syllabus btecheee(third to eighth[1].june2012)

MANAV RACHNA INTERNATIONAL UNIVERSITY(Deemed to be University under section 3 of the UGC Act 1956)

EE-301A: NETWORK ANALYSIS AND SYNTHESISPeriods/weekL: 3 T: 1 Credits: 3.5 Max. Marks:150

Internal: 50Duration of Examination: 3 Hrs External:100

Objective: To provide sound knowledge in the analysis of electrical circuits.

PART - AUnit 1 Transient ResponseReview of mesh and nodal analysis, introduction to Laplace transforms, Circuit representation in s-domain, Transient response of linear circuits- Solution for AC and DC excitations in RL, RC and RLC circuits, response curves-time constants, wave form synthesis.Unit 2 Network FunctionsTerminal pairs or ports, Network functions for one-port and two-port networks, transfer function- impedance and admittance function, poles and zeros of Network functions, Restrictions on pole and zero locations for driving point functions and transfer functions, Time domain behaviour from the pole-zero plot.

Unit 3 Two Port NetworksRelationship of two-port variables, short-circuit admittance parameters, open circuit impedance parameters, Transmission parameters, hybrid parameters, relationships between parameter sets Reciprocity and symmetry, Inter-connection of two port networks.

PART-BUnit 4 Network SynthesisPositive real functions, definition and properties. Properties of LC, RC and RL driving point functions, Synthesis of LC, RC and RL networks using Foster and Cauer first and second forms.Unit 5 FiltersImage Parameters and characteristics impedance, Filter fundamentals, analysis of k derived high-pass, low-pass, band-pass and band-reject filters, Design of constant k low pass and high pass filters. Analysis of m -derived low pass and high pass filters. Unit 6 Graph TheoryGraph of a network, definitions, incidence matrix, loop matrix, cut set matrix, interrelation among various matrices. Mesh and Nodal solutions, Principle of Duality.Text Books:

1. Network Analysis: Van Valkenburg, PHI.2. Intoduction to Modern Network Synthesis: Van Valkenburg, John Wiley Sons.3. Circuits and networks- Analysis and Synthesis: A Sudhakar, S P Shyam Mohan, TMH.4. Course in Electrical Circuit Analysis: A. Soni and Gupta, Dhanpat Rai Publication.5. Circuit theory: A. Chakrabarthi, Dhanpat Rai Pub., 2008.6. Network Analysis and Synthesis: C L Wadhwa, New Age International.

Reference Books:1. Networks and Systems: D. Roy Choudhury, New Age International.2. Network Analysis and Synthesis: F. F. Kuo, John Wiley and Sons Inc.3. Electrical Networks and Circuits: S K Suresh Kumar, Pearson, 2009. 4. Network Analysis and Synthesis: Umesh Sinha, Satya Prakashan Pub., 2001.5. Theory and Problems in Circuit Analysis: T. S. K. V. Iyer, Tata McGraw Hill, 1995.6. Fundamentals of Electric Circuits: Charles K. Alexander, Matthew N. O. Sadiku, TMH,

2003.Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions

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will be set from each Part A and Part B (one from each unit). Student needs to attempt two questions out of three from each part. Each question will be of 20 marks.


EE-302-A : ELECTRICAL MACHINES -IPeriods/weekL: 3 T: 1 Credits: 3.5 Max. Marks: 150

Internal: 50Duration of Examination: 3 Hrs External:100Objective: - The student will get a good idea of operation of transformers and DC machines.

PART - AUnit 1 TransformersConstruction, types, emf equation, phasor diagram of ideal and real transformer on load conditions, Equivalent circuits, Losses of transformer, OC and SC tests, Sumpner’s back-to-back test, efficiency. Voltage regulation, effect of frequency, Separation of losses, All day efficiency and illustrative examplesUnit 2 Three phase Transformers Single Unit or bank of single-phase Units, poly-phase connections, Open delta and V connections, Phase conversion: 3 to 6 phase and 3 to 2 phase conversions, Scott connection, tertiary winding. Three phase transformer connection, parallel operation and load sharing between two transformers Autotransformers and their application.Unit 3 Basic Principles of Electromechanical Energy Conversion Basic aspects and physical phenomena involved in energy conversion. Force and torque in magnetic field system, Energy balance energy and force in singly excited magnetic field system, concept of co-energy.

PART - BUnit 4 DC GeneratorsConstruction, Types of DC generators, emf equation, lap and wave windings, equalizing connections, armature reaction, commutation, methods of improving commutations, demagnetizing and cross magnetizing mmf, interpoles, characteristics, parallel operation of different type of gererator and illustrative example. Unit 5 DC MotorsPrinciple, back emf, types, production of torque, armature reaction and interpoles, characteristics of shunt, series and compound motor, DC motor starting, Speed Control of DC Motor: various types of stators for dc motors Armature voltage and field current control methods, Ward Leonard method. Unit 6 Testing of DC MachinesBraking, Power Losses and efficiency, brake test, Swinburne’s test, Hopkinsion test, Field and retardation test. Text Books:

1. Electric Machines: I. J. Nagrath and D. P. Kothari TMH, 2008.2. Electrical Machines: P.S. Bimbhra , Khanna Publishers.3. Problems of Electrical Engineering: Parker Smith, CBS Pub.4. Electric Machines Theory, Operation, Application and Control: Charles Hubert, Pearson

2009.5. performance and theory of Electric Machines:J.B.Gupta:kataria sons new delhi

Reference Books:1. Electrical Technology (Vol-II): B.L Theraja, S. Chand.2. Electrical Machines: S. K. Battacharya, TMH 2009.3. Performance and Design of D.C. Machines: A. E. Clayton and N.N. Hancock, ELBS.4. Electric Machinery: Fitzgerald and Kingsley, MGH.5. Electrical Machines: Mukherjee and Chakravorti, Dhanpat Rai and Sons.

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Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions will be set from each Part A and Part B (one from each unit). Student needs to attempt two questions out of three from each part. Each question will be of 20 marks.


EE-304A: POWER SYSTEM - IPeriods/weekL: 3 T: 0 Credits: 3 Max. Marks: 150

Internal: 50Duration of Examination: 3 Hrs External: 100Objective: To enrich the students with the fair knowledge of distribution systems, transmission line parameters, cables and insulators.

PART – AUnit 1 Conventional Sources of Electrical Energy Thermal, Hydroelectric, Diesel and nuclear power plants - renewable energy sources, Substations-layout and types Unit 2 Power Plant Economics Load forecasting, load curves, load duration curve, connected Load, maximum demand, demand factor, group diversity factor, load factor, significance of load factor, plant factor, capacity factor, selection of unit size, No. of Units, reserves. Cost of power generation, depreciation, tariff.Unit 3 Overhead Transmission Systems Arrangement of conductors , sag and tension, transmission line supports, choice of transmission voltage, line insulators, failure of insulation, corona, underground cables, different types, capacitance of single core and three core cables, grading of cables.

PART - BUnit 4 Transmission Lines and Their PerformancePerformance of transmission lines, calculation of transmission line inductance and capacitance, GMD and GMR - bundled conductors, transposition, ABCD constants, effect of capacitance, nominal T and p methods of calculations -power flow through a transmission line, Methods of voltage control. Unit 5 Distribution Systems Classification and arrangement of distribution systems, distribution substation layout and arrangement, economic loading of distribution transformers, Kelvin’s law, Radial, ring mains and network distribution system, comparison of various types of ac and dc systems.Unit 6 EarthingIntroduction to neural earthing, Equipment earthing ,types of earthing.Text Books:

1. Power System Engineering: I. J. Nagrath and D. P. Kothari, TMH 2004.2. A Course in Electrical Power: Soni, Gupta and Bhatnagar, Dhanpat Rai and Sons

1996.3. Generation of Electrical Energy, B R Gupta, S chand.

Reference Books:1. Electric Power: S. L. Uppal, Khanna Pub.2. Electric Power Distribution System: A. S. Pabla, Tata McGraw Hill, 1992.3. Electrical Power Systems- Theory and Practice: M N Bandyopadhyay, PHI, 20064. Electric Power System: B.M.Weedy, John Wiley and Sons.

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EC-301: ELECTRONIC DEVICES AND CIRCUITSPeriods/week Credits Max. Marks : 150L: 3 T:1 3.5 Internal : 50Duration of Examination: 3 Hrs External : 100

Objective: To familiarize students with the working of multistage amplifiers, feedback amplifiers, power amplifiers.

PART- AUnit 1: DiodesP-N junction, properties of pn junction, behaviour of junction under biasing, diode equation, V-I characteristics, breakdown mechanism in diode, pn diode switching times, special diodes: zener diode, LED, varactor diode, photo diode, schottky diode, tunnel diode, pin diode, their constructions and characteristics.

Unit 2: TransistorsConstruction and operation, transistor as a switch, configuration and characteristics of transistor. Biasing of transistors : Fixed bias, emitter bias, potential divider bias, small signal modeling, graphical analysis, equivalent circuit method, hybrid equivalent model. FET: Construction and characteristics, MOSFET: depletion & enhancement type, biasing of FET and MOSFET, MOSFET as an amplifier

Unit 3: Single Stage and Multistage Transistor AmplifiersBasic single stage BJT amplifier configurations, gain & coupling of multi stage amplifier frequency response curve of an R-C coupled amplifier, millers theorem. Distortion in amplifier, Frequency response of source follower.

PART-BUnit 4: Power AmplifiersClass A, class B, class C, class AB, class D, class E operations, efficiency, distortion, higher order harmonic distortion, class A, class B , class AB push pull amplifiers.

Unit 5: Feed Back AmplifiersGeneral feed back structure, properties of negative feed back, four basic feed back topologies : series shunt, series-series, shunt-shunt & shunt-series feedback amplifiers, determination of loop gain, stability problem.

Unit 6: Oscillators Basic principles of sinusoidal oscillator, Wein Bridge and phase shift oscillators, Colpitts, Hartley and Clap oscillators, Crystal oscillators.

Text Books:1. Electronic Devices & circuits: Shruti Vashist, Manav Rachna Publications. 2. Integrated Electronics: Jacob Millman and Christos C. Halkias, McGraw Hill.3. Microelectronic Circuits: A.S. Sedra and K.C. Smith, Oxford University Press.4. Electronics Devices & Integrated Circuits: B.P. Singh & R. Singh, Pearson.

Reference Books: 1. Microelectronics: Millman J. and Grabel A, McGraw Hill.2. Electronic Devices & Circuits: Bell David A, PHI, 4 E.3. Electronics Devices & Applications: Nair B. Somanathan, PHI.

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4. Electronic Circuit Analysis & Design: Neamen Donald A., TMH. 5. Semiconductor Physics & Devices: Neamen Donald A, TMH. 6. Micro Electronics Circuits: Sedra, Oxford University Press.



EC-304A: ELECTRO MAGNETIC FIELD AND WAVESPeriods/week Credits Max. Marks : 150L: 3 T: 1 3.5 Internal : 50Duration of Examination: 3 Hrs External : 100

Objective: The students shall be able to learn about vector analysis, static electric and magnetic fields, Maxwell’s equations and their applications and propagation of waves through various mediums.

PART- A

Unit 1: Review of Vector AnalysisVarious coordinate systems, unit vectors in coordinate systems, concept and physical interpretation of gradient, divergence and curl, review of integral theorems.Unit 2: ElectrostaticsCoulomb’s law and field intensity, electric field due to discrete charges, electric field due to continuous charge distribution, electric scalar potential, relationship between potential and electric field, potential due to infinite uniformly charged line, potential due to electric dipole, electric flux density, Gauss law, proof and applications of Gauss Law, Poisson’s and Laplace’s equation, uniqueness theorem, capacitance, electrostatic energy and energy density, boundary conditions for electric fields, method of images.Unit 3: Static Magnetic FieldBiot Savart’s law, magnetic field intensity due to a finite and infinite wire carrying current I, magnetic field intensity on the axis of a circular and rectangular loop carrying a current I, Ampere’s circuital law and its applications, Ampere’s force law, magnetic flux density, magnetic vector potential, definition of self and mutual inductance, energy density in magnetic fields, magnetic boundary conditions.

PART-B

Unit 4: Maxwell’s EquationsFaraday’s law, equation of continuity for time varying fields, inconsistency of Ampere’s law, Maxwell’s equations in integral and differential forms), Maxwell’s equations using phasor notation, Poynting theorem, Poynting vector and flow of power, instantaneous, average and complex Poynting vector.Unit 5: Electromagnetic WavesWave equation for free space (or lossless medium), uniform plane wave propagation, relation between E and H in uniform plane wave. wave equation for conducting medium , wave propagation in lossy and lossless dielectric, conductors and dielectrics, Wave propagation in good dielectric and good conductor, depth of penetration, linear, elliptical and circular polarization, reflection of plane waves- normal incidence, surface impedance.Unit 6: Transmission LinesTransmission line equations, input impedance (for lossy and lossless line), propagation constant, phaseconstant and attenuation constant, characteristic impedance, open and short circuited lines, standingwave and reflection losses, impedance matching, introduction to Smith chart.

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Text Books:1) Elements of Electromagnetics: Mathew.N.O.Sadiku, Oxford University Press. 2) Electromagnetic Waves and Radiating Systems: Jordan and Balmain, Pearson

Education.3) Electromagnetic Theory : K.D.Prasad, Satya Prakashan

Reference Books:1) Engineering Electromagnetics: William.H.Hayte, TMH.



CS 306 Data Structures Using JAVAPeriods/week Credits Max. Marks : 150L :2 2 Internal : 50Duration of Exam: 3 Hrs External : 100

Unit-1: Introduction to Data Structures: Definition of data structures and abstract data type, types of data structures, Arrays: Definition and use of Arrays, operation on Arrays, Array handling using pointers, Multi-dimensional arrays. Structures and operations on Structures, Functions and assignment of their arguments. Object Oreinted Data Types, Classes and Objects, Arrays of Objects, Cloning 2D Arrays. Strings: Definition and Operations of Strings, String manipulation, Pattern matching.

Unit-2: Java Basics: Class Declaration, Constructor, Method Overloading, Scope, Computation of Function with arguments using pass by value, Static and Dynamic, OO design principles. I/O Framework: Standard Input/Output, Command-line Input, Redirecting Standard Output, Exceptions- Catch and Throw, Reading, Writing & Appending Text Files, Serialization.

Unit-3: Stacks, Queues and Linked Lists: Stacks and Operations on Stacks, Array based Stack implementation, Depth-First Search with a Stack, Arithmetic Expression Evaluation- Conversion of Infix to Postfix. Queues and Operations on Queues, Queue implementation using Arrays, Breadth-First Search with a Queue. Linked Lists: Types of Linked Lists, Linked List Operations, Iterator, Cloning Linked List, Applications- Polynomial Algebra.

Unit-4: Collections: Generics, Iterator, Concept of Hashing, Collisions, Priority Queue, Collection of comparable objects, Comparator, Comparable and Comparator interfaces. Abstraction, Inheritance and Polymorphism: Types of Inheritance, Implementation by Inheritance, Super, Protected, Hierarchies, Polymorphism.

Algorithmic Complexity: Asymptotic Notations- big Oh , Small Oh, big Omega , big Theta. Time Complexity of Algorithms , Amortized Time Complexity .

Unit-5: Recursion, Searching and Sorting Algorithms: Concept of Recursion, Mathematical Induction, Computation of Functions, Fibonacci Numbers, Tail and Head recursions. Towers of Hanoi, Bookkeeping, Linear and Binary Search, The Mandelbrot Set. Sorting Methods: Bucket Sort, Bubble Sort, Selection Sort , Insertion Sort, Merge Sort, Lower bound.

Unit-6: Trees: Definition of trees and Binary trees, Properties of Binary trees and Implementation, Binary Traversal pre-order, post order, In- order traversal, Binary Search, Advantages of trees, Binary Search Trees, Implementation of Searching, Insertion, Deletion, Traversals, Brute-Force Searches, Minimax.

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Binary Heaps: Concept of Binary Heap and Array Implementation ,Operations on Binary Heap- Insertion, Heapification, Heap Sort, Priority Queue.

Text Books

1. Moshe J. Augenstein, Yedidyah Langsam, Aaron M. Tenenbaum ,” Data Structures Using Java “,ISBN-10: 0130477214,ISBN-13: 9780130477217, Publisher: Prentice Hall, Copyright: 2003

Reference Books1. Lewis and Chase, "Java Software Structures: Designing and Using Data Structures",

3rd Edition, Addison-Wesley, 2010, ISBN: 0136078583. 2. M. A. Weiss, "Data Structure & Problem Solving Using Java," Addison-Wesley, 4th

Edition, 2009.3. F. M. Carrano, "Data Structures and Abstractions With Java", 2nd Edition, Prentice

Hall, 2007, SBN: 013237045X.

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MA-341A : APPLIED MATHS-III(Only for students admitted directly in II year under lateral entry scheme)

Periods/week Credits Max. Marks: 150

L: 3 T: 1 Internal: 50

Duration of Examination: 3 Hrs External: 100

Objective: The main purpose of this course is to provide appropriate mathematical

background for graduate study in engineering. PART-A

Unit 1: Differential CalculusDerivative of polynomials, trigonometric functions, exponential function & logarithmic function etc. derivative of sum, difference, product and quotient of functions. Higher order derivatives of functions.

Unit 2: Integrals CalculusIntegration of by substitution, by partial fractions and by parts, only simple integrals of the type to be evaluated. Definite integrals as a limit of a sum. Basic properties of definite integrals and evaluation of definite integrals.

Unit 3: Functions of two or more VariablesLimit and continuity, Differentiation of function of several variables, partial derivatives, derivatives of composite and implicit function, Euler’s theorem on homogenous functions, Total derivative, Change of variables, Jacobians and their properties.

PART-B

Unit 4 : Expansion of Functions Taylor’s and Maclaurin’s series, expansion of functions of one variable. Maxima and minima of functions of two variables.

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Unit 5: Applications of IntegralsDouble Integrals, change the order of integration, area enclosed by plane curves, triple integrals, Beta and Gamma function, their properties and simple applications.

Unit 6: Vector CalculusScalar and vector point functions, differentiations of vectors, gradient, divergence and curl, their physical meanings and properties. line, surface and volume integrals.

Text Books:1. Engineering Mathematics Vol. I: R S Goel and Y K Sharma, Manav Rachna Publishing House Pvt. Ltd.2. Advanced Engineering Mathematics: Jain R K and Iyenger S R K , Narosa Publishing House .3. Advanced Engineering Mathematics: Erwin Kreyszig, Wiley Eastern.

Reference Books:1. Engineering Mathematics: Babu Ram, Pearson Education.2. Engineering Mathematics: Verma and Kumar, Ram Prasad & Sons Publishers.3. Higher Engineering Mathematics: B.S. Grewal, Khanna Publishers. Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions will be set from each PART-A and PART-B (one from each unit). Student needs to attempt two questions out of three from each part. Each question will be of 20 marks.


EE-311 : NETWORK ANALYSIS LABPeriods/week P: 2 Credits: 1 Max. Marks: 50

Internal: 25Duration of Examination: 2 Hrs External: 25

LIST OF EXPERIMENTS:

1. Transient response of RC series circuit.2. Transient response of RL series circuit.3. Transient response of RLC series circuit.4. To calculate and verify "Z" parameters of a Two port network. 5. To calculate and verify "Y" parameters of a Two port network.6. To calculate and verify "h" parameters of a Two port network.7. To determine equivalent parameter of parallel connections of two port network.8. To plot the frequency response of low pass filter and determine half-power

frequency.9. To plot the frequency response of high pass filter and determine the half-power

frequency.

10. To plot the frequency response of band-pass filter and determine the band-width.

11. To calculate and verify "ABCD" parameters of a Two-port network.

12. To synthesize a network of a given network function and verify its response.

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NOTE: Every student needs to do minimum 10 numbers of experiments/practicals in a semester. At least 20% new experiments to be added annually.


EE-312 : ELECTRICAL MACHINES-I LABPeriods/week P: 2 Credits: 1 Max. Marks: 50


LIST OF EXPERIMENTS1. To find turns ratio and polarity of a single-phase transformer.2. To perform open and short circuit tests on a single-phase transformer.3. To perform Sumpner's Back to back test on single-phase transformers.4. Parallel operation of two single -phase transformers.5. To convert three phase to 2-phase by Scott-connection.6. To obtain open circuit characteristics of dc shunt generator 7. To perform load test on DC shunt generator.8. To perform load test on DC series motor.9. To perform load test on DC shunt motor.10. Speed control of DC shunt motor.11. Swinburne’s test of DC shunt motor.12. Hopkinson’s test of DC shunt machines.13. Separation of losses of DC machines14. Ward Leonard method of speed control.

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CS-316 : Data Structures Using Java LabPeriods/week Credits Max. Marks : 50P :4 2 Internal : 25 Duration of Exam: 2 Hrs External : 25

List of Practicals:1. Write a program to add elements of an array using recursion. 2. Birthday Paradox. Write a method that computes the number of people (by simulation) that must enter a

room until two of them share a birthday. Assume that there are 365 possible birthdays, and that birthdays are uniformly distributed throughout the year.

3. Using iteration & recursion concepts write programs for finding the element in the array using Binary Search Method.

4. Write a program to reverse a string.5. Write a program to implement insertion and deletion on stack.6. Write a program to implement Deapth-First Search with a Stack.7. Write a program to implement insertion and deletion on Queue.8. Write a program to implement Breadth-First Search with a Queue.9. Show how to implement a queue using two stacks. 10. Write a program to convert a infix to postfix expression. 11. Write a program to evaluate a postfix expression.12. Write a program to implement insertion , deletion and cloning on Linked List.

13. Write a recursive method (you are allowed to have helper-methods)

public void pattern(int[] input)that takes an array of integers input and prints it out input.length times. The print must be in the following specific order: each line starts at a new element and wraps around to the beginning of the array (if needed) until each element has been printed out.

This sample output occurs when the input is the array {0, 1, 2, 3, 4}: 0 1 2 3 4

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1 2 3 4 02 3 4 0 13 4 0 1 24 0 1 2 3

14. Write Program to sort data using Bubble Sort.15. Write Program to sort data using Insertion Sort.16. Write Program to sort data using Merge Sort.17. Write Program to sort data using heap sort. 18. Write Program for traversal of a tree by pre-order, post-order and in-order traversal.

Note: Every Student needs to do minimum____numbers of experiments/practicals in semester.Periods/week


HM-302: CAREER SKILLS-I

Periods/week Credits Max. Marks : 50L:3 T:0 3 Internal : 50

The syllabus will be provided by the outsourced company at the start of the semester.

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REVISED AUG. 2012


EE-401A: ELECTRICAL MACHINES - IIPeriods/weekL: 3 T: 1 Credits: 3.5 Max. Marks: 150 Internal: 50 Duration of Examination: 3 Hrs External: 100

Objective: - The student will be thorough in the working and construction of AC Machines.

PART – A

Unit 1 Three Phase Induction MotorsConstructional features, production of rotating field, induction motor action, torque production, testing, development of equivalent circuit, performance characteristics, circle diagram.

Unit 2 Starting and Speed Control of Induction MotorsStarting methods of Induction motor, Methods of Speed Control - stator voltage control, stator resistance control, frequency control, rotor resistance control, slip power recovery control. Double cage and deep bar motors, Induction generators.

Unit 3 Single Phase MotorsDouble revolving field theory, cross field theory, starting method of single phase induction motors, circuit model of single phase induction motor. Introduction to Universal motors.

PART - BUnit 4 Alternators Types and constructional features - emf equation - -armature reaction - load characteristics - predetermination of regulation, Synchronous reactance method, Rothert’s mmf method, Potier triangle method, Basic ideas of two reaction theory for salient pole machine, Slip test, power developed by a synchronous condenser

Unit 5 Synchronous MotorsPrinciple, power angle curve, V-curve &inverted V-curve, starting, Hunting and damping, starting methods damper winding, synchronous condenser, applications. Parallel operation, load sharing between alternators Synchronous machines on infinite bus bars synchronization, parallel operation.

Unit 6 Permanent Magnet Brushless Motors Types and constructional features – principle of operation – phasor diagram, Torque Equation. Reluctance motors

Text Books:1. Electric Machines: I. J. Nagrath and D. P. Kothari, TMH, New Delhi.2. Electric Machinery: Fitzgerald and Kingsley, MGH.3. Electrical Machines: P. S. Bhimbra, Khanna Publishers Delhi.4. Brushless Permanent Magnet and Reluctance Motor Drives: Miller, T.J. E., Clarendon

Press- Oxford 1989.5. performance and theory of Electric Machines:J.B.Gupta:kataria sons new delhi

Reference Books:1. Theory of Alternating Current Machinery: A. S. Langsdorf ,TMH.2. Generalized theory of Electrical Machines: P. S. Bhimbra, Khanna Pub.3. Electrical Technology (Vol-II): B. L Theraja , S. Chand.4. Electric Machines: S Sarma, Pathak, Cengage learning 2008.

Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions

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will be set from each Part A and Part B (one from each unit). Student needs to attempt two questions out of three from each part. Each question will be of 20 marks


EE-402A: ELECTRONIC INSTRUMENTATIONPeriods/weekL: 3 T: 0 Credits: 3.0 Max. Marks: 150


Objective: The student will get an idea about transducers, CRO, display devices, data acquisition and conversion systems.

PART – AUnit 1 TransducersClassification of Transducers, Temperature measurements: Resistance temperature detectors, Thermistors and Thermocouples, Displacement Transducers: LVDT principle, Measurement of force and pressure: Resistance strain gauges, load cells, Piezo electric transducers.

Unit 2 Introduction to Biomedical InstrumentsTransducer for Biomedical applications, Electrodes for ECG, EMG and EEG measurement, Amplifiers used in Biomedical applications, Instrumentation amplifier, Block diagram for ECG, EMG and EEG measurement, Introduction to Biomedical digital signal processing.Unit 3 Cathode Ray Oscilloscope Block diagram of general purpose CRO: Principle of operation, Operation of cathode ray tube, electrostatic focusing and deflection, types of screens vertical deflecting system, vertical amplifier delay lines purpose and principle. Horizonal deflection system, synchronization, XY mode of operation of CRO. Lissajous patterns, Applications of CRO. PART – BUnit 4 Generation and Analysis of Wave FormsBlock diagram of pulse generators, signal generators, wave analyzers, distortion analyzers, spectrum analyzer, harmonic analyzer and introduction to power analyzer.

Unit 5 Signal Conditioning and Data Acquisition and ConversionDC signal conditioning system, AC signal conditioning system, data acquisition systems -block diagram, signal conditioning sampling rate, sample and hold, analog multiplexing. Voltage controlled oscillator, PLL IC 565 and its applicationsUnit 6 Frequency and Time MeasurementStudy of Decade Counting Assembly (DCA), frequency measurements, period measurements, universal counter, Digital multimeters, resolution in digital meters.

Text Books:1. A course in Electrical and Electronics Measurements and Instrumentation: A.K.Sawhney,

Dhanpat Rai.2. Electronic Instrumentation: Kalsi H. S., Tata McGraw-Hill, New Delhi.3. Transducers and Instrumentation: Murray D. V. S, Prentice Hall of India, 2003.

Reference Books:1. Modern Electronic Instrumentation Devices and Systems: Albert D. Helfrick and

William D. Cooper, Prentice Hall of India, 1992.2. Instrumentation Devices and Systems: Rangan C.S, Sarma G.R. and Mani V.S.V, TMH 1992.3. Process Control Instrumentation Technology: Curtis D. Johnson, Pearson, 2003.


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EE-403A: SWITCHGEAR AND PROTECTION Periods/weekL: 3 T: 0 Credits: 3 Max. Marks: 150 Internal: 50 Duration of Examination: 3 Hrs External: 100 Objective: - The student will be thorough in fault analysis, operation and characteristics of relays and circuit breakers.

PART – AUnit 1 Symmetrical Fault Analysis and ComponentsTransients on a transmission line, short circuit of synchronous machine at no load and on full load. Symmetrical component transformation, phase shift in star-delta transformation, sequence impedances. Unit 2 Unsymmetrical Fault AnalysisSingle line to ground fault, line to line fault, double line to ground fault, open conductor fault.Unit 3 Circuit BreakersTheory of arc interruption, circuit breaker, circuit breaker ratings, restriking voltage transients, current chopping, duties of switch gear, automatic switch, air circuit breaker, bulk oil, minimum oil, air blast, SF6 CB, vacuum and DC circuit breakers.

PART - BUnit 4 Protective RelaysNature and causes of faults, consequences, zone of protection, essential qualities, primary and backup protections, relay classification, principle types of electromagnetic relays, i.e. attracted armature, induction disc, induction cup types. Static and Digital (microprocessor based) relays.Unit 5 Relay Application , Characteristics and apparatus protectionOver -current, directional and differential relays, distance relays, plain impedance, mho, reactance, transmission line and feeder protection, pilot wire and carrier current protection,Transformer, generator, motor and bus zone protection Unit 6 Protection Against over voltagesGeneration of overvoltages,switching surges protection against overvoltages,lightining or surge arresters.Text Books:

1. Power System Protection and Switchgear: B. Ram, D. N. Vishvakarma, TMH.2. Switchgear and Protection: S. S. Rao, Khanna Pub.3. A course in Electrical Power: Soni, Gupta and Bhatnagar, Dhanpat Rai and Sons.

Reference Books:1. Protective Relays-Their Theory and Practice Vol.I and II: W. Van Warrington, Springer

3rd edition.2. Advanced power system analysis and dynamics: L.P.Singh , Wiley Eastern N.Delhi.3. Digital Protection- Protective relay from Electro Mechanical to Microprocessor:

L.P.Singh, Wiley Eastern.

4. Power System Protection and Switchgear: B. Ravinder Nath and M. Chander, Wiley Eastern.

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5. Power System Engineering: I.J. Nagrath and D.P. Kothari ,TMH.6. Power System Engineering: V. K. Mehta , S chand.



EC-302A: DIGITAL ELECTRONICSPeriods/week Credits Max. Marks : 150L: 3 T: 1 3.5 Internal : 50Duration of Examination: 3 Hrs External : 100

Objective: To familiarize students with the basic digital techniques, design and working of combinational and sequential circuits.

PART - A

Unit 1: Digital TechniqueBinary arithmetic, Overview of Karnaugh map, tabulation minimization procedure, error detecting and correcting codes.

Unit 2: Combinational DesignDesign of combinational circuits, adder, subtractor, encoder, decoder, MUX, DE-MUX, BCD arithmetic, code converters, comparators, implementation of combinational logic using ROM, PAL, PLA, FPGA and their use in combinational circuit design

Unit 3: Logic GatesBasics gates, RTL, TTL, ECL, HTL, CMOS & NMOS logic gates, circuit diagram and analysis, characteristics and specifications.

PART - B

Unit 4: Flip FlopsSR, JK, T, D, master - slave flip-flops, analysis of clocked sequential circuits, their design, circuit implementation, various types of register.

Unit 5: CountersSynchronous and asynchronous counters, Johnson counter, ring counter, decade counter, sequence generator.

Unit 6: A/D and D/ConvertersWeighted resistor and R-2R ladder D/A converters and their specifications, A/D converters: quantization, parallel-comparator, successive approximation, counting type, dual slope ADC, and their specifications.

Text Books:

1. Modern Digital Electronics :R.P.Jain,Tata Mc.Graw Hill2. Digital Circuit and Design: S.SALIVAHANAN, VIKAS.3. Digital Logic and Computer Design: M.MORRIS MANO, PHI.

Reference Books:

1. Digital Logic Design: R.S.SEDHA, S. CHAND.2. Digital Design: JOHN. F. WAKERLY, PEARSON.

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CS-305A: DATABASE MANAGEMENT SYSTEMS

Periods/week Credits Max. Marks : 150L :3 T: 1 3.5 Internal : 50 Duration of Exam: 3 Hrs External

: 100Objective: To understand basic concepts and Architecture of Database Management Systems and Structured query language.

PART AUnit–1:IntroductionOverview of Database Management System; Advantages of DBMS over file processing systems; Characteristics of the Database Approach, Various views of data; Data Models: Relational Model, Network Model, Hierarchical Model, Object Oriented Model. Entity Relationship Model, Object Relational Model. Introduction to Database Languages, Advantages of database languages, Responsibility of Database Administrator, Overall DBMS Structure.Unit-2: Database System DesignOverview of Database System Design, Application Program Design, Database Design, Three-Schema Architecture, Data independence, E-R Diagram (Entity Relationship), Mapping constraints, Keys, Reduction of E-R diagrams into Tables.. Functional Dependencies, Normalization up to third Normal Form. Unit-3: Relational Model Structure of Relational Database: Table Schema, Keys, Relational Database Schema, Integrity Constraints, Relational Algebra & various operations, DDL, DML , Specific Relational Operations, Projection, Selection, Join, Set Theoretic Operations, Union, Difference , QBE(Query By Example)

PART BUnit-4: Introduction to Query LanguagesStructured Query Language; Basic structure of SQL, SQL Data Definition Language, SQL Data Manipulation Language, Join Relations, Advanced SQL : Views, Integrity Constraints in SQL, Access Control, Embedded SQL.

Unit-5: Concurrency Control and RecoveryIntroduction to Transaction concept, state. Implementation of atomicity and durability, Serialization, Conflict Serializability, Concurrency Control and protocols, Database Recovery System, Programming with Transactions, Improving Query Performance: Hashing, Collision resolving techniques, indexing using tree structure, B-trees index files, Query Optimization and Index Choice.Unit-6: Current Trends and Web DatabasesNon-Relational Data Models: Object Relational Models, Varying Data Types, Data Warehousing, OLAP, and Data Mining, Web Databases: Web Database Applications, HTTP and HTML Forms, Microsoft Active Platform, JDBC (Java Database Connectivity), Java Servlets, Java Server Pages , JavaBeans , MVC Architecture.Text Books:

1. Database System Concepts : A. Silberschatz, H.F. Korth and S. Sudarshan, 3rd Ed.,1997, TMH.

1. Introduction to Database Management System : Bipin Desai, 1991,Galgotia Pub.Reference Books:

1. Fundamentals of Database Systems : R. Elmasri and S.B. Navathe, 3rd Ed, 2000, AW.2. An Introduction to Database Systems : C.J. Date, 7th ED., 2000, Addison-Wesley.

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3. Database Systems : Concepts, Design and Applications : S K Singh, Pearson.4. SQL, PL/SQL The Programming Language of Oracle : Ivan Bayross, 2nd Ed., BPB

Publication. Oracle Database 10g PL/SQL 101 : Allen and Christopher, 3rd edition, TMG.



MA-441A : APPLIED MATHS-IV(Only for students admitted directly in II year under lateral entry scheme)


L: 3 T: 1 Internal: 50

Duration of Examination: 3 Hrs External: 100

Objective: The objective of engineering mathematics is to develop and apply advanced mathematical methods and ideas to solve problem arising in engineering, science and technology.

PART-AUnit 1: Ordinary differential equationsDifferential equations of first order and first degree. Solutions of Leibnitz’s linear differential equation.Ordinary linear differential equations with constant coefficient, complete solutions of linear differential equations with constant coefficient, simultaneous linear differential equations.Unit 2: Laplace transformsIntroduction, properties of transform, transforms of elementary functions, Laplace transforms of derivatives and integrals, differentiation and integration of transforms, Inverse Laplace Transformation, convolution theorem, Laplace transforms in the solution of ordinary differential equation system.Unit 3: Matrix AlgebraRank of matrix, elementary transformation, elementary matrices, inverse using elementary transformation, normal form of matrices, linear dependence and independence of vector, linear systems of algebraic equations, consistency, homogeneous system of equations, Eigen values and Eigen vectors.

PART-BUnit 4: Fourier seriesIntroduction, periodic functions, Euler’s formulae for Fourier coefficients, arbitrary periods, even and odd functions, half range expansions.Unit 5: Partial Differential EquationIntroduction, first order equations: Lagrange's linear equations, Charpit’s method, second order equations: solution by separation of variables technique. Unit 6: Fourier Transforms Fourier integrals, Fourier transforms, Fourier cosine and sine transforms, properties of transforms, convolution theorem.Text Books:

1. Engineering Mathematics Vol. I: R S Goel and Y K Sharma, Manav Rachna Publishing House Pvt. Ltd.2. Advanced Engineering Mathematics: Jain R K and Iyenger S R K , Narosa Publishing House .

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REVISED 29.5.10

3. Advanced Engineering Mathematics: Erwin Kreyszig, Wiley Eastern.

Reference Books:

1. Engineering Mathematics: Babu Ram, Pearson Education.2. Engineering Mathematics: Verma and Kumar, Ram Prasad & Sons Publishers.3. Higher Engineering Mathematics: B.S. Grewal, Khanna Publishers. Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions will be set from each PART-A and PART-B (one from each unit). Student needs to attempt two questions out of three from each part. Each question will be of 20 marks.

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EE – 411: ELECTRICAL MACHINES - II LAB

Periods/weekP:2 Credits:1 Max. Marks: 50


List of Experiments/Practicals:1. To perform the open circuit test and block rotor test on three phase induction motor and

draw the circle diagram.2. Speed control of induction motor by rotor resistance control.3. To conduct the load test to determine the performance characteristics of the induction

motor.4. To compute the torque versus speed characteristics for various stator voltages.5. To perform the open circuit test and block rotor test on single-phase induction motor

and determine equivalent circuit parameters.6. To perform load test on a universal motor and determine the performance with dc/ac

supply voltage.7. To perform load test on alternator and draw the load characteristics. 8. To perform O.C. test on synchronous generator and determine the full load regulation of

a three phase synchronous generator by synchronous impedance method.9. Determination of direct axis and quadrature axis reactances of synchronous machines.10. To plot V- Curve of synchronous motor.11. To study the parallel operation of synchronous generators.12. Determination of sequence impedances of synchronous machine for various stator

voltages.


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EE - 412: MEASUREMENT AND SIMULATION LAB

Periods/weekP: 2 Credits:1 Max. Marks: 50


List of Experiments/Practicals:1. Measurement of displacement using LVDT and LDR.2. Measurement of distance using capacitive and Inductive Pick up.3. Measurement of temperature using RTD and Thermocouple.4. Measurement of pressure using Piezo-Electric Pick up and Strain Gauge.5. LDR and Opto-coupler characteristics using Lab View.6. Characteristics of RTD using Lab View.7. Characteristics of Thermistor using Lab View.8. Strain gauge and Load cell characteristics using Lab View.9. Vibration measurement and analysis. 10. Characteristics of thermocouple using Lab View.11. Characteristics of Capacitive transducer.12. Loading effect of Potentiometer. 13. Characteristics of Stroboscope and wind speed measurement using anemometer. 14. Hall effect transducer characteristics.


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EC-311: ELECTRONIC DEVICES AND CIRCUITS LAB

Periods/week Credits Max. Marks : 50P: 2 1 Internal : 25Duration of Examination: 2 Hrs External : 25

LIST OF EXPERIMENTS:

1. To Study semiconductor diode.2. To Study Zener diode as voltage regulator.3. To Study the characteristics of transistor in common base and common emitter.4. To Study the characteristics of FET.5. To Study the characteristics of MOSFET.6. To Study different biasing circuit7. To Study the single stage transistor amplifier and measure the Q point and

voltage gain of amplifier at 1KHz 8. To Study and measure the frequency response of two stage RC coupled amplifier

using discrete components.9. To Study the effect of series current feed back on amplifier using discrete

components.10. To Study and measure the voltage gain and frequency response of emitter

follower circuit.11. To Study wein bridge oscillator circuit.12. To Study hartley and colpitt oscillator circuits.13. To Study the push-pull amplifier using transistors.

NOTE: Every student needs to do minimum 10 number of experiments/practicals in a semester. 20% new experiments should be added every year.

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EC-312 : DIGITAL ELECTRONICS LAB

Periods/weekP: 2 Credits: 1 Max.Marks: 50


List of Experiments/Practicals:

1. Study of TTL gates AND, OR, NOT, NAND, NOR, EX-OR, EX-NOR.2. Design and realise a given function using K maps and its performance.3. To verify the operation of multiplexer and demultiplexer.4. To verify the operation of comparator.5. To verify the truth tables of S-R, J-K, T and D type flip flops.6. To verify the operation of bi-directional shift register.7. To design and verify the operation of 3 bit synchronous counter.8. To design and verify the operation of synchronous UP / DOWN decade counter using

J-K Flip flops and drive a seven segment display.9. To design and verify the operation of a- synchronous UP / DOWN decade counter

using J-K Flip flops.10. To design and realize a sequence generator for a given sequence using J-K flip flops.11. Study of CMOS NAND and NOR gates and interfacing between TTL and CMOS gates.12. Design a 4bit shift register and verify its operation.13. Design the operation of a ring counter.14. Design the operation of a Johnson counter.


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CS- 315A : DATABASE MANAGEMENT SYSTEMS LAB

Periods/week Credits Max. Marks : 50P :2 1 Internal : 25 Duration of Exam: 2 Hrs External

: 25List of Practicals:

1. Create a student database (Roll No, Name, Dept) and write the queries to carry out the following operations)

a) Add 20 new records to the database.b) Delete 5 records from the database.c) Add another column phone No. to this database.d) Add values to the column phone No.e) Change the data type of column phone No from number to var char2.f) Display records in ascending and descending order from the student

database and alias the table with the name ‘Stud’.g) Remove duplicates from the Student table using distinct.h) Find the names of students whose names are starting with ‘B’.i) Delete a table from the database.j) Drop the table.

2. Calculate and display the total no of students enrolled in following subjects from students database:-

a) Mathematics b) Sciencec) English

3. Create a database StudentsMarks(Name, Roll No. Maths, Science, English). Write queries to implement following functions to the student database.

a) Find out the total of the students who are having greater than 75% marks in maths.

b) List all the students who are having greater than 80% marks in English and sorted them according to first name in ascending order.

c) List the names of students who are having greater than 75% marks in maths but not in English and Science.

4. Run the SQL script given to you to create a Library database. Note that each row in the Book table denotes a book copy. Thus, if the library carries three copies of the title "DBMS", there will be three rows in the Book table, one for each copy. Write the SQL statements to do the following against the database (Note: You must express your query in a single SQL statement for each of the following. However, that statement could have sub-queries.):

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i. List the titles of all books written by "Churchill," along with their Year of Publication.ii. Retrieve the titles of all books borrowed by members whose first name is "John" or

"Susan".iii. List the names and IDs of all members who have borrowed the "Iliad" and the

"Odyssey"—both books.iv. List the names and IDs of all the members who have borrowed all titles written by

"Collins". Assume that a member may have borrowed multiple copies of the same title.v. Find the phone numbers of all members who have borrowed a book written by an author

whose last name is "Tanenbaum."vi. Find those members who have borrowed more than three books and list their names, IDs,

and the number of books they borrowed. Sort the results in descending order based on the number of books borrowed.

vii. List all members who have not borrowed any book.viii. List in alphabetical order the first names of all the members who are residents of

Pittsburgh (Phone numbers starting with "412") and who have not borrowed the book titled "Pitt Roads."

5. A series of CREATE TABLE and INSERT statements have been given to create a database. In order not to erase any existing tables, make sure you run the DDL statements in an empty database (a database that contains no prior tables). (Refer Exercise 3)

i. Run the CREATE TABLE and INSERT statements.

ii. Write SQL statements (and run them) to delete all tuples in all relations. Capture your SQL statements in delete_rows.sql.

iii. Write SQL statements (and run them) to augment (evolve) the database in the following ways. Capture your SQL statements in alter_tables.sql.

a. Create tables for the above relations for which tables have not been created. When deciding the domains of various columns, pay attention to the INSERT SQL statements mentioned below to populate the database. If you are using Microsoft Access, please note some of its limitations.

b. Add the constraint that ISBN and Name fields are alternate keys in the TITLE4 table and that they cannot take a NULL value.

c. Add referential integrity constraints as specified in all the tables.d. Add the columns "Join_date" and "Gender" to the MEMBER4 relation.e. Specify that the column "TimesRead" in READ_BY4 relation cannot have

negative values.

iv. Populate the database according to the INSERT SQL statements.

v. Write SQL queries to perform the following commands. Capture all of your SQL commands in a file called queries.sql. a. Display the ID, first name, and joining date of each member whose ID begins

with the letters "A%B" or "A&B" and who joined the library no later than Nov. 30, 1997.

b. List the name, ISBN, and call number of each title, provided it has been ordered from more than one supplier and the total quantity ordered is more than 10. The list should be arranged in non-increasing order of the total quantity ordered.

c. List the IDs and first names of all the members who have read less than 5% of the total number of books read from the library, in non-decreasing order of the number of books read by each.

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d. List in alphabetical order the first names and IDs of all female members of the library who have read at least one title more than once.

e. List the names of the suppliers and their respective average quantities of title orders received, whose average quantities of title orders received is more than the average quantity of an order in the system.

f. List alphabetically the first names and IDs of all the male members of the library who joined before Oct. 10, 1995, who have read only five or fewer different titles, and who have not read the same title twice or more.

6. Create a view on student database to display the data of all the students in Computer Science, Mechanical and IT departments.

7. Create an employee database and create the following two tables: Employee (Empid, Name Department) and accounts (Empid, Salary) Display the name of all Employees having salaries grater than 10,000.

8. Display the name of employees along with their respective manager name from the following table.Empid Emp Name Manager SalaryE001 Ivan E003 10,000E002 Bayross E004 25,000E003 Cristinna E002 20,000 E004 Maria E001 40,000

9. Write queries to implement primary key, foreign key, Not Null and Check constraints on employee database.

10. Write queries to implement database assertions on ‘Employee’ table of question 8 that checks the salary of an employee can’t be grater than its manager.

11. Write Query to call trigger that will check that salary of an employee can’t be grater than its manager whenever there will be any update to the ‘Employee’ table.

12. Write queries to give other users ACCESS and INSERT privileges to the ‘Employee’ table.

13. WAP in JAVA to show the connectivity with database using JDBC.14. Write a JAVA servlet that prints the string ‘Hello World’ to a Web browser. Create a class that extends

HttpServlet class and overrides doPost() method.15. Create a HTML form named ‘Welcome.html’ that accepts user name and use the above servlet to print out

this name instead of World after Hello.(Use form action and method attributes)

Note: At least 5 more exercises to be given by the teacher concerned.Every Student needs to do minimum____numbers of experiments/practicals in a semester

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HM-402: CAREER SKILLS-II


External :NIL The syllabus will be provided by the out sourced company at the start of the semester.

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REVISED AUG. 2012


EE-501A: CONTROL SYSTEM ENGINEERING

Periods/weekL: 3 T: 1 Credits: 3.5 Max. Marks: 150


Objective: To provide sound knowledge in the analysis and design of linear control systems.

PART - AUnit 1 Introduction Classification of control systems: Transfer function of electromechanical, and electrical systems, poles and zeros, block diagram representation, block diagram reduction, signal flow graph, Mason’s gain formula – characteristic equation, Effect of feedback on sensitivity.Unit 2 Time Domain Analysis Time domain analysis of control systems Transient and steady state response, Time domain test signals, Time domain specifications, second order systems – impulse and step responses. Steady state error analysis, Generalized error series.Unit 3 Concept of Stability and Root Locus Technique Concept of stability, necessary and sufficient conditions for stability, Hurwitz stability criterion, Routh stability criterion and relative stability. General rules for constructing Root loci – root locus analysis of control system, effect of addition of poles and zeros.

PART - BUnit 4 Frequency Domain AnalysisIntroduction, Bode plot, Polar plot, Log magnitude Vs Phase plot, closed loop frequency response, Frequency domain specifications, gain margin, phase margin, Nyquist stability criterion, stability analysis from Bode plot.Unit 5 Control System ComponentsElectrical systems- DC servomotor, AC servo motor, synchros, magnetic amplifier series and parallel connections, stepper motor, Tacho meters.Unit 6 Design of ControllersNecessity of compensation, Realization of lag, lead and lag lead compensators, Design of closed loop control system using Bode plot compensation, Proportional, Integral and Derivative Controller. Introduction to state space modeling.Text Books:

1. Automatic Control Systems: D.S. Kumar, Anita Khosla, Manav Rachna Pub. House Pvt. Ltd, 2008

2. Control System Engineering: I. J. Nagrath and M.Gopal , New Age, 2007.3. Automatic Control Systems: B. C. Kuo , PHI. 4. Control Systems - Principles and Design: Madan Gopal , Tata Mc Graw Hill.

Reference Books:1. Modern Control Engineering: R. C. Dorf and Bishop, Addison-Wesley.2. Modern control Engineering: K. Ogata, PHI.


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EE-502: POWER ELECTRONICSPeriods/weekL: 3 T: 1 Credits: 3.5 Max. Marks: 150


Objective: To understand the construction working and principles of power electronic devices.

PART - AUnit 1 IntroductionRole of power electronics, review of construction and characteristics of power diode, Schottky diode, power transistor, power MOSFET, SCR, DIAC, TRIAC, GTO, IGBT and SIT.Unit 2 SCRRatings and protections, series and parallel connections, R, RC and UJT firing circuit and other firing circuits based on ICs and microprocessors; pulse transformer and opto-coupler, commutation techniques (Different classes).Unit 3 ConvertersOne, two, three, six and twelve pulse converters, fully and half controlled converters, load voltage waveforms, output voltage equation, continuous and discontinuous modes of operation, input power factor of converter, reactive power demand, effect of source inductance, introduction to four quadrant / dual converter, power factor improvement techniques, forced commutated converter, MOSFET and transistor based converters.

PART - BUnit 4 InvertersBasic circuit, 120 degree mode and 180 degree mode conduction schemes, modified McMurray half bridge and full bridge inverters, McMurray -Bedford half bridge and bridge inverters, brief description of parallel and series inverters, current source inverter (CSI), transistor and MOSFET based inverters. Unit 5 ChoppersBasic scheme, output voltage control techniques, one, two, and four quadrant choppers, step up chopper, voltage commutated chopper, current commutated chopper, MOSFET and transistor based choppers.Unit 6 Cycloconverters and AC RegulatorsBasic principle of frequency conversion, types of cycloconverter, non-circulating and circulating types of cycloconverters. Types of ac regulator, equation of load current, calculation of extinction angle, three phase regulator.Text Books :

1. Power Electronics: P. S Bhimbra , Khanna publishers.2. Power Electronics: M. D. Singh, K.B. Khanchandani, TMH.3. Power Electronics and Introduction to Drives: A. K. Gupta and L .P. Singh, Dhanpat

Rai. 4. Power Electronics: P C Sen, TMH.

Reference Books:1. Thyristorised Power Controllers: G. K. Dubey, PHI.2. Power Electronics: M. H. Rashid, Pearson 2009.3. Modern Power Electronics and AC drives: B. K. Bose, Pearson Education, Asia, 2003.4. Theory of Power Electronics: K. L. Rao, S Chand 2009.


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EC- 401A: MICROPROCESSOR AND INTERFACING

Periods/week Credits Max. Marks : 150L: 3 T: 1 3.5 Internal : 50Duration of Examination: 3 Hrs External

: 100

Objective: After the study of this paper, the student will be familiar with the working of basic microprocessor, advance microprocessor and interfacing with memory and I/O device.

PART-AUnit 1: Introduction to 8085 MicroprocessorsEvolution of Microprocessors, Review of 8085 microprocessor and its architecture, 8085 Instruction set, interrupt structures, addressing modes

Unit 2: 8086 ArchitectureConcept of BIU & EU, pin diagram and its signals description, pipelining, memory, segmentation, memory banking, address/data bus, demultiplexing, minimum & maximum mode configurations, timing diagram, interrupt structures, 8086 interfacing with co-processor 8087 .

Unit 3: Assembly Language ProgrammingAddressing modes, instruction format, data transfer instruction, arithmetic instruction, bit manipulation instructions, program execution transfer instruction, processor control instructions, string instructions and BCD instructions, programming examples, assembler directives and operators.

PART-B

Unit 4: Memory and I/O InterfacingMemory structure, basic concepts in memory interfacing, address decoding & memory address, interfacing examples (RAM & ROM), memory mapped I/O & peripheral I/O, interfacing I/O devices.

Unit 5: Data transfer schemes and Interfacing peripherals: 8255Programmed I/O, interrupt driven I/O, parallel I/O, Programmable peripheral Interface: 8255

Unit 6: General purpose programmable peripheral devicesProgrammable interval timer (8253/54), Programmable interrupt controller (8259), DMA controller (8237)

Text Books:

1. Microprocessor Architecture, Programming & Applications with 8085: Ramesh S. Gaonker, Wiley.

2. Advanced Microprocessor & Peripherals: A.K Ray & K.M Bhurchandi, TMH.3. Microprocessor: Comprehensive Studies: Naresh Grover, Dhanpat Rai Publications.4. Advanced Microprocessors And Microcontroller:D.A.Godse,A.P.Godse

Reference Books:

1. Microprocessors & Interfacing: D.V Hall, TMH.2. The Intel Microprocessors 8086/Pentium Processors: Brey, PHI.3. Microcomputer System the 8086/8088: Yu-chang Liu & Glenn A Gibson, PHI.4. The 8086 Microprocessor : Programming & interfacing the PC : Kenneth J.Ayala,

CENTAGE LEARNING

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EC-403: ANALOG ELECTRONIC CIRCUITS

Periods/week Credits Max. Marks : 150L: 3 T: 1 3.5 Internal : 50Duration of Examination: 3 Hrs External : 100

Objective: The students shall be able to learn about nonlinear applications of op-amps, waveform generators, active filters, specialized IC’s and voltage regulators.

PART–A

Unit 1: Op-amp FundamentalsDifferential amplifier ac and dc characteristics, active load, level shifter, output stage, current mirror, blocks diagram of op-amp, ideal characteristics, parameters of op-amp(CMRR, slew rate, SVRR, offset voltage & current, thermal drift, GBP etc.)

Unit 2: Applications of Op-ampInverting, non-inverting, control sources (VCVS, VCCS, CCVS, CCCS), summer (scaling, averaging, weighted amplifiers), difference amplifier, integrators, differentiators, voltage follower, voltage to current converter, current to voltage converter, instrumentation amplifiers.

Unit 3: Non-Linear CircuitsLogarithmic amplifiers, log/antilog modules, precision rectifier, peak detector, sample and hold circuits, op-amp as comparator, Schmitt trigger, monostable multivibrator, IC analog multiplier applications, OTA.

PART-BUnit 4: Active FiltersIntroduction to filtering, frequency response, characteristics and terminology, active versus passive filters, low pass filter, high pass filter (first order & second order Butterworth filter), Sallen-Key unity gain filter, Sallen-Key equal component filter, higher order filters, band pass filters: single op-amp band pass filter, multistage band pass filter, state variable filter.

Unit 5: Waveform GeneratorsSquare wave generators, 555 timer, crystal controlled oscillator, ramp generator: triangle generator, sawtooth generator, sine wave generators, requirement for sinusoidal oscillations, Wein-bridge and twin-T oscillators, function generators: multi op-amp function generators, IC function generators, digitally controlled frequency synthesizer, PLL fundamentals, PLL synthesizer, totally digital synthesizer.Unit 6: Voltage RegulatorsOp-amp regulators, IC regulators, fixed voltage regulators (78/79, XX), SMPS.

Text Books:1. Integrated Electronics: Jacob Millman and christos C. Halkias, TMH2. Microelectronic Circuits: Sedra and Smith, Oxford University Press, 5 E, 2005.3. Applications and Design with Analog Integrated Circuits: Michael Jacob, PHI. 4. Linear Integrated Circuits: Salivahanan, McGrawHill.

Reference Books:

1. Linear Integrated Ckt: R. Gaikward, Pearson Education.2. Electronic Devices and Integrated Circuits: B.P. Singh and Rekha Singh, Pearson

Education.

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MA-501: NUMERICAL METHODS and OPTIMIZATION TECHNIQUES


L: 3 T: 1 3.5 Internal : 50

Duration of Examination: 3 Hrs External : 100

Objective: Students should have an awareness of the numerical techniques available to them for the solution of engineering problems and an understanding of their applicability and suitability to different situations and be able to implement them in a suitable programming language. Linear programming is mathematical techniques that is used a powerful tool in decision-making.

PART-AUnit 1 Interpolation and Curve FittingErrors in numerical computation, Interpolation problem, Lagrange’s InterpolationDivided Differences and Newton’s Divided difference Interpolation, Finite differences, Newton’s Forward and Backward Interpolation, Least square approximations of degree one and two. Linearization of approximations by the curves of the type axb, abx and aebx.

Unit 2 Non-Linear EquationsIntermediate value theorem, Bisection method, fixed-point method and its convergence, false position method, secant method, Newton Raphson method and its convergence, Modified Newton Raphson method (multiple roots).Unit 3 Simultaneous Linear EquationsDirect Methods: Gauss Elimination method (matrix approach), Gauss Jordon method Iterative methods: Gauss Jacobi’s method, Gauss-Seidal method and their convergence. Eigen values by Power method and Inverse power method.

PART-BUnit 4 Numerical Differentiation and IntegrationNumerical Differentiation formulae (i) differences tables, (ii) operator method (iii) undetermined parameter method. Order of numerical differentiation rules and their errors. General Numerical quadrature formula, Newton cote’s formulae (closed and open type). Unit 5 Numerical Solution of Ordinary Differential EquationsTaylor series method, Euler and modified Euler method, Runge kutta method of order two, classical Runge-Kutta method of order four. Unit 6 Linear Programming Formulation of Linear programming problems, Solving Linear programming problem using Graphical method, Simplex method and Dual simplex method.Text Books:

1. Fundamentals of Numerical Techniques and Computations (using C): R. S. Goel and Poonam Sethi, Manav Rachna Publishing House Pvt. Ltd.

2. Numerical Methods in Engineering & Science : B.S. Grewal, Khanna Publishers.3. Numerical Methods for Scientific and Engineering Computation : M. K. Jain, R. K Jain,

S. R. K. Iyengar, New Age International Publishing House.Reference Books:

1. Numerical Analysis: B. S. Goel and S. K. Mittal, Pragati Prakashan.2. Linear Programming: C. P. Sethi and S. K. Mittal, Pragati Prakashan.

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https://www.alibris.com/booksearch.detail?invid=8233699638&browse=1&qwork=8520693&qsort=&page=1

Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions will be set from each PART-A and PART-B (one from each unit). Student needs to attempt two questions out of three from each part. Each question will be of 20 marks.MANAV RACHNA INTERNATIONAL UNIVERSITY

(Deemed to be University under section 3 of the UGC Act 1956)EE-511 : CONTROL SYSTEM LAB

Periods/week: 2P:2 Credits:1 Max. Marks: 50

Internal: 25Duration of Examination.: 2 Hrs External: 25List of Experiments/Practicals:

1. To study A.C. servo motor and to plot its torque speed characteristics.2. To study D.C. servo motor and to plot its torque speed characteristics.3. To study the magnetic amplifier and to plot its load current v/s control current

characteristics for(i) series connected mode (ii)parallel connected mode and (ii) self exited mode.

4. Study of synchros and to (a) use the synchro pair (synchro transmitter and control transformer) as an error detector. (b) use the synchro transmitter as position transducer.

5. To study the lead, lag, lead-lag compensators and to draw their magnitude and phase plots .

6. To study a stepper motor and to execute microprocessor or computer-based control of the same by changing number of steps, direction of rotation and speed.

7. To implement a PID controller for level control of a pilot plant.8. To implement a PID controller for temperature control of a pilot plant.9. To study the MATLAB package for simulation of control system design.10. Obtaining Transfer Function Model of a DC motor using MATLAB and SIMULINK.11. Obtaining Root Locus, Bode Plot and Nyquist plot using SIMULINK.12. Modeling of Mass-Spring-Damper System using MATLAB and SIMULINK.13. Design and simulation of Feedback Control systems using MATLAB.


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EE-512 : POWER ELECTRONICS LABPeriods/week: 2P:2 Credits:1 Max. Marks: 50


List of Experiments/Practicals: 1. To study principle of operation of SCR, plot V-I characteristics and study the effect of

gate triggering on turning on of SCR.2. To draw V-I characteristics of an UJT and to use UJT as relaxation oscillator.3. To study the effect of freewheeling diode on power factor for single phase half-wave

rectifier with R-L load.4. To plot waveforms for output voltage and current, for single phase full-wave, fully

controlled bridge rectifier, for resistive and resistive cum inductive loads.5. Study of the microprocessor based firing control of a bridge converter.6. To study three phase fully controlled bridge converter and plot waveforms of output

voltage, for different firing angles.7. Study of Jones chopper or any chopper circuit to check the performance.8. Thyristorised speed control of a D.C. Motor.9. Speed Control of induction motor using thyristors.10. Study of series inverter circuit and to check its performance.11. Study of a single-phase cycloconverter.12. To check the performance of a Mc Murray half-bridge inverter.


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MANAV RACHNA INTERNATIONAL UNIVERSITYDeemed to be University under section 3 of the UGC Act 1956

EC-411: MICROPROCESSOR AND INTERFACING LAB

Periods/week: 2P: 2 Credits: 1 Max. Marks: 50



1. Study of 8086 Microprocessor kit.2. Write a program using 8086 to add and subtract two 8 bit numbers.3. Write a program using 8086 for finding the largest number from an array.4. Write a program using 8086 for finding the smallest number from an array.5. Write a program using 8086 to copy 12 bytes of data from source to destination.6. Write a program using 8086 for Hexadecimal to Gray code conversion by using

look up table.7. Write a program using 8086 for finding square of a number by using look up table

technique.8. Write a program using 8086 for arranging an array of numbers in ascending

order.9. Write a program using 8086 for arranging an array of numbers in descending

order.10. Write a program to display a string on LCD Display.11. Write a program to reverse a string stored in memory.12. Write a program to interface a two digit number using seven segment LEDs using

8086 Microprocessor.


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MANAV RACHNA INTERNATIONAL UNIVERSITY(Deemed to be University under section 3 of the UGC Act 1956)EC-413 : ANALOG ELECTRONIC CIRCUIT SIMULATION LAB

Periods/weekP: 2 Credits: 1 Max Marks: 50



1. Measurement of op-amp parameters(open Loop Gain, Input offset voltage CMRR, slew rate).

2. Determination of frequency Response of op-Amp.3. Study of Precision rectifier.4. Study of Instrumentation Amplifier.5. Open Loop operation of op-amp-comparators, Schimitt Trigger.6. Astable and monostable operation using 555 timer.7. Study of IC Voltage Regulator.8. Study of Voltage controlled Oscillator.9. Study of Phase Locked Loop.10. Study of Frequency Multiplier.11. Study of A/D converter and D/A converters.12. Study of Second Order Active filter-High pass and Low pass Realization.


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MA-511 : NUMERICAL METHODS LAB


P: 2 1 Internal : 25

Duration of Examination: 2 Hrs External : 25

List of Experiments:

1. Write a program in ‘C’ to deduce error involved in polynomial equations.2. Write a program in ‘C’ for finding out the unknown values with the help of given

set of observations using Newton forward difference interpolation formula.3. Write a program in ‘C’ for finding out the unknown values with the help of given

set of observations using Newton backward difference interpolation formula.4. Write a program in ‘C’ for finding out the unknown values with the help of given

set of observations using Langrange’s interpolation formula.5. Write a program in ‘C’ for finding the root of an equation of the form f(x)=0 using

Bisection method.6. Write a program in ‘C’ for finding the root of an equation of the form f(x)=0 using

method of false position.7. Write a program in ‘C’ for finding the root of an equation of the form f(x)=0 using

Iteration method.8. 8. Write a program in ‘C’ for finding the root of an equation of the form f(x)=0

using Newton- Raphson method.9. Write a program in ‘C’ to fit a straight line for a given set of data points.10. Write a program in ‘C’ to fit a second-degree parabola for a given set of data

points.11. Write a program in ‘C’ to find out a numerical integration using Trapezoidal rule.12. Write a program in ‘C’ to find out a numerical integration using Simpson’s 1/3

rule.13. Write a program in ‘C’ to find out a numerical integration using Simpson’s 3/8

rule.14. Write a program in ‘C’ to Compute the solution of differential equation by Taylor’s

series Method.15. Write a program in ‘C’ to Compute the solution of differential equation by Euler’s

modified method.

NOTE: Every student needs to do minimum 10 numbers of experiments/practicals in a semester.

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HM-503: CAREER SKILLS-III


External :NILThe syllabus will be provided by the out sourced company at the start of the semester.

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REVISED AUG. 2012


EE-601 A: DIGITAL SIGNAL PROCESSINGPeriods/week: 4L: 3 T: 1 Credits: 3.5 Max. Marks: 150


Objective: To understand various concepts pertaining to Discrete time systems and Digital signal processing and its applications.

PART - AUnit 1 General Introduction Introduction to Digital signal processing, Introduction and classification of Discrete time signals, Discrete Time Fourier Transform (DTFT) and its properties, Z Transform (Z.T), Region of Convergence (ROC), Properties of Z.T and its proof, Inverse Z.T: Long Division and Partial fraction methods.

Unit 2 LTI SystemsIntroduction and classification of Linear Time Invariant (LTI) systems, Analysis of LTI systems: Impulse response and Frequency response, Computation of Linear Convolution and Correlation.

Unit 3 Discrete Fourier TransformDirect computation of DFT and IDFT, Properties of DFT, FFT algorithms: DIT and DIF algorithms, Circular convolution, Linear convolution of two finite length sequences through circular convolution, Effects of finite word length.

PART - BUnit 4 Digital FIR FiltersIntroduction to Digital Filters, Amplitude and phase response of FIR filters, Concepts of linear phase FIR filters, Windowing technique for the design of FIR filters: Rectangular, Hamming and Hanning windows, Introduction to Frequency sampling technique, FIR filters structure: Direct form realization.

Unit 5 Digital IIR FiltersDesign of IIR digital filters: Approximation of Derivatives, Impulse Invariant and Bilinear transformation technique, IIR filters structure: Direct form (I and II) and cascade realization, Characteristics of Analog Filters: Butterworth, Chebychev, Elliptic and Bessel filters, Limit cycles in IIR filters. Unit 5 Multirate DSP and DSP ProcessorMultirate signal processing, Interpolation and decimation, FIR digital filter banks, Architecture and features of TMS320CXX based or ADSPXXX based DSP processor. Text Books:

1. Digital Signal Processing– Principles, Algorithms and Applications: Proakis and Manolakis. 3rd Edition, Prentice Hall of India, 2000.

2. Digital Signal Processing– Salivahanan, Vallavraj and Gananapriya, TMHReference Books:

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1. Introduction to Digital Signal Processing: Johnny R. Johnson, Prentice Hall of India. 1992.

2. Discrete time Signal processing: Oppenheim and Schaffer, PHI, 1992.3. Digital Signal Processing- A computer based Approach: S K Mitra (3rd Edition) TMH. 4. Theory and applications of Digital signal processing: Rabiner and Gold, PHI, 1992.



EE-602 : ELECTRICAL DRIVESPeriods/week: 4L: 3 T: 1 Credits: 3.5 Max. Marks: 150


Objective: The student will acquire knowledge on operation and working of both ac and dc electrical drives.

PART- AUnit 1 Introduction to Power Semiconductor Drives Block diagram, choice of electrical drives, dc and ac drives-dynamics of motor load system-fundamental equations-classification of load torques-multiquadrant operation of drives-speed torque characteristics of fan pump, compressor hoist, Traction and boiler drives-steady sate stability-closed loop control of drives.Unit 2 Cycloconverters Basic principle step up and step down cycloconverters single phase to single phase and three phase to single phase cycloconverters- frequency and voltage control – output voltage expression application. Unit 3 Dc Motor Drives – System Model Methods of speed control, braking, speed control using controlled rectifiers, single quadrant, two quadrant and four quadrant operation, dual converter – application of dual converter for speed control of dc motor.

PART - BUnit 4 Chopper Controlled DC Drives Analysis of single quadrant chopper drives, two quadrant and four-quadrant control of chopper fed dc drives. Unit 5 Three-Phase Induction Motor Speed Control Stator voltage control using ac voltage controllers, frequency control constant volt/Hertz operation, voltage source inverter drives, current source, inverter control of induction motor drives. Unit 6 Slip Control of Three Phase Induction Motor Chopper control of rotor resistance, slip power recovery drives, speed control of synchronous motors, frequency control, constant volt/hertz operation, voltage source inverter drives. Text Books:

1. Power Semiconductor controlled drives: G.K.Dubey , Prentice Hall.2. Power Electronic Circuits, Devices and Applications: Muhammad H. Rahid,

Pearson ,2003. 3. Modern Power Electronics and AC Drives: Bose B.K. Pearson, New Delhi, 2003.4. A First course in electric drives: Pillai S.K., Wiley Eastern, New Delhi.5. Solid State DC Motor Drives: Kusko, A., MIT Press, Cambridge, Mass.USA, 1969.

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Reference Books:1. Power Semi-conductor Drives: Dewan S. B., G. R Slemans, A. Straughen, John

Wiley,1984.2. Electric drives: Concepts and Applications: V.Subrahmaniyam , TMH, New Delhi.3. Thyristor Control of AC Drives: J. M. D Murphy, Paperman Press, 1973.4. Electrical Drives: N. K. De, and P. K. Sen, Prentice Hall of India, 2002.5. Power Electronics, Converters, Applications and Design: Ned Mohan et. al, John Wiley

and sons.Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions will be set from each Part A and Part B (one from each unit). Student needs to attempt two questions out of three from each part. Each question will be of 20 marks.


EE- 603 A: POWER SYSTEM-II

Periods/week: 4L: 3 T: 1 Credits: 3.5 Max. Marks: 150 Internal: 50 Duration of Examination: 3 Hrs External: 100

Objective: - The student will be thorough in the analysis of power system, they will get an idea of Flexible AC Transmission Systems.

PART – AUnit 1 Power System Components and their Representation Introduction, Power system network, Power system Representations, Three-phase power system network, Analysis of multiphase power system networks.Unit 2 Network- Formulation Introductory remarks, network equations, graph theory, development of network matrices from graph theoretic approach. Augment cutest, incidence matrix cutest and circuit equations building algorithm for the bus impedance matrix Z-bus. Unit 3 Load Flow Studies Introduction formulation of load flow problem solution, Technique using Y-bus in the bus frame of reference. Power Flow Solution by Newton’s Rapson Method Solution, fast decoupled load flow method.

PART - BUnit 4 Automatic Generation ControlSpeed governing system ,Objectives of AGC -single and multi area system , ALFC loop,tie line bias control,AVR loop

Unit 5 Power System StabilitySteady state, transient and dynamic stabilities, dynamics of synchronous machine,factors affecting transient stability ,equal area criteria, effect of fault clearing time on transient stability.

Unit 6 FACTS Introduction, basic types, important FACTS devices, Static Var Compensator (SVC), Static compensator (STATCOM), Thyristor Controlled Series Compensator (TCSC), Static Synchronous Series Compensator (SSSC) , Unified Power Flow Controller (UPFC).

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Text Books:1. Advanced Power System Analysis and Dynamics: L.P. Singh New Age.2. Power System Analysis and Design: B. R. Gupta, S Chand.3. Electric Power Systems: B.M. Woody. John Wiley and sons, New York, 1987.4. Modern Power System Analysis: I.J. Nagarath A.P. Kothari TMH, 1984.

Reference Books:1. Elements of Power System Analysis: W.D. Stevenson, MGH.2. Reactive Power Control in Electric Systems: T.J.E. Miller, John wiley and Sons. 3. Electric Power Generation Transmission and Distribution: S.N. Singh PHI.4. Power System Analysis and Design: D Glover, M Sarma, T. J. Overbye, Cengage

Learning,2008.Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions will be set from each Part A and Part B (one from each unit). Student needs to attempt two questions out of three from each part. Each question will be of 20 marks.


EE-604 : DESIGN OF ELECTRICAL MACHINES Periods/week: 4L: 3 T: 1 Credits: 3.5 Max. Marks: 150


Objective: Understanding, analysis and design of electrical machines.PART - A

Unit 1 Principles of Electrical Machine DesignGeneral design considerations, specifications of machines Types of enclosures, types of ventilation, heat dissipation, temperature rise, heating and cooling cycles and ratings of machine machines. Cooling media used. Review of property of materials used in electrical machines.Unit 2 Design of Power Transformers Single phase and three phase transformers, Output equation, Specific magnetic loading, core design, window area, overall dimension of the core, windings, no. of turns, current density, conductor section-types of coils, Cooling. Unit 3 Design AspectsFlux Distribution Curve, Field form factor, magnetic leakage coefficient, calculation of field ampere turns, air gap mmf, effect of slot and ventilating duct, active iron length, mmf for teeth, real and apparent flux densities, mmf per pole, design of electromagnet.

PART - BUnit 4 Design of DC MachinesOutput equation, specific loading, choice of speed and number of poles, calculation of main dimensions, choice of type of winding, number of slots, no. of conductors per slot, current density, conductor section, slot insulation, length of air gap, design of field winding- excitation voltage, conductor cross section, height of pole.Unit 5 Design of Synchronous MachinesSpecific loading, output equation, main dimensions, type of winding number of turns, number of slots and slot design, field design of water wheel and turbo alternators. Cooling of alternators.Unit 6 Design of three phase Induction motorsMain dimension, stator design squirrel cage and slip ring types, number of stator and rotor slots, rotor bar current, design of rotor bars, end ring current, design of end ring rotor

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winding. Introduction to computer aided design, Analysis and synthesis methods, hybrid techniques, optimization, electrical machine design, general procedure.Text Books:

1. A course in Electrical Machine Design: A. K. Sawhney, DhanpatRai.2. Computer Aided Design of Electrical Equipment: Rama moorthy M., East west press.

Reference Books:1. Design and testing of Electrical machines: M V Deshpande, Wheeler Publishing.2. Principle of Electrical Machine Design: R K Agarwal, Esskay Publications



HM-501: INDUSTRIAL MANAGEMENTPeriods/week Credits Max. Marks

: 150L: 3 T: 0 3 Internal

: 50Duration of Examination: 3 Hrs External

: 100

Objective: The objective of the course is to give an overview of management and inputs on technical concepts of industrial management. It aims to develop an understanding on material and inventory management and quality control aspects.

PART-A

Unit 1 Management– An OverviewDefinition, Nature and Scope of management, Functions of Management – Planning, Organizing, Staffing, Directing and Controlling.

Unit 2 Factory Location and Plant LayoutFactors determining location of a factory, steps in finding plant location, selection of region, selection of locality & selection of exact site. Plant Layout- nature, objective, importance, factors influencing layout, types and problems of layout.

Unit 3 Work StudyDefinition, objectives, method study - definition, objectives, steps involved- various types of associated charts. Work measurement- definition, time study, steps involved, Work Sampling – definition, steps involved, standard time calculations, differences with time study.

PART- BUnit 4 Material ManagementMeaning, objective and scope, Inventory Management-functions, types, associated costs, inventory control technique ABC, VED and EOQ analysis. Purchase management- objectives and principles, functions and duties of purchase department. Stores Management- needs importance and Record methods.Unit 5 Industrial Relations and Employee WelfareIndustrial Relations – importance, meaning, definition, objectives, participants in IR, workers participation in management, Employee welfare – concepts, needs, scope, labour welfare practices in India.

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Unit 6 Inspection and Quality ControlQuality Control - Meaning, Definition, importance, and methodology, Inspection – Meaning, importance, types. TQM – Introduction to TQM, Quality circles and Procedures.

Text Books:1. Production and Operations Management: Panner Selvam, PHI 2004.2. Reliability Engineering & Quality Engineering: C. Nadha Muni Reddy and K. Vijaya

Kumar Reddy, Galgotia Publications Pvt. Limited.3. Motion and Time Studies: Ralph M Barnes, John Wiley and Sons, 2004.4. Operations Management: Chase Jacobs Aquilano, TMH 10th Edition, 2003.

Reference Books:1. Manufacturing Organization and Management: Amrine, Pearson 2nd Edition, 2004.2. Industrial Engineering and Management: O.P. Khanna, Dhanpat Rai.3. Management: Stoner, Freeman, Gilbert, 6th Ed, Pearson Education, New Delhi, 2005.

Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions will be set from each Part-A and Part-B (one from each unit). Student needs to attempt two questions out of three from each part. Each question will be of 20 marks.


EE-611: DIGITAL SIGNAL PROCESSING LAB

Periods/week: 2P:2 Credits:1 Max. Marks : 50

Internal : 25Duration of Examination: 2 Hrs External

: 25


Perform the experiments using MATLAB:1. WRITE A PROGRAM (WAP)To represent basic signals (Unit step, Unit Impulse,

ramp, exponential, sine and cosine).2. WAP to develop program for discrete convolution.3. WAP to develop program for discrete correlation. 4. WAP to understand stability test. 5. WAP to understand sampling theorem. 6. WAP to design analog filter (low-pass, high pass band –pass, band stop).7. WAP to design digital IIR filters (low –pass, high-pass, band –pass, band –

stop).8. WAP to design FIR filters using windows technique.9. WAP to design a program to compare direct realization values of IIR digital

filter.10. WAP to develop a program for computing parallel realization values of IIR

digital filter.11. WAP to develop a program for computing cascade realization values of IIR

digital filter.12. WAP to develop a program for computing inverse Z-transform of a rational

transfer function.

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EE-612: ELECTRICAL DRIVES LAB

Periods/week: 2P:2 Credits:1 Max. Marks: 50


List of Experiments/Practicals:1. Speed control of dc motor using dc chopper.2. Speed control of dc motor using single- phase converter.3. Speed control of dc motor using 3- phase converter.4. Speed control of dc motor using single- phase dual converter.5. Inverter fed single-phase induction motor drive.6. CSI fed induction motor drive.7. Speed control of single- phase induction motor using ac regulator.8. Regenerative braking of dc motor using single- phase converter.9. Speed control of single-phase induction motor using cycloconverter.10. Static rotor resistance control method.11. Study of Induction motor system.12. Study of DC motor control system.13. Study of 3-phase inductor motor.


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EE-613: POWER SYSTEM LABPeriods/week: 2P: 2 Credits: 1 Max. Marks: 50


LIST OF EXPERIMENTS/PRACTICALS:

1. To draw the operating characteristics of IDMT relay.

2. To draw the operating characteristics of differential relay.

3. To study Bucholtz relay.

4. Testing of transformer oil.

5. To find ABCD parameters of a model of transmission line.

6. To observe the Ferranti effect in a model of transmission line.

7. To study the plain impedance relay and plot its tripping characteristics.

8. To study the Mho relay and plot its tripping characteristics.

9. To study the power control by phase shifting transformer.

10. To plot annual/monthly/daily load demand of nearby area.

11. To design 11 KV substation.

12. Design of distribution system.

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HM-602: CAREER SKILLS-IV

Periods/week Credits Max. Marks : 50L:2 T:0 2 Internal : 50 External

:NIL

The syllabus will be provided by the out sourced company at the start of the semester.

69

REVISED AUG. 2012


EE-621-A : HIGH VOLTAGE ENGINEERINGPeriods/week: 4L: 3 T: 0 Credits: 3 Max. Marks: 150

Internal: 50Duration of Examination: 3 Hrs External: 100Objective: The course primarily aims to give the student a deeper physical understanding of high voltage dc and ac generation, protection of apparatus against over voltages and design of bushings.

PART – AUnit 1 Generation of High DC and DC Voltages Generation of High DC voltages, half wave and full wave circuits-Ripple voltages in HW and FW rectifiers. Voltage doubler circuits, Simple voltage doubler and cascade voltage doubler. Voltage multiplier circuits, Cockcroft-Walton Voltage multiplier circuits. Ripple and regulation. Electrostatics machines, principles, Van dc Graaff generator.Generation of High AC voltages Cascade transformers, resonant transformers-parallel and series resonant test systems.Unit 2 Generation of High Frequency High Voltages Tesla coil. Generation of impulse voltages-Standard impulse wave shape – Basic circuits for producing impulse waves-Analysis of commercial impulse generator circuits-Wave shape control. Multistage impulse generators-Marx circuit-modified, Marx impulse generator circuit-Components of multi-stage impulse generator. Generation of switching surges.Generation of impulse currents-Definition of impulse current wave form- Circuit for producing impulse current waves.Unit 3 Over voltages in power systemOver voltage and their significance. Switching over voltages-origin and characteristics-switching over voltages in EHV and UHV systems. Protection of power system apparatus against over voltages. Surge arresters-dynamic volt-ampere characteristics and surge diverter operation characteristic. Connections and rated voltages of surge arresters. Thyrite and ZnO arresters. Lighting phenomena ,principle of lighting protection.

PART - B

Unit 4 Control Of Over Voltages Due to Switching

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Method of reducing switching over voltages. Principle of insulation co-ordination on HV and EHV power systems-Insulation level of equipment. Insulation co-ordination of a substation. Insulation co – ordination of EHV system.Unit 5 Conduction and breakdown :Conduction and breakdown in gases, liquid and solid dielectrics, insulation breakdownUnit 6 HV and EHV Bushing DesignSelection, maintenance and diagnostic testing. Biological and environmental aspects in EHV and UHV line design. Live line maintenance – Principles – common live line maintenance – Tools for live line maintenance.Text Books:

1. High voltage Engineering: M.S. Naidu, and V. Kamaraju TMH.2. E. H. V. AC Transmission: R. D. Begamudre, Wiley Eastern Ltd.3. High Voltage Engineering: Kuffel.E and Zaengal W, Pergamon Press. Oxford.

Reference Books:1. An Introduction to High Voltage Experimental Techniques: Dieter Kind, Wiley Eastern.2. Insulation Co– ordination in High Voltage Electrical Power Systems: Diesendrof W. Butterworth,

London.3. Methods of High Voltage Testing. IS 2021-1976 IEEE Std-4-1978.4. High Voltage Engineering: C. L. Wadhwa, Wiley Eastern.



EE- 624 : BIOMEDICAL INSTRUMENTATION

Periods/week: 4L: 3 T: 0 Credits: 3 Max. Marks: 150


Objective: To make an introduction to the modern Biomedical instruments and systems, their features and applications.

PART-AUnit 1 IntroductionOrigin of bio-electric signals, recording systems, source of low level recording circuits, preamplifiers, main amplifier and driver stage, writing systems, types of recorders and transducers used.Unit 2 Bio-Medical Recorders and Display SystemsECG, EEG, EMG, photo-cardiograph and electrodes used for ECG, EEG and EMG, oscilloscopes used for biomedical measurements, multi-channel display.Unit 3 Blood Gas AnalyzersB.P measurement, patient-monitoring system, blood PH measurement, blood PO2, PCO2, complete blood gas analyzer.

PART-BUnit 4 Special Machines

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MRI, and ultrasonic imaging systems, x-ray machine, x-ray computed tomography, basic NMR components, physics of ultrasonic rays, A-scanner, B-scanner, echocardiograph, display devices for ultra sonic imaging.Unit 5 Cardiac Pacemakers And DefibrillatorsExternal pacemaker, implantable pace maker, programmable pace maker, leads and electrodes used, DC defibrillators, electrodes used, and implantable defibrillators.Unit 6 Laser Applications In Biomedical FieldsLasers: ruby laser, argon laser, helium- neon laser, CO2 laser, Nd-YAG laser

Text Books:1. Handbook of Biomedical Instrumentation: R S Khandpur, TMH Publishing Company

Ltd. New Delhi.2. Introduction to Biomedical Equipment Technology: Joseph J Carr, John M Brown,

Pearson Education (Singapore) Pvt. Ltd.3. Biomedical Instrumentation and Measurements: Leslie Cromwell, Prentice Hall of

India Pvt. Ltd, New Delhi.Reference Books:

1. Biomedical Electronics and Instrumentation: S K Venkataram, Galgotia Pub., New Delhi.

Prerequisite: Basic knowledge in Electronic Instrumentation



EE-625: NEW AND RENEWABLE ENERGY SOURCES


Internal: 50Duration of Examination: 3 Hrs External: 100Objective: This subject provides sufficient knowledge about the promising new and renewable sources of energy so as to equip students capable of working with projects related to it.

PART – A

Unit 1 Renewable and Non-Renewable Sources of Energy Brief review of conventional sources of energy production and world energy consumption, Greenhouse effect and global warming, solar energy option, Thermal conversion, Design, fabrication and performance of flat plate collectors, Description of solar thermal devices (stills, water heaters, furnaces, cookers and refrigerators), Solar thermal power generation systems, thermal storage.Unit 2 Photovoltaic Conversion Conceptual description of photovoltaic effect, Electrical characteristics of silicon PV cells and modules, Solar cell materials and prospects, Instruments for measurement of solar radiation, Empirical equations for predicting availability of solar radiation.Unit 3 Wind energy Wind turbines Horizontal axis and vertical axis wind turbines, Power and energy from wind turbines, Wind characteristics.

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PART - BUnit 4 Energy from oceansPhysical principles, Wave characteristics and wave power, Wave energy technology, Fixed devices, Floating devices. Ocean thermal energy conversion (OTEC), Principles, Methods of power generations, Heat exchangers, Basic ideas about other practical considerations. Tidal power, Basic principles, Power generation, Limitations of tidal generation.Unit 5 Biomass and Small Hydro PowerExtracting energy from bio-fuels – Direct combustion, gasification, pyrolysis, anaerobic digestion, fermentation, Energy from refuse, Refuse derived fuel (RDF), Energy farming. Small hydro power: Classification as micro, mini and small hydro projects, Basic concepts and types of turbines, Design and selection considerationsUnit 6 Recent trends (only brief description expected) Fuel cell, hydrogen energy, alcohol energy, nuclear fusion, power from satellite stations.Text Books:

1. Renewable energy resources: John W Twidell and Anthony D Weir, English Language Book Society (ELBS), 1996.

2. Renewable energy – power for sustainable future: Edited by Godfrey Boyle, Oxford University Press in association with the Open University, 1996.

3. Renewable energy sources and their environmental impact: S A Abbasi and Naseema Abbasi , Prentice-Hall of India, 2001.

Reference Books:1. Non-conventional sources of energy: G D Rai Khanna Publishers, 2000.2. Solar energy utilization:G D Rai Khanna Publishers, 2000.3. Renewable and novel energy sources: S L Sah, M.I. Publications, 1995.4. Energy Technology: S Rao and B B Parulekar, Khanna Publishers, 1999.



EC-605: PRINCIPLES OF COMMUNICATION

Periods/weekL: 3 T: 0 Credits: 3 Max Marks: 150

Internal: 50Duration of Examination: 3Hrs External: 100

Objective: After the course, the students shall be able to learn about the basic communication system and various types of modulation techniques.

PART - AUnit 1 Introduction Basic blocks in a communication system: Transmitter Channel and Receiver, fundamental limitation of communication system, concept of modulation and demodulation, base band and pass band signals, types of communication system, application of communication system, Unit 2 Analog Modulation Continuous wave modulation: amplitude modulation, AM modulation and demodulation, modified form of AM-double sideband suppressed carrier (DSBSC) modulation and demodulation, single sideband suppressed carrier (SSBSC), VSB-modulation and demodulation, AM transmitter and receiver, receiver characteristics.Unit 3 Angle Modulation Types of angle modulation, phase modulation and frequency modulation, concept of instantaneous frequency, types of FM-NBFM and WBFM, generation of frequency

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modulation, demodulation of frequency modulation, generation and detection of PM, comparison of FM, PM, AM, phase locked loop (PLL) working, pre-emphasis and de-emphasis.

PART - B

Unit 4 Pulse Modulation Sampling theorem, aliasing, aperture effect, type of pulse analog modulation: PAM, PWM and PPM, generation and demodulation, comparison of PAM, PWM and PPM. PCM, quantization process, companding, probability of error for PCM systems, DPCM, delta, adaptive delta modulation.Unit 5 Digital Modulation Techniques Basic digital band pass modulation schemes ASK, PSK, QAM, FSK schemes, M-ary PSK modulation and demodulation, differential PSK modulation and demodulation, spread-spectrum communication system, direct sequence SS system, frequency hopped SS system, applications of SS system, PN sequence.Unit 6 NoiseIntroduction to noise, types, internal and external sources of noise, thermal noise, short noise, noise figure, noise temperature, equivalent noise bandwidth, and calculation of noise for cascaded networks.Text Books:

1. Communication System: Simon Haykin, Wiley. 2. Modern Analog and Digital Communication Systems: B.P.Lathi, Oxford University

Press.3. Electronic Communication systems: Kennedy, TMH.

Reference Books:1. Principles of Communication System: Herbert Taub And Donal L. Schilling. TMH.2. Fundamentals of Electronics Communication System: Wayne Tomasi, Pearson/PHI.

Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions will be set from each Part A and Part B (one from each unit). Student needs to attempt two questi


EE-701 INDUSTRIALTRAINING (24 WEEKS)

Duration of Training: 24 weeks Credits: 20 Max. Marks: 900

Duration of Examination: 3 Hrs Internal : 600 External : 300

Every student will have to undergo Industrial Training for 24 weeks in the relevant field of Engineering in which he/she is enrolled for B.Tech. programme after 5th/6th semester. Respective Head of Department will approve the Industry/Organization for training. During this course of time he/she will be regularly monitored and evaluated. Before he is again registered for next semester i.e. 7th/8th semester of studies, the student will have to submit the training report, deliver a seminar about the work/project undertaken during the training and will have to appear for viva. The evaluation of the industrial training shall be made as per following:

Evaluation during training:1. Evaluation by the Supervisor in the Industry : 400 marks2. Evaluation by Faculty during training (2 times) : 2X100= 200 marks Total Internal marks : 600

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Evaluation after training:1. Project Report : 100 marks2. Seminar/Presentation : 50 marks3. Viva : 150 marksTotal External marks : 300 Total Credits : 20

The parameters for evaluation during the training for Supervisor shall be as under:Marks

a) Work/Project undertaken 50b) Punctuality 25c) Regularity 25d) Discipline 25e) Overall Conduct 25f) Willingness to Work 25g) Innovation 25h) Resourcefulness in acquiring technical knowledge 100i) Relations with Seniors and others 25j) Overall Proficiency achieved during training 25k) Any contribution to the organization 25

Total 400

The parameters for evaluation by the faculty during training shall be as under:

a) Maintenance of Training Diary and Regularity 20b) Relations with Seniors and others 20c) Overall Conduct 20d) Willingness to Work 20e) Proficiency achieved 20

100


EE-801: ADVANCED CONTROL SYSTEMSPeriods/week: 4L: 3 T: 1 Credits: 3.5 Max. Marks: 150


Objective: To provide knowledge in state variable technique, sampled data system and nonlinear systems.

PART-A

Unit 1 State Space Analysis of SystemsIntroduction to state concept-state equation of linear continuous time data systems. Matrix representation of state equations. Different state representation -Phase variable and canonical forms, Diagonalisation.Unit 2 Solution of Time Invariant Autonomous SystemsState transition matrix-relationship between state equations and transfer function. Properties of state transition matrix. Controllability and observability. State feed back design via pole placement technique.

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Unit 3 Sampled Data Control SystemSampling process-Z transform, method-solving difference equation by the Z transform method, pulse transfer function, system time response by Z transform method.

PART – BUnit 4 Analysis of the Sampling ProcessData reconstruction and hold circuits, zero order hold circuit, sampling theorem. Stability of sampled data system, Routh-Hurwitz Criterion and Jury’s test. State variables for discrete-time systems.Unit 5 Introduction to Characteristics of Nonlinear Systems Types of non- linearities, describing function analysis, determination of describing function of static non linearities (staturation and ideal relay only) application of describing function for stability analysis of autonomous system with single nonlinearity.Unit 6 Liapunov Stability and Variable Structure ControlDefinition of stability-asymptotic stability and instability-Liapunov methods to linear and nonlinear systems, Concept of variable structure controller and sliding mode control-implementation of switching control laws.Text Books:

1. Digital Control and State Variable Methods: M.Gopal, TMH.2. Modern Control Engineering: K Ogata, Peasrson, New Delhi 2002.3. Control System Engineering: I. J. Nagrath and M. Gopal , New Age, 2007.4. Nonlinear System Analysis, Stability and Control: Shankar Sastry , Springer, 19995. Discrete time control system: K. Ogata , PHI.6. Analysis and synthesis of Sampled Data Control Systems: B. C. Kuo , PHI.

Reference Books:1. Nonlinear Control Systems: Isidori , Springer-Verlag.2. Applied Nonlinear Control: Jean-Jacques E. Slotine and Weiping Li, PHI, NJ, 1991.



EC-702: MICROCONTROLLER AND APPLICATIONS

Periods/week: 4 Max. Marks : 150L: 3 T: 1 Credits: 3.5 Internal : 50Duration of Examination: 3 Hrs External : 100

Objective: The students will be familiarize with the basic functioning of Microcontroller, various types, difference between Microprocessor and its different applications.

PART -AUnit 1: IntroductionIntroduction to 8051 microcontroller, comparison of microprocessors and microcontrollers, pin diagram and signals explanation, internal diagram of 8051.

Unit2: Instruction SetAddressing mode, data transfer instructions, logical instructions, arithmetic instructions, bit instructions, branching instructions.

Unit 3: Timers

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Various timers of 8051 microcontroller, control word, modes of operation of timers, simple programming examples, generation of square wave.

PART-BUnit 4: Serial InterfaceIntroduction to serial interface, generation of control word, various modes of operation of serial interface, simple programming examples.

Unit 5: Interrupts Introduction to interrupts, generation of control word, simple programming examples, generation of waveforms using interrupt, serial interface using interrupt.

Unit 6: Applications Interfacing of memory, intelligent LCD, 8255, ADC, DAC, LED display

Text Books:

1. Micro controllers & its applications: B.S. Chhabra, Dhanpat Rai Pub. Co. India2. 8051 Micro Controller: Mackenizia, PHI, Englewood Cliffs, New Jersey.3. Programming & Customizing the 8051 Microcontroller: Myke Predko, Tata Mcgraw

Hill Pub. Co. Ltd., New Delhi.

Reference Books:

1. 8051 Micro controller Architecture Programming and Application: K.J.Ayala, Penram International Publishers, India.

2. Advanced Microprocessor and Microcontrollers: S.K.Venkata Ram, Luxmi Pub. Pvt. Ltd. New Delhi.



EC-712: MICROCONTROLLER AND APPLICATIONS LAB

Periods/week Credits Max. Marks : 50P: 2 1 Internal : 25Duration of Examination: 2 Hrs External : 25

List of Experiments

1. Study of development tools for 8051 microcontroller programming & Assembly language programming style.

2. Write a program for the addition & subtraction of two numbers.3. Write a program for the multiplication & division of two numbers.4. Write a program to find the factorial of number.5. Write a program to flash all the LED of o/p part.6. Write a program for the bit rotation.7. Write a program to segregate two nibbles of a byte. 8. Write a program to generate 10 KHz square wave using Timers.

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9. Write a program to generate 10 KHz square wave using Interrupts.10. Write a program to display a string on LCD display.

Note: Every student needs to do minimum 10 number of experiments/practicals in a semester. 20% new experiments should be added every year.


EE-812 : SIMULATION LAB

Periods/week Credits: 1P: 2 Max. Marks: 50

Internal: 25 Duration of Examination: 2 Hrs External: 25List of Experiments

1. Fault Analysis of AC Power System using PSCAD/EMTDC.2. Simulation of triggering of Thyristor, GTO by using EMTDC/ PSCAD.3. Load forecasting using MIPOWER.4. Load Flow and Voltage Stability study using ETAP/ Power Station,

MIPOWER/DIGSILENT.5. Substation layout using Autocad.6. Sequence Components of Power System Network with Single Line to Ground Fault

using MATLAB SIMULINK.7. Design and simulation of Analog filters using MATLAB.8. Optimal Location of Capacitor in an Electrical Distribution System using POWER

TOOLS.9. Modelling and Simulation of Non Conventional Energy Systems using MATLAB.

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10. Simulation of Electrical Distribution Systems and conduct a load flow study using POWER TOOLS.

11. Modelling of Single Machine Power System using SIMULINK.12. Short circuit studies of power system using MIPOWER/ETAP/DIGSILENT.13. Modelling and simulation of Air conditioning load/ Control using SIMULINK.



EE-810 : PROJECT

P: 10 Credits: 5 Max.Marks : 300Duration of Examination: 3 Hrs Internal : 200 External : 100

Objective: To inculcate and enhance the technical skills for design, research and development.

The project will be guided by a faculty. The projects are to be individual or in group. The work plan is to be finalized prior to the semester.

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EE-815 : SEMINARPeriods/week- L: 0 T: 2 Credits: 1 Max. Marks : 50

Internal : 50 The Seminar provides opportunity to the students to enhance their presentation skills and the technical knowledge of the relevant field.

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EE-821: UTILIZATION OF ELECTRIC POWER AND TRACTIONPeriods/weekL: 4 T: 0 Credits: 4 Max. Marks: 150


Objective: To enable the students to understand the concepts of Electric heating welding, illumination, traction and their uses in industry.

PART-AUnit 1 IlluminationRadiant energy-terms and definitions- laws of illumination- polar curves, photometry, MSCP, integrating sphere- luminous efficacy, electrical lamps, design of interior and exterior lighting systems, illumination levels for various purposes, light fittings, factory lighting- flood lighting, street lighting-energy conservation in lighting. Unit 2 Electric HeatingElectric heating: classification, heating element-losses in oven and efficiency, resistance furnace, radiant heating- induction heating, high frequency eddy current heating- dielectric heating, arc furnace- heating of buildings.Unit 3 Electric WeldingResistance welding, arc welding, welding generator and welding transformer, properties of arcing electrode.

PART-B

Unit 4 Electrolytic ProcessPrinciples and applications of electrolysis. Faraday’s law of electrolysis, electroplating, charging and discharging. Capacity and efficiency of battery, defects in battery.Unit 5 Electric TractionFeatures of an ideal traction system-systems of electric traction- mechanism of train movement, speed, time curve, traction supply system, transmission line to substation, feeding and distributing system on an ac traction- system of current collection-traction motors-tractive effort and horse power, Speed control Schemes-Electric braking.Unit 6 Air conditioning and Refrigeration

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Control of temperature - protection of motors, simple heat load and motor calculations. Air-conditioning, function of complete air conditioning system, type of compressor motor. Cool storage, estimation of tonnage capacity and motor power. Technology of electric and hybrid electric vehicles.Text Books:

1. Utilisation of Electric Energy: Taylor E Openshaw, Orient Longman,1986.2. Utilization of Electric Power and Electric Traction: J B Gupta, S K Kataria and Sons,

2002.3. Generation, Distribution and utilization of electrical energy: Wadhwa. C. L., Wiley

Eastern Limited,1993.4. A course in Electric power: Soni, Gupta, Bhatnagar, Dhanapat Rai and sons, 2001.5. Electrical Power: S.L.Uppal, Khanna pulishers,1988.

Reference Books: 1. Utilisation of Electric Power including Electric drives and Electric Traction:

Suryanarayana N. V., New Age. 2. Art and Science of Utilisation of Electrical Energy: Partab H., Dhanpat Rai and Sons,

New Delhi. 3. Electric Energy Utilization And Conservation: Tripathy S. C., Tata McGraw Hill,1993.4. IEEE bronze book-IEEE press.


MANAV RACHNA INTERNATIONAL UNIVERSITY(Deemed to be University under section 3 of the UGC Act 1956)EE-622: COMPUTER APPLICATION IN POWER SYSTEMS

Periods/week: 4L:4 T: 0 Credits: 4 Max. Marks: 150


Objective: The student will acquire a good basic knowledge in computer-aided method available for modeling and simulation of power system.

PART – A

Unit 1 Central Operation and Control of Power SystemsIntroduction, Control center of a Power System, Digital Computer Configuration. Automatic Generation Control, Operation without computers or AGC, Area Lumped Dynamic Model, State Estimation from Online Measurements. Unit 2 Elements of Transmission NetworksPhaser notation, Symmetrical component transformation. Overhead transmission line representation, Synchronous machine representation. Unit 3 Bus Reference FrameInjections and Loads, Formulation of Bus Impedance matrix for elements without Mutual Coupling, Bus admittance matrix, Bus impedance matrix with mutual coupling. Inversion of Y-bus for large systems, Tinney’s Optimally ordered Triangular formulation, Iteration methods.

PART - B

Unit 4 Network Fault and Contingency Calculations Fault calculations using Z-bus, Fault Calculations using the Y-bus Table of Factors, Contingency analysis in Power systems, Contingency studies using the Y-bus table of factors.Unit 5 Power Flow on Transmission Line Networks

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Slack bus, z-bus formulation for load flow equation, Gauss and Gauss – Seidel Iteration using y-bus, Newton-Raphson method, Fast Decoupled Load Flow (FDLF), Adjustment of network operating conditions, Operational Power flow, programs.Unit 6 Generation Base Power Setting Economic dispatch of Generation without transmission line losses, Economic dispatch with line losses – Classical method to calculate loss coefficients, Loss-Coefficient calculation using Y bus and sparse matrix techniques, Execution of the Economic dispatch, Utilizing Load Flow Jacobian for the economic dispatch, Economic dispatch using shared Generators, Economic exchange of power between areas.Text Books:

1. Computer Aided Power System Analysis: G L Kusic, PHI.2. Advance Power System Analysis and Dynamics: L.P. Singh, Wiley Eastern. 3. Computer Methods in Power System: G. W. Stagg and A. H. El-Abiad, MGH.

Reference Books:1. Computer Modeling of Electrical Power Systems: J Arriliga , N R Watson, John Wiley

2001.2. Modern Power System Analysis: I. J. Nagrath and D. P. Kothari, TMH.3. An Introduction to Electrical Energy system theory: O. I. Elgerd, TMH.4. Elements of Power System Analysis: W. D. Stevenson, MGH.5. Power System Analysis: Hadi Saadat , TMH, New Delhi.



EE-823: INTELLIGENT CONTROLPeriods/week: 4L: 4 T: 0 Credits: 4 Max. Marks: 150

Internal: 50Duration of Examination: 3 Hrs External: 100Objective: To introduce new software computing techniques for engineering applications.

PART – AUnit 1 Comparison of Soft Computing Methods

Neural networks, Fuzzy Logic, Genetic Algorithm with Conventional Artificial Intelligence (hard computing),Least-Square methods for System Identification, recursive least square estimator, LSE for Nonlinear Models. Derivative based Optimization, Descent methods, Newton’s Method, Conjugate Gradient methods. Nonlinear Least-squares Problems-Gauss Newton method, Levenberg- Marquardt method.

Unit 2 Neural NetworksDifferent Architectures, Back-propagation Algorithm, Hybrid Learning Rule, Supervised Learning- Perceptrons, Adaline, Back-propagation Multilayer Perceptrons, Radial Basis function Networks. Unsupervised Learning – Competitive Learning Network, Kohonen Self-Organizing Networks, Hebbian Learning, The Hopfield Network. Unit 3 Fuzzy Set TheoryBasic Definition and terminology, Basic Concepts of Fuzzy Logic, Set Theoretic Operators, Membership functions- formulation and parameterisation. Fuzzy Union, Intersection, and Complement. Fuzzy Rules and Fuzzy Reasoning. Fuzzy Inference Systems- Mamdani and Sugeno Fuzzy models. Fuzzy Assocaitive Memories.

PART - BUnit 4 Neuro-Fuzzy ModellingAdaptive Neuro-fuzzy Inference Systems, Neuro-Fuzzy Controller- Feedback control, Expert control, Back propagation through time and real-time recurrent learning, Reinforcement learning control, Gradient-free optimisation.

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Unit 5 Neuro-fuzzy controller in Engineering Applications Fuzzy Logic in Control Engineering- Mamdani and Sugeno Architecture for Fuzzy Control, Analytical Issues in Fuzzy Logic Control, Fuzzy Logic in Intelligent Agents, Fuzzy Logic in Mobile Robot Navigation, Fuzzy Logic in Database Systems, Applications of Fuzzy Logic in Medical Image segmentation. Unit 6 Genetic AlgorithmBasics of Genetic Algorithms, Design issues in Genetic Algorithm, Genetic Modelling, Hybrid Approach, GA based Fuzzy Model Identification. Fuzzy Logic controlled Genetic Algorithm, Neuro- Genetic Hybrids and Fuzzy – Genetic Hybrids.Text Books:

1. Neural Networks, Fuzzy Logic and Genetic Algorithms: S Rajasekharan, S A Vijayalekshmi Pai, Prentice-Hall India, 2003

2. Neurofuzzy and Soft Computing: J S R Jang, C T Sun, E Mizutani , Prentice-Hall International, Inc USA, 1997

3. Neural Networks: James A Freeman and David M Skapura, Pearson Education, 20024. Genetic Algorithms: David E Goldberg, Person Education, 20035. Fuzzy Logic, Intelligence, control, and Information: John Yen and Reza Langari ,

Pearson Education, Delhi, 2003Reference Books:

1. Neural Fuzzy Systems: C T Lin and C S G Lee, Prentice-Hall, 1996.2. Fuzzy Engineering: Bart Kosko,Prentice-Hall, 1997.3. Introduction to Neural Networks: Jack N. Zurada, Jaico Publishers.4. Neural networks: Simon Haykins, Prentice-Hall, 1993/Pearson Education, 1999.



EE-824 : DIGITAL CONTROL SYSTEMSPeriods/weekL: 4 T: 0 Credits: 4 Max. Marks: 150


Objective: To provide sound knowledge in digital control systems.PART - A

Unit 1 Digital Control SystemBasic Digital Control System Examples - mathematical model-ZOH and FOH- choice of sampling rate- principles of discretisation-Mapping between s-domain and z-domain-Pulse transfer function- Different configurations for the design- Modified z-transform- Multi-rate discrete data systems.Unit 2 Responses of StabilityTime Responses of Discrete Data Systems Steady state performance- Correlation between time response and root locations in the z-plane-Jury’s stability test –Root locus- Polar plots-Nyquist stability criterion- Bode plot- Bilinear transformation method and Routh stability criterion on the r-plane -Bode plot using bilinear transformation. Unit 3 Design of CompensatorsCascade Compensators Using Root Locus Design of PID controllers- Cascade compensation by continuous data controllers using bilinear transformation - Feedback continuous data controller- Two degrees of freedom compensation.

PART - BUnit 4 Design of Digital ControllerDigital Controller Using Bilinear Transformation-Dead-beat response design Deadbeat controller without and with prescribed manipulated variable-Choice of sample time for deadbeat controller-Realization of digital controllers. Computer based simulation.

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Unit 5 State Space Analysis of Digital Control SystemsState variable model of discrete data systems with S/H devices State transition equations- state diagrams- Transfer function- Transformation to Jordan canonical form and phase variable form- Computation of state transition matrix using Cayley-Hamilton theorem and z-transform method. Unit 6 Design and Computer SimulationResponse Between sampling instants Controllability, Observability, stabilizability and reachability- Loss of controllability and observability due to sampling- Pole placement design using state feedback for SISO systems. Computer based simulation.Text Books:

1. Digital control and State Variable methods: M.Gopal, Tata McGraw –Hill , 1997.2. Digital Control Systems: B.C. Kuo, 2nd Ed., Oxford University Press,1992.

Reference Books:1. Digital control systems Theory, hardware software: Constantine H. Houpis and Gary

B. Lamont, Mc-Graw Hill Book Company, 1985. 2. Digital control systems, Volume I, Fundamentals , Deterministic control: R.Isermann,

(2nd revised edition),Springer Verlag, 1989. 3. Modern digital control systems: R.G.Jacquot, (second edition),Marcel Dekker, Inc.,

1995. 4. Digital control system analysis and design: Philips and Nagle, Prentice Hall, 1984.5. Digital Control of Dynamic Systems: G.F.Franklin, J.David Powell and M.Workman, 3rd

Ed., Addison Wesley, 2000.Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions will be set from each Part A and Part B (one from each unit). Student needs to attempt two questions out of three from each part. Each question will be of 20 marks.


M-626: SOLAR ENERGY AND ITS APPLICATIONSPeriods/week MAX. MARKS: 150L: 4 T: 0 Credits: 4 Internal : 50Duration of Ext. Exam: 3 Hrs External : 100Objective: To introduce the students to basic concepts of solar energy, it’s availability, collection techniques and losses in the process, storage and application.

PART AUnit 1 Solar Flux and Weather Data Introduction, Solar Constant, Spectrum of sun, Diurnal Variation of Direct Sunlight, Height variation of direct sunlight. Standard Atmosphere, Zenith Distance Flux Variation, Geographical distribution of sun-shine and effects of weather on Solar Flux. Introduction to solar Flux observation, Instruments such as pyranometer, Phyrheliometer and Sunshine Recorder, Correlation between direct and total Insulation, Solar flux variation dynamic, Correlation of sunshine with Wind Velocity, Environmental Thermal Infrared Flux and ETIR Model.Unit 2 Solar AvailabilityIntroduction, Zenith Distance Vs time, Time of sunrise and sun-set fully Tracking collector, Variation of flux curves with latitude and geometry, Introduction tom Fixed Flat plate (horizontal, latitude Tilted, fixed latitude + 15°, Vertical South-facing, seasonally Tilted) N-S and horz, east west tracking and N-S polar east west tracking, East west horz and N-S tracking, Comparison of theoretical curves with observation, comparison of daily output; Peak flux Vs Average flux,

Unit 3 Heat Transfer in Solar Collectors Introduction, Heat Losses in a Distributed Collector system. The Liquid Transfer Module System, Solar Heat Availability, Fluid Mechanics, Fluid Properties, Temperature Rise, Solar Flux, Pressure Drop Relations, Reynolds Number, Ratio of Power Expended to Power Generated, Magnitude of Power Output/Input Ratio,Parametric Relationships for Fluid Transfer, Variation of Output/Input Ratio with Solar Flux. Air-Transfer Systems, Air Heat Transfer in Terms of Volume Rate of Flow, Typical Evaluation Situation. Alternative

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Forms of the Heat-Rise Equation, Effect of Changing Heat-Transfer Fluid, Heat Transfer in Evacuated Collectors,Thermodynamic Utilization of Collected Energy, Evacuated Collectot Trade offs. Linear Absorber with Air Radiation Suppression Using Honeycombs Convection Suppression Using Honey-combs, Heat Pipes, Heat Transfer alongh Thin Sheets, Differential Thermal Expansion, Problems.

PART BUnit 4 Flat-Plate Collectors

Introduction, Basic Collector Configurations, Diurnal Temperature, Profile, Thermal Inertia U-Factor, Collector Heat Balances. Sample Calculation, Surface Temperature. Efficiency versus-Temperature Curves, General Properties of an efficiency Vs Change and Temperature, The Bare Collector; Single –Window Collector, Double Window Collector Improvement of Performance, Geometrical Suppression of Convection, Window Temperature. Effect of Selective Absorber Surface, Selective Windows Facing Selective Surface Combination of Absorber and selective windows, Comparison of Thermal Behaviour for Selective Windows, Window Absorption Non reflection Coated Window, Variation of Efficiency with Solar Flux, Evacuated, Cooling, Selective Radioactive Cooling, Cylindrical Collector Structure Flat-Plate Collector performance, Solar Ponds.

Unit 5 Energy StorageIntroduction, Basic System Diagram, Peaking Effect of Back up Demands, Energy Storage, Hydrostorage Chemical Batteries Flywheels Chemical Storage, Compressed Air, Biological Storage, Thermal Storage, Sensible-Heat Storage, Latent-Heat Storage, Salt Eutectics, Zoned Thermal Storage Fluid Tank, Rock Thermal Storage Tank, Thermal Storage Tank Farm, Heat Management with and without Phase Change, Thermal inertia, Calculation of Detailed Performance.

Unit 6 Application of Solar EnergyHistory and Survey Application, Community Heating & Cooling system, Solar Water pumping, Solar gas absorption refrigeration, MEC Cooling system, Two stage evaporative cooling etc.

Text Books:1. Applied Solar Energy: An Introduction: Aden B.Meinel & Marjoric P.Meinel, Addison Wesley.2. Solar Energy Hand Book: Jan F.Kreider & Fran K, Kreith, MGH.Instructions for setting of Paper Seven questions are to set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions will be set from each part A and part B (one from each unit). Student needs to attempt two questions out of three questions from each part. Each question will be of 20 marks.


EE-626 : ENERGY CONSERVATON AND MANAGEMENT



Objective: This subject provides essential input to equip engineers of any discipline suitable to take up responsibility of an manager in any organization.

PART - AUnit 1 Global Energy Scenario and Need for Energy ConservationEnergy intensity, GDP coupling, General principles of energy management and energy management planning. Establishing energy database.

Unit 2 Energy AuditIdentifying, evaluating and implementing feasible energy conservation opportunities – energy audit report.

Unit 3 Energy Management Profession Thermodynamics and energy, Energy efficiency analysis, Coefficient of performance, Energy effectiveness. Management of heating, ventilating and air– conditioning (HVAC): principles, opportunities and case studies.

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PART - BUnit 4 Management of Process Energy Principles, opportunities and case studies. Management of electrical load and lighting – Management opportunities with electric drives, lighting, heating and electrolytic systems – Electrical load analysis – Peak demand control.

Unit 5 Financial Evaluation of Energy Projects Evaluation of Proposals Payback method – Average rate of return method – Internal rate of return method – Present value method – Life cycle costing approach.

Unit 6 Least Cost Power Planning and Energy ManagementLeast cost power planning end use oriented energy scenario, DEFENDUS strategy. Use of computers in energy management (description about basic ideas only): co-generation of electricity.Text Books:

1. Industrial Energy Conservation: Charles M Gottschalk, John Wiley and Sons, 1996.2. Energy Management Principles: Craig B Smith, Pergamon Press.

Reference Books:1. IEEE recommended practice for energy management in industrial and commercial

facilities, IEEE std 739 – 1995 (Bronze book). 2. Optimizing Energy Efficiencies in industry: G G Rajan , Tata McGraw Hill, Pub. Co.,

2001.3. Energy Management: Paul O’Callaghan, McGraw Hill Book Co.4. Energy Management Hand Book: Wayne C Turner, The Fairmount Press, Inc., 1997.5. Energy Technology: S Rao and B B Parulekar. Khanna Publishers, 1999.



EC-724: VLSI DESIGN

Periods/week: 4

L: 3 T: 1 Credits: 3.5 Max Marks: 150 Internal: 50

Duration of Examination: 3Hrs External: 100

Objective: The students will be familiarized with the IC technology and fabrication.

PART - A

Unit 1 IC TechnologyIntroduction to monolithic integrated circuit technology, bipolar and MOS IC, evolution of VLSI, Moore’s law, Melay’s law, trends and projections in VLSI circuits, flow diagram of VLSI circuits design.

Unit 2 Fabrication ProcessSilicon wafer preparation, crystal growth, oxidation diffusion, ion implantation, photolithography, photo resist, etching, metallization, fabrication process of N-MOS, P-MOS and CMOS.

Unit 3 MOS Transistor TheoryEnergy band diagram, depletion and enhancement MOSFETs, weak and strong inversion conditions, threshold voltage, I-V characteristics of MOSFET, i-v equation, limitations of

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MOSFET, parasitics, MOS transistor as a switch, body effect, punch through effect, impact ionization, subthreshold region, mobility variation. MOS transistor transconductance and output conductance, figure of merit, scaling effects (RLC estimation).

PART - B

Unit 4 MOS InverterInverter: CMOS, Bi CMOS, its dc characteristics, determination of pull-up to pull-down ratio , alternatives forms of pull up, latch up in CMOS circuitry and Bi CMOS latch up susceptibility, clocking strategies.

Unit 5 MOS Circuit and Logic DesignStandard digital ICs, combinational circuits, logic gates, multiplexers, half adders, full adders and realization of other Boolean expressions using N-MOS, P-MOS and C-MOS logic and their stick diagrams, sequential circuits: SR latch circuits, clocked latch, flip-flops, counters and shift registers.

Unit 6 Semiconductor MemoriesROM, RAM, PLA, PAL, PGA, FPGA.Text Books:

1. CMOS VLSI Design, A Circuits and Systems Perspective: Neil H.E. Weste, David Harris, Ayan Banerjee, Pearson.

2. Microelectronic Circuits: Sedra /Smith, Oxford University Press.3. VLSI Technology: S. M. Sze(Ed.), MacGraw Hill, 1988.

Reference Books:1. Basic VLSI Design: D.A.Pucknell and Eshraghian, PHI.2. CMOS Digital Integrated Circuits Analysis and Design: Sung-Mo Kang, Yusuf Leblebici,

TMH. Instructions for paper setting: Seven questions are to be set in total. First question will be conceptual covering entire syllabus and will be compulsory to attempt. Three questions will be set from each Part A and Part B (one from each unit). Student needs to attempt two questions out of three from each part. Each question will be of 20 marks.


EC- 503A: DIGITAL SYSTEM DESIGN

Periods/week Credits Max. Marks : 150L: 3 T: 1 3.5 Internal : 50Duration of Examination: 3 Hrs External : 100

Objective: The students will be able to appreciate concepts pertaining to combinational, sequential circuits and design implementation with CPLD and FPGA.

PART–AUnit 1: IntroductionIntroduction to computer-aided design tools for digital systems, types of hardware description languages, VHDL: data objects, classes and data types, Operators overloading, logical operators, types of delays, entity and architecture declaration, introduction to behavioural, dataflow and structural models.

Unit 2: VHDL StatementsAssignment statements, sequential statements and process, conditional statements, case statement, array and loops, resolution functions, packages and Libraries, concurrent statements, subprograms, application of functions and procedures, structural modelling, component declaration, structural layout and generics.

Unit 3: Combinational Circuits Design

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VHDL models and simulation of combinational circuits such as multiplexers, demultiplexers, encoders, decoders, code converters, comparators, implementation of Boolean functions etc.

PART-BUnit 4: Sequential Circuits DesignVHDL models and simulation of sequential circuits flip-flops, shift registers, counters etc.

Unit 5: Microcomputer DesignBasic components of a computer, specifications, architecture of a simple microcomputer system, implementation of a simple microcomputer system using VHDL.

Unit 6: Design Implementation with CPLDs and FPGAs Programmable logic devices: ROM, PLAs, PALs, GAL, PEEL, CPLDs and FPGA, design implementation of combinational and sequential circuits & microcomputer using CPLDs and FPGAs.

Text Books:

1. Digital System Design using VHDL: Charles H Roth Jr, Thomson Learning, 2002.2. VHDL: Analysis & Modelling of Digital Systems: Navabi Z, McGraw Hill.

Reference Books:

1. Fundamentals of Digital Logic Design with VHDL: Stephen Brown & Zvonko Vranesic, TMH, 2 E, 2007.

2. Digital Design: Jhon F Wakerly, PHI, 4 E. 3. Digital System Design using VHDL: Yogesh Misra, Dhanpat Rai & Co., 2 E. 4. A VHDL Primmer: Bhasker, Prentice Hall, 1995


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syllabus btecheee(third to eighth[1].june2012)

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