Modified Syllabus 06-05-2009

FOUR YEAR B.Tech. DEGREE COURSE Scheme of Instruction and Examination

(Effective from 2008-09)

II B.Tech (EEE) - First Semester Scheme : 2008

II B.Tech (EEE) – Second Semester Scheme : 2008

S.No Subject Abbreviation

Credits

Scheme of Instruction

periods/week

Durationof End Exam

(Hours)

Scheme of Examination Maximum Marks

L D/T P End Exam

Internal Assessment Total

Theory 1 Electrical Machines –I EMC1 5 4 1 – 3 70 30 100 2 Engineering Mathematics -III EM3 5 4 1 – 3 70 30 100 3 Power Systems – I PS1 5 4 1 – 3 70 30 100 4 Electro Magnetic Fields EMF 5 4 1 – 3 70 30 100 5 Analog Circuits AC 5 4 1 – 3 70 30 100 6 Electrical Measurements EM 5 4 1 – 3 70 30 100 7 Soft Skills SS 2 1 2 – – – 100 100 Practical 8 Electrical Measurements Lab EM(P) 2 – – 3 3 70 30 100 9 Electronics Engg. – I Lab LE1(P) 2 – – 3 3 70 30 100 Total 36 25 8 6 560 340 900


Credits


periods/week

Durationof End Exam

(Hours)


L D/T P End Exam


Theory 1 Managerial Economics &

Principles of Accountancy MEPA 4

4 – – 3 70 30 100

2 Environmental Science ESC 4 4 – – 3 70 30 100 3 Pulse and Switching Circuits PSC 5 4 1 – 3 70 30 100 4 Control Systems Engineering CSE 5 4 1 – 3 70 30 100 5 Electrical Machines - II EMC2 5 4 1 – 3 70 30 100 6 Power Systems – II PS 2 5 4 1 – 3 70 30 100 7 Aptitude & Reasoning Skills ARS 2 1 2 – – – 100 100 Practical 8 Electrical Machines – 1 Lab EMC1(P) 2 – – 3 3 70 30 100 9 Control Systems Lab CS(P) 2 – – 3 3 70 30 100 Total 34 25 6 6 560 340 900

III B.Tech (EEE) – First Semester Scheme : 2008

III B.Tech (EEE) – Second Semester Scheme : 2008


Credits


periods/week

Duration of End Exam

(Hours)


L D/T P End Exam


Theory 1 Electrical Machines – III EMC3 4 3 1 – 3 70 30 100 2 Power Electronics – I PEL1 5 4 1 – 3 70 30 100 3 Micro Processors Theory MPT 5 4 1 – 3 70 30 100 4 Switchgear and Protection SGP 4 3 1 – 3 70 30 100 5 Power System Analysis PSA 4 3 1 – 3 70 30 100 6 Integrated Circuits and

Applications ICA 5

4 1 – 3 70 30 100

Practical 7 Electrical Machines – II Lab EMC2(P) 2 – – 3 3 70 30 100 8 Electronics Engineering – II

Lab LE2(P) 2 – – 3 3 70 30 100

9 Power System Lab PS(P) 2 - - 3 3 70 30 100 Total 33 21 6 9 630 270 900


Credits


periods/week

Durationof End Exam

(Hours)


L D/T P End Exam


Theory 1 Electrical Machine Design EMD 5 4 1 – 3 70 30 100 2 Power Electronics –II PEL2 5 4 1 – 3 70 30 100 3 Introduction to Signals and

Systems ISS 5 4 1 – 3 70 30 100

4 Computer Methods in Power Systems CMPS 4 3 1 – 3 70 30 100

5 Instrumentation INS 4 3 1 – 3 70 30 100 6 Introduction to Information

Systems IIS 5 5 - - 3 70 30 100

Practical 7 Power Electronics Lab PE(P) 2 – – 3 3 70 30 100 8 Introduction to Information

System Lab IIS(P) 2

- - 3 3 70 30 100

Total 32 23 5 6 – 560 240 800

IV B.Tech (EEE) – First Semester Scheme : 2008

IV B.Tech (EEE) – Second Semester Scheme : 2008

Total Credits I = 66

II 36 + 34 = 70

III 33 + 32 = 65

IV 33 + 20 = 53

Total = 254


Credits


periods/week


(Hours)


L D/T P End Exam


Theory 1 Drives & Static Control DSC 5 4 1 – 3 70 30 100 2 Power Systems Operation and

Control PSOC 5

4 1 – 3 70 30 100

3 Utilization of Electric Power UEP 5 4 1 - 3 70 30 100 4 Advanced Information

Systems AIS 5

5 - – 3 70 30 100

5 Professional Elective – I – 4 4 - – 3 70 30 100 6 Open Elective – I - 2 2 - - - 100 100 Practical 7 Drives and Control Lab DC(P) 2 - - 3 70 30 100 8 Simulation Lab S(P) 2 – – 3 3 70 30 100 9 Mini Project and

Comprehensive Viva MPCV(P) 3 – – 4 3 70 30 100

Total 33 23 3 10 – 560 340 900


Credits


periods/week


(Hours)


L D/T P End Exam


Theory 1 Professional Elective – II -- 4 4 – – 3 70 30 100 2 Professional Elective – III – 4 4 – – 3 70 30 100 3 Open Elective –II - 2 2 – – 100 100 Practical 4 Project Work PW(P) 10 – – 6 3 70 30 100 Total 20 10 6 210 190 400

OR 1. Practice School/ Internship PS 10 - - - - 70 30 100 2. Project Work PW(P) 10 - - - - 70 30 100 Total - 20 - - - - 140 60 200

II B.Tech (EEE) - First Semester Scheme : 2008


Credits


periods/week

Durationof End Exam

(Hours)


L D/T P End Exam


Theory 1 Electrical Machines –I EMC1 5 4 1 – 3 70 30 100 2 Engineering Mathematics -III EM3 5 4 1 – 3 70 30 100 3 Power Systems – I PS1 5 4 1 – 3 70 30 100 4 Electro Magnetic Fields EMF 5 4 1 – 3 70 30 100 5 Analog Circuits AC 5 4 1 – 3 70 30 100 6 Electrical Measurements EM 5 4 1 – 3 70 30 100 7 Soft skills SS 2 1 2 - - - 100 100 Practical 8 Electrical Measurements Lab EM(P) 2 – – 3 3 70 30 100 9 Electronics Engg. – I Lab LE1(P) 2 – – 3 3 70 30 100 Total 36 25 8 6 560 340 900

ELECTRICAL MACHINES-I (EMC1)

(For II B. Tech EEE - I Semester)

Scheme : 2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam Duration : 3 hrs

UNIT-1 Magnetic Circuits: Introduction, laws of the magnetic circuit, magnetic circuit calculations, hysteresis and eddy current losses, Magnetic materials and their properties, review of Faraday’s laws, magnetically induced EMF, Problems. D.C.Generators: Constructional details, types of DC armature windings, use of laminated armature, principle of operation, E.M.F. equation, problems. Calculations of magnetic circuits of DC machine. UNIT-2 Armature reaction and its effects, Methods of limiting armature reaction, cross magnetizing and De magnetizing AT/pole, commutation, reactance voltage, methods of improving commutation, compensating winding. Methods of excitation – separately excited and self excited generators – building up of EMF causes for failure – critical field resistance and critical speed – characteristics of shunt,series and compound generators – parallel operation – use of equalizer bar – load sharing. UNIT – 3 DC Motors – principle of operation – back emf – torque equation – characteristics of different types of DC motors - speed control and applications of different types of DC motors – Starting of dc motors –types of starters – calculation of starter steps for DC shunt motor,Losses and efficiency – condition for maximum efficiency – brake test – Swinburne’s test – Hopkinson’s test - Retardation test –Separation of losses test – Field’s test. UNIT-4 Single phase transformers-types-constructional details - ideal transformer -minimization of eddy currents and hysteresis losses-e.m.f. equation-operation on no-load and load-phasor diagrams-equivalent circuit-Losses and efficiency p.u.system-Regulation-All-day efficiency-Effect of variations of frequency &supply voltage on Iron losses. UNIT-5 O.C and S.C tests-Sumpner’s test-Predetermination of efficiency and regulation and other performance characteristics - separation of losses test - parallel operation with equal and unequal voltage ratios- switching and transient phenomenon. Auto transformers-equivalent circuit-comparison with two winding transformers. Induction Regulators. REFERENCE BOOKS: 1. I.J. Nagrath & D.P. Kothari (2002), “Electric Machines”, TMH. 2. Clayton (2003), “Performance and Design of D.C.machines”, C.B.S. Publishers. 3. P.S. Bimbhra (2003), “Electrical machinery”, Khanna Publishers. 4. A.E. Fitzgerald, C. Kingsley and S. Umans (2003), “Electric Machinery”, TMH. 5. H.Cotton (1997), “Advanced Electrical Technology”, Wheeler Publishers. 6. P.S. Bimbhra(2003), “Generalized theory of Electrical Machines”, Khanna Publishers. 7. S.K. Bhattacharya (2003), “Electrical Machines”, TMH. NOTE : The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

ENGINEERING MATHEMATICS-III (EM3)

( Common to II B.Tech EEE I Sem & II B.Tech ECE I Sem)

Scheme: 2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits: 5 End Exam Duration : 3 hrs UNIT - I Complex variables: Differentiability, Cauchy-Riemann equations, analytic functions, sufficient conditions for analyticity, harmonic function, construction of an analytical function whose real/imaginary part is given (Milne-Thomson method). Conformal mapping(ez,zn,sinz,cosz). Bilinear transformation, Taylor’s & Laurent’s series. UNIT – II Complex Integration: Cauchy’s integral theorem, Cauchy’s integral formula, derivatives using integral formula, poles & residues, Residue theorem, calculation of residues, evaluation of real integrals by Contour integration. UNIT – III Special Functions: Bessel function, Recurrence formula for Jn(x). Generating function. Orthogonality of Bessel function, Legendre’s equation. Rodrigues formula, Legendre polynomials, generating function, recurrence formula for Pn(x). Orthogonality of legendre polynomials. UNIT – IV Numerical Analysis: Numerical differentiation, solution of ordinary differential equations, Taylor’s method, picards method, Euler’s method and Modified Euler’s method, Runge- Kutta second and fourth order methods, Predictor - corrector methods, Milne’s method and Adams method. UNIT –V Probability: Baye’s theorem, concept of Random variables, discrete and continuous variables, distribution function of discrete and continuous random variables, properties. Mean and variance of a random variable. TEXT BOOKS: 1. B. S. Grewal (2004), “Higher Engineering Mathematics”, Khanna Publishers. 2. M.K. Venkataraman (1991), “Numerical methods in Science and Engineering”, The National Publishers. 3. S.C. Gupta and V.K. Kapoor (1992), “Fundamentals of Mathematical statistics”, S.Chand Publications. NOTE : The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

POWER SYSTEMS – 1 (PS1)

(For II B.Tech EEE - I Semester)

Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam Duration :3 hrs UNIT – I Steam Power Stations: Main parts and working of a steam station, fuel handling, ash handling, steam turbines,, water steam flow, water treatment, ranking cycle, cool water system for condensers. Types of boilers , turbo alternators, steam station layout, cost of steam stations, super pressure steam stations, field of use. Gas Turbine Stations: Main parts of gas turbine plant and principles of operation, characteristics of gas turbine plants, plant layout.(simple problems only) UNIT – II Hydro – Electric Power stations: Hydrology, Hydro – graphs, flow duration curves, mass curves investigation of site, types of dams, arrangement and location of hydro electric station, principles of working of a hydro – electric plants, power to be developed, size of plant, and choice of units, type of turbines, draft tubes, penstocks, power station structure and layout, cost of hydro-electric station (simple problems only). UNIT – III Combination of Hydroelectric and Steam Stations: Advantages of combined working of different power stations, need for co-ordination, run – off river plants with steam plant, economics of combination, hydroelectric plant with ample storage in combination with steam plants, pumped storage plants in combination with hydroelectric plants, co – ordination of different types of power plant in a power system(simple problems only). UNIT – IV Diesel Power Stations : Principle of working of Diesel engine, characteristics of diesel engines, diesel- electric generators and their characteristics, co-ordination of diesel engine and generator characteristics, layout of a diesel electric stations, cost of diesel plant, use of diesel sets as alternative power plant, field of use of diesel plants. Nuclear Power Station: Main parts, types of reactors, location and layout of a nuclear power plant, reactor control, nuclear waste disposal, economics of nuclear power stations. UNIT – V Economics of power generation: Structure of power system – growth of power system in India – Load factor – Demand factor – diversity factor – plant utilization factor etc., - Load duration curves – Cost of electrical energy – different methods of depreciation – deduction or description of different types of tariffs – power factor consideration – power factor improvement – its limiting value TEXT BOOKS: M.V. Deshpande (1197), “Elements of power station design”, Wheelers publication. S.N.Singh , “Electrical Power Generation Transmission and Distribution”-PHI NOTE: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit

ELECTROMAGNETIC FIELDS (EMF) (For II B. Tech EEE – I Semester)

Scheme : 2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam Duration : 3 hrs UNIT – 1 Fundamental of vector alzebra Electrostatic Fields – Coulomb’s Law – Electric field intensity (EFI) due to Line and surface charge – Work done in moving a point charge in Electrostatic field – electric potential – properties of potential functions – Potential gradient – Gauss’s law - Application of Gauss’s law – Maxwell’s first law, div(D) = vρ , Laplace’s equation and Poisson’s equations and their – Solutions equation in one variable. Electric Dipole – dipole moment – potential and EFI due to electric Dipole – torque on an electric Dipole in an electric field – Capacitance – Capacitance of parallel plate and Spherical capacitors. UNIT – 2 Behavior of conductors in an electric field – Conductors and insulators – electric field inside a dielectric material – polarization – dielectric conductors and dielectric boundary conditions – Energy stored and energy density in a static electric field – current density – conduction and convection - current densities –Ohm’s law in point form – Equation of conductivity. UNIT – 3 Static magnetic fields – Biot-Savart’s law – magnetic field intensity(MFI) due to a straight current carrying filament – MFI due to circular, square filament – solenoid current carrying wire – relation between magnetic flux, magnetic flux density and MFI – Maxwell’s second equation div(B) = 0. Ampere’s circuital law and its applications viz., MFI due to an infinite sheet of current and a long current carrying filament – Point form of Ampere’s circuital law – Maxwell’s third equation, Curl(H) = Jc Magnetic force – moving charges in magnetic fields – Lorentz force equation – force on current element in a magnetic field – force on a straight and long current carrying conductor in a magnetic field – force between two straight and Parallel current carrying conductor in a magnetic field – magnetic dipole and dipole moment – a differential current loop as a magnetic dipole – torque on a current loop placed in a magnetic field. UNIT – 4 Scalar magnetic potential and its properties & limitations – Vector magnetic potential and its properties and limitations – Vector magnetic potential due to simple configuration – vector Poisson’s equations. Self and mutual inductances – Neumann’s formulae – Determination of Self inductance of a solenoid and toroid and mutual inductance between a straight, long wire and a square loop wire in the same plane – Energy stored and intensity in a magnetic field. UNIT – 5 Time varying fields – Faraday’s law of Electromagnetic induction - It’s integral and point forms –

Maxwell’s fourth equation, Curl(E) = -tBδδ

statically and dynamically induced e.m.f’s – simple problems –

Modification of Maxwell’s equations for time varying fields - displacement current. Wave equation – Uniform plane wave motion in free space, conductors and dielectrics – velocity, wave length, intrinsic impedance and skin effect & pointing theorem – pointing vector and its significance. TEXT BOOKS: 1. William. H. Hayt (2001), “Engineering Electromagnetics”, TMH. 2. J.D.Kraus (2003), “Electromagnetic”, TMH. 3. K.A. Gangadhar (2003), “Field Theory”, Khanna Publications. REFERENCE BOOKS: 1. Umesh Sinha (1999), “Electromagnetic theory”, Satya publications. 2. Joseph Edminister, “Electro magnetic”, Schaum’s outline series TMH. 3. S.Sivanagaraju , C.Srinivasarao ”Electromagnetic Fields” ,New Age publ.

ANALOG CIRCUITS (AC)

( Common to II B.Tech EEE I Sem & II B.Tech ECE I Sem)

Scheme : 2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam Duration :3 hrs Unit I Single Stage Amplifiers: Transistor as an amplifier, Transistor Low frequency Hybrid model, Analysis of a transistor amplifier circuit using h-parameters, Comparison of CE,CC and CB configurations, Emitter Follower, Linear analysis of transistor amplifier circuits, Miller`s theorem and dual. Multistage Transistor Amplifiers: Types of coupling – RC coupled, Direct coupled, analysis of two cascaded amplifier stages, approximate CE, CB and CC models, CE amplifier with emitter resistance, Darlington and Bootstrap amplifiers, frequency response of amplifier at low and high frequencies, band pass of cascaded stages. Unit II Transistor and FET at High Frequencies: hybrid pi model, hybrid pi conductance, capacitance’s, the CE short circuit current gain, parameters fβ and fΤ, current gain with resistive load, single stage CE transistor amplifier frequency response, gain-bandwidth product, CS amplifier at high frequencies and CD amplifier at high frequencies. Unit III Feedback Amplifiers: Classification, feedback concept, transfer gain with feedback, general characteristics of negative feedback amplifiers, Input resistance, Output resistance, Method of analysis of feedback amplifier, Analysis of feedback amplifiers.

Unit-IV Oscillators: Barkhausen Criterion, Phase-Shift Oscillator, General form of Oscillator circuit, Hartley, Colpitts, Wein Bridge Oscillator, Crystal Oscillator.

Unit V Large Signal Amplifiers: Classes of operation, class-A amplifiers (series-fed, transformer coupled),Harmonic Distortion, Efficiency, Push pull amplifier, class-B amplifiers (push pull, complementary-symmetry type), crossover distortion and class AB operation, class-C amplifier ,Single Tuned Capacitive coupled amplifier.

Differential Amplifiers: Ideal differential amplifier, CMRR, emitter-coupled differential amplifier, differential amplifier supplied with constant current, practical considerations, transfer characteristics of differential amplifiers. Textbooks: 1. Integrated Electronics - Millman and Halkias - TMH Reference books: 1. Electronic Devices and Circuits - Bogart – Universal Book Stall 2. Microelectronics - Millman and Grabel - TMH 3. Semiconductor Devices and Circuits - Henry Zanger - Johnwiley. Note: The question paper shall consist of FIVE units with TWO questions in each unit.

The student shall answer ONE question in each unit. ELECTRICAL MEASUREMENTS (EM)

(For II B.Tech EEE - I Semester) Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam Duration:3 hrs UNIT- I : Measuring Instruments: Classification – deflecting, control and damping torques – Ammeters & Voltmeters – PMMC, moving iron type instruments – expression for the deflection torque and control torque – Errors & compensations, Extension of range using shunts & series resistance’s. Electrostatic Voltmeters – Electro dynamometer type & attracted disc type. UNIT – II: Instrument transformers – CT & PT – ratio and phase angle errors. Testing of CT’s – Silsbee’s method – Variable mutual induction methods. Measurement of Power: Single phase dynamometer wattmeter, LPF and UPF, Double element dynamometer wattmeter, expressions for the deflection torque and control torque UNIT – III: Measurement of Energy: Single phase induction type energy meter – Driving & Braking Torque’s – Errors & Compensations – Testing by Phantom loading – three phase energy meter – Maximum demand meters Potentiometers: Crompton potentiometer , AC polar potentiometer, AC coordinate potentiometer, Applications. UNIT – IV: Galvanometers – DC & vibration galvanometers. Bridges: Wheatstone Bridge, Kelvins Double Bridge, Maxwell’s bridge, Anderson bridge, Heavyside Campbell Bridge, DeSauty Bridge, schering Bridge, balancing and phasor diagram at balance. UNIT – V: Miscellaneous Instruments: Power factor meters – Dynamometer & Moving iron type – three phase PF meter – Frequency meters – Weston type Synchronoscope – Ohmmeter, Megger. Magnetic Measurements: Ballistic galvanometer – flux meter – DC testing using ring specimen. TEXT BOOKS : 1. Golding & F.C.Widdis (1997) “Electrical Measurements and Measuring Instruments”,

Wheeler Publishers. 2. Umesh Sinha (2003), “Electrical & Electronics Measurements & Instrumentation”, Satya

prakesh Publishers. 3. A.K.Sawhney (2004), “Electrical & Electronics Measurements & Instrumentation”, Danpat

Rai Publishers. 4. G.B. Gupta (2004), “Electrical Measurements”, S.K.Kataria publishers. REFERENCE BOOKS: 5. Buckingham & Price, “Electrical Measurements”, Pearson Publishers. 6. Harris, “Electrical Measurements” 7. Reissland, “Electrical Measurements: Fundamentals, Concepts and Applications”, New Age

International Publishers. NOTE: The question paper shall consist of FIVE units with TWO questions in each unit. The student shalls answer ONE question in each unit.

Soft Skills (SS) (Common for all branches of II B.Tech I - Semester)

Scheme :2008 Internal Assessment : 100 Contact Periods : (1L +2T)/week Credits : 2

Self Awareness

Importance of Self Awareness – Johari Window in Self Awareness – four quadrants of Johari Window - Open or Arena Quadrant – Blind Spot quadrant – Hidden or Facade Quadrant – Unknown Quadrant.

Goal Setting Importance of Goal Setting - Difference between Goals and Dreams – Importance of writing Goals – S.M.A.R.T Goals – Intermediate or Short term Goals – Medium Term Goals – Long Term Goals – How to achieve Goals.

Time Management Importance of Time – what’s your style – A few Myths – Prioritize – Procrastination – the thief of time – carving the cock – How to delegate effectively – the art of anticipating – learning to say NO – Plugging time leaks power - Tools for Time Management – Scheduling.

Inter Personal Behavioral Styles Importance of Interpersonal Skills – Identifying Yourself - Characteristics of Socializer, Relater, Director, Thinker – Identifying others - Communication with others – Adapting yourself to others

Strokes Importance of Strokes – Art of giving Strokes – your style – conditional and unconditional Strokes – Positive and Negative Strokes – Giving Strokes – Taking Strokes – Asking for Strokes – Refuse to give Strokes.

Assertiveness Understanding Assertiveness – Three styles Passive, Assertive, Aggressive – Importance of Self Awareness – Self Confidence – Ability to say NO – Assertive Communication – Body Language – Behavior – Benefits of being Assertive

Team Roles Importance of teams in Organizations – Your style – three different types Cerebral, Action, People – 8 roles Coordinator, Finisher, Innovator, Shaper, Team Worker, Resource Investigator, Organizer, Evaluator - the role of shaper.

Presentation Skills Importance of Presentation Skills –Knowledge of the Audience - Body Language - the impact of Voice – overcoming stage fear / Nervousness - Stage Etiquettes - Importance of Content – Introduction, Body, Conclusion –Creating an Impact.

Creativity Importance of creativity – What is creativity – out of the Box thinking - Lateral Thinking – Critical thinking –Blocks in creativity - Being Creative – Tossing Ideas.

Problem Solving and Decision Making Problem Solving as skill - Out of the Box thinking – Thinking Styles – Steps in Problem Solving - Steps in Decision Making – Types of Decisions.

References: 1. Dr. Stephen R. Covey, Simon and Schuster (1992), The 7 Habits of Highly Effective People, Pocket

Books Publishers, London. 2. Marc Mancini, (2005), Time Management, TMH Publishers, New Delhi. 3. Infosys Campus Connect Portal – http://campusconnect.infosys.com 4. Stephen R. Covey, A.Roger Merrill and Rebecca R. Merrill (2002), First Things First, Pocket Books

Publishers, London. 5. Norman Vincent Peale (1990), The Power of Positive Living, Ballantine Books, New York. 6. Napoleon Hill and W. Clement Stone (1987), Success Through a Positive Mental Attitude, Pocket

Books Publishers, New York. 7. Stuart R. Levine, CEO & Michael. CROM (1993), The Leader in You, Dale Carnegie & Associates

Inc. Pocket Books, New York. 8. Shiv Khera (2006), You Can Win, MacMillan India Publishers, New Delhi.

ELECTRICAL MEASUREMENT LAB (EMP)

(II EEE – I Sem) Scheme :2008 Internal assessment : 30 Contact Periods : 3P/week End Exam Marks : 70 Credits : 2 End Exam duration:3 hrs

1. Wheat stone bridge & Kelvin’s Double bridge, Cromption’s Potentiometer. 2. Maxwell’s Bridge, Anderson Bridge 3. De-Sauty bridge, Schering bridge 4. Calibration of single phase energy meter 5. Measurement of power by two-wattmeter and one-wattmeter method, 6. Measurement of parameters of a choke coil using 3-voltmeter 3-ammeter method 7. C.T.Testing by Silsbee’s method-measurement of % ratio error and phase angle of given

C.T.by comparison 8. Calibration of LPF wattmeter by Phantom load testing

ELECTRONICS ENGINEERING I LAB (LE1P)

(II EEE – I Sem) Scheme :2008 Internal assessment : 30 Contact Periods : 3P/week End Exam Marks : 70 Credits : 2 End Exam duration:3 hrs List of Experiments

1. Two Stage RC Coupled Amplifier 2. Booststrap Amplifier 3. Darlington Amplifier 4. FET Amplifier 5. Cascode Amplifier 6. Voltage Series Feedback Amplifier 7. Voltage Shunt Feedback Amplifier 8. Current Series Feedback Amplifier 9. Current Shunt Feedback Amplifier 10. Push Pull Amplifier 11. Class C Amplifier 12. Single Tuned Amplifier 13. Differential Amplifier 14. RC Phase Shift Oscillator

II B.Tech (EEE) – Second Semester Scheme : 2008


Credits


periods/week

Durationof End Exam

(Hours)


L D/T P End Exam


Theory 1 Managerial Economics &

Principles of Accountancy MEPA 4

4 – – 3 70 30 100

2 Environmental Science ESC 4 4 – – 3 70 30 100 3 Pulse and Switching circuits PSC 5 4 1 – 3 70 30 100 4 Control Systems Engineering CSE 5 4 1 – 3 70 30 100 5 Electrical Machines - II EMC2 5 4 1 – 3 70 30 1006 Power Systems – II PS 2 5 4 1 – 3 70 30 100 7 Aptitude & Reasoning Skills ARS 2 1 2 – – – 100 100 Practical 8 Electrical Machines – 1 Lab EMC1(P) 2 – – 3 3 70 30 100 9 Control Systems Lab CS(P) 2 – – 3 3 70 30 100 Total 34 25 6 6 560 340 900

Managerial Economics & Principles of Accountancy (MEPA) (Common to II B.Tech EEE II Sem , II B.Tech CSE II Sem &II B.Tech IT II Sem)

Scheme :2008 Internal assessment : 30 Contact Periods : 4L /week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs Unit –I Introduction to Managerial Economics: Definition, Nature and scope of Managerial Economics-Demand Analysis-Types of demand, Law of Demand, its assumption and exceptions. Elasticity of demand: Definition – types - price, income, cross elasticities of demand significance, and measurement-demand forecasting-factors –methods. Unit – II Theory of production and cost analysis: Production function - Isoquants and Isocosts- Least cost combination of inputs-The Law of diminishing Marginal returns- Internal and external economies of scale. Cost analysis: Cost concepts-fixed and variable costs - cost output relationship –Break Even Analysis Managerial uses. Unit – III Market structures – Types, features of perfect competition-Monopoly and Monopolistic competition – price output determination in perfect competition and monopoly-pricing methods. Unit – IV Business Environment: Types of Business organizations – Formation of sole trader- partnership firm- Joint Stock Companies-features - Private and public limited companies – formation – merits and demerits – differences. Capital: Capital and its significance – Types of capital – Estimation of fixed and working capital requirements – methods and sources of Raising working capital and fixed capital . Unit – V Introduction to Accountancy: Double entry system of Book keeping - Journal entries – Ledger – Trail Balance. Preparation of final Accounts – Preparation of Trading account - Profit & Loss Account Balance sheet with adjustments (final accounts problem should be given). Text Books 1. Varshney and Maheswari (1985), “Managerial Economics”, S Chand Publishers 2. Y.K. Bhushan (2007), “Fundamentals of Business organization & Management”, S Chand Publishers 3. Shukla & Grewal (1985), “ Advanced Accounts”, S Chand Publishers Note: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer one question from each unit.

ENVIRONMENTAL SCIENCE (ESC) (Common to II B.Tech CE – II Semester ,II B.Tech EEE – II Semester & II B.Tech ME – II

Semester)

Scheme :2008 Internal assessment : 30 Contact Periods : 4L /week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs Unit - 1 Introduction: Multidisciplinary nature of Environmental science, definition, scope and importance. Natural Resources: Forest resources-use and over-exploitation of forests, deforestation, timber extraction, mining, dams and their effects on forests and tribal people. Agricultural land resources-land as a resource, land degradation, man induced land slides, soil erosion and desertification. Food resources-world food problems, changes caused by agriculture and overgrazing, effects of modern agriculture, fertilizer- pesticide problems. Unit -2 Ecosystems: Concepts of an ecosystem, structure and function of an ecosystem, Energy and nutrient flow in an ecosystem, relation between producers, consumers and decomposers. Ecological succession. Food chains, food webs and ecological pyramids.Introduction, characteristic features and functions of (i) Forest ecosystem (ii) Grass land cosystem (iii) Desert ecosystem (iv) Pond ecosystem (v) Ocean ecosystem and (vi) River ecosystem.

Unit -3 Biodiversity and its conservation: Definition, genetic, species and ecosystem diversity. Biogeographical classification of India. Value of biodiversity-consumptive use, productive use, social, ethical, aesthetic and optional values. Threats to biodiversity-habitat loss, poaching of wildlife, man-wildlife conflicts. Endangered and endemic species of India. Conservation of biodiversity. Unit – 4 Environmental pollution: Causes, effects and control measures of air pollution, water pollution, soil pollution, noise pollution and thermal pollution. Role of individual in prevention of pollution. Environment protection Act: Air, Water, forest and wild life acts, enforcement of environmental legislation. Unit -5 Environment and society: Consumerism and waste products, from unsustainable to sustainable development. Climate change, global warming, acid rain, ozone layer depletion. Population explosion-Family welfare programme. Environment and human health epidemics. Women and child welfare. Role of information Technology in environment and human health. Need for public awareness. Text books: 1) Benny Joseph(2005), “Environmental Studies”, TMH. 2) Gilbert M Masters (2007), “Introduction to Environmental Engineering & Science”, Pearson Education. 3) M. Chandra Sekhar (2004). “Environmental Science”, The Hitech Publishers. Reference books: 1) E.P.Odum (1971), “Fundamentals of Ecology” W.B.Sunders Co. USA, Natraj Publications. 2) M.N. Rao and A.K. Datta (1987), “Waste water Treatment”, Oxford & IBH publishers. 3) Bharucha Erach(2002), “The Biodiversity of India”, Mapin publishing pvt. Ltd. 4) Santosh kumar Garg, Rajeshwari Garg and Ranjni Garg (2006), “Ecological and Environmental studies”, Khanna publishers. 5) Y. Anjaneyulu(2004), “Introduction Environmental Science”, B.S. Publications.

Note: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

PULSE AND SWITCHING CIRCUITS (PSC) ( II B.Tech II Sem for EEE )

Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam duration:3 hrs

Unit I Linear and Non Linear Wave Shaping: Types of Waveforms, High pass RC circuit, Low pass RC circuit, response to step, pulse and square input, RC Integrator and Differentiator, Clipping and Clamping Circuits, Clamping Circuit Theorem. Unit II Multivibrators: Switching characteristics of a transistor, design of a transistor switch, Design and analysis of Bistable, Monostable, Astable and Schmitt trigger circuits.

Unit III Number Systems and Logic Gates: Binary, Octal, Decimal, Hexadecimal systems, conversion of number systems, weighted and non weighted codes, Digital Data Representation: Fixed - signed magnitude, 1’s complement, 2’s complement, floating point – biased exponent, binary arithmetic, Hamming code, error detection and correction. Logic Gates and Boolean Algebra: OR, AND, NOT, NAND, NOR, EX-OR and EX-NOR gates, Boolean theorems, switching functions: types, sum of products, product of sum, canonical forms, minimization of Boolean functions using K-maps and tabulation methods. Unit IV Combinational Circuits: Binary adders and Subtractors using signed magnitude, 1’s complement, 2’s complement, carry look-ahead adders (fast adders), BCD adders and Subtractors, decoders, encoders, multiplexers, de-multiplexers, parity generator and checker, code conversion circuits, magnitude comparator. Unit V Sequential Circuits: Finite state model of sequential circuits, Flip-flops, shift registers, Asynchronous and Synchronous counters, ring and Johnson counters, design of non-binary counters, synthesis of synchronous sequential circuits, Melay and Moore machines, Minimization of states. Text Books: 1. Pulse, Digital and Switching Waveforms – Milliman and Taub, McGra-Hill.

2. Digital Logic and Computer Design Fundamentals – II Edition, -M. Moris Mano, Charles R.Kime – Pearson, 2nd Edition, 2001.

3. Switching and Finite Automata Theory – Zvi Kohavi – TMH 4. Modern Digital Electronics 3rd edition 2005 – R.P.Jain - TMH Note: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

CONTROL SYSTEMS ENGINEERING (CSE) (Common For II B. Tech.E.E.E-II sem& II B. Tech.E.C.E-II sem )

Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam duration:3 hrs Unit -1 Equations and Models of Linear Systems: Basic elements and types of servomechanism, open-loop and closed-loop systems, control system components, servomotor, tachometer, synchros, position control systems, equations of electrical and mechanical systems, transfer functions and impulse response, block diagram representation and manipulation, signal flow graphs-mason’s gain formula to determine overall system gain. Unit-2 Feedback Characteristics of Control Systems: Feedback and non-feedback systems, effects of feedback, regenerative feedback. Time Response: Types of input, transient response of second order system for step input, time-response specifications, steady state error and error constants, proportional, derivative and integral controls, stability of systems-Routh Hurwitz criterion, Relative stability. Unit-3 Frequency Response: Co-relation between time and frequency response, polar plots, bode plots, frequency domain specifications, resonant peak (Mp) and resonant frequency( Wp) for a second order system, relative stability-gain margin(GM) and phase margin (PM), M and N circles, Nyquist criterion for open loop stable system. Unit-4 Root Locus: Definition of Root Locus, construction Procedure, properties of typical systems analyzed by root locus techniques. Compensation (Without Design): The necessity of compensation , series and parallel compensation. Realization of basic lead, Lag and lead-Lag compensatiors. Unit-5 State Variable Analysis: Introduction, concepts of state, state variables, state transition matrix, and state model, state model of linear systems, state-space representation using phase variable and physical variables, solution of state equations. Concept of Controllability and Obserability. Text Books:

1. Nagrath and Gopal (2003), “Control systems Engineering”, New Age International Publications.

2. B.C.Kuo (2003), “Automatic Control Systems”, Oxford. 3. K. Ogata (2003), “Modern control Engineering”, Pearson 4. Naresh - K.Sinha (1998), “Control Systems”, New Age International Publishers.

Reference Books:

1. Madan Gopal (2003), “Control Systems”, TMH. 2. Dorf, Bishop (1998), “Modern Conrtol systems”, Addison Wesley 3. “Feedback control systems” (Shaum’s out line series) (1986), TMH 4. R.C.Shukla, “Control Systems”, Dhanpat Rai.

5. Control Systems “Ashok Kumar TMH Note: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

ELECTRICAL MACHINES-II (EMC2) (For II B. Tech EEE - II Semester)

Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam duration:3 hrs UNIT-1 Polyphase transformers: Polyphase connections of 3phase bank of single phase transformers, and 3phase transformer unit – open delta, Scott connections - third harmonics in phase voltages - three winding transformers - tertiary windings - off load and on load tap changing, problems. UNIT-2 Armature windings: Types of windings for AC machines, connection between coil groups, single and double layer windings, concentric windings integral and fractional slot windings, coil span factor, distribution factor, emf equation, slot harmonics, pulsating and rotating magnetic fields, problems. UNIT-3 Polyphase induction motors-construction, types of rotors, rotating magnetic field-principle of operation - slip, rotor e.m.f. and rotor frequency-rotor reactance, rotor current and p.f. at standstill and during operation vector diagram, power flow diagram, rotor copper loss and mechanical power developed, slip torque characteristics equation-deductions from torque equation-expressions for maximum torque and starting torque - problems. UNIT-4 No load and blocked rotor tests- Equivalent circuit, comparison with transformer Circle diagram & predetermination of performance-types of starters calculation of steps for rotor rheostat starter, starting current calculations-speed control of induction motor – resistance control, pole changing method, cascading method, commutator as frequency changer - injected emf control,-Schrage motor- Double cage & Deep bar motors- Crawling & Cogging, power factor correction, problems, induction generator-simple theory - self excitation - applications. UNIT-5 Single Phase Induction Motor: Constructional features – Double revolving field theory – torque-speed characteristics - Equivalent circuit – Different types of split phase induction motors – Shaded pole induction motor – Applications of single phase induction motors – problems. TEXT BOOKS 1. M.G.Say (2002), “Performance and Design of A.C. Machines”, CBS Publishers. 2. I.J.Nagrath & D.P.Kothari (2002), “Electric Machines”, TMH. REFERENCE BOOKS 1. A.E.Fitzgerald,C.Kingsley and S.Umans(2003), “Electric Machinery”, TMH. 2. P.S.Bimbra(2003), “Electrical Machines” Khanna Publishers. 3. S.K.Bhatta Charya(2003), “Electrical Machines”, TMH 4. Langsdorf(1974), “Theory of Alternating Current Machinery”, TMH. 5. R.D.Begamudre (1998), “Electromechanical Energy conversion with dynamics of Machines”, New age International publishers. 6. M.V.Deshpande (1997), “Electric Machines”, Wheeler Publishers Note: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

POWER SYSTEMS -II (PS2) (For II B.Tech EEE - II Semester)

Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam duration:3 hrs UNIT – 1 Distribution system and types of Distribution – Kelvin’s law – Limitations of Kelvin’s Law – types of D.C. Distribution & A.C. Distribution. Pin type – strain type – suspension type insulators – voltage distribution and efficiency – Methods of increasing string efficiency – phenomena of corona and its advantages and disadvantages- testing of insulators. UNIT – II Electrical design of Overhead Transmission Lines – Calculation of Line constants of Single phase,3-phase system of symmetrical, unsymmetrical and transposed configurations – Calculation of Line constants of stranded conductor double circuit three phase system using GMD and GMR concepts – Bundled conductors and their uses - inductive interference with neighboring communication systems. UNIT – III Types of underground cables – Insulation resistance – stress in insulation – capacitance of cables – capacitance grading – intersheath grading – power factor of cables – capacitance of three core cables – Thermal characteristics. UNIT – IV Mechanical design of Over head transmission lines – Calculation of Sag for equal and Unequal support – Loading on the conductor in an Overhead line – Variation of sag with load and Temperature – String chart. Classification of transmission lines – Representation of short, medium and Long transmission lines in terms of Sending end and Receiving end quantities- ABCD parameters. UNIT – V The equivalent networks for short, medium & long transmission Systems(T &π ) –representation of transmission Systems by transmission parameters – Regulation and Efficiency Calculations – Surge impedence - Surge impedence loading – Ferranti effect and its Calculations – Voltage control methods - analytical and Graphical determination of phase modifier ratings using receiving end power circle diagram. TEXT BOOKS: 1. M.L.Soni,Gupta,Bhatnagar (2004), “ Electrical Power Systems”, Narosa Publishers. 2. C.L.Wadhwa(2003), “Electrical Power Systems”, New Age International Publishers. 3. V.K.Mehta(2003), “Priciples of Power Systems”, S Chand Publishers. 4.S.N.Singh (2003),Generation ,Transmission and Distribution of Electrical Energy ,PHI REFERENCE BOOKS: 1. Nagrath & Kothari (2004), “Power System Engineering”, TMH. 2. B.R.Gupta (2001), “Power System Analysis and Design”, S Chand Publishers. 3. G.W.Stevenson(2005), “Elements of Power System analysis”, TMH. 4. H.Cotton (1996), “Transmission and Distribution of Electrical Energy”, Bombay BI Publishers 5. Ashfaq Hussain (2002), “Electrical power systems” CBS Publishers. NOTE : The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

Aptitude and Reasoning Skills (ARS) (Common for all branches of II B.Tech II - Semester)

Contact Periods : (1L +2T)/week Sessional Exam Marks : 100 Credits : 2

Quantitative Aptitude

• Number Systems, Averages, Problems on ages, Allegations, Percentages, Profit and Loss, Simple interest and Compound Interest, Ratio and Proportions and Variation, Time and Work, Time and Distance, Mensuration, Functions, Set Theory, Permutation and Combinations, Probability, Progressions, Inequalities, Coordinate Geometry, quadratic Equations, Logarithms

• HCF and LCM, Decimal Fractions, Simplification, Square Roots and Cube Roots, Surds and Indices, Pipes and Systems, Area, Volume and Surface Areas, Races and Games, Calendar, Clocks, Stocks and Shares, True Discount, Banker’s Discounts

• Data Interpretation – Tabulation – Bar Graphs – Pie Charts – Line Graphs.

Reasoning Directions, Blood Relations, Problems on cubes, Series and sequences, odd man out, Coding and decoding, Data Sufficiency, logical deductions, Arrangements and Combinations, Groups and Teams, General Mental Ability, Puzzles to puzzle you, More Puzzles, Brain Teasers, Puzzles and Teasers.

References: 1. Arun Sharma (2003), How to Prepare for Quantitative Aptitude, TMH Publishers, New Delhi. 2. R.S. Aggarwal (2005), Quantitative Aptitude, S.Chand Publishers, New Delhi. 3. Sharon Weiner-Green, Ira K.Wolf (2006), Barron’s GRE, Galgotia Publications, New Delhi. 4. R.S Aggarwal (1998), Verbal and Non-Verbal Reasoning, S.Chand Publishers, New Delhi. 5. Shakuntala Devi (2005), Puzzles to Puzzle You, Orient Paper Backs Publishers, New Delhi. 6. Shakuntala Devi (2006), More Puzzles, Orient Paper Backs Publishers, New Delhi. 7. Ravi Narula (2005), Brain Teasers, Jaico Publishing House, New Delhi. 8. George J Summers (2005), Puzzles and Teasers, Jaico Publishing House, Mumbai.

ELECTRICAL MACHINES 1 LAB (EMC1P)

LIST OF EXPERMENTS (II EEE – II Sem)

Scheme :2008 Internal assessment : 30 Contact Periods : 3P/week End Exam Marks : 70 Credits : 2 End Exam duration:3 hrs

1. Open circuit characteristic (OCC) of DC shunt generator. 2. Load test on DC shunt generator 3. Brake test on DC compound motor. 4. Swinburn’s test., Brake test on DC shunt motor. 5. Hopkinson’s test. 6. Field’s test. 7. Speed control of DC shunt motor. 8. Separation of losses of DC shunt motor. 9. Load test on DC series motor. 10. OC & SC tests on single phase transformer. 11. Load test on single phase transformer.

CONTOROL SYSTEMS LAB – (CSP)

(II EEE – II Sem) Scheme :2008 Internal assessment : 30 Contact Periods : 3P/week End Exam Marks : 70 Credits : 2 End Exam duration:3 hrs

1. A.C.Servometer, Synchros, Potentiometer 2. Linear System Simulator 3. D.C.Positional Servo-mechanism 4. Magnetic Amplifier 5. PID controller 6. Compensation Design 7. Stepper Motor 8. Root Locus plot, Bode plot from MATLAB 9. State Space model for classical Transfer function using MATLAB 10. Temperature controller using PID

III B.Tech (EEE) – First Semester Scheme : 2008


Credits


periods/week


(Hours)


L D/T P End Exam


Theory 1 Electrical Machines – III EMC3 4 3 1 – 3 70 30 100 2 Power Electronics – I PEL1 5 4 1 – 3 70 30 100 3 Micro Processors Theory MPT 5 4 1 – 3 70 30 100 4 Switch Gear and Protection SGP 4 3 1 – 3 70 30 100 5 Power System Analysis PSA 4 3 1 – 3 70 30 100 6 Integrated Circuits and

Applications ICA 5

4 1 – 3 70 30 100

Practical 7 Electrical Machines – II Lab EMC2(P) 2 – – 3 3 70 30 100 8 Electronics Engineering – II

Lab LE2(P) 2 – – 3 3 70 30 100

9 Power System Lab PS(P) 2 - - 3 3 70 30 100 Total 33 21 6 9 630 270 900

ELECTRICAL MACHINES – III (EMC3)

(For III B.Tech EEE - I Semester) Scheme :2008 Internal assessment : 30 Contact Periods : (3L +1T)/week End Exam Marks : 70 Credits : 4 End Exam Duration:3 hrs UNIT - I Synchronous Generators: Constructional Features –Types – e.m.f equation-Harmonics in generated e.m.f – slot harmonics winding factors for harmonics – suppression of harmonics – Armature reaction – leakage reactance- synchronous reactance and impedance –experimental determination –phasor diagrams – load characteristics. UNIT – II Regulation of alternator by synchronous impedance method, M.M.F. method, Z.P.F method and A.S.A method – old AIEE method - two reaction analysis of salient pole alternator – experimental determination of Xd and Xq - Phasor diagrams – Regulation of salient pole alternators-torque angle characteristics UNIT – III Synchronizing of alternators with infinite bus bars- operation of synchronies generator infinite busbar – effect of variation of excitation and mechanical power input-synchronizing power – parallel operation and load sharing- problems. Transient & Subtransient Reactances and time constants – 3phase balanced short circuit current –current waveforms. UNIT – IV Synchronous motor : Principle of operation – phasor diagram - Variation of current and power factor with excitation – torque angle characteristics – synchronous condenser – Mathematical analysis for power developed – Excitation and power circles – hunting and its suppression – Methods of starting - synchronous induction motor. UNIT – V Special machines :Principle of operation of, Stepper motors - types and applications of stepper motors, Switched reluctance motor, , Hysterisis motor and reluctance motor, Single phase uncompensated & Compensated series motors, universal motor- repulsion motor. Text books: 1. M.G.Say (2002), “Performance and Design of A.C. Machines”, CBS Publishers. 2. I.J.Nagrath & D.P.Kothari (2002), “Electric Machines”, TMH. REFERENCE BOOKS 1. A.E.Fitzgerald,C.Kingsley and S.Umans (2005), “Electric Machinery”, TMH. 2. P.S.Bimbra (2003), “Electrical Machines”, Khanna Publishers. 3. Langsdorf (1974), “Theory of Alternating Current Machinery”, TMH. 4. E.Openshaw Tayior-Performance and design of A.C. Commutator motors-CBS. NOTE : The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

POWER ELECTRONICS - I (PEL-I) (For III B.Tech EEE – I Semester)

Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam Duration:3 hrs UNIT – 1 Power Semiconductor Devices: Basic theory of operation and characteristics of Power diodes, Power BJT, Power MOSFET, IGBT, TRIAC, Basic theory of operation of SCR-static characteristics-Salient points-Two Transistor analogy, Dynamic and gate characteristics of SCR-turn on and turn off time, Turn-on methods, Series and parallel connections of SCRs, Specifications and Ratings of SCRs, Protection of SCRs - Snubber circuit details, Simple problems. UNIT-2 Thyristor Firing Circuits: Principle and features of firing circuits, simple R and RC triggering ciruits, UJT pulse firing circuit, synchronized UJT triggering (Ramp triggering), role of pulse transformer in firing circuits. Simple problems. Thyristor Commutation Techniques: Line commutation, load commutation, forced commutation and external pulse commutation, Simple problems. UNIT - 3 Phase Controlled Rectifiers: Single phase half-wave & midpoint controlled rectifier with R and R-L loads, with and without FWD - Single phase and three phase half controlled converters with R and R-L loads with continuous currents, Single phase and three phase fully controlled mid-point and bridge configurations with R and R-L loads with continuous currents, inversion operation, average values, RMS values, input power factor, Active and reactive power inputs to the converters without and with Freewheeling diode, dual converters with circulating and non-circulating current operation, effect of source inductance simple problems. UNIT-4 AC Voltage controllers: Single phase and three phase AC regulators with R and RL loads, derivation of rms load voltage, current and power factor, wave forms, simple problems. Cycloconverters: Basic principle of operation, Single phase to single phase Cycloconverters with R and R-L loads, three phase to single phase, three phase to three phase cycloconverter circuits (Principle of operation only), comparison of the cycloconverter and DC link converter. UNIT-5 DC Choppers: Principle of operation of choppers, control strategies- time ratio control and current limit control, step up chopper, multi quadrant choppers, time domain analysis of step down chopper, voltage commutated chopper, current commutated chopper, Jones chopper, Morgans chopper, simple problems. TEXT BOOKS 1. Vedam Subrahmanyam (1996), “Power Electronics”, New age international publishers. 2. M.D.Singh and K.B.Khanchandani (2002), “Power Electronics”, TMH. 3. M.H.Rasheed (2002), “Power Electronics Circuits Devices and applications”, PHI publishers. 4. P.S.Bimbhra (2004), “Power Electronics”, Khanna publishers REFERENCE BOOKS 1. J.Vithayathil (1995), Power Eletronics : “Priciples and Applications”, TMH. 2. M.Ramamoorthy, “An introduction to Thyristers and Applications”, East-WestPress. Note: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

POWER SYSTEM ANALYSIS-(PSA) (For III B.Tech EEE - I Semester)


UNIT – 1: Single line diagram – representation power system impedance diagram – percentage and per unit representations and their advantages and disadvantages – Symmetrical short circuit analysis of alternator under no load and load conditions – Current limiting reactors for Symmetrical faults on generators, feeders and Bus bars – Short circuit MVA calculations of a Power System under Symmetrical fault conditions. UNIT – II: Representation of three phase unbalanced Systems by Symmetrical components – Average three phase power in terms of Symmetrical components – Sequence impedance of an electrical circuit – sequence impedances of Transmission Line and Trans former - Sequence networks of three phase transformer banks - Sequence impedances and networks of three phase Alternator under noload – Unsymmetrical fault calculations on loaded synchronous generators and on power Systems with and without fault impedances.

UNIT – III: Power flow equations and power angle diagrams of a Single machine connected to an infinite bus with and without losses - power flow equation interms of A,B,C,D constants – Steady state stability and steady state stability limits – Methods for improvement of steady state stability

UNIT –IV: Transient stability and Transient stability limits, swing equation and its solution by point-by method-Digital simulation of swing equation by modified Euler method and Runga-kutta method-Equal area criterion and application of equal area criterion for system stability-Recent trends to improve transient stability limit. UNIT – V: Transients in simple circuits – travelling waves – Transmission line differential equations - attenuation and discharge of travelling waves – reflection and refraction coefficients Basic ideas of insulation co-ordination – volt – time curve –Switching over voltages- insulation levels of various equipments in a power Systems and coordination among them. TEXT BOOKS: 1. Stevenson .W.D.(1982), “Elements of Power System analysis”, TMH. 2. C.L.Wadhwa (2003), “Electrical Power Systems”, New age International Publishers. 3. Kimbark E.W. (2004), “Power System Stability”, Johan Wisely Publishers. REFERENCE BOOKS: 1. Nagrath & Kothari (2000), “Power System Engineering”, TMH. 2. B.L. Soni,Gupta, Bhatnagor, Chakroborthy, “A course in Electrical power System”, 3. B.R.Gupta (2003), “Power System Analysis and Design”, S Chand Publishers. 4. Ashfaq Hussain (2003), “Electrical power Systems”, C.B.S. Publishers. 5. Vijaya vithal (Addison), “Power System analysis”, 6. S.S. Vadhera(Dhanpath Rai) (2003), “Power System analysis”, Khanna Publishers. NOTE : The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

SWITCH GEAR AND PROTECTION (SGP) (For III B. Tech EEE – I Semester)

Scheme :2008 Internal assessment : 30 Contact Periods : (3L +1T)/week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs UNIT – 1 Protection of Transmission Lines against over voltages: Voltage surges, causes of over voltages, protection against lightning, the earth screen, over head ground wires, lightning arresters, surge absorbers, UNIT – 2 HRC FUSES And its Applications: Arc formation, principle of arc-quenching arc control techniques, transient phenomena during fault clearance, interruption of capacitive currents, current chopping, resistance switching, single and double frequency transients, recovery and restriking voltages, operating principles and characteristics of bulk oil, minimum oil, vacuum, air blast and SF6 circuit breakers, circuit breakers ratings and specifications. UNIT – 3 Protective Relays: Philosophy, basic requirements of relaying principles characteristics of over current relays, differential relays, distance and directional relays. Microprocessor – based Protective Relays Overcurrent relays, impedance relay, directional relays – power swing characteristics. UNIT – 4 Protection: Protection of transmission lines, busbars, alternators and transformers. Static relays: Basic ideas of static relays and different types of static comparators. UNIT – 5 Neutral grounding: Effectively grounded system, ungrounded system, arcing grounds, methods of neutral grounding, protection against arcing grounds, Petersons’s coil. Substations: Substation classification, substation location, transformer substations, equipment in a substation, bus-bar arrangements on HV and LV sides, layout of switch yard. TEXT BOOKS: 1.Y.G.Paithankar and S.R.Bhide “Fundamentals of power system protection PHI 1. C.L.Wadhwa (2003), “Electrical Power Systems”, New Age International. 2. H. Cotton (1996), “The transmission and distribution of electrical energy”, B.I. Publications. 3. Madhava Rao T.S (2006), “Power systems protection with microprocessor applications”, TMH. 4. Soni, Gupta and Bhatnagar (1995), “A Course in Electrical Power”, Dhanpat Rai & sons.

MICROPROCESSORS THEORY (MPT) ( Common to III B.Tech EEE I Sem & III B.Tech ECE I Sem )

Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam Duration:3 hrs Unit I Introduction of 8 bit Microprocessor – 8085: Architecture and Organization of 8085 microprocessor, instruction set, addressing modes, instruction cycle, fetch and execute cycles. Unit II Introduction of 16 bit Microprocessor – 8086: 8086 CPU architecture, segmented memory, addressing modes. 8086 Instruction set, 8086 maximum mode and minimum mode. Unit III Assembly Language Programming of 8086: Assembler directives, Assembly language programming using MASM / TASM. Simple programs on Arithmetic, sorting, searching, code conversions, string manipulations etc. Procedures & Macros. Using DOS Int 21h Calls. Unit IV Memory and I/O Interfacing: Read/ write timing, SRAM and ROM interface requirements, interfacing of Static memory and dynamic memory. I/O Interfacing: 8255(Programmable Peripheral Interface), 8255 applications – key board interfacing, display interfacing, stepper motor interfacing, printer interfacing, DAC interfacing , waveform generation and ADC interfacing Unit V Peripheral Interfacing: 8254( Programmable Timer / Counter), 8251(USART), 8257 (DMA Controller), 8259 (Programmable Interrupt Controller). Co-processor 8087 – architecture & interfacing.

Text Books: 1. Microprocessors Architecture, Programming & Applications with 8085/8080A- Gaonkar

Ramesh. S, Penram International Edition. 2. Microprocessors and Interfacing Programming and Hardware – Douglas V.Hall – TMH, 2006. 3. Advanced Microprocessors and Peripherals – A K Ray, K M Bhurchandi – TMH, 2007 Reference Books: 1. The 8086/8088 Family: Design, Programming, and Interfacing – John Uffenbeck – PHI 2. The 8088 and 8086 Microprocessors – Walter A.Triebel, Avtar Singh – Pearson, 4th Edition,

2007 3. The Intel Microprocessors- Architecture, Programming and Interfacing – BarryB. Bray, 6th

Edition, Pearson. Note: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

INTEGRATED CIRCUITS AND APPLICATIONS (ICA) (Common to III B.Tech EEE I Sem & III B.Tech ECE I Sem)

Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam Duration:3 hrs Unit I Op-Amp Fundamentals: Differential amplifier concept, ideal characteristics, practical inverting and non-inverting op-amp, study of typical IC op-amp and its different stages, offset voltages and currents and offset balance, op-amp parameters, frequency response and compensation. specifications of op-amp. Summing amplifier, difference amplifier.

Unit II Op-amp Applications : Current to voltage and voltage to current converters, integrators, differentiators, Instrumentation amplifier, clippers and clampers, precision AC to DC converters, Log & antilog amplifier, comparator, window detector, schmitt trigger, pulse, square and triangle wave generators, sample and hold circuits. Active filters ( Butterworth). Unit III Timers & Waveform Generators: 555 Timer – astable, monostable modes – applications - 566 and 8038 waveform generators. Phase Locked Loops : Lock and capture ranges, 565 PLL, PLL applications, AM detection, FM detection, FSK demodulation, frequency translation. Unit IV IC Regulators: General form of series Regulators, fixed voltage regulator, 723 regulator, switching regulators – step up, step down and inverting modes (IC UA 78S40) D/A and A/D Converters : Weighted resistor, R-2R ladder type and inverted R-2R DACs, DAC IC 1408L, ADCs: Parallel comparator, counter, successive approximation and dual slope types, ADC 0801, DAC / ADC specifications. Unit V Logic Families: DTL, HTL, TTL, RTL, DCTL, ECL, MOS and CMOS circuits, comparison of logic families. TTL driving CMOS and CMOS driving TTL, CMOS bilateral switch. specifications of logic gates.

Text Books: 1. Roy Choudhury & Shail B.Jain[2003], Linear Integrated Circuits ,New Age Int. Pub. 2. Moris Mano [2003], Digital Logic and Computer Design., PHI.

Reference Books:

1. Sergion Franco[2002], Design with operational amplifier and analog integrated circuits , Tata McGraw-Hill.

2. Ronald J.Tocci, Neil S Widmor [2001],Digital systems principles and applications , Pearson Ed.


ELECTRICAL MACHINES II LAB (EMC2P) LIST OF EXPERMENTS

(III EEE – I Sem) Scheme :2008 Internal assessment : 30 Contact Periods : 3P/week End Exam Marks : 70 Credits : 2 End Exam duration:3 hrs 1. Sumpners test on pair of single phase transformer. 2. Scott connection (3phase to 2phase conversion). 3. Polyphase connection of transformers 4. Separation of losses of single phase transformer. 5. No – load test and Rotor blocked tests on single phase induction motor. 6. No – load test and Rotor blocked tests on three phase slip ring induction motor (Equivalent circuit & Circle diagram). 7. Brake test on three phase squirrel cage induction motor. 8. OC, SC & ZPF tests and Regulation of alternator by different methods 9. Synchronization of alternator and V & ∧ curves of synchronous motor. 10. Circle diagram of 3-ph induction generator.

ELECTRONICS ENGINEERING II LAB (LE2P) (III EEE – I Sem)

Scheme :2008 Internal assessment : 30 Contact Periods : 3P/week End Exam Marks : 70 Credits : 2 End Exam duration:3 hrs List of Experiments

1. Integrator and Differentiator 2. Clipper and Clamper 3. Astable Multivibrator 4. Universal Gates 5. Half adder and Full Adder 6. BCD to Excess-3 Code Converter 7. 4bit Asynchronous Counter 8. Summing and differential amplifier 9. Precision Rectifiers 10. Active Filters – IInd Order LPF 11. Digital to Analog Converter 12. 555 Astable and Monostable Multivibrator

POWER SYSTEMS LAB (PSP) (III EEE – I Sem)


1. IDMT Over Current Relay 2. Directional Over Current Relay 3. Inverse Over Current Relay 4. 220 KV-180KM EHV-AC Long Transmission Line Simulator 5. % Differential Relay 6. Over Current Relay on Test Bench 7. Solid and Liquid Insulation Tests 8. Simulation faults on a 3-phase unloaded alternator 9. Determination of +ve, -ve and zero sequence impedances of 3-phase alternator 10. Determination of +ve, -ve and zero sequence impedances of 3-phase Transformer

III B.Tech (EEE) – Second Semester Scheme : 2008


Credits


periods/week

Durationof End Exam

(Hours)


L D/T P End Exam


Theory 1 Electrical Machine Design EMD 5 4 1 – 3 70 30 100 2 Power Electronics –II PEL2 5 4 1 – 3 70 30 1003 Introduction to Signals and

Systems ISS 5

4 1 – 3 70 30 100

4 Computer Methods in Power Systems CMPS

43 1 – 3 70 30 100

5 Instrumentation INS 4 3 1 – 3 70 30 1006 Introduction to Information

System IIS 5

5 - - 3 70 30 100

Practical 7 Power Electronics Lab PEL(P) 2 – – 3 3 70 30 100 8 Information System Lab IS(P) 2 - - 3 3 70 30 100 Total 32 23 5 6 – 560 240 800

ELECTRICAL MACHINE DESIGN (EMD)

( For III B.Tech E.E.E.- II Sem) Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam duration:3 hrs UNIT- I: General concepts and constraints of design of rotating machines: Main dimensions, Total and specific loadings, output equation, output co-efficients of D.C. and A.C. machine, factors affecting the size of rotating machines, choice of specific magnetic loading, choice of specific electric loading. D.C. Machine Design: Constructional details and calculation of main dimensions, choice of number of poles, pole proportions, field and armature design, magnetic circuit, commutator and brush design, interpole design, losses and efficiency from design parameters. UNIT- II: Transformer Design: Constructional features, out put equation of single phase and three phase transformers, volts per turn, design of core, yoke, window dimensions, low voltage and high voltage windings, pre-determination of no load current from design parameters, leakage reactance, losses, efficiency and regulation, power and distribution transformers, design of tank and cooling tubes of transformers, cooling of transformers. UNIT- III: Synchronous Machine Design: Constructional features of low and medium speed alternators, output co-efficients of main dimensions, stator design, slots and conductor size, air gap length, rotor design, field winding, short circuit ratio and regulation, Essential features in construction and design of turbo alternators, main dimensions, stator and rotor design. UNIT- IV: Three Phase Induction Motor: Constructional details, output equation, choice of specific and magnetic loadings, calculation of main dimensions, stator design, air gap length, design of slip ring and cage rotors, calculation of magnetsing current ,equivalent circuit, circle diagram, torque, slip and efficiency. UNIT- V: Computer Aided Design: Introduction, Advantages of digital computers, computer aided design different approaches, Synthesis method, Hybrid method, Optimization, General procedure for Optimization, Variables and Constraints, Computer aided design of three phase induction motors, List of symbols used, General design procedure. Reference Books: 1. M.G. Say (1983), “Performance & Design of Alternating Current Machines”, CBS Publications. 2. A.E. Clayton & Hancock (1985), “Perfomance & Design of Direct Current Machines”, CBS Publications. 3. A.K.Sawhney (2004), “A Course in Electrical Machine Design”, Dhanpat Rai. 4. H.M.Rai (1995), “Electrical Machine Design”, Satya Prakashan Publications.

POWER ELECTRONICS -II (PEL-2)

(For III B.Tech EEE – II Semester) Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam duration:3 hrs Unit – I Single-Phase Inverters: Classification of single-phase inverters - Principle and operation of series and parallel inverters – single-phase half and full-bridge inverters – Auxiliary commutation and complementary commutation in inverters McMurray and McMurray – Bedford inverters, voltage control of single-phase inverters, Pulse width modulation control techniques for single-phase inverters – principle and operation of single-phase CSI, Single -phase capacitor commutated, auto-sequential commutated current source inverters, simple problems. Unit – 2 Three-phase inverters: three-phase bridge inverters – three-phase 1800 and 120o modes of operations, comparison of two conducting modes, Voltage control of three-phase inverters using PWM techniques, Harmonic reduction by PWM methods, three-phase current source inverters, three-phase load commutated inverters (principle only), simple problems. Unit – 3 Reactive power control: Static reactive power compensation - shunt reactive power compensators- fixed capacitor banks, switched capacitors, static reactor compensator – static thyristor controlled shunt compensators for load compensation- fundamentals, practical realization of variable reactance, thyristor controlled reactor for transmission line voltage support, reduction of reactive power for three-phase converter systems, power factor improvement and harmonic control of converter fed systems (principle only). Unit – 4 Speed Control of electric motors: Speed control of DC motors using phase controlled converters and choppers – speed control of induction motors using ac voltage controllers, cycloconverters and inverters – rotor resistance control of slip ring induction motor - slip power recovery schemes – Static Kramer and Static Scherbius drive systems (Qualitative treatment only). Unit – 5 Applications of Power Electronics: Electro chemical application, static excitation system for alternators, static circuit breaker, over voltage protection, simple battery charger, automatic battery charger, SCR current limiting circuit breaker, fan regulator using TRIAC. REFERENCE BOOKS 1. Vedam Subrahmanyam (1997), “Power Electronics”, New age international publishers. 2. M.D.Singh and K.B.Khanchandani (2002), “Power Electronics”, TMH. 3. M.H.Rasheed (2004), “Power Electronics Circuits Devices and applications”, PHI publishers. 4. P.S.Bimbhra (2004), “Power Electronics”, Khanna publishers. 5. Dubey, Doradla, Joshi (2004), “Thyristorised Power Controllers”, New Age Publishers

INTRODUCTION TO SIGNALS & SYSTEMS (ISS) ( For III B.Tech (EEE) -II Sem )


Unit-1 Introduction: Basic continuous and discrete time signals-systems and their properties - classification of signals-analogy between vector and signal - principles of least squares, Orthogonality and completeness – trigonometric and exponential Fourier series - convergence Direchlets conditions. Unit-2 Signal Analysis: Spectrum and its significance – Fourier Transforms and properties - Fourier Transform of periodic signals - Energy and power spectral densities - Auto-correlation and cross correlation properties - Hilbert transform and properties - pre envelope _ band pass signals. Unit-3 Signals Through Various Systems : Transmission of signals through discrete and continuous LTI systems – Unit impulse response, convolution integral, convolution as summation, graphical method of convolution, time domain behavior from pole zero plot, causality and stability. Unit-4 Sampling : Sampling of continuous time signals (low pass). Aliasing, recovery of signals from samples, practical aspects of sampling – pulses of Finite duration, Flat top sampling. Unit-5 Laplace Transforms: Signal representation by continuous exponential. The direct and Inverse Laplace transform. Laplace transform of periodic signals. Laplace transform solution for electric circuits. system impulse response and definition of system transfer function. Z-Transforms: ROC - inverse Z Transform - properties - pole zero plot - Unilateral Z Transforms. Text books: 1. Simon Haykin (2002), “Communication systems”, Wiley-Eastern. 2. Oppenheim AV and Willisky (1995), “Signals and Systems”, PHI. 3. B.P.Lathi (2001), “Communication Systems”, Wiley Eastern. Reference Books:

1. Signals and Systems - Simon Haykin - Wiley-Eastern. 2. Signals and Systems - Nagarath –TMH


COMPUTER METHODS IN POWER SYSTEMS (CMPS) (For IIIB. Tech EEE - I Semester)

Contact Periods: (4L)/Week Sessional Exam Marks : 30 End Exam : 3 Hours End Exam Marks : 70 UNIT –I Network graph, incidence matrices-Element node incidence matrix, Bus incidence matrix, Branch path incidence matrix, basic and augmented cut-set incident matrices, basic and augmented branch incidence matrices, basic and augmented loop incidence matrices, primitive network, formation of Y bus by singular transformation. UNIT –II Derivation of ZBUS YBUS from nonsingular transformation, algorithm for formation of network matrices, concepts of branch and link addition, modification of bus impedance matrix for changes in network. UNIT –III Representation and performance equation of 3-phase network elements, three phase network elements with balanced and unbalanced excitation, transformation matrices-symmetrical and Clarke’s components, algorithm for formation of 3-phase bus impedance matrix, modification of 3-phase ZBUS changes in the network. UNIT –IV Basic assumptions in Short circuit studies, system representation – General equations for short circuit study in phase variables and symmetrical components for fault current and node voltages, short circuit calculations for balanced three phase networks using ZBUS fault impedance and admittance matrices. Analysis of three-phase line to ground and double line to ground faults, flow chart for short circuit study. UNIT –V Concepts of load flow-Classification of buses, Load flow solution using Gauss-Siedal, Newton-Raphon methods, treatment of voltage controlled buses- Acceleration factors, Decoupled and Fast coupled methods, representation of fixed tap setting and on load tap changing transformers, optimal ordering, triangularization and use of sparsity techniques for load flow solution, flow chart and comparison of different methods. Text Books: 1. Stagg & El-Abiad (1968), “Computer methods in Power System”, TMH. REFERENCE BOOKS: 1. M.A.Pai (2000), “Computer Aided Power System Analysis”, TMH. 2. R.N.Dhar (1982), “Computer Aided Power System Analysis”, TMH. 3. Kusic (2006), “Computer Aided Power System Analysis”, PHI. 4. L.P.Singh(1996), “Advanced Power Systems Dynamics and Control”, New Age International Publishers 5. Soni, Gupta, Bhatnagar(2000), “A Course in Electrical Power”, Dhanpat Rai Publishers.

INSTRUMENTATION (INS) (For III B.Tech EEE - II Semester)

Scheme :2008 Internal assessment : 30 Contact Periods : (3L +1T)/week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs Unit - I: Measurement Instrumentation and Calibration: Classification of transducers, Performance characteristics, Calibration and standards. Dynamics of Instrument Systems: General performance of Systems – Electromechanical Systems – Fluidic systems. Unit – II: Study of CRO- Measurement of Phase and Frequency- storage oscilloscopes- sampling oscilloscope. Unit – III: Digital Voltmeters – Digital frequency meter – Digital phase angle meter . Analog 7 digital type – wave analysers, Spectrum analyzers, Vector impedance meter,Q-meter,peak reading and RMS Voltmters. Unit – IV: Advantages of Electrical Transducers –Resistor, Inductor, & Capacitor transducers – Strain Gauge – Gauge Factor – types – Thermistors – Thermocouples – LVDT,Synchros,Piezoelectric Transducers,Photovoltaic,Photo conductive cells – Photo Diodes & transistors. Unit – V: Measurement of Strain – Gauge sensitivity – Temperature compensation – load cell – Measurement of pressure using electrical transducers as secondary transducer – Vacuum Gauges – Torque measurement – Angular Velocity using Tachometers and digital methods. LVDT type accelerometer – Flow measurement using electromagnetic – hot-wire anemometer and ultrasonic types – capacitance method for liquid level measurement. TEXT BOOKS: 1. DVS Murthy (1995), “Transducers & Instrumentation”, PHI. 2. C.S.Rangan,G.R.Sarma and Mani (2002), “Instrumentation: Devices & systems”, TMH. 3. A.D.Helfrick & W.D.Cooper (1992), “Modern Electronic Instrumentation & Measurement Techniques”, PHI. REFERENCE BOOKS: 1. D.O.Doeblin (1990), “Measurement Systems,Applications & Design”, TMH. 2. A.K.Sawhney (2004), “Electrical & Electronics Measurements & Instrumentation, Danpat Rai & Sons. 3. C.Johnson (1982), “Process Control Instrumentation Technology”, PHI 4. A.S. Morris (2003), “Principles of Measurement & Instrumentation”, PHI. Note: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

Introduction to Information Systems (IIS) (Common to III B.Tech II Semester ECE, EEE & ME)

Scheme : 2008 Internal Assessment : 30 Contact Periods: (4L+1T)/week End Exam Marks: 70 Credits: 5 End Exam Duration: 3hrs Unit – 1 Fundamentals of Computers & Computer Architecture : Introduction, Organization of a small computer, Central Processing Unit, Execution cycle, Instruction categories, measure of CPU performance Memory, Input/output devices, BUS, addressing modes System Software : Assemblers, Loaders and linkers, Compilers and interpreters. Operating System : Introduction , Memory Management Schemes ,Process Management, Scheduling , Threads Unit – 2 Introduction to Programming : Life cycle of a Software Project, Importance of Adhering to standards and best practices, Using algorithms to solve the problems, Different patterns in Algorithms. Coding Standards and Best Practices: Introduction to C Programming, Programming and Programming Languages, Basics of C Language, Data Types in C, Steps in creating programmes, Functions. Sorting and Searching Techniques : Searching Algorithms – Linear Search, Binary Search, Sorting Algorithms – Bubble Sort, Selecting Sort and Insertion Sort. Testing, Debugging and Code Reviews : Unit Testing, Debugging, Debugging using the IDE, Code Review, Software Development Models, Unit – 3 Relational Database Management System : Introduction to DBMS, the database technology, data models. Entity Relationship (E-R) Modeling : Introduction, Notations, Modeling E-R Diagrams, Case Study 1,2 & 3, Merits and Demerits of E-R modeling. Unit - 4 Structured Query languages (SQL): History of SQL, Data Types, Data Definition Language Statements (DDL), Data Manipulation Language (DML), writing simple queries, Embedded SQL, Online Transaction Processing

Unit – 5 Normalization : Introduction, Need for Normalization, Process Normalization, Types of Normal Forms (1 NF, 2 NF, 3 NF & BCNF), Merits and Demerits of Normalization. Transaction properties and concurrency: Acid properties, issues with concurrency – lost update, inconsistent summary and dirty read. Data base locking techniques: Shared lock, exclusive lock and intent locks, Backup and Recovery Text Books :

1. Campus Connect Foundation Programme – Computer Hardware and System Software Concepts, Programming Fundamentals- Vol. – 1, INFOSYS.

2. Campus Connect Foundation Programme – Relational Database management System, Client Server Concepts, Introduction to Web Technologies - Vol. – 2, INFOSYS

3. Campus Connect Foundation Programme – Object Oriented Concepts – System Development Methodology, User Interface Design - Vol. – 3, INFOSYS

Reference Books :

1. Andrew S. Tanenbaum, Structured Computer Organization, PHI, 3rd ed., 1991 2. Silberschatz and Galvin, Operating System Concepts, 4th ed., Addision-Wesley, 1995 3. Kernighan, Ritchie, ANSI C language PHI,1992 4. Alfred V Aho, John E Hopcroft, Jeffrey D Ullman, Design and Analysis of Computer

Algorithms, Addison Wesley Publishing Co., 1998 5 Wilbert O. Galitz, Essential Guide to User Interface Design, John Wiley, 1997 1. Alex Berson, Client server Architecture, Mc Grew Hill International, 1994 2. Henry F Korth, Abraham Silberschatz, Database System Concept, 2nd

ed. McGraw-Hill International editions, 1991 3. Brad J Cox, Andrew J.Novobilski, Object – Oriented Programming – An evolutionary

approach, Addison – Wesley, 1991. 4. Rojer Pressman, Software Engineering-A Practitioners approach, McGraw Hill, 5th ed., 2001

POWER ELECTRONICS LAB (PELP) (III EEE – II Sem)


1. Single phase fully controlled converted with R & RL load. 2. Single phase half controlled converter 3. Single phase AC voltage control using Triac with UJT firing circuit 4. Single phase series inverter 5. DC chopper 6. Single phase cyclo converter with R & RL load 7. Single phase bridge inverter with R & RL load 8. Single phase half wave & full wave converters with R load 9. SCR & UJT characteristics 10. Gate firing circuits for SCR

Introduction to Information Systems Lab (IIS (P) )

(Common to III B.Tech II Semester ECE, EEE & ME)

Scheme : 2008 Internal Assessment : 30 Contact Periods: 3 hrs/week End Exam Marks: 70 Credits: 2 End Exam Duration: 3hrs

List of Experiments Using C 1st Week:

1. Programs on Basic Programming constructs (if, switch-case, while, do while, for)

2nd Week:

2. Programs on Arrays

3. Write a program to Implement the Transpose of the matrix.(Modify the same matrix)

3nd Week: Implementation of Searching Techniques

Linear Search Binary search 4th Week: Implementation of Sorting Techniques Write a program to sort the given list with arrays using the following sorting techniques.

Selection sort Bubble sort Insertion sort

Quick sort An institute wants to automate the process of allocating courses to vendors. Initially automation is considered for 5 vendors. Assumption: one course could be allotted to many vendors. Declare and initialize the following arrays each of size 5:

An array to store the Vendor Ids. Initialize it with the following values 101, 102, 103, 104 and 105.

An array to store the course Id’s and initialize it with zeros. An array to store the amount (to be paid to the vendor for that course) and initialize it with

zeros.

All the three arrays have one to one correspondence. Consider the following table for the courseid and their corresponding amount details.

Course Id’s Amount

1001 25000 1002 35000 1003 20000 1004 15000 1005 20000 Display a menu to implement the following functionalities:

1. Allocate course 2. Deallocate course 3. Report

Implement the following functionality for each of the given options:

1. Allocate course o Accept the VendorId

Display appropriate error message if the vendor id is invalid(if it is not found in the array of Vendor Ids)

Display appropriate error message if the vendor is already allotted to a course

o Accept the Course Id. Display appropriate error message if the course id is invalid(not between 1001

and 1005)

o After validation, update CourseId and the related amount for the corresponding vendor. o Display a message on successful allocation

2. Deallocate course o Accept the VendorId

Display appropriate error message if the vendor id is invalid(if it is not found in the array of Vendor Ids)

Display appropriate error message if the vendor is not allotted with a course

o After validation corresponding CourseId and amount should be set to Zero. o Display a message on successful deallocation.

3. Report

Generate a report in the following format for ONLY those vendors who have been allocated the courses. Vendor Id Course Id Amount __________ ________ ________ __________ ________ ________ __________ ________ ________ __________ ________ ________

5th Week

Basic SQL Queries (DDL, DML and DCL) 6th Week: Queries using Aggregate functions Account(BRANCHNAME, ACCNO, BALANCE) Branch(BRANCHNAME, BRANCHCITY, ASSETS)

1. Find the average account Balance at the each branch. 2. Find the number of depositors at each branch 3. Find the names of all branches that have assets greater than at least one branch located at a

particular city. Sales (SNO, SNAME, AREA, GENDER, SAMOUNT)

1. List out the sales amount and names of the top 3 sales persons 2. List out the names and sales amount whose sales amount crosses the average sales amount of

north and south. 3. List out the names and sales amount of those persons whose sales amount is greater than

minimum sales amount of company and less than average sales amount of company. 4. List out top 5th sales person name sales amount.

7th Week: Emp (EMPNO, ENAME, SAL, HIREDATE, DEPTNO, MGRNO)

5. Display all employ names which have the character ‘TH’ or ‘LL’ in them 6. List all employees hired between two given dates 7. List all employees by name, number, along with their manager name and number

8th Week: Create the following tables and insert the data with appropriate constraints. Table: Politician:Politician Details Column Name Description VoterID Number(5) Primary Key Name Varchar2(15) Name of the politician. Mandatory.Address Varchar2(50) Address of the politician City Varchar2(20) Place of Residence ElectionsLost Number(2) Must be 0 or greater than zero

Sample Data:

VoterID Name Address City ElectionsLost 10001 Mohan Hyderabad Road Kurnool 2 10002 Ram 56, Ramapuram Nandyal 3 10003 Eric Kondareddy fort area Kurnool 1 10004 William Vijayanagar Allagadda 7 Table: Party:Party Details Column Name Description PartyCode Number(3) Primary Key Name Varchar2(15) Name of the political party. Mandatory.HQ Varchar2(15) Place where HQ is located

Sample Data:

PartyCode Name HQ 101 Party One Hyderabad102 Party Two Kurnool 103 Party Three Table: ElectionResult : Details of Politicians who have won the election Column Name Description Year Number(4) Year when elected. Constituency Varchar2(20) Must be ‘Kurnool’ OR Nandyal’ OR ‘Allagadda’ PartyCode Number(3) Must be existing party code VoterID Number(5) Must be existing Voter-id Votes Number(6) Total number of votes the politician won by. (Year, Constituency) is the Primary Key

Sample Data:

Year Constituency PartyCode VoterID Votes 1984 Kurnool 101 10003 12967 1986 Nandyal 102 10004 80876 1986 Kurnool 101 10003 100000 1986 Kurnool 102 10002 7023 1992 Nandyal 103 10001 602 1992 Nandyal 101 10004 6021 NOTE:

You are supposed to fill in the given records in above tables following these rules: 1. Identify the primary key and foreign key (if applicable) in each table. 2. Take care of the constraints and the relationships among the tables.

Queries

1. List details of all politicians whose name contains atleast one ‘a’ and stay in ‘Bangalore’.

2. List the Party name and the Politicians name who won from the Nandyal constituency in the

year 1986.

3. List the Politicians details who have won by maximum number of votes after 1990.

4. List the party name, corresponding HQ, total number of times the party has won

respectively. Write the SQL Queries to generate the answers for the following questions for the specified Schemas.

IV B.Tech (EEE) – First Semester Scheme : 2008

S.No Subject Abbreviation Credits


periods/week


(Hours)


L D/T P End Exam


Theory 1 Drives & Static Control DSC 5 4 1 – 3 70 30 100 2 Power Systems Operation and

Control PSOC 5

4 1 – 3 70 30 100

3 Utilization of Electric power UEP 5 4 1 - 3 70 30 100 4 Advanced Information

Systems AIS 5

5 - – 3 70 30 100

5 Professional Elective – I – 4 4 - – 3 70 30 100 6 Open Elective – I - 2 2 - - - 100 100 Practical 7 Drives and control Lab DC(P) 2 - - 3 70 30 100 8 Simulation Lab S(P) 2 – – 3 3 70 30 100 9 Mini project & comprehensive

viva MPCV(P) 3 – – 4 3 70 30 100

Total 33 23 3 10 – 560 340 900

Drives & Static Control (DSC) (For IV B.Tech EEE – I Sem)

Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam duration:3 hrs UNIT- I: Introduction : Concept and classification of electrical drives, dynamics of electrical drives, different types of loads, four quadrant operation of loads and motors, transient and steady state stability of electric drive, characteristics and operational features of industrial electric drives, review of speed torque characteristics of d.c. and a.c. motors, Rating and heating of motors, conventional speed control, starting and braking methods UNIT- II: Phase controlled DC motor drives: single phase half controlled and fully controlled rectifiers and three-phase half controlled and fully controlled rectifiers fed separately excited and series motors. Voltage and current waveforms, speed torque relations, Dual converters fed Dc motor drives, problems. UNIT- III: Chopper Controlled DC motor drives: Time ratio control and current limit control strategies, Class-A and class-B chopper fed separately excited and series motor drives, Multi quadrant operation of DC motor drives, closed loop control of chopper fed dc drives, problems. UNIT- IV: Induction motor drives: stator voltage control, supply frequency control, torque-speed characteristics, variable voltage and variable frequency control, voltage source inverter and current source inverter fed induction motor drives, braking and four quadrant operation of induction motor drives. Chopper control rotor resistance control, static Kramer drive, static Scherbius drive, -variable speed constant frequency (VSCF) generation. UNIT- V: Variable speed synchronous motor drives: Separate control and self control of synchronous motors, load commutation, Voltage source inverter and current source inverter fed synchronous motor drives, margin angle control, control of permanent magnet synchronous motors. Reference Books: 1. G.K.Dubey (2004), “Power Semiconductor controlled drives”, New Age International Publishers. 2. B.K.Bose (2003), “Modern Power electronics and ac drives”, Pearson Publishers. 3. Vedam Subrahmanayam (1994), “Electrical drives concepts and applications”, TMH. 4. Vedam Subrahmanyam, “Thyristor control of electric drives”, 5. G.K. Dubey (2003), “Fundamentals of Electrical drives” Narosa Publishers. 6. S.K. Pillai (2005), “A course in Electrical drives”, New Age International Publishers. 7. P.C.Sen (1981), “Thyristor dc drives”, John Wiley Publishers. 8. W. Leonard (2001), “Control of Electrical Drives”, Springer Publishers

POWER SYSTEM OPERATION AND CONTROL (PSOC) ( For IV B.Tech EEE I – Semester )

Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam duration:3 hrs UNIT –I Economic operation power systems - Optimal operation of generators in all Thermal stations – Heat rate curve -cost curve – Incremental fuel and production costs – Input and Output characteristics – Optimum generation allocation with line losses neglected. Optimum generation allocation including the effects of transmission line losses – Loss coefficients – General transmission line loss formula – Flow charts of co-ordinate equations – Short-term hydro – thermal scheduling problem UNIT – II Load Frequency Control – 1 Necessity of keeping frequency constant – definition of control area – Single area control – Block diagram representation of an isolated power System – Steady state analysis – dynamic response – uncontrolled case Proportional + integral control of single area and its block diagram representation – steady state response – load frequency control. UNIT – III Load frequency control – 2 Load frequency control of two area system – uncontrolled case and controlled case, tie line bias control, optimal two area load frequency control – steady state representation – performance index and optimal parameter adjustment. UNIT – IV Reactive power control: System voltage and reactive power, reactive power generation by synchronous machines, automatic voltage regulators, synchronous condensers, static VAR compensators, effect of reactors and capacitors. UNIT – V Security of power systems – states of power systems- normal – steady state- abnormal emergency states-contingencies and their ranking- introduction to preventive controls. TEXT BOOKS 1. Nagrath & Kothari (1994), “Power System Engineering”, TMH. 2. C.L.Wadhwa (2003), “Electrical Power Systems”, New Age International Publishers. 3. O.Elgerd, “Electric energy system theory”, TMH 4. T.J.Miller, “Reactive Power Control” REFERENCE BOOKS 1. L.K.Kirch mayer, “Economic operation of power systems”, Wiley Publishers. 2. P.S.R.Murthy, “ Power system operation and control”, TMH 3. S.S.Vadhera (2003), “Power system analysis” Dhanpat Rai Publishers. 4. B.R.Gupta(2002), “Generation of electric energy”, S Chand Publishers. 5. A.J.Wood and B.F.Woollenberg(1984), “Power generation, operation and control” John Wiley Publishers. NOTE : The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

UTILIZATION OF ELECTRIC POWER (UEP) (For IV B.Tech. EEE - I Semester)

Scheme :2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 5 End Exam duration:3 hrs UNIT-I: Illumination Engineering: Nature and standards of light, units of illumination, luminous efficiency, types of lamps, sodium vapour, mercury vapour, fluorescent lamps, filament lamps, ideas about ultra violet lamp, arc lamp. Distribution And Control Of Light: Polar curves and their uses, lighting schemes, factory lighting, flood lighting and street lighting. UNIT-2: Electric Heating And Welding: Advantages and methods of electric heating, types and applications of electric heating equipment, resistance ovens, induction heating, dielectric heating, are furnace and heating of buildings. Electric Welding: Resistance welding and arc welding techniques. UNIT-3: Refrigeration and air conditioning: Introduction, types of refrigeration, vapour compression cycle, operational features of absorption refrigeration process, household refrigerator, air conditioning, types of air conditioning systems, room air conditioner, water cooler. UNIT-4: Electroplating: Fundamentals of electroplating, factors determining the choice of electrolytes, Faraday’s laws of electrolysis, applications of electrolytic process, copper plating, principles of electrolytic refining, power supplies UNIT-5: Electric Traction: System of traction and electrification, the traction motor, locomotive characteristics and control of locomotives, transmission drive, train movement, construction of speed time and speed distance curves, simplified speed time curve, factors influencing energy consumption, starting and speed control of traction motors, track equipment and control gear for overhead equipment. TEXT BOOKS: 1. Openshaw Taylor (2003), “Utilisation of electrical energy” Orient Longman Publishers. 2. C.L.Wadhwa (2003), “Generation, Distribution and utilisation of Electric energy”, New Age International Publishers. 3. S.K.Pillai( 2005), “A first course on electric drives”, New Age International Publishers. 4. N.Surya Narayana(2002), “Utilisation of power”, New Age International Publishers. 5. J.B.Gupta(2004), “Utilisation of electrical power and electric traction”, S K Kataria Publishers. Note: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

Advanced Information Systems (AIS)

(Common to IV B.Tech I Semester ECE, EEE & ME)

Scheme : 2008 Internal Assessment : 30 Contact Periods: (4L+1T)/week End Exam Marks: 70 Credits: 5 End Exam Duration: 3hrs

UNIT – 1 Object Oriented Concepts : Introduction, Programming Techniques, Introduction to Object Oriented Concepts, concept of Structured Procedural Programming, objects and its constituents, Data Abstraction, Classification, Encapsulation and information hiding, Data Access Specifies, UML Notations of a class.

UNIT – 2 Inheritance, advantages of inheritance, Generalization and Specialization, forms of generalization, Multiple and Multilevel Inheritance, abstract classes, Polymorphism and binding Implementation of OOC through Java.

UNIT – 3 Introduction to Web Technologies: Basics of Internetworking, IP Addressing, Assigning and Resolving IP Addresses, Network Security, Client Server Concepts, World Wide Web (WWW) and Hyper Text Transfer Protocol (HTTP), Development of Web Application, Web Application Performance, Web Security, Mobile Web Application

UNIT – 4 Web Based Applications and Technologies, Case Study, Middleware Technologies, SQL Oriented Data Access, RPC, Transaction Processing Monitor, MQ Series, Web Server, Application Server Case Study (Introduction to Web Server /App Server and Load Balancing Load Balanced Web/ App Servers Configuration )

UNIT – 5 User Interface Design: Introduction to User Interface- its evolution, The process of User Interface Design, Elements of User Interface Design, Good Versus Bad User Interface Design, UID Principle, Tips and Techniques of designing a UID, Reports TEXT BOOK:

1. Campus Connect Foundation Programme – Computer Hardware and System Software Concepts, Programming Fundamentals- Vol. – 1, INFOSYS.

2. Campus Connect Foundation Programme – Relational Database management System, Client Server Concepts, Introduction to Web Technologies - Vol. – 2, INFOSYS

3. Campus Connect Foundation Programme – Object Oriented Concepts – System Development Methodology, User Interface Design - Vol. – 3, INFOSYS

4. Understanding object-oriented programming with java by – timothy budd (pearson)

5. Data Communications & Computer Networking, by Forouzan, Tata McGrawHill,

REFERENCE BOOKS:

1. THE COMPLETE REFERENCE JAVA 2 (Fourth Edition) BY - PATRICK NAUGHTON & HERBET SCHILDT (TMH)

2. PROGRAMMING JAVA - DECKER&HIRSH FIELD VIKAS PUBLISKING (2001) (THOMSON LEARNING ) (SECOND EDITON)

3. INTRODUCTION TO JAVA PROGRAMMING - Y.DANIEL LIANG PHI(2002)

4. OBJECT ORIENTED PROGRAMMING THROUGH JAVA 2 BY - THAMUS WU (Mc.Graw Hill)

5. JAVA 2 - DIETEL & DIETEL (PEARSON EDUCATION)

6. INTRODUCTION TO JAVA – BALA GURU SWAMY

7. INTRODUCTION TO PROGRAMMIND & OOD USING JAVA – JAINO NINE & FA HOSCH (JOHN WILEY)

8. STARTING OUT WITH JAVA – JONY GADDIS (DREAM TECH PRESS)

9. JAVA PROGRAMMING – SCHAUM’S SERIES

SIMULATION LAB (SP) (IV EEE – I Sem)

Scheme :2008 Internal assessment : 30 Contact Periods : 3P/week End Exam Marks : 70 Credits :2 End Exam duration:3 hrs

LIST OF EXPERIMENTS: MAT LAB:

1. Two area system consisting of 2 or more generating units 2. Automatic voltage regulator 3. Single phase controlled rectifiers

MI POWER:

1. Load flow study 2. Short circuit study

PSIM: 1. Single phase controlled rectifiers 2. Single AC Voltage controller, step down chopper, step up chopper with R and RL loads,

PSPICE:

1. Verification of Thevenins, Nortons and Reciprocity theorm 2. Verification of KCL, KVL and superposition theorm 3. Single phase controlled rectifiers

Drives and control Lab (DCP) (IV EEE – I Sem)

Scheme : 2008 Internal assessment : 30 Contact Periods : (4L +1T)/week End Exam Marks : 70 Credits : 2 End Exam duration : 3 hrs

1. Verification of SPWM and SVPWM algorithms on DSP based V/f controlled induction motor drive

2. Simulation and implementation of SPWM algorithm on dSPACE kit 3. Microcontroller based speed control of separately excited DC motor. 4. Static Kramer drive 5. Static rotor resistance control of SRIM using chopper. 6. Speed control of induction motor using three-phase AC voltage controllers. 7. Four-quadrant chopper fed DC motor drive. 8. 1-phase IGBT based PWM inverter fed 1-phase induction motor 9. 3-phase IGBT based PWM inverter fed 3-phase induction motor 10. 3-phase fully controlled bridge rectifier fed DC motor

Note: A minimum of eight experiments should be conducted

Mini Project & Comprehensive viva (MPCV) (Common for IV B.Tech., ECE, EEE & ME - I Semester)

Scheme : 2008 Internal Assessment : 30 Contact Periods: 4 hrs/week End Exam Marks : 70 Credits: 3 End Exam Duration : 3hrs

List of Experiments Using Oracle 9i

Write the SQL Queries to generate the answers for the following questions for the specified Schemas. 1st Week & 2nd Week: Sales (SNO, SNAME, AREA, GENDER, SAMOUNT)

4. List out the sales amount and names of the top 3 sales persons 5. List out the names and sales amount whose sales amount crosses the average sales amount of north and south. 6. List out the names and sales amount of those persons whose sales amount is greater than minimum sales amount

of company and less than average sales amount of company. 7. List out top 5th sales person name sales amount.

3rd Week: EMP (EMPNO, ENAME, SAL, HIREDATE, DEPTNO, MGRNO)

8. Display all employ names which have the character ‘TH’ or ‘LL’ in them 9. List all employees hired between two given dates 10. List all employees by name, number, along with their manager name and number

4th Week:

Account (BRANCHNAME, ACCNO, BALANCE) Branch (BRANCHNAME, BRANCHCITY, ASSETS) 11. Find the average account Balance at the each branch. 12. Find the number of depositors at each branch 13. Find the names of all branches that have assets greater than at least one branch located at a particular city.

5th Week: Borrowers (CNAME, LNO) Depositors (CNAME, ACCNO) Loan (LNO, BNAME, AMOUNT) Account (BNAME, ACCNO, BALANCE) 11. Find all customers having an account at the bank but no loan. 12. Find all customers having a loan or account or both at bank. 13. Find the loan numbers from loans whose amount in between 900 and 1000. 14. Display all tuples from loan amount in ascending order of loans. 15. Find sum,avg,max,min,count of balance of all accounts. 6th Week to 12th Week: Project work

IV B.Tech (EEE) – Second Semester Scheme : 2008

ELECTIVES

Professional Electives for IV B.Tech (EEE) Elements of Digital Signal Processing (EDSPR)

Neural Networks & Fuzzy logic (NNFL) VLSI Design (VLSID) Advanced Microprocessor (AMP) HVDC & FACTS (HVDC FACT) Embedded system Design (ESD) Computer Organization (CPO) Modern Control Theory (MCT) Non-Conventional sources of energy (NCSE) Optimization Theory (OT)

Electrical distribution systems (EDS) Software Engineering Techniques (SET) Computer Operating systems (COS) Management of Database (MDB) Networking of Computers (NWC)

Open Electives 1. Entrepreneurship Development (ED) 2. Indian Constitution And Society (ICS)

3. Professional Ethics And Human Values (PEHV) 4. General Psychology (GP)


Credits


periods/week


(Hours)


L D/T P End Exam


Theory 1 Professional Elective – II -- 4 4 – – 3 70 30 1002 Professional Elective – III – 4 4 – – 3 70 30 100 3 Open Elective –II - 2 2 – – 100 100 Practical 4 Project work PW(P) 10 – – 6 3 70 30 100 Total 20 10 6 210 190 400

OR 1. Practice School/ Internship PS 10 - - - - 70 30 100 2. Project work PW(P) 10 - - - - 70 30 100 Total - 20 - - - - 140 60 200

5. Intellectual Property Rights (IPR) 6. Research Methodology (RM)

ELEMENTS OF DIGITAL SIGNAL PROCESSING (EDSPR) ( Elective for IV B.Tech (EEE )

Scheme :2008 Internal assessment : 30 Contact Periods : 4L /week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs

Unit-I Introduction to Discrete time LTI systems : Causality, stability, Linear constant coefficient Difference equations, Freq. domain description, Discrete fourier series, Discrete time fourier Transform and Discrete Fourier Transform proprieties of DFT.

Unit-II Fast Fourier Transform : Radix-2, Decimation in time and Frequency algorithms comparison of DFT & FFT computations inplace computation, an bit reveral, Fiuite Ward laughts in FFT algorithms, Realization of Digital Filters – Direct forum I & II cascals, paralle.

Unit-III IIR Digital Filter design : Butterworth and Chebyshev approximations, IIR filter design, mapping of differentials, Impulse invariants Bit wear transform techniques, frequency transformations

Unit-IV FIR Digital Filter Design : Characteristics of FIR digital filter, frequency response. Design of Digital Filter using Fourier series method, windowing techniques frequency sampling technique, comparison of FIR & IIR filter. Realization of FIR filters.

Unit-V Introduction to DSP processors : Introduction to programmable DSPs, Multiplier and accumulator (MAC) Modified Bus structure and Memory access schemes, Multiple access memory on clip peripheries features of TMS 320C67XX processors, Internal architecture, addressing modes, external memory access, peripherals.

Text Books: 1. Proakis J.Gaset and G.G.Manolakis (2004), “DSP Principals, algorithms & applications”, PHI publishers

2. Emmanuel C.Ifearchar, Barrie W.Jervis(2005), “DSP A Practical Approach”, Pearson Education 3. Allan V.Oppenham & Rouald W.Schafer (1996), “Discrete time Signal processing”, PHI publishers Reference Books: 1. S.Salivakanana, Avallavaraj, C.Gnanapriya(2006), “DSP”, TMH publishers. 2. P.Ramesh Babu(2006), “DSP”, Scitech publishers.

NEURAL NETWORKS AND FUZZY LOGIC (NNFL) (Elective For IV B. Tech (EEE))

Scheme :2008 Internal assessment : 30 Contact Periods : 4L /week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs UNIT –I Biological Neuron vs Artificial Neuron, structural and Activation functions – Neural Networks Architectures – Learning methods, Stability and convergence. UNIT –II Single Layer Networks - Mc culloh – pitts Neuron model, perceptron training and Algorithm, Delta Learning, Windor – Hoff learning rules, Limitations. Multi-layer network – Architectures & modeling – BP Algorithm, Radial Basis functions. UNIT –III Unsupervised Learning – winner take all learning, outstar learning, counter propagation networks, self organizing network – kohonen, grossberg, hamming NET. MAXNET, Hop field networks, BAN and ART architectures. UNIT –IV Fuzzy sets and system - Geometry of Fuzzy sets – theorems – fuzzy and neural function estimators – FAM system architectures – Uncertainty and estimation – types of uncertainty – measures of Fuzziness –classical measures of uncertainty – measures of dissonance – confession specificity – knowledge base defuzzification. UNIT –V Application to load fore casting load flow fault detection – unit commitments, LF control – economic dispatch, “ Neuro Fuzzy controllers”. Reference Books:

1. B. Yegna Narayana. (2003), “Artificial Neural Networks”, PHI Publishers. 2. Jacek Zurada (2004), “Neural Networks”, Jaico Publishers. 3. Bart Kosko (1994), “Neural Networks and Fuzzy systems”, PHI Publishers. 4. N.K. Bose & Liang. P (2003), “Neural Network Fundamentals”, TMH Publishers.

VLSI Design (VLSID) (Elective for IV B.Tech (EEE))


UNIT – I Introduction to MOS Technology : Introduction to IC technology, MOS technology and Related VLSI technology, Basic MOS transistors, Enhancement mode transistor action, Depletiom mode transistor action, nMOS fabrication, CMOS fabrication, thermal aspects of processing, BICMOS technology. Electrical properties of MOS, BICMOS circuits : parameters of MOS circuits, Inverters, Aspects of Threshold voltage, Alternative forms of Pullup, circuit model, CMOS Inverter, Characteristics of npn Bipolar transistors, Latch up in CMOS and BICMOS circuits. UNIT – II MOS design process : MOS layers, site diagrams, nMOS, CMOS design style, Design rules and layout, layout diagrams. Basic Circuits concepts : Sheet resistance, Sheet resistance concept applied to MOS transistors and inverters, area capacitances of layers, Standard unit of capacitance, area capacitance calculations, Delay unit, inverter delays. UNIT – III Subsystem design and layout : Some and layout : some architectural issues, switch logic, gate logic, other forms of CMOS logic, examples of structured design, parity generator, multiplexer, illustration of design process. UNIT – IV Scaling of MOS circuits : scaling models and factors, scaling factors for device parameters, functional limitations to scaling, limits due to sub threshold currents, limits due to current density, design of ALU sub system. UNIT – V Memory, registers and aspects of system timing : system timing considerations, Dynamic shift register stage, one transistor dynamic RAM cell, one transistor dynamic memory cell, A pseudo static RAM / register cell, CAD tools for design and simulation, design flow and design cycle in the top down structured approach. Text Books :

1. Douglas A Pucknell, Kamran Eshraghain (2000), “Basic VLSI design systems and circuits” PHI.

Reference Books :

1. Neil H.E.Weste and Kamran Eshraghain (1998), “Principles of CMOS VLSI design”, Wesley Publishers.

ADVANCED MICROPROCESSORS (AMP)

( Elective for IV B.Tech EEE)


Unit-I The 80186 & 80286 Microprocessors: 80186: Block Diagram, Pin definitions 80286: Block diagram, pin definitions, Real address mode, Protected mode, New and enhanced instructions.

Unit-II 80386 and 80486 Microprocessors: 80386: Architecture, Pins and signals, Operating modes, Memory organization, Registers, New addressing modes, Memory management. 80486: Block diagram & Pin definitions. Unit III Pentium Processor: Salient features of Pentium, Architecture, branch prediction, MMX architecture, Pentium Pro and Pentium II. Unit IV: Pentium IV Microprocessor: Salient features of PIV, Block diagram, Hyperthreading in Pentium. Unit V: Advanced Peripherals: CRT Controller 8275, Floppy disc controller 8272, Keyboard and display controller 8279.

Text Books: 1. The Intel Microprocessor 8086/8088, 80186/80188, 80286, 80386, 80486, Pentium and Pentium

Pro Processor Architecture, Programming and Interfacing – Barry B. Brey (PHI, 4th Edition). 2. Advanced Microprocessors & Peripherals – A.K.Roy & K M Bhuruchandi, Pearson Note: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

HVDC AND FACTS (HVDC FACT) (Elective For IV B.Tech (EEE))


UNIT I Basic concepts: Economics and terminal equipment of HVDC transmission systems – Types of HVDC links – Apparatus required for HVDC systems – Comparison of AC and DC Transmission – Application of DC Transmission System – Planning and Modern trends in D.C.Transmission. UNIT II HVDC Converters: choice of converter configurations -Analysis of Graetz circuit – characteristics of 6-pulse and 12-pulse converters – principle of DC link control – converter control characteristics – firing angle control – current and extinction angle control – effect of source inductance on the systems – converter faults. UNIT III Power flow analysis in AC/DC systems; Modelling of DC Links – solution of DC load flow – P.U.system for d.c quantities. Converter faults & protection: converter faults – protection against over currents & over voltages in converter station – surge arresters – smoothing reactors – DC breakers – Effects of proximity of AC & DC transmission lines. UNIT IV FACTS concept and General System considerations: Transmission Interconnections- Flow of power in an AC system- What limits the loading capability- power flow and dynamic stability considerations of a transmission interconnection – relative importance of controllable parameters- basic types of FACTS controllers- Brief description and definitions of FACTS controllers. UNIT V Static Shunt and Series Compensation: Objectives of shunt compensation – Mid point voltage Regulation for Line segmentation – end line voltage support to prevent voltage Instability – Improvement of Transient Stability – power Oscillation Damping – Objectives of series compensation – Concept of series capacitive compensation – voltage stability - Improvement of Transient Stability – power oscillation Damping – sub synchronous Oscillation Damping Reference: 1. K.R. Padiyar (1992), “ HVDC Power Transmission Systems”, Wel Publishers.

EMBEDDED SYSTEMS DESIGN (ESD) (Elective for IV B.Tech (EEE))


UNIT I INTRODUCTION : Embedded systems overview, design challenge, processor technology, IC technology, Design Technology, Trade-offs. Single purpose processors RT-level combinational logic, sequential logic (RT-level), custom single purpose processor design (RT-level), optimizing custom single purpose processors. GENERAL PURPOSE PROCESSORS : Basic architecture, operation, Pipelining, Programmer’s view, development environment, Application Specific Instruction-Set Processors (ASIPs) – MicroControllers and Digital Signal Processors. UNIT II STATE MACHINE AND CONCURRENT PROCESS MODELS : Introduction, models Vs. languages, finite state machines with data path model (FSMD), using state machines, program state machine model (PSM), concurrent process model, concurrent processes, communication among processes, synchronization among processes, implementation, data flow model, real-time systems. Unit III Introduction to MCS51 family: 8Bit microcontrollers Architecture on chip peripherals instruction set, programming of Intel MCS51 family (8 bit ) microcontroller. Unit IV Interfacing: Inter facing of 8051 with LCD, ADC, sensors, stepper motor, key board, DAC, memory Unit V PIC Microcontrollers: Overview and Features, Architectures Details of PIC 16C6X/7X, Instructions, addressing modes, I/O Ports, Interrupts, Timer, ADC. Features of 16F8XX series. Text Books:

1. Frank Vahid, Tony D.Givargis (2002), “Embedded System Design – A Unified Hardware / Software Introduction”, John Wiley Publishers.

2. Mazidi & Mazidi (2006), “The 8051 Microcontroller and Embedded Systems”, PHI 3. Deshmukh&Ajay (2005), Microcontrollers, TMH.


COMPUTER ORGANIZATION (CPO) ( Elective for IV B.Tech (EEE))


Unit I Register transfer and Micro-Operations: Register transfer, Bus and Memory transfers, Arithmetic, Logic and Shift micro-operations, Arithmetic logic shift unit.

Unit II Basic computer organization and design – Instruction codes, Computer registers, computer instructions, timing and control, Instruction cycle, Memory reference instructions, Input /output and Interrupt, design of basic computer. Micro-programmed control: control memory, address sequencing, micro-program example, design of control unit, micro-program sequencer.

Unit III

Central Processing Unit : General register organization, stack organization, Instruction formats, Addressing modes, data transfer and manipulation, program control. Computer Arithmetic : Algorithms for fixed point and signed 2’s complement binary arithmetic operations, floating point arithmetic operations.

Unit IV Input/Output Organization : Peripheral devices, input/output interface, asynchronous data transfer, modes of transfer, priority interrupt, DMA. Memory organization: memory hierarchy, main memory, auxiliary memory, associative memory, cache memory, virtual memory. Unit V Pipeline and Vector Processing: Parallel Processing, Pipelining, Arithmetic Pipeline, Instruction Pipeline, RISC pipeline, vector processing and Array Processing. Text Books: 1. M.Morris Mano (1993), “Computer System Architecture”, Pearson Education Publishers. Reference Books:

1. John P.Hayes (1998), “Computer Architecture and Organization”, TMH 2. Hemachar (2002), “Computer Organization”, TMH Note: The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

MODERN CONTROL THEORY (MCT)

(Elective For IV B. Tech (EEE)) Scheme :2008 Internal assessment : 30 Contact Periods : 4L /week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs Unit – I Review of state space representation of continuous time systems and their solution. State models for discrete time systems described as difference equations and transfer functions. Transfer function from state model. State transition matrix and solution of state equation for discrete time systems. Adjoint systems – state space representation of sampled data systems. Unit – II Controllability and Observability: Concepts of controllability and Observability, Controllability tests for continuous time, discrete time, time invariant systems, Observability tests for continuous time and discrete time, time invariant systems, controllability and Observability modes in state. Jordon’s canonical form, controllable and observable companion forms for single input single output systems. Pole placement by state feed back. State observer. Unit – III Nonlinear systems: Behaviour of non-linear systems, Jump resonance, sub-harmonic oscillation, limit cycles, common physical non linearities, singular points, phase plane method. Construction of phase plane trajectories, isocline method, delta method, computation of time. Unit – IV Stability: Liapunov’s stability criteria, Theorems. The direct method of Liapunov for linear systems. Methods of constructing Liapunov function Krasovski’s method, variable gradient method. Unit – V Optimal Control – Formulation of optimal control problem, calculus of variations, Minimisation of functionals. Formulation of variational calculus using Hamiltonian method. Suggested Reading:

1. Gopal M (1993), “Modern Control System Theory”, New Age International Publishers. 2. Nagrath I.J and Gopal M. (1982), “Control System Engineering”, Wiley Eastern Publishers. 3. K.Ogata (1992), “Modern Control Engineering” PHI.

NON-CONVENTIONAL SOURCES OF ENERGY (NCSE) (Elective for IV B. Tech (EEE))

Scheme :2008 Internal assessment : 30 Contact Periods : 4L /week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs Unit – I Fuel cells and Fuel cell power plant: Fuel cells: Introduction – Advantages – Principle & Operation – Classification & Types – Performance characteristics. Generalized schematic of fuel cell power plant-Acidic & alkaline electrolyte fuel cells-Commercial fuel cell power plants and their applications-Prospects of fuel cell power plant. Unit – II Solar Energy: Solar Radiation – extraterrestrial solar radiation – terrestrial solar radiation – Solar thermal conversion – solar thermal central receiver systems – photovolataic energy conversion – solar cells – 4 models. Unit – III Wind Energy – planetary and local winds – vertical axis and horizontal axis wind mills – principles of wind power – maximum power – actual power –wind turbine operation – electrical generator. Unit – IV Energy from Oceans – Ocean temperatures difference – Principles of OTEC plant operations – Wave energy – devices for energy extraction – tides – simple single pool tidal system. Unit – V Geothermal Energy – Origin and types – Bio fuels – classification – direct combustion for heat and electricity generator – anaerobic digestion for biogas – biogas digester – power generation. TEXT BOOK: 1. Johan Twidell & Toney Weir, “Renewable Energy Sources”,E & F.N.Spon Publishers. REFERENCE BOOKS:

1. EL Wakil (1984), “Power Plant Engineering”, TMH. 2. G.D.Rai (2005), “Non Conventional Energy Sources”, Khanna Publishers. 3. M.V.Deshpande (2006), “Elements of Power Station design”, TMH.


OPTIMIZATION THEORY (OT) (Elective For IV B.Tech EEE )

Scheme :2008 Internal assessment : 30 Contact Periods : 4L /week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs UNIT – I Introduction to Optimization : Historical development – classical optimization techniques, single variable , multivariable optimization, solution by Lagrange multiplier method, Kuhn and Tucker conditions, multivariable optimization problem with and without constraints. UNIT – II Linear Programming : Standard form , solution of simultaneous equations by Pivotal condensation, simplex algorithm, duality principal, revised simplex method. UNIT – III Non-Linear programming : One Dimensional search methods – Fibonacci method, Golden section method, Interpolation methods, Quadratic and Cubic interpolation methods, direct root methods. UNIT – IV Unconstrained Optimization : Direct search method, Univariate search and pattern search methods, Powell’s method. UNIT – V Gradient methods : Steepest descent, conjugate gradient and Quasi-Newton method. Fletcher - Reeve’s method of conjugate gradients. TEXT BOOKS : 1. S.S. Rao (1984), Optimization Theory and Application”, New Age International publishers REFERENCE BOOKS : 1. Jasbir . S. Arora (1989), “Introduction to Optimum Design”, TMH. 2. Taha “Optimisation” NOTE : The question paper shall consist of FIVE units with TWO questions in each unit. The student shall answer ONE question in each unit.

ELECTRICAL DISTRIBUTION SYSTEMS (EDS) (Elective For IV B. Tech (EEE))

Scheme :2008 Internal assessment : 30 Contact Periods : 4L /week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs UNIT-1: GENERAL: Introduction to distribution systems, an overview of the role of Computers in distribution system planning. Load modeling and characteristics. Coincidence factor, contribution factor and loss factor. Relationship between the load factor and loss factor. Classification of loads (Residential, Commercial, Agricultural and Industrial) and their characteristics.

UNIT-II: DISTRIBUTION FEEDERS AND SUBSTATIONS: Design Considerations of Distributed feeders: Radial and loop types of primary feeders, voltage levels, feeder loading, basic design practice of the secondary distribution system. Location of Substations: Rating of a distribution substation, service area within primary feeders. Benefits derived through optimal location of substations.

UNIT-III: SYSTEM ANALYSIS Voltage drop and power calculations: Derivation for voltage drop and power loss in lines, manual methods of solution for radial networks, three phase balanced primary lines.

UNIT-IV: PROTECTIVE DEVICES AND COORDINATION Objectives of distribution system protection, types of common faults and procedure for fault calculations. Protective Devices: Principle of operation of Fuses, Circuit Reclosures, line sectionalizers, and circuit breakers. Coordination of Protective Devices: General coordination procedure.

UNIT-V: COMPENSATION FOR POWER FACTOR IMPROVEMENT AND VOLTAGE CONTROL: Capacitive compensation for power-factor control. Different types of power capacitors, shunt and series capacitors, effect of shunt capacitors(Fixed and Switched), power factor correction, capacitor allocation. Economic justification. Procedure to determine the best capacitor location. Voltage Control: Equipment for voltage control, effect of series capacitors, effect of AVB/AVR, line drop compensation. TEXT BOOK 1. Turan Gonen (1987), “Electric Power Distribution System Engineering”, TMH.

REFERENCE BOOK 1. A.S.Pabla (1997), “Electric Power Distribution”, TMH.


SOFTWARE ENGINEERING TECHNIQUES (SET) ( Elective for IV B.Tech (EEE) )


Unit- I Introduction To Software Engineering And Process Models: The evolving role of software, changing nature of software, software myths. Software Engineering-A layered technology, a process framework. Process Models-The waterfall model, Incremental process models, Evolutionary process models and Unified process. Unit-II Software Requirement And Requirement Engineering Process: Functional and nonfunctional requirements, User requirements, System requirements, the software requirements document. Requirement Engineering Process: Feasibility studies, Requirements elicitation and analysis, Requirement validation, Requirement Management. Unit-III Design-Design process and Design quality, Design concepts, Design Model. Creating an Architectural Design-Software Architecture, Data Design, Architectural Styles & patterns Architectural design. Unit-IV Testing Strategies - A strategic approach to Software testing, test strategies for Conventional software, White Box Testing-Basis Path Testing, Control Structure Testing, Black Box Testing, Validation Testing, System Testing. Metrics for Process & Products - Software Measurement, metrics for software quality. Unit-V Risk Management-Reactive vs Proactive risk strategies ,software risks, risk identification, risk projection, risk refinement, RMMM, RMMM plan. Quality Management-Quality Concepts, software quality assurance, software reviews, formal technical reviews, statistical Software quality assurance, software reliability. Text Books: 1. Roger S. Pressman (2005), Software Engineering - A Practitioner’s Approach”, TMH. 2. Ian Sommerville (2001), “Software Engineering”, Pearson education. Reference Books: 1. K.K.Agarwal &Yogesh Singh (2003), “Software Engineering”, New Age International Publishers. 2. James F.Peters, Witold pedecz (2002), “Software Engineering-an Engineering approach”, John Wiely.


HIGH VOLTAGE ENGINEERING (HVE)

(Elective For IV B. Tech E.E.E. ) Scheme :2008 Internal assessment : 30 Contact Periods : (3L +1T)/week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs Unit-I Generation of High D.C. and A.C. Voltages – Introduction, – Half wave rectifier circuit, Cockroft- Walton voltage multiplier circuit, Electrostatic generators, Vandegraff generator Generation of high a.c. voltages by cascaded transformers, Series resonant circuit. Unit-II Generation of impulse voltages and currents – Definitions, Impulse generator circuits, Analysis of circuit ‘a’, Analysis of circuit ‘b’, Multistage impulse generator circuits (Marx circuit), Impulse current generation. Unit-III Measurement of high voltages and currents – Introduction, Sphere gaps, Generating voltmeter, capacitance voltage transformer, Chubb-Fortescue method, Impulse voltage measurement using voltage dividers, Hall Generators,Rogowski coil, Unit-IV High voltage testing of electrical equipment – Testing of overhead line insulators, Testing of cables, Testing of bushings, Testing of power transformers, Testing of circuit breakers. Non-Destructive insulation techniques –Measurement of dielectric constant and loss factor, High voltage Schering bridge, Partial discharges. Unit-V Break down mechanism of gases, Liquid and solid insulating materials (Introductory aspect only) – Introduction, Mechanism of breakdown of gases, Townsend’s first ionization coefficient, Townsend’s second ionization coefficient, Townsend breakdown mechanism, Paschen’s law, Principles of breakdown of solid and liquid dielectrics. Text Books: 1. M.S.Naidu & Kamaraju (2006), “High Voltage Engineering Fundamentals”, TMH. 2. Kuffel & Zaengle(2003), “High Voltage Engineering Fundamentals (Pergamon press)” Oxford. 3. C.L.Wadhwa (2000), “High Voltage Engineering”, New Age International publishers. 4. Subir Ray-An Introduction to “High Voltage Engineering” -PHI 5. Dieter Kind & Kurt Feser, “High voltage test techniques”, Shanker Book Agency.

COMPUTER OPERATING SYSTEMS (COS)

(Elective for IV B.Tech (EEE)) Scheme :2008 Internal assessment : 30 Contact Periods : 4L /week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs UNIT I Introduction: What is Operating Systems, Concepts - process, Files, System calls, Shell, Operating System Structure - Monolithic Layered Systems, Virtual Machines, and Client-Server Model. Process Management: Processor Management - Introduction, Concepts, and Performance Criterion. Concurrent Process - Concept, Producer/Consumer Problem, Semaphore, Classical Coordination Problem, Language Constructs. Inter process Communication, Classical IPC problems, Process scheduling. UNIT II Memory Management: Preliminaries, Bare Machines, Resident Monitor, Swapping, Multiple Partitions, Paging, and Segmentation, Combined Systems Virtual Memory: Overlays, Demand Paging, Performance of Demand Paging, Page Replacement, Virtual Memory Concepts, Page Replacement Algorithms, Allocating Algorithms, Thrashing. UNIT III File Systems: File Concepts, File Support, Access Methods, Allocation Methods, Directory Systems, File Protection, and Implementation Issues. Deadlocks: Deadlock Problem, Deadlock Characterization, Deadlock Prevention, Deadlock Avoidance, Deadlock Detection, and Deadlock Recovery UNIT IV Protection: Goals of Protection, Mechanisms and Policies, Domain of Protection, Access Matrix, Implementation of Access Matrix, Dynamic Protection Structures, Revocation, Existing Systems, Languages-Based Protection, Protection Problems, Security. Distributed Systems: Motivation, Topology, Communication, System Type, File Systems, Mode of Computation, Event Ordering, Synchronization, Deadlock Handling, Robustness, Reaching Agreement, Election Algorithms UNIT V The Unix Operating System: History, Design Principles, Programmer Interface, User Interface, File System, Process Management, Memory Management, I/O System, Inter process Communication. TEXT BOOK: - 1. James L.Peterson, Abraham Silberschatz (1985), “Operating Systems Concepts”, Wesley Publishers. 2. Tannunbaum (1996), “Modern Operating System” PHI.

Note : The Question Paper shall consists of Five units with two questions in each unit. The student shall answer one question in each unit.

MANAGEMET OF DATABASE (MDB) (Elective For IV B. Tech (EEE))

Scheme :2008 Internal assessment : 30 Contact Periods : 4L /week End Exam Marks : 70 Credits : 4 End Exam duration:3 hrs UNIT – 1 Introduction: Purpose of Database Systems, View of Data, Data Models, Database Management, Storage Management, Database Administrator, Database Users, Overall System Structure. Entity-Relationship Model: Basic Concepts, Design Issues, Mapping Constraints, Keys, Entity-Relationship Diagrams, Weak Entity Sets, Extended E-R Features, Design of an E-R Database Schema, Reduction of an E-R Scheme to Tables. UNIT – 2 Relational Model: Structure, The Relational Algebra, Extended Relational Algebraic Operations, Modification of Database, Views. SQL: Basic Structure, Set Operations, Aggregate Functions, Null Values, Nested Subroutines, Derived Relations, Views, Modification of Database, Joined Relations, Data Definition Language, Embedded SQL, Other SQL Features. UNIT – 3 Relational Database Design: Pitfalls, Decomposition, Normalisation using Functional Dependencies, Multivalued Dependencies, Join Dependencies, Domain-Key Normalisation Form, Alternative approaches. UNIT – 4 Relational and Hashing: Basic Concepts Ordered Indices, B Plus Tree Index Files, Static Hashing, Dynamic Hashing, Comparison of Ordered Indexing and Hashing, Index definition in SQL, Multiple Key Access. Transactions: Concept, Transaction State, Implementation of Atomicity and Durability, Concurrent Executions, Serializability, Recoverability, Implementation of Isolation, Transaction Definition in SQL, Testing for Seializability. UNIT – 5 Lock-Based Protocols: Timestamp-Based Protocols, Validation Based Protocols, Multiple Granularity, Multiversion Schemes, Deadlock handling, Insert and Delete Operations, Concurrency in Index Structures. Recovery System: Failure Classification, Storage Structure, Recovery and Atomicity, Log-Based Recovery, Shadow Paging. Recovery with Concurrent Transactions, Buffer Management, Failure with Loss of Non-Volatile Storage, Advanced Recovery Techniques. Text Books: 1. Henry F. Korth & Abraham Silberschatz(1977), “Data Base System Concepts”, TMH.

Reference Books: 1. C J Date (2003), “An Introduction to Data Base Systems”, Pearson Education Publishers.

NETWORKING OF COMPUTERS (NWC)

( Elective for IV B.Tech (EEE))


Unit-I Introduction to data communication networks: Network services and architecture, Reference models: ISO-OSI reference model, TCP/IP reference model, Classes of data communication services: Broadband –ISDN and ATM networks. Physical layer: Transmission media, data modems, RS-232 Interfaces, Switching and Multiplexing.

Unit-II Data link layer: Design issues, error detection and correction, Stop-and-go and sliding window error and flow control mechanisms, BISYNC and HDLC data link control protocols, LAN Standardization, ALOHA protocol, Introduction to IEEE standards-Media access control sublayer (specifications, frame structure), physical layer for: IEEE 802.3(CSMA/CD)standard, IEEE 802.4 Token bus standard, IEEE 802.5 Token ring standard. Introduction to wireless LANs, networking and internetworking devices.

Unit-III Network layer : Virtual circuit and datagram approach in subnets, Routing algorithms-shortest path routing, flooding, Hierarchical routing, broadcast routing, multicast routing and distance vector routing algorithms. Congestion control algorithms and deadlock, Network layer in Inernet and the ATM Networks.

Unit-IV Transport layer- transport services, addressing, upward and downward multiplexing, TCP and UDP. Session layer, Encryption, public key cryptography, data compression and syntax conversion.

Unit-V Application layer: Domain Name System (DNS), FTAM services, MHS services, VTP. World Wide Web, Multimedia.

Text Books: 1. Andrew S. Tanenbaum (1996), “Computer Networks”, Pearson Publishers. 2. Data communications and Networking -, 4th Edition - TMH Reference Books: 1. William Stallings (2002), “Data and Computer Communications”, PHI. 2. Gerd Keiser (1998), “Local Area Networks”, TMH. 3. Churchill Jordan (2000), “Communication and Network for the PC”, PHI.


ENTREPRENEURSHIP DEVELOPMENT (ED) (Open Elective - for All Branches)

Scheme :2008 Internal assessment : 100 Contact Periods : 2L/week Credits : 2 Unit - I Introduction : Concept of an entrepreneur; Definition of an entrepreneur; Types of entrepreneurs; Characteristics of an entrepreneur. Entrepreneurship : Definitions; Theories of entrepreneurship; Key elements of entrepreneurship; Six important segments of entrepreneurship environment; Advantages of entrepreneurship; Barriers to entrepreneurship; Role of entrepreneurship in economic development. Unit – II Rural Entrepreneurship : Meaning; Need; Retrospection of rural industrialization in India; Problems of rural entrepreneurship; Development plan for rural entrepreneurship. Small Enterprises : Definition of SSI; Types, Characteristics of SSI; Role of SSI in economic development; Problems faced by SSI. Unit – III Project Planning : Project Identification; Project Selection; Project Report – Contents & Formulation; Methods of Project Appraisal. Ownership Structures : Sole Proprietorship; Partnership; Company; Co-operative; Selection of appropriate ownership structure. Unit – IV Institutional Finance : Commercial banks; Other Financial Institutions – IDBI, IFCI, ICICI, IRBI, SFC, SIDC, SIDBI & EXIM Bank. Institutional Support : Need; Support to Small Entrepreneurs – NSIC, SIDO, SSIB, SSIDC, SISI, DICs. Text Books : 1. Principles of Entrepreneurship by Prof. Satish C. Ailawadi & Mrs. Romy Banerjee – Everest

Publishing House Pub. 2. Entrepreneurial Development by S.S. Khanka - S. Chand & Company Ltd. Pub.

INDIAN CONSTITUTION AND SOCIETY (ICS) (Open Elective – Common for All Branches)

Scheme :2008 Internal assessment : 100 Contact Periods : 2L/week Credits : 2

Unit - I Historical back ground-Preamble to the Constitution of India-Fundamental rights-Derivative principles of state policy-Elections in India- Indian Judiciary Unit - II Union Executive: Structures of Union Government & Functions-President-Vice President-Prime Minister-Cabinet Parliament-Supreme Court of India State Executive : Structures and Functions-Governor-Chief Minister-Cabinet-State Legislature-High Courts & Sub ordinate courts

Unit - III Central – State Relations-President’s Rule-Constitutional Amendments [42, 44, 74, 76, 86 & 91]-Constitutional functionaries-Working of Parliamentary system in India Unit - IV Nature, Meaning & Definition, Indian Social Structure-Language in India-Political Parties & Presume groups-Right of Women-S.C’s, S.T’s & other weaker sections. Text Books : 1. Introduction to the Constitution of India - Durga Das Basu, Wedwe & Company 2. Society – An Introduction Analysis - Macivel & Page

PROFESSIONAL ETHICS AND HUMAN VALUES (PEHV) (Open Elective – Common for All Branches)


Unit - I Human Values : Morals- Values- Ethics-Integrity-Work Ethic- Respect for others-Peaceful Life- Honesty- Courage Valuing Time- Empathy- Character- Spirituality Unit - II Engineering Ethics : Senses of Engineering Ethics- Variety of Morals-Types of Inquiry-Kohlberg’s Theory- Gilligan’s Theory-Consensus & Controversy-Models of Professional Roles -Customs and Religion-Uses of Ethical Theories Unit - III Safety, Responsibilities & Rights : Safety and Risk-Risk benefit analysis and reducing risk-Collegiality and loyalty-Respect for Authority Confidentiality-Occupational Crime-Professional Rights-Employee Rights-Intellectual property Rights (IPR) – it’s Discrimination Unit - IV Global Issues : Multinational Corporations-Environmental Ethics-Computer Ethics-Engineer as Managers-Consulting Engineer-Moral Leadership-Sample ode of Ethics Like ASME, ASCE, IEEE, Institute of Engineers, Indian Institute of Materials Management, IETE etc., Text Book : 1. M.P. Raghavan, “Professional Ethics And Human Values”-, Scitech Publications (I) private limited Reference Books : 1. Mike Martin and roland Schinzinger, "Ethics in Engineering", McGraw Hill, New York 1996. 2. Charles D.Fleddermann, "Engineering Ethics", prentice Hall, New Mexico, 1999. 3. Professional Ethics & Human Values By S. Dinesh Babu,Laxmi publications.

GENERAL PSYCHOLOGY (GP) (Open Elective – Common for All Branches)

Scheme :2008 Internal assessment : 100 Contact Periods : 2L/week Credits : 2 Unit - I Introduction : Defining Psychology & Behavior-Branches and fields of Psychology-Utility of Psychology Methods of Psychology : Introspection Method-Naturalistic observation-Experimental Method-Differential Method-Clinical Method-Psycho Physical Methods

Unit - II Physiological Basis of Behavior : The Neuron-Central Nervous system-Brain and localization of Brain functions-Spinal chord Influence of Nervous system on human behavior-Endocrine system and it’s impact-The role of heredity and environment in the development of personality

Unit - III Instincts, Emotions Senses and Sensitivity : Instincts and Reflex actions-Emotion & it’s characteristics-Physiology of Emotions-Sensation and Sensitivity Thinking, Reasoning and Problem solving : Nature of thinking-Elements of thoughts-Tools of thinking-Rigidity-Types of thinking-Reasoning & types-Problem solving and it’s methods

Unit - IV Motivation and Behavior & Attention & Learning : Biological and socio psychological Needs-Drives and Incentives-Motives and Types of Motives-Types & Effect of attention-Types of Learning-Problem Solving-Mechanism of Memorization Intelligence – Aptitude – Personality : Nature of Intelligence-Concept of Metal age and IQ-Constantly of IQ-IQ Classification-Aptitude Ability & Achievement-Measurement of Aptitude -Features and Characteristics of Personality-Personality Assessment-Walters social Learning Theory Text Book : 1. General Psychology - S.K. Mangal, Sterling Publishers Private Limited Reference Book : 1. Psychology - Saundra K.Ciccarelli&Gkenn E.Meyer, Dorliing Kindersley (I) Pvt Limited

INTELLECTUAL PROPERTY RIGHTS (IPR) (Open Elective – Common for All Branches)


Unit - I Basics of IPR : Introduction to IPR-IPR Systems-Benefits of IPR-Various Types of IPR-Violation of IPR Unit - II Patents : Introduction to Patents-Various kinds of Patents-Patenting Process-Copy Right-Remedies against Infringement Unit - III Method of Designing Registrations : Designing Registrations-How Chart for Registration-Trade Mark-Geographical Indications Integrated Circuits-Trade Secrets

Unit - IV IPR Policy and Management: IP in various sectors like Government and Nation-R &D organizations-IT, Media, Entertainment Chemical Engineering & Services Sector-Industries & Small Scale Industry Text Books : 1. Intellectual Property Rights: Key to New Wealth - National Research Development Corporation 2 Intellectual Property Rights- Prabuddha Ganguli – TMH

RESEARCH METHODOLOGY(RM) (Open Elective – Common for All Branches)

Scheme :2008 Internal assessment : 100 Contact Periods : 2L/week Credits : 2 Unit - I Research Methodology : Introduction -Objectives of Research-Types of Research-Research Methods (Vs) Methodology Researching process-Technique involved in defining a problem Unit - II Research Design and Sampling Design : Need for Research Design-Features of good Design-Concepts Related to Research Design-Different research designs-Basics Principles of Experimental Designs-Steps in sampling design-Characteristics of good sample design-Various types of sample designs-Complex Random sampling designs Unit - III Data Collection and Processing : Data Collection through observation method & Interview Method-Data Collection through Questionnaires & schedules -Collection of Secondary data Processing : Measures of Central Tendency-Measures of Dispersion-Measures of Asymmetry -Measures of Relationship-Simple Regression Analysis-Chi-square Test for comparing valiance

Unit - IV Sampling Fundamentals & Report writing : Central Limit Theorem-Sampling Theory-Concept of standard error-Estimating population Mean-Sample size & Determination-Technique for Interpretation-Significance of Report writing-Types of Reports-Mechanics of writing a Research Report Text Book : 1. Research Methodology (Methods & Techniques)”– C.R. Kothari, New Age International

Publishers.

Mini Project & Comprehensive Viva (Scheme-08)

LAB EXPERIMENTS OOPS WITH JAVA LAB

1. Programs to illustrate constructors. 2. Programs to illustrate Overloading & Overriding methods in Java. 3. Programs Illustrate the Implementation of Various forms of Inheritance. (Ex. Single,

Hierarchical, Multilevel inheritance….) 4. Program which illustrates the implementation of multiple Inheritance using interfaces in Java. 5. Program to illustrate the implementation of abstract class. 6. Programs to illustrate Exception handling 7. Programs to create packages in Java. 8. Programs, which illustrate the manipulation of strings.

a. Ex. 1. Sorting an array of Strings. b. Frequency count of words & Characters in a text.

9. Programs, which illustrate the use of Streams. 10. Java Program that reads on file name from the user and displays the contents of file. 11. Write an applet that displays a simple message. 12. Write an applet that computes the payment of a loan based on the amount of the loan, the

interest rate and the number of months. It takes one parameter from the browser: Monthly rate; if true, the interest rate is per month; Other wise the interest rate is annual.

TEXT BOOK:

1. THE COMPLETE REFERENCE JAVA J2SE 5TH EDITION BY – HERBERT SCHILDT (TMH)

REFERENCE BOOKS:

1. THE COMPLETE REFERENCE JAVA 2 (Fourth Edition) BY - PATRICK NAUGHTON & HERBET SCHILDT (TMH)

2. PROGRAMMING JAVA - DECKER&HIRSH FIELD VIKAS PUBLISKING (2001) (THOMSON LEARNING ) (SECOND EDITON)

3. INTRODUCTION TO JAVA PROGRAMMING - Y.DANIEL LIANG PHI(2002)

Mini Project The project is a Group Activity consisting of 4 or 5 members in a team. The project, which carries 25 marks, will be evaluated before the final examination.

Evaluation Frame Work: a) Lab work: 30 marks (Internal) - based on regular performance in the lab b) End Exam

i) Mini project: 50 marks - based on documentation (thesis), execution and results obtained. ii) Comprehensive Viva: 20 marks

Documents

Modified Syllabus 06-05-2009