin & Mach-Zehnder Interferometers-interference filters-interferometer methods in metrology and testing of optical components-Fiezeau & Tymann-Green interferometers-optical spectrum analyser Books : References : Module No : 2 Module Name : Module II (13 hours) Lasers-Principle of operation-Einstein relations-population inversion-optical feedback. Laser modes-axial and transverse modes. Classes of lasers-solid state, gas and liquid dye lasers, semiconductor lasers. Properties of lasers-Q switching, mode locking, frequency doubling. Applications of lasers-fabrication processes, velocity measurements, distance measurements Books : References : Module No : 3 Module Name : Module III (12 hours) Holography, Construction of holograms, holographic interferometry, applications of holography, distance measurements, information storage, optical methods. Fibre optics-light guidance through fibres, multimode and single mode fibres, step index and graded index fibres, properties of optical fibres, fibre fabrication, fabrication of perform, fibre drawing process Books : References : Module No : 4 Module Name : Module IV (13 hours) Measurement of fibre characteristics-attenuation, dispersion and refractive index profile measurements, optical time domain reflectometer, fibre optic joining- couplers, splicers and connectors, losses in optical fibres, application of optical fibres, fibre optic sensors-measurement of temperature, liquid level, and fluid flow, microbend sensors, optical fibre communicationrecent trends and developments-optical telemetry. Books : 1.J. R. Meyer-Arendt, Introduction to Classical and Modern Optics, 4th ed., Prentice Hall, N.Y., 1995 2.L. Wilson and J. F. B. Hawkes, Optoelectronics: An Introduction, 3rd ed., Prentice Hall of India, New Delhi, 1998 References : 1.K Thyagarajan and A. K. Ghatak, Lasers: Theory and Applications, Plenum Publishing Corporation, New York, 1981 2.G. Keiser, Optical Fibre Communications, 3rd ed., Mc Graw-Hill, New York, 2000. 3.J. Singh, Optoelectronics: An Introduction to Materials and Devices, Tata  AI04 804A Dsp Controllers Module No : 1 Module Name : Module I (13 hours) Architecture of TMS 320C6x-functional units-fetch and execute-pipelining-registers-addressing modes-instruction sets-timers-interrupts-serial ports-DMA-memory Books : R. Chassaing, DSP applications using C and the TMS 320C6x DSK, Wiley, 2002 References : Reference Books 1.B. Venkataramani and M. Bhaskar, Digital Signal Processors, Tata McGraw Hill, New Delhi, 2002 2.N. Kehtarnavaz, Real-Time Digital Signal Processing: Based on the TMS320C6000, Elsevier, 2004 3.S. A. Tretter, Communication System Design using DSP algorithms: with Laboratory Experiments for the TMS320C6700, Kluwer Academic Publishers, 2003 4.N. Kehtarnavaz, DSP System Design: Using the TMS320C6000, Prentice-Hall, New Jersey, 2001 Module No : 2 Module Name : Module II (13 hours) Fixed and floating point formats-code improvement-constraints-TMS320C64x CPU-simple programming examples using C/assembly Books : R. Chassaing, DSP applications using C and the TMS 320C6x DSK, Wiley, 2002 References : Reference Books 1.B. Venkataramani and M. Bhaskar, Digital Signal Processors, Tata McGraw Hill, New Delhi, 2002 2.N. Kehtarnavaz, Real-Time Digital Signal Processing: Based on the TMS320C6000, Elsevier, 2004 3.S. A. Tretter, Communication System Design using DSP algorithms: with Laboratory Experiments for the TMS320C6700, Kluwer Academic Publishers, 2003 4.N. Kehtarnavaz, DSP System Design: Using the TMS320C6000, Prentice-Hall, New Jersey, 2001 Module No : 3 Module Name : Module III (13 hours) Review of FIR, IIR filters-DFT and FFT. Adaptive filters-examples for noise cancellation and system examples-code optimization-procedure-software pipelining Books : R. Chassaing, DSP applications using C and the TMS 320C6x DSK, Wiley, 2002 References : Reference Books 1.B. Venkataramani and M. Bhaskar, Digital Signal Processors, Tata McGraw Hill, New Delhi, 2002 2.N. Kehtarnavaz, Real-Time Digital Signal Processing: Based on the TMS320C6000, Elsevier, 2004 3.S. A. Tretter, Communication System Design using DSP algorithms: with Laboratory Experiments for the TMS320C6700, Kluwer Academic Publishers, 2003 4.N. Kehtarnavaz, DSP System Design: Using the TMS320C6000, Prentice-Hall, New Jersey, 2001 Module No : 4 Module Name : Module IV (13 hours) Typical DSP development systems-support tools and files-compilers-assemblers-code compressor studio-codecs-DSP application examples in codec, voice scrambling, PLL, AI, image processing, FSK modems, voice detection and reverse playback, multi rate filters, PID controllers Books : R. Chassaing, DSP applications using C and the TMS 320C6x DSK, Wiley, 2002 References : Reference Books 1.B. Venkataramani and M. Bhaskar, Digital Signal Processors, Tata McGraw Hill, New Delhi, 2002 2.N. Kehtarnavaz, Real-Time Digital Signal Processing: Based on the TMS320C6000, Elsevier, 2004 3.S. A. Tretter, Communication System Design using DSP algorithms: with Laboratory Experiments for the TMS320C6700, Kluwer Academic Publishers, 2003 4.N. Kehtarnavaz, DSP System Design: Using the TMS320C6000, Prentice-Hall, New Jersey, 2001  AI04 804B Pattern Recognition Module No : 1 Module Name : Module1 (15 hrs) Introduction: Introduction to statistical, syntactic and descriptive approaches, features and feature extraction, learning. Bayes Decision theory: introduction, continuous case, 2-category classification, minimum error rate classification, classifiers, discriminant functions, and decision surfaces. Error probabilities and integrals, normal density, discriminant functions for normal density, Bayes Decision theory Discrete case. Books : References : 1.R. O. Duda, P. E. Hart, and D. G. Stork, Pattern Classification, 2nd ed., John Wiley & Sons, New York, 2001 2.R. O. Duda and P. E. Hart, Pattern Classification and Scene Analysis, John Wiley & Sons, New York, 1973. 3.E. Gose, R. Johnsonbaugh, and S. Jost, Pattern Recognition and Image Analysis, Prentice Hall of India, NewDelhi, 1999 Module No : 2 Module Name : Module II (13 hrs) Parameter estimation and supervised learning: Maximum likelihood estimation, the Bayes classifier, learning the mean of a normal density, general Bayesian learning. Nonparametric technique: density estimation, parzen windows, k-nearest Neighbour estimation, estimation of posterior probabilities, kn nearest neighbour rule, nearest- neighbor rule, k-nearest neighbour rule. Books : 1.R. O. Duda, P. E. Hart, and D. G. Stork, Pattern Classification, 2nd ed., John Wiley & Sons, New York, 2001 2.R. O. Duda and P. E. Hart, Pattern Classification and Scene Analysis, John Wiley & Sons, New York, 1973. 3.E. Gose, R. Johnsonbaugh, and S. Jost, Pattern Recognition and Image Analysis, Prentice Hall of India, NewDelhi, 1999 References : Module No : 3 Module Name : Module III (12 hrs) Linear discriminant functions- linear discriminant functions and decision surfaces, generalized linear discriminant functions, 2-category linearly separable case, non-separable behaviour, linear programming procedures. Multilayer neural networks- Feed forward operation and classification, Back propagation algorithm, error surfaces, back propagation as feature mapping, practical techniques for improving back propagation. Books : References : Module No : 4 Module Name : Module IV (12 hrs) Supervised learning and clustering- Mixture densities and identifiably, maximum likelihood estimates, application to normal mixtures, unsupervised Bayesian learning, data description and clustering, Hierarchical clustering, low dimensional representation of multidimensional map Books : 1.R. O. Duda, P. E. Hart, and D. G. Stork, Pattern Classification, 2nd ed., John Wiley & Sons, New York, 2001 2.R. O. Duda and P. E. Hart, Pattern Classification and Scene Analysis, John Wiley & Sons, New York, 1973. 3.E. Gose, R. Johnsonbaugh, and S. Jost, Pattern Recognition and Image Analysis, Prentice Hall of India, NewDelhi, 1999 References :  AI04 804C Vlsi Design Module No : 1 Module Name : Module I (13 hours) Integrated Circuit Manufacturing. CMOS Technology. Integrated Circuit Design Techniques. MOS Transistors. MOS Transistor Theory. Characteristics: I-V, switching effect of non-ideal characteristics. CMOS Processing Technology. CMOS Technologies. Layout Design Rules. Circuit Characterization and Performance Estimation. Delay Estimation. Logical Effort and Transistor Sizing. Power Disruption. Interconnect Wire Engineering. Design Margin. Reliability. Scaling. Books : 1.N. H. E. Weste and D. Harris, CMOS VLSI Design: A Circuits and Systems Perspective, 3rd ed., Pearson Education, Delhi, 2004 2.J. P. Uyemura, Introduction to VLSI Circuits and Systems, Pearson Education, Delhi, 2001 Reference Books References : 1.S. K. Gandhi, VLSI Fabrication Principles, 2nd ed., John Wiley & Sons, New York, 1994 2.E. Fabricius, Introduction to VLSI Design, Tata McGraw-Hill, New Delhi, 1990 Module No : 2 Module Name : Module II (13 hours) Circuit Simulation. Device Models. SPICE Models Device Characterization. Interconnect Simulation. Combinational Circuit Design. Introduction. Circuit Families. Comparison of Circuit Families. Silicon-on-Insulator Circuit Design. Sequential Circuit Design:. Sequencing Static Circuits. Circuit Design of Latches & Flip-Flops. Static Sequencing Element Methodology. Synchronizers. Wave Pipelining Books : References : 1.S. K. Gandhi, VLSI Fabrication Principles, 2nd ed., John Wiley & Sons, New York, 1994 2.E. Fabricius, Introduction to VLSI Design, Tata McGraw-Hill, New Delhi, 1990 Module No : 3 Module Name : Module III (13 hours) Design Methodology and Tools: Structured Design Strategies. Basic Design Methods. Design Flows. Behavioural/Functional Synthesis Design Flow (ASIC Design Flow).Programmed Behavioural Synthesis. Automated Layout Generation. Mixed Signal or Custom Design Flow. Additional Design Interchange Formats. Testing and Verification. Reliability. Logic Verification Principles. Silicon Debug Principles. Manufacturing Test Principles. Design for Testability. Boundary Scan. Books : References : Module No : 4 Module Name : Module IV (13 hours) Data path Subsystems. Addition/Subtraction. One/Zero Detectors. Comparators. Counters. Boolean Logical Operations. Coding. Shifters. Multiplication. Parallel Prefix Computations. Array Subsystems. SRAM. Special-Purpose RAMs. DRAM. Read Only Memory. Content-Addressable Memory. Programmable Logic Arrays. Books : References :  AI04 804D Degital System Design Module No : 1 Module Name : Module1(12 hours) Review of logic design; logic design issues- hazards in combinational networks- hazards in sequential networks- synchronous design method- clock skew- asynchronous inputs- synchroniser failure and metastability Books : 1.Roth C.H. JT., Digital System Design Using VHDL ,PWS Pub. co. 2.Wakerly J,F., Digital Design: Principles and Practices, PHI Inc. 4.3.Katz R.H., Contemporary Logic Design , Benjamin/Cummings Publishing Co. 5.4.Bostock G., FPGAs and Programmable LST , Butterworth Heineman. 6.5. Perry D.L., FJDL,McGraw Hill. 7.Reference books 8.1. Lewin D.& Prothero D., Design of Logic Systems, Chapman &Hall 9.2. Zoran Salacie, 10.3. Stephen Brown & Zvonoko Vranesic, Fundamentals of Digital Logic with VHDL Design, McGraw Hill 11.4. Bhasker J, A VHDL Primer, Addison Wesle References : Module No : 2 Module Name : Module II( 14 hours) Hardware design languages: Introduction to VHDL- behavioural modelling- transport Vs inertial delay- simulation deltas- sequential processing- process statement- signal assignment Vs variable assignment- sequential statement- data types- sub programs and packages- predefined attributes- configurations- sub program overloading- VHDL synthesis- design examples. Books : References : Module No : 3 Module Name : ModuleIII( 13 hours) Design with programable devices: Programmable LSI techniques- Programmable logic arrays- Programmable array logic- sequential PLDs- sequential circuit design using PLDs- complex programmable logic devices and field programmable gate array- altera series FPGAs and Xilinx series FPGAs (typical internal structure) Books : References : Module No : 4 Module Name : 4.Module 1V (13 hours) 4.Design issues for tesstability: design for testability - bed nalls and in- circuit testing scan methods- testing combinational circuit testing sequential circuits- boundary scan- built- in self test- estimating system reliability transmission line reflections and termination Books : References :  AI04 804E Robotics And Automation Module No : 1 Module Name : Module I (12 hours) Basic Concepts: Definition and origin of robotics different types of robotics various generations of robots degrees of freedom Asimovs laws of robotics dynamic stabilization of robots. Books : 1.P. Mikell, G. M. Weiss, R. N. Nagel, and N. G. Odraj, Industrial Robotics, McGraw-Hill, Singapore, 1996 2.B. K. Ghosh, Control in Robotics and Automation: Sensor Based Integration, Allied Publishers, Chennai, 1998 References : Reference Books 1.S. R. Deb, Robotics Technology and Flexible Automation, Tata McGraw Hill, New Delhi, 1994. 2.R. P. Klafter, T. A. Chmiclewski, and M. Negin, Robotics Engineering: Integrated Approach, Prentice Hall of India, New Delhi, 1994. Module No : 2 Module Name : Module II (12 hours) Power Sources and Sensors: Hydraulic, pneumatic and electric drives determination of HP of motor and gearing ratio variable speed arrangements path determination micro machines in robotics machine vision ranging laser acoustic magnetic, fiber optic and tactile sensors. Books : References : Module No : 3 Module Name : Module III (12 Module hours) Manipulators, actuators and grippers: Construction of manipulators manipulator dynamics and force control electronic and pneumatic manipulator control circuits end effectors U various types of grippers design considerations. Books : References : Module No : 4 Module Name : Module IV (16 hours) Kinematics and Path Planning: Solution of inverse kinematics problem multiple solution jacobian work envelope hill climbing techniques robot programming languages. Case Studies: Multiple robots machine interface robots in manufacturing and non-manufacturing applications robot cell design selection of robot. Books : References :  AI04 804F Computer Networks Module No : 1 Module Name : Module I (13 hours) Computer Networks and the Internet-The Network Edge. The Network Core. Network Access and Physical Media, ISPs and Internet Backbones. Delay and Loss in Packet-Switched Networks. Protocol Layers and Their Service Models. Application Layer. Principles of Application Layer Protocols. The Web and HTTP. File Transfer: FTP. Electronic Mail in the Internet. DNS-The Internet's Directory Service. Books : 1J. Kurose and K. Ross, Computer Networking: A Top-Down Approach Featuring the Internet, 3rd ed., Pearson Education, Delhi, 2001 References : 1.S. Keshav, An Engineering Approach to Computer Networking: ATM Networks, the Internet, and the Telephone Network, Pearson Education, Delhi, 1997 2.W. Stallings Computer Networking with Internet Protocol, Pearson Education, Delhi, 2003 3.D. Comer, Computer Networks and Internets with Internet Applications, 4th ed., Pearson Education, Delhi, 2003 Module No : 2 Module Name : Module II (13 hours) Transport Layer. Introduction and Transport-Layer Services. Multiplexing and Demultiplexing. Connectionless Transport: UDP. Principles of Reliable Data Transfer. Connection-Oriented Transport: TCP. Principles of Congestion Control. TCP Congestion Control. Books : References : Module No : 3 Module Name : Module III (13 hours) Networking Layer & Routing. Introduction and Network Service Model. Routing Principles. Hierarchical Routing. The Internet Protocol. Routing and the Internet. Router architecture .IPv6.Multicast Routing. Mobility and the Network Layer. Books : References : Module No : 4 Module Name : dule IV (13 hours) Link Layer. Data Link Layer: Introduction and Services. Error Detection and Correction Techniques. Multiple Access Protocols. LAN Addresses and ARP. Hubs, Bridges and Switches. Wireless Links. PPP: The Point-to-Point Protocol. Asynchronous Transfer Mode (ATM). Wireless & Mobility (in brief). Security-Principles of Cryptography. Authentication. Integrity. Key Distribution. Access Control, Firewalls. Books : References :  AI04 805A Soft Computing TechniquesModule No : 1Module Name : Module I (12 hours)Artificial intelligence systems Neural networks, fuzzy logic, genetic algorithms. Artificial neural networks: Biological neural networks, model of an artificial neuron, Activation functions, architectures, characteristics-learning methods, brief history of ANN research-Early ANN architectures (basics only)-McCulloch & Pitts model, Perceptron, ADALINE, MADALINE Books : 1.R. Rajasekaran and G. A. Vijayalakshmi Pai, Neural Networks, Fuzzy Logic, and Genetic Algorithms: Synthesis and Applications, Prentice Hall of India, New Delhi, 2003 2.L. Fausett, Fundamentals of Neural Networks, Prentice Hall, Upper Saddle River, N.J, 1994. References : 1.D. E. Goldberg, Genetic Algorithms in Search, Optimisation, and Machine Learning, Addison-Wesley, Reading, MA, 1989 2.M. T. Hagan, H. B. Demuth, and M. H. Beale, Neural Network Design, PWS Publishing, Boston, MA, 1996.Module No : 2Module Name : Module II (14 hours)Backpropagation networks: architecture, multilayer perceptron, backpropagation learning-input layer, hidden layer, output layer computations, calculation of error, training of ANN, BP algorithm, momentum and learning rate, Selection of various parameters in BP networks. Variations in standard BP algorithms- Adaptive learning rate BP, resilient BP, Levenberg-Marquardt, and conjugate gradient BP algorithms (basic principle only)- Applications of ANN Books : References : Module No : 3Module Name : Module III (13 hours)Fuzzy LogicCrisp & fuzzy sets fuzzy relations fuzzy conditional statements fuzzy rules fuzzy algorithm. Fuzzy logic controller fuzzification interface knowledge base decision making logic defuzzification interface design of fuzzy logic controller case studies. Books : References : Module No : 4Module Name : Module IV (13 hours)Genetic algorithms basic concepts, encoding, fitness function, reproduction-Roulette wheel, Boltzmann, tournament, rank, and steady state selections, Elitism. Inheritance operators, Crossover-different types, Mutation, Bit-wise operators, Generational cycle, Convergence of GA, Applications of GA case studies. Introduction to genetic programming- basic concepts.Books : References :  AI04 805C Advanced Signal Processing Module No : 1 Module Name : Module I (12 hours) Multirate system fundamentalsBasic multirate operation up-sampling and down sampling: Time domain and frequency domain analysis Identities of multirate operations Interpolator and decimator design Rate conversion Polyphase representation. Books : 1.P. P. Vaidyanathan, Multirate Systems and Filter Banks, Pearson Education, Delhi, 2004 2.K. P. Soman and K. I. Ramachandran, Insight into Wavelets, Prentice Hall of India, New Delhi, 2004 3.G. Strang and T. Nguyen, Wavelets and Filter Banks, Wellesley-Cambridge Press, MA, 1996 References : 1.M. Vetterli and J. Kovacevic, Wavelets and Subband Coding, Prentice-Hall, Englewood Cliffs, N. J., 1995 2.S. K. Mitra, Digital Signal Processing: A Computer Based Approach, 2nd ed., Tata Mc-Graw Hill, New Delhi, 2001 3.C. S. Burrus, R. A. Gopinath, and H. Guo, Introduction to Wavelets and Wavelet Transforms: A Primer, Prentice Hall, Englewood Cliffs, N. J., 1997 Module No : 2 Module Name : Module II (14 hours) Multirate Filter banksMaximally decimated filter banksQuadrature mirror filter (QMF) banks Polyphase representationErrors in the QMF bank. Aliasing and ImagingMethod of cancelling aliasing error. Amplitude and phase distortion. Prefect reconstruction (PR) QMF bank PR condition. M-channel perfect reconstruction filter banks Books : References : Module No : 3 Module Name : Module III (15 hours) WaveletsFundamentals of signal decomposition - brief overview of Fourier transform and short time Fourier transform - time frequency resolution - Continuous wavelet transform - different waveletsDWT - wavelet decomposition - approximation of vectors in nested linear vector spaces - example of MRA - orthogonal wavelet decomposition based on the Haar wavelet - digital filter implementation of the Haar wavelet decomposition (Mallats algorithm) Books : References : Module No : 4 Module Name : Module IV (11 hours) Wavelet applicationsImage compression - EZW algorithm - Audio compression - signal denoising techniques different typesedge detection. Lossless compression Books : References :  AI04 805D Artificial Intelligence And Expert SystemsModule No : 1Module Name : Module I (13 hours)Artificial Intelligence: History and Applications, Production Systems, Structures and Strategies for state space search- Data driven and goal driven search, Depth First and Breadth First Search, DFS with Iterative Deepening, Heuristic Search- Best First Search, A* Algorithm, AO* Algorithm, Constraint Satisfaction, Using heuristics in games- Minimax Search, Alpha Beta Procedure Books : 1G. F. Luger, Artificial Intelligence- Structures and Strategies for Complex Problem Solving, 4th ed., Pearson Education, Delhi, 2002 2E. Rich and K. Knight, Artificial Intelligence, 2nd ed., Tata McGraw-Hill, New Delhi, 1991 References : 1D. W. Rolston, Principles of Artificial Intelligence & Expert Systems Development, McGraw Hill, Ney York, 1988 2D. W. Patterson, Introduction to Artificial Intelligence and Expert Systems, Prentice Hall of India, New Delhi, 1990 3N. J. Nilsson, Principles of Artificial Intelligence, Narosa Publishing House, New Delhi, 1990Module No : 2Module Name : Module II (11 hours)Knowledge representation - Propositional calculus, Predicate Calculus, Theorem proving by Resolution, Answer Extraction, AI Representational Schemes- Semantic Nets, Conceptual Dependency, Scripts, Frames, Introduction to agent based problem solvingBooks : References : Module No : 3Module Name : Books : References : Module No : 3Module Name : Module II (11 hours)Knowledge representation - Propositional calculus, Predicate Calculus, Theorem proving by Resolution, Answer Extraction, AI Representational Schemes- Semantic Nets, Conceptual Dependency, Scripts, Frames, Introduction to agent based problem solvingBooks : References : Module No : 4Module Name : Module IV (14 hours)Overview of Expert System Technology - Rule based Expert Systems, Expert systems Inference: Forward chaining and backward chaining. Deduction process. Languages and tools. Knowledge acquisition and uncertainty: Explanation facilities, knowledge acquisition, dealing with uncertainty, fuzzy reasoning. Introduction to natural language processing. Understanding, perception, learning; explanation facilities and knowledge acquisition.Books : References :   AI04 805E Micro Electro Mechanical SystemsModule No : 1Module Name : Module I (11 hours)MEMS and microsystems: MEMS and microsystem products evaluation of microfabrication microsystems and microelectronics applications of microsystems working principles of microsystems microsensors microactuators MEMS and microactuators microaccelerometers. Scaling laws in miniaturization: Introduction scaling in geometry scaling in rigid body dynamics the Trimmer force scaling vector scaling in electrostatic forces, electromagnetic forces, scaling in electricity and fluidic dynamics, scaling in heat conducting and heat convection. Books : Tai-Ran Hsu, MEMS and Microsystems Design and Manufacture, Tata McGraw Hill, New Delhi, 2002 References : 1.Mark Madou, Fundamentals of Microfabrication, CRC Press, 1997. 2.J. W. Gardner, Microsensors: Principles and Applications 3.S. M. Sze, Semiconductor Sensors, McGraw Hill, New York, 1994 4.C. Y. Chang and S. M. Sze, VLSI Technology, 2000.Module No : 2Module Name : Module I (11 hours)MEMS and microsystems: MEMS and microsystem products evaluation of microfabrication microsystems and microelectronics applications of microsystems working principles of microsystems microsensors microactuators MEMS and microactuators microaccelerometers. Scaling laws in miniaturization: Introduction scaling in geometry scaling in rigid body dynamics the Trimmer force scaling vector scaling in electrostatic forces, electromagnetic forces, scaling in electricity and fluidic dynamics, scaling in heat conducting and heat convection. Books : References : Module No : 3Module Name : Module II (13 hours)Materials for MEMS and microsystems: Substrates and wafers Silicon as a substrate material, ideal substrates for MEMS single crystal Silicon and wafers crystal structure mechanical properties of Si Silicon compounds SiO2, SiC, Si3N4 and polycrystalline Silicon Silicon piezoresistors Gallium arsenside, quartz piezoelectric crystals polymers for MEMS conductive polymers. Engineering mechanics for microsystems design: Introduction static bending of thin plates circular plates with edge fixed, rectangular plate with all edges fixed and square plates with all edges fixed. Mechanical vibration - resonant vibration microaccelerometers design theory and damping coefficients. Thermomechanics thermal stresses. Fracture mechanics stress intensity factors, fracture toughness and interfacial fracture mechanics.Books : References : Module No : 4Module Name : Module III (16 hours)Basics of fluid mechanics in macro and mesco scales: Viscosity of fluids flow patterns Reynolds number. Basic equation in continuum fluid dynamics laminar fluid flow in circular conduits computational fluid dynamics incompressible fluid flow in microconducts, surface tension, capillary effect and micropumping - Fluid flow in submicrometer and nanoscale rarefield gas, Kundsen and Mach number and modelling of microgas flow heat conduction in multilayered thin films heat conduction in solids in submicrometer scale - Thermal conductivity of thin films - heat conduction equation for thin films. Books : References :  AI04 805F Power Plant Instrumentation And Controll Module No : 1 Module Name : Module I (12 hours) Overview of Power Generation: Brief survey of methods of power generation hydro, thermal, nuclear, solar and wind power importance of instrumentation in power generation. Thermal power plants building blocks overview, types of boilers, turbine generators, condensers, variable speed pumps and fans, material handling system. Books : 1.S. G. Dukelow, The Control of Boilers, 2nd ed., ISA Press, New York, 1991 2.M. J. Jervis, Power Station Instrumentation, Butterworth Heinemann, Oxford, 1993 References : 1.P.C Martin, I.W Hannah, Modern Power Station Practice, British Electricity International Vol. 1 & VI, Pergamon Press, London, 1992 2.H. P. Kallen, Handbook of Instrumentation and Controls, McGraw Hill, New York. 3.D. Lindsley, Boiler Control Systems, McGraw Hill, New York, 1991 Module No : 2 Module Name : Module II (15 hours) Measurements in Power Plants: Electrical measurements current, voltage, power, frequency, power factor etc. Non electrical parameters flow of feed water, fuel, air and steam with correction factor for temperature steam pressure and steam temperature drum level measurement radiation detector smoke density measurement dust monitor. Analysers in Power Plants Flue gas analyser dissolved oxygen analyser & PH fuel analyser pollution monitoring instruments. Books : References : Module No : 3 Module Name : Module III (12 hours) Control Loops in Boiler: Combustion control air/fuel ratio control furnace draft control drum level control main stem and reheat steam temperature control superheater control deaerator control distributed control system in power plants interlocks in boiler operation. Books : References : Module No : 4 Module Name : Module IV (13 hours) Turbine Monitoring and Control: Speed, vibration, shell temperature monitoring and control steam pressure control lubricant oil temperature control cooling system. Automation strategy of thermal power plant (PLC, DCS, SCADA). Hydroelectric power generation, regulation and monitoring of voltage and frequency. Nuclear power generation and control station. Books : References :  AI04 806(P) Process Control Instrumentation LabModule No : 1Module Name : Module I (13 hours)1ON-OFF controller with and without neutral zone-level control, flow control 2Temperature control using P, PI, PD, and PID controllersStudy of output response 3Flow control using P, PI, PD, and PID controllersStudy of output response 4Liquid level control using P, PI, PD, and PID controllersStudy of output response 5Controller tuning for various processes using Ziegler-Nichols rule 6Controller tuning for various processes using Cohen and Coon rule 7Study of PLC-ladder diagram implementation for simple processes 8PLC Simulator-Simulation of complex control systems 9Study of feedforward, cascade, and ratio controls 10Development of VI for temperature measurement-with display, and visual and sound alarms 11Development of VI for level measurement-with display, and visual and sound alarms 12Development of VI for measurement of torque/speed/displacement 13Development of VI for audio signal spectrum analyser 14Data Logger 15PC based control of robotic actions 16Implementation of digital control algorithms 17Simulation of Artificial Neural Networks use any software 18Fuzzy Logic Controlleruse any softwareBooks : References :  AI04 807(P) ProjectModule No : 1Module Name : AI04 807(P): PROJECT WORKThis project work is the continuation of the project initiated in seventh semester. Each student group should complete the project work in this semester. Each student is expected to prepare a report and a technical paper in the prescribed format, based on the project work. The paper may be prepared as per IEEE standard and can have a maximum of eight pages. Members of the group will present the relevance, design, implementation, and results of the project before an evaluation committee consisting of the guide, and three/four faculty members of the department. The evaluation committee may also carry out continuous assessment of the project through progress seminars conducted during the semester. 25% of the marks to be awarded by the guide and 75% by the evaluation committee. Books : References :  AI04 808(P) Viva VoceModule No : 1Module Name : Objective of the viva-voce is to examine the knowledge acquired by the student during the B.Tech. course, through an oral examination. The students shall prepare for the oral examination based on the theory and laboratory subjects studied in the B.Tech. course, mini project, seminar, and project work. There is only university examination for viva-voce. University will appoint examiners for viva-voce; examiners shall be senior faculty members. Each student has to submit the certified reports of mini project, seminar, and project (interim report, main report, and technical paper) before the examiners. Allotment of marks for viva-voce shall be as given below. Mark assessment Subjects : 40 Marks Mini Project : 15 Marks Seminar : 15 Marks Project : 30 Marks Total marks : 100Books : References :  3 hours lecture and 1 hour tutorial per week Reference Books 1. B. Kolman and D. R. Hill, Introductory Linear Algebra with Applications, 7th ed., Pearson Education, Delhi, 2003. 2. Lipschutz S, Linear Algebra Schaums Outline Series, McGraw Hill 3. E. Kreyszig, Advanced Engineering Mathematics, 8th ed., John Wiley & Sons, New York 4. L. C. Andrews and B. K. Shivamoggi, Integral Transforms for Engineers, Prentice-Hall of India, New Delhi, 2003. 5. R. E. Walpole, et. al, Probability and Statistics for Engineers and Scientists, 7th ed., Pearson Education, Delhi, 2004 6. R. V. Hogg & E. A. Tanis, Probability and Statistical Inference, Pearson Education, Delhi, 2003. 7. Chatfield C, Statistics for Technology, Chapman & Hall Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher 10% - Other measures like regularity and participation in class Total marks: 50 University Examination Pattern Q I -8 short type questions of 5 marks, 2 from each module Q II - 2 questions A and B of 15 marks from module I with choice to answer any one Q III- 2 questions A and B of 15 marks from module II with choice to answer any one Q IV - 2 questions A and B of 15 marks from module III with choice to answer any one Q V - 2 questions A and B of 15 marks from module IV with choice to answer any one 2 hours lecture and 2 hour practical per week Text Book V. Rajaraman, Computer Programming in C, Prentice Hall of India, New Delhi Reference Books B. W. Kernighan, and D. M. Ritchie, The C Programming Language, Prentice Hall of India E. Balagurusamy, Programming in ANSI C, Tata McGraw Hill K. R. Venugopal and S. R. Prasad, Programming with C, Tata McGraw Hill University Examination Pattern Q I -8 short type questions of 5 marks, 2 from each module Q II - 2 questions A and B of 15 marks from module I with choice to answer any one Q III- 2 questions A and B of 15 marks from module II with choice to answer any one Q IV - 2 questions A and B of 15 marks from module III with choice to answer any one Q V - 2 questions A and B of 15 marks from module IV with choice to answer any one Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher 10% - Other measures like regularity and participation in class Total marks: 50 3 hours lecture and 1 hour tutorial per week Text Books R. A. DeCarlo and P. Lin, Linear Circuit Analysis, Oxford University Press, New Delhi, 2001 D. R. Choudhary, Networks and Systems, New Age International, New Delhi, 2000 Reference Books W. H. Hayt Jr, J. E. Kemmerly, and S. M. Durbin, Engineering Circuit Analysis, Tata McGraw-Hill, New Delhi, 2002 W. K. Chen, Passive and Active Filters-Theory and Implementations, John Wiley & Sons, New York, 1986 J. Edminister and M. Nahri, Electric Circuits, 3rd ed., Tata McGraw Hill, New Delhi, 1999. M. E. Vanvalkenburg, Network Analysis, 3rd ed., Prentice Hall of India, New Delhi, 2001 Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher (One assignment shall be based on simulation of simple electric circuits using any software-eg. PSPICE, EDSPICE, MULTISIM) 10% - Other measures like regularity and participation in class Total marks: 50 University Examination Pattern Q I -8 short type questions of 5 marks, 2 from each module Q II - 2 questions A and B of 15 marks from module I with choice to answer any one Q III- 2 questions A and B of 15 marks from module II with choice to answer any one Q IV - 2 questions A and B of 15 marks from module III with choice to answer any one Q V - 2 questions A and B of 15 marks from module IV with choice to answer any one 3 hours lecture and 1 hour tutorial per week Text Book E. Hughes, Electrical & Electronic Technology, 8th ed., Pearson Education, Delhi, 2002. Reference Books H. Cotton, Advanced Electrical Technology, Sir Isaac Pitman and Sons, London, 1974 E. W. Golding and F. G. Widdis, Electrical Measurements and Measuring Instruments, 5th ed., A H Wheeler & Company, Calcutta, 1993 Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher 10% - Other measures like regularity and participation in class Total marks: 50 University Examination Pattern Q I -8 short type questions of 5 marks, 2 from each module Q II - 2 questions A and B of 15 marks from module I with choice to answer any one Q III- 2 questions A and B of 15 marks from module II with choice to answer any one Q IV - 2 questions A and B of 15 marks from module III with choice to answer any one Q V - 2 questions A and B of 15 marks from module IV with choice to answer any one 3 hours lecture and 1 hour tutorial per week Text Books D. D. Givone, Digital Principles and Design, Tata Mc-Graw Hill, New Delhi, 2003. M. M. Mano, Digital Design, 3rd ed., Pearson Education, Delhi, 2003 Reference Books J. F. Wakerly, Digital Design Principles and Practices, 3rd ed., Pearson Education, Delhi, 2001 T. L. Floyd, Digital Fundamentals, 8th ed., Pearson Education, Delhi, 2003 W. H. Gothmann, Digital Electronics: An Introduction to Theory and Practice, 2nd ed., Prentice Hall of India, New Delhi, 1998 R. J. Tocci, Digital systems Principles and Applications, 6th ed., Prentice Hall of India, New Delhi, 1998 Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher (One assignment shall be based on simulation of simple digital circuits using any software) 10% - Other measures like regularity and participation in class Total marks: 50 University Examination Pattern Q I -8 short type questions of 5 marks, 2 from each module Q II - 2 questions A and B of 15 marks from module I with choice to answer any one Q III- 2 questions A and B of 15 marks from module II with choice to answer any one Q IV - 2 questions A and B of 15 marks from module III with choice to answer any one Q V - 2 questions A and B of 15 marks from module IV with choice to answer any one 3 hours lecture and 1 hour tutorial per week Text Books A. C. Sedra and K. C. Smith, Microelectronic Circuits, 5th ed., Oxford University Press, New Delhi, 2004. J. Millman and C. Halkias, Integrated Electronics: Analog and Digital Circuits and Systems, Tata McGraw Hill, New Delhi, 1991. Reference Books D. A. Bell, Electron Devices and Circuits, 4th ed., Prentice Hall of India, New Delhi, 2004. J. Millman and A. Grabel, Microelectronics, Tata McGraw-Hill, New Delhi, 1999 R. T. Howe and C. G. Sodini, Microelectronics: An Integrated Approach, Pearson Education, Delhi, 2004 R. L. Boylestad and L. Nashelsky, Electronic Devices and Circuits, 8th ed., Pearson Education, Delhi, 2002. Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher 10% - Other measures like regularity and participation in class Total marks: 50 University Examination Pattern Q I - 8 short type questions of 5 marks, 2 from each module Q II - 2 questions A and B of 15 marks from module I with choice to answer any one Q III- 2 questions A and B of 15 marks from module II with choice to answer any one Q IV - 2 questions A and B of 15 marks from module III with choice to answer any one Q V - 2 questions A and B of 15 marks from module IV with choice to answer any one 3 hours practical per week Internal work assessment 50%-Laboratory practical and record 40%- Test/s 10%- Other measures like regularity and participation in class Total marks: 50 3 hours practical per week Internal work assessment 50%-Laboratory practical and record 40%- Test/s 10%- Other measures like regularity and participation in class Total marks: 50 3 hours lecture and 1 hour tutorial per week REFERENCES 1. C R Wylie & L C Barrett, Advanced Engineering Mathematics (Sixth Edition), McGraw Hill. 2. Churchill R V, Brown J W & Verhey R F, Complex Variables and Applications, McGraw Hill . 3. Pipes L A & Harvill L R, Applied Mathematics for Engineers & Physicists, McGraw Hill 4. Michael D Greenberg, Advanced Engineering Mathematics (Second Edition) Pearson education Asia. 5. Sastry S S, Engineering Mathematics Volumes 1 & 2, Prentice Hall of India Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher 10% - Other measures like regularity and participation in class Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher 10% - Other measures like regularity and participation in class Total marks: 50 University Examination Pattern Q I -8 short type questions of 5 marks, 2 from each module Q II - 2 questions A and B of 15 marks from module I with choice to answer any one Q III- 2 questions A and B of 15 marks from module II with choice to answer any one Q IV - 2 questions A and B of 15 marks from module III with choice to answer any one Q V - 2 questions A and B of 15 marks from module IV with choice to answer any one 3 hours lecture and 1 hour tutorial per week 3 hours lecture and 1 hour tutorial per week Text Books R. S. Gaonkar, Microprocessor Architecture Programming and Application with 8085, 5th ed., Penram International Publishers, Bombay, 2000 D. V. Hall, Microprocessors and Interfacing: Programming and Hardware, 2nd ed., Tata McGraw Hill, 1999 B. Brey, The Intel Microprocessors, 8086/8088, 80186, 80286, 80386 and 80486 architecture, Programming and interfacing, 6th ed., Prentice Hall of India, New Delhi, 2003 Reference Books P. K. Ghosh and P. R. Sridhar. 0000 to 8085 Introduction to Microprocessors for Engineers and Scientists, 2nd ed., Prentice Hall of India, New Delhi, 1995 Y. C. Liu and G. A. Gibsen, Microcomputer system: The 8086/8088 family, 2nd ed., Prentice Hall of India, New Delhi, 1986 A. P. Mathur, Introduction of Microprocessors, Tata McGraw-Hill, New Delhi, 1989. Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher One assignment shall be based on any 8085 simulator (Example -gnusim8085) 10% - Other measures like regularity and participation in class Total marks: 50 University Examination Pattern Q I - 8 short type questions of 5 marks, 2 from each module Q II - 2 questions A and B of 15 marks from module I with choice to answer any one Q III- 2 questions A and B of 15 marks from module II with choice to answer any one Q IV - 2 questions A and B of 15 marks from module III with choice to answer any one Q V - 2 questions A and B of 15 marks from module IV with choice to answer any one 3 hours lecture and 1 hour tutorial per week Text Books J. Millman and C. Halkias, Integrated Electronics: Analog and Digital Circuits and Systems, Tata McGraw Hill, New Delhi, 1991. J. Millman and H. Taub, Pulse, Digital, and Switching Waveforms, McGraw-Hill, New York, 1965 D. R. Choudhury and S. Jain, Linear Integrated Circuits, New Age International, New Delhi, 2002 Reference Books D. A. Bell, Solid State Pulse Circuits, 4th ed., Prentice Hall of India, New Delhi, 1999 A. Anad Kumar, Pulse and Digital Circuits, Prentice Hall of India, New Delhi, 2004 A. C. Sedra and K. C. Smith : Microelectronic Circuits, 4th ed., Oxford University Press, New Delhi, 2004. D. A. Bell, Electron Devices and Circuits, 3rd ed., Prentice Hall of India, New Delhi, 1999. R. L. Boylestad and L. Nashelsky, Electronic Devices and Circuit Theory, 8th ed., Prentice Hall of India, New Delhi, 2002. Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher 10% - Other measures like regularity and participation in class Total marks: 50 University Examination Pattern Q I - 8 short type questions of 5 marks, 2 from each module Q II - 2 questions A and B of 15 marks from module I with choice to answer any one Q III- 2 questions A and B of 15 marks from module II with choice to answer any one Q IV - 2 questions A and B of 15 marks from module III with choice to answer any one Q V - 2 questions A and B of 15 marks from module IV with choice to answer any one 3 hours lecture and 1 hour tutorial per week Text Books D. A. Bell, Electronic Instrumentation and Measurements, Prentice Hall of India, New Delhi, 2003 S. Franco, Design with Operational Amplifiers and Analog Integrated Circuits, Tata Mc-Graw Hill, New Delhi, 2003 (for ADCs and DACs only) J. J. Carr, Elements of Electronic Instrumentation and Measurements, 3rd ed., Pearson Education, Delhi, 2003 T. G. Beckwith, R. D. Marangoni, and J. H. Lienhard, Mechanical Measurements, 5th ed., Pearson Education, Delhi, 1993 Reference Books E. O. Doebelin, Measurement Systems: Application and Design, 4th ed., McGraw-Hill, New York, 1990 A. D. Helfrick and W. D. Cooper, Modern Electronic Instrumentation and Measurement Techniques, Pearson Education, Delhi, 1992 J. P. Bentley, Measurement Systems, Pearson Education, Delhi, 2003 R. A. Witte, Electronic Test Instruments: Analog and Digital Measurements, 2nd ed., Pearson Education, Delhi, 2003 Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher 10% - Other measures like regularity and participation in class Total marks: 50 University Examination Pattern Q I - 8 short type questions of 5 marks, 2 from each module Q II - 2 questions A and B of 15 marks from module I with choice to answer any one Q III- 2 questions A and B of 15 marks from module II with choice to answer any one Q IV - 2 questions A and B of 15 marks from module III with choice to answer any one Q V - 2 questions A and B of 15 marks from module IV with choice to answer any one 3 hours lecture and 1 hour tutorial per week Text Books R. Gayakwad, Op-Amps and Linear Integrated Circuits, 4th ed., Pearson Education, Delhi, 2000 R. Coughlin and F. Driscoll, Operational Amplifiers and Linear Integrated Circuits, 6th ed., Pearson Education, Delhi, 2003 D. R. Choudhury and S. Jain, Linear Integrated Circuits, New Age International, New Delhi, 2002 Reference Books S. Franco, Design with Operational Amplifiers and Analog Integrated Circuits, Tata Mc-Graw Hill, New Delhi, 2002 D. A. Bell, Operational Amplifiers and Linear Circuits, 4th ed., Prentice Hall of India, New Delhi, 1990 Internal work assessment 60% - Tests (minimum 2) 30% - Assignments/term project/any other mode decided by the teacher 10% - Other measures like regularity and participation in class Total marks: 50 University Examination Pattern Q I - 8 short type questions of 5 marks, 2 from each module Q II - 2 questions A and B of 15 marks from module I with choice to answer any one Q III- 2 questions A and B of 15 marks from module II with choice to answer any one Q IV - 2 questions A and B of 15 marks from module III with choice to answer any one Q V - 2 questions A and B of 15 marks from module IV with choice to answer any one 3 hours practical per week Internal work assessment 50%-Laboratory practical and record 40%- Test/s 10%- Other measures like regularity and participation in class Total marks: 50 3 hours practical per week Internal work assessment 50%-Laboratory practical and record 40%- Test/s 10%- Other measures like regularity and participation in class Total marks: 50 "#$fg! 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