GANPAT UNIVERSITY Sem-I (CE/IT/EC/BM/MC/ME/C) … TECH EC... · A Text Book of Engineering Graphics By P.J.Shah S.Chand & Company Ltd., New Delhi 2. A Text Book of Machine Drawing

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GANPAT UNIVERSITY Sem-I (CE/IT/EC/BM/MC/ME/C)

2HS 101: Engineering Mathematics - I

Unit No

Topics Lectures(Hours)

1

Differential Calculus Review of the prerequisites such as limits of sequences and functions, continuity, uniform continuity and differentiability. Successive differentiation, Leibnitz’s theorem, Taylor's & Maclaurin's expansions, Indeterminate forms.

9

2

Mean value theorems Rolle’s theorem, Lagrange’s Mean value theorem, Cauchy’s Mean value theorem.

5

3

Partial differentiation and its applications Partial and total differential coefficient, Eulers theorem, Transformations, Geometrical interpretation of partial derivatives, Tangent plane and Normal line, Jacobians, Taylors expansion for two variables, Errors and approximations, Maxima and Minima of functions of two variables ,Lagranges method of undetermined multipliers to determine stationary values.

10

4

Matrix Algebra Elementary transformations & rank, inverse by Gauss-Jordan Method, normal form of a matrix, consistency of system of linear equations, Linear dependent and Linear independent vectors. Eigen values and eigen vector.

14

5

Infinite Series Definition, Comparison test, Caucheys integral test, ratio test, root test, Leibnitz rule for alternating series, power series, range of convergence, uniform convergence.

6

6

Analytical Solid Geometry Coordinate system, Cartesian, Cylindrical Polar and Spherical Polar (Transformation from one to another system), Quadric Surfaces and their equations

4

Total 48

Reference Books:

(1) Higher Engineering Mathematics by Dr. B. S. Grewal (2) Higher Engineering Mathematics Vol. I & II by Dr. K. R. Kachot. (3) Calculus and analytical geometry by G. B. Thomas and R. L. Finney (4) Higher Engineering Mathematics by G. C. Patel, Dr. T. A. Desai, P.A.Patel

Teaching Scheme

Credit Examination Scheme ( Marks)

TheoryPractical / TW

Total Theory

Pra/TW

TotalInt. Asse

ss

Sem. End Lect Hrs

Tu Hrs

Prac. Hrs

Total

Marks

Hrs

03 01 00 04 03 01 04 30 70 3 - 100

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GANPAT UNIVERSITY

B.Tech I/II (CE/IT/EC/BM & I/MC/ME/C)

2EC 101: Engineering Science

Unit No.

Topics

Lectures (Hours)

1

Thermal Physics Introduction, Joule-Thomson Effect, Thermometry, Conduction, Convection, Radiation, Thermal Conductivity of material, Concept of heat and work, Laws related to thermodynamic radiation, Entropy

5

2

Optics Introduction, Different theories based on the properties of light, Reflection, Refraction, Dispersion, Absorption, Lasers and Fiber Optics- Introduction and applications, Photoelectric Effects and its applications

5

3 Acoustics Introduction, Parameters associated with sound wave, Doppler effects, Introduction to Ultrasonic and its applications

4

4

Magnetics Introduction, Magnetic dipole moment, Magnetic field, Classification of magnetic materials, Ferromagnetism, Diamagnetism, Application of magnetic materials

5

5

Modern Physics Introduction, Nucleus, Introduction to cosmic rays, Introduction to X- rays and Its applications, Introduction to Nano-technology and Nano-materials, Its properties and application,Introduction and Applications of Plasma Physics, Superconducting material

5

6

Semiconductors and Diode Theory Conductors, Semiconductors, silicon crystals, intrinsic semiconductors, doping, types of semiconductors, biasing, Breakdown, energy levels and hill, barrier potential, biasing of diode, diode approximations, trouble shooting, up down circuit Analysis, reading a data sheet, resistances of diode

10

7

Diode Circuits Half wave rectifier, transformer, full wave rectifier, bridge rectifier, choke input filter, capacitor input filter, Peak inverse voltage and surge, other power supply topics, trouble shooting, clippers and limiters, Clampers, voltage multipliers

9

8

Bipolar Transistors Transistor construction, transistor operation, unbiased transistor, biased transistor, transistor currents, CE configuration, base curve and collector curves, transistor approximation, reading data sheets, Trouble shooting, transistor testing

5

Teaching Scheme Credit Examination Scheme

Theory Practical Grand Total

Sem. End Pract./ TW Assessment Lect.

(Hrs.) Tu Pract. (Hrs.)

Total (Hrs.) Theory Pr/TW Total Int.

Asses. Marks Hrs. Total

04 00 00 04 04 00 04 30 70 03 100 00 100

2/2

Total 48

Reference Books: (1) Modern Engineering Physics by A.S.Vasudeva Pub: S. Chand (2) Fundamentals of Physics by Halliday, Resnik, Walker Pub: Willey (3) A Text book of Engineering Physics by M.N. Avadhanuly, P.G.Kshirsagar Pub: S.Chand (4) Modern Physics by G. Aruldhas, P.Rajagopal Pub: PHI Pub. (5) University Physics by Harris Benson Pub: Willey Pub. (6) Electronics Principles by A.P. Malvino (TMG) (7)Modern Physics by G. Aruldhas & P. Rajagopal (PHI)

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GANPAT UNIVERSITY


2CI 101: Elements of Civil Engineering

Unit No.

Topics

Lectures (Hours)

1 Introduction : Impact of Infrastructural Development on the Economy of a Country, Role of Civil Engineers, Importance of Planning, Scheduling and Construction management.

02

2 Water Resources and Hydraulics: Importance of Hydrology, Classification of Water resources & Requirement of water for various uses, Water Management Strategies, Water Resources Development in India. Introduction of Dams, Introduction of water supply and Drainage System

08

3 Surveying: Chain Survey: Linear measurements, Errors in chaining, problems on obstacle Directions and Bearings: Types of Bearings and Meridians, Whole Circle Bearing and Quarter Circle Bearings, Compunctions of Angles from bearings and bearings from angle, Magnetic Declination, Local Attraction, Various Problems Elevation Measurements: Introduction of Level Machine, Methods of leveling, Recording and Reducing of levels, Contour Survey. Area and volume: measurement by Planimeter Modern Tools of Surveying and Mapping: Introduction to Theodolite, Electronic Distance Measurement Instruments, Total Station, Global Positioning System, Remote Sensing and Geographic Information System

16

4 Construction Materials: Introduction, Masonry Materials: Stones, Bricks, Blocks, Tiles; Binding Materials: Lime & Cement; Aggregates, Mortar & Concrete, Timber, Specification of all Building Materials as per IS Standards, Method of Drawing Plan, Elevation and Section of Building

12

5 Transportation Engineering: Role of Transportation in National development, Transportation Ways, Surface Transportation and Aviation, Elements of Highway materials properties and highway Construction, BOT Projects for Highways, Elements of Traffic Engineering and Traffic Control

08

Total 48







04 00 02 06 04 01 05 30 70 03 100 25 125

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Reference Books:

1. Hydrology and Water Resources Engineering- By Santosh Kumar Garg

2. Building Construction – By B. C. Punmia ,Laxmi Pub.House

3. Surveying – I By B. C. Punmia ,Laxmi Pub.House

4. Materials of Construction By D. N. Ghose

5. Highway Engineering - Khanna S.K and Justo C.E.G.,Khanna Publishers , Delhi

6. Element of civil & mechanical Enginnering, -Prof.P.S.Desai.& G.P.Vadodariya,Atul

Prakash

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GANPAT UNIVERSITY


2ME 102: Engineering Graphics

Unit No.

Topics

Lectures (Hours)

1 Introduction: Importance of Engineering Drawing, Engineering Drawing Instruments and uses, B.I.S and I.S.O. Conventions for drawings, Use of plane scales and Representative Fraction

01

2 Loci of Point: Path of the points moving on simple arrangements and simple Mechanism, Slider Crank Mechanism, Four bar Chain Mechanism etc.

03

3 Engineering Curves: Classification of Engineering Curves, Construction of Conics curves with different methods, Construction of Cycloidal Curves, Involute and Spiral.

04

4

Projection of Points and Straight Lines: Introduction to principal planes of projections, Notation System- Points in First, Second, Third and Fourth quadrants, Projections of line Parallel to Two and Perpendicular to one of the principal planes, Line parallel to one and inclined to two principal planes, Line inclined to all the three principal planes, True length of the line and its inclination with the reference planes.

06

5 Projection of Planes: Concept of different planes, Projections of planes with its inclination to one principal plane and with two principal planes. Concept of auxiliary plane method for projections of the plane.

04

6

Projection of Solids and Sections of Solids: Classifications of Solids, Projections of right and regular solids with their axis Parallel to Two and Perpendicular to one of the principal planes, axis parallel to one and inclined to two principal planes, axis inclined to all the three principal planes. Section of such a solids and the true shape of the section.

06

7 Development of surfaces: Methods of development of lateral surface of right solids, Parallel line development, Radial line development.

04

8 Interpenetration of Solid: Interpenetration of Right Regular Solids – Intersection of Cylinder Vs Cylinder, Cylinder Vs Prism, Cylinder Vs Cone.

04

9

Orthographic Projections & Sectional Orthographic Projections: Principle of projection, Principal planes of projection, Projections from the pictorial view of the object on the principal planes for View from Front, View from Top and View from Side using first angle projection method and third angle projection method, Full Sectional View.

08

10 Isometric Projections and Isometric View or Drawing: Isometric Scale, Conversion of orthographic views into isometric projection, isometric view or drawing.

06







04 02 00 06 04 01 05 30 70 03 100 25 125

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11 Fastening and Connecting Methods: Screw threads, Bolts, Nut, Stud, locking devices, Riveted joint, Coupling, Foundation bolts,

02

Total 48

Term Work. Based on above syllabus, each candidate shall submit a set of the following graphics sheets and sketch book certified by the principal of the college that they have been executed in a satisfactory manner in the graphics halls of the college. Text Books: 1. A Text Book of Engineering Graphics By P.J.Shah S.Chand & Company Ltd., New Delhi 2. A Text Book of Machine Drawing By P.J.Shah S.Chand & Company Ltd., New Delhi 3. Elementary Engineering Drawing By N.D.Bhatt Charotar Publishing House, Anand Reference Books: 1. Engineering Graphics – I and II By Arunoday Kumar Tech – Max Publication, Pune 2. Engineering Drawing & Graphics using Auto CAD 2000 By T. Jeyapoovan Vikas Publishing House Pvt. Ltd., New Delhi 3. A text book of Engineering Drawing By R.K.Dhawan S.Chand & Company Ltd., New Delhi 4. A text book of Engineering Drawing By P.S.Gill S.K.Kataria & sons, Delhi 5. Engineering Drawing with an Introduction to AutoCAD By D.A.Jolhe Tata McGraw-Hill Publishing Co. Ltd., New Delhi 6. Computer Aided Engineering Drawing, S. Trymbaka Murthy I.K.International Publishing House Pvt. Ltd., New Delhi 7. Engineering Drawing and Graphics, Venugopal

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GANPAT UNIVERSITY


2CE 101: Computer Programming

Unit No.

Topics

Lectures (Hours)

01

Introduction to Programming & C Introduction to programming and programming language, Problem Solving Methods: Algorithms and Flowcharts, Introduction to C, Basic structure of C programs, Sample C programs, Process of compiling and running a C Program

2

02

Constants, Variables and data Types: Character Set, C tokens, Keywords and Identifiers, Constants, Variables, Data types, Declaration of Variables, Assigning values to variables, typedef, Defining symbolic constants. Printf & scanf function.

3

03

Operators and Expression: Introduction, Arithmetic Operators, Relational Operators, Logical Operators, Assignment Operators, Increment and Decrement Operators, Conditional Operators, Special Operators, Evaluation of expressions, Precedence of arithmetic operators, Type conversions in expressions, Operator precedence and associativity.

4

04 Management Input and Output Operators: Introduction, reading a character, writing a character, formatted input, formatted output.

2

05

Decision Making branching: Introduction, Decision making with IF statement, the IF.. ELSE statement, nesting of IF … ELSE statements, The ELSE IF ladder, The switch statement, and the turnery (?:) Operator, the GOTO statement

4

06 Decision Making Looping: Introduction, the WHILE statement, the DO statement, FOR statement, Break and Continue.

4

07 Array: Introduction, One-dimensional, arrays, Two-dimensional arrays, arrays, Concept of Multidimensional arrays.

4

08

Handling of Character strings: Introduction, Declaring and initializing string variables, Reading string from terminal, Writing string to screen, String, atoi(), Operations: String Copy, String Compare, String Concatenation And String Length(using predefined functions & without using them), Table of strings.

4

09

User-Defined Functions: Introduction, Need for user-defined functions, The form of C function, elements of UDf, Return values and their types, Calling a function, category of functions, Nesting of functions.

5







02 00 04 06 02 02 04 30 70 03 100 25 125

2/2

10

Structures and Unions: Introduction, Structure definition, declaring and initializing Structure variables ,accessing Structure members, Copying & Comparison of structures, Arrays of structures, Arrays within structures, Structures within Structures, Structures and functions, Unions.

5

11 User –Defined Functions –II Recursion , Functions with arrays, The scope and Lifetime of variables in functions, multifile program.

2

12

Pointers: Introduction, Understanding pointers, Accessing the address of variable, Declaring and initializing pointers, Accessing a variable through its pointer, chain of Pointers, Pointer expressions, Pointer increments and scale factor, Pointers and arrays, Pointers & character strings, Pointers & Functions, Function returning multiple values(9.14),Pointers and structures.

6

4 File Management in C: Introduction, Defining files and its Operations, Error handling during I/O operations, Random access files, Command line arguments.

3

Total 48

Reference Books: (1) Programming in ANSI-C By E. Balaguruswami, TMH Publication (2) Let us C By Yashwant Kanetkar, BPB Publication (3) C Programming language By Kernighan, Brian, W, Retchie, Dennis PHI Publication

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GANPAT UNIVERSITY B.Tech FIRST YEAR (CE/IT/EC/BM & I/MC/ME/C)

2ME 103: WorkShop Practice

Objectives:

To make the students familiar with various operations and processes like joining, machining and

use of different tools of common use. This will develop various hand skills and impart working

knowledge of various Machines, devices, tools, instruments etc. and safe practices, and to make

them familiar with different machines of common use and domestic appliances.

(A) MECHANICAL UNIT -1 INSTRUCTION AND DEMONSTRATION

Instruction should be given for each of following shops which include importance of the shop

in engineering, new materials available, use of each tool / equipment, methods of processing

any special machines, power required etc.

UNIT -2 Carpentry Shop: Study of tools & operations and carpentry joints, Simple exercise using jack plane, Simple

exercise on woodworking lathe. UNIT -3 Fitting Shop:

Study of tools & operations, Simple exercises involving fitting work, Make perfect male-

female joint, Simple exercises involving drilling/tapping/dieing.

UNIT -4 Smithy Shop: Study of tools & operations, Simple exercises base on smithy operations such as upsetting,

drawing down, punching, bending, fullering & swaging.

UNIT -5 Plumbing Shop: Study of Tools and Operations, Simple exercises of piping.

UNIT -6 Welding Shop: Study of tools & operations of Gas welding & Arc welding, Simple butt and Lap welded joints,

Oxy-acetylene flame cutting.

UNIT -7 Sheet-metal Shop: Study of tools & operations, making sheet metal component using ‘soldering’. Ex: Funnel,

tool-box, tray, electric panel box etc.

UNIT -8 Machine Shop: Study of machine tools and operations, Demonstrations of basic machine tools like Lathe,

Teaching Scheme (Hrs.) Credit Examination Scheme

Theory Practical Grand Total L

(Hrs) T

(Hrs) P

(Hrs) Total (Hrs) Theory Pr/TW Total Int.

Asses.

Sem. End Total Practical/oral

Assessment Marks Hrs

00 00 04 04 00 02 02 0 0 0 0 50 50

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Shaper, drilling machine with basic operations etc.

UNIT -9 Foundry Shop: Study of tools & operations like Pattern making, Mould making with the use of a core. Various

Casting processes.

(B) ELECTRICAL/ ELECTRONICS. UNIT- 1. Identification of electrical and electronics components.

Resistors, Capacitors, Inductors, Diodes, Transistors, Thyristors

UNIT- 2. Soldering. Different electrical and electronics components on PCB

UNIT- 3. Domestic and Industrial Electrical wiring. Types of wiring, domestic wiring installation, sub circuits in domestic wiring, simple

control circuit in domestic installation, industrial electrification.

UNIT- 4. Fault finding of following domestic devices.

1. Mixer Grinder

2. Washing Machine

3. Domestic Floor Mill

4. Electric Iron

5. Oven Toaster Griller

6. Geyser

UNIT- 5. Earthing.

Measurement of Earth resistance, Earthing methods and insulation resistance

measurement by Meager.

UNIT- 6. ICs and Data Sheet.

Identification of ICs and data sheet reading.

UNIT- 7. Operation of Passive Devices

a. Relays.

b. Optoectronic devices.

c. Switches. d. Conductors.

UNIT- 8. Bell Circuits and Indicators

Types of bell, Alarm circuits without relay, Types of diagram, The use of relay in

alarming circuits, Bell circuits using supplies, T.D.R. (Time Delay Relay) circuits, Use

of indicators in various circuits.

UNIT- 9. Electrical Energy meter

1ĭ & 3ĭ Energy meter, Energy calculation

3/3

Term Work Term Work will be based on above syllabus. Students will be given creative mini project under

fun module.

Reference Books:

1. Elements of Mechanical Engineering by Hajra Chaudhary

2. Elements of Mechanical Engineering by Mathur & Mehta

3. Work shop technology by Hajra Chaudhary

4. Work shop technology by Chapmen

5. Electronics principle by A. Malvino

6. Electrical wiring, estimating and costing by S.L.Uppal, Khanna Publication.

1/1

GANPAT UNIVERSITY Sem-II (CE/IT/EC/BM/MC/ME/C)

2HS 102: Engineering Mathematics – II

Unit No

Topics Lectures (Hours)

1

Integral Calculus Beta & Gamma, Error functions, Elliptic functions. Application of integration-- Length of a curve, Area of a bounded region, Volume & surface area of a solid of revolution for Cartesian, parametric & polar form.

8

2 Reduction Formulae Reduction formulae of the type ∫ sinnx dx, ∫ cosnx dx,

∫ sinmxcosnxdx, ∫ cotnxdx, and ∫ tannxdx. 4

3

Multiple integrals Double integral, change of order of integration, transformation of variables by Jacobian only for double integration, change to polar co-ordinates in double integrals,Triple integral, Application of multiple integration to find areas, volumes, C.G., M.I. and mean values.

12

4

Complex Numbers DeMoivres theorem & its applications, functions of complex variables Exponential ,hyperbolic & inverse hyperbolic, trigonometric & logarithmic.

10

5

Differential Equations & Modelling Modelling of Engineering systems (leading to ODE of first order, first degree, including orthogonal trajectories), Exact differential equations and integrating factors, unified approach to solve first order equations, linear, reducible to linear and higher degree differential equations (Clairut’s equation only).

10

6 Curves Tracing Tracing of Curves: Cartesian, polar and parametric forms. 4

Total 48

Reference Books:

(1) Higher Engineering Mathematics by Dr. B. S. Grewal (2) Higher Engineering Mathematics Vol. I & II by Dr. K. R. Kachot.

(3) Advanced Engineering Mathematics (Fifth Edition), Erwin Kreyszig. (4) Applied Mathematics for Engineering by Dr. R. C. Shah.

Teaching Scheme

Credit Examination Scheme ( Marks)

TheoryPractical / TW

Total Theory

Pra/TW

TotalInt. Asse

ss

Sem. End Lect Hrs

Tu Hrs

Prac. Hrs

Total

Marks

Hrs

03 01 00 04 03 01 04 30 70 3 - 100

1/2

GANPAT UNIVERSITY

SEMESTER – I/II (IT/CE/EC/BM&I/MC/ME/Civil)

2HS 103: Language & Communication Skills

Teaching Scheme (Hrs.) Credit Examination Scheme ( Marks) Theory

TW/Practical Total Lect Hrs

Tu Hrs

Prec. Hrs

Total Theory Pr/TW Total Int. Assess

Sem. End

Hrs

02 02 00 04 02 01 03 30 70 3 25 125

Unit No.

Topics Lectures(Hour)

1 Basics of Technical Communication: 4

Introduction to English language and communication, Principles, process and forms of communication, Role of Language in communication, Barriers to communication, Difference between general and technical communication

2 Listening & Reading Skills: 4

Listening Skill: Definition and process of listening skill, Types of listening, Modes of listening, Active listening and reflective response.

Reading Skill: Reading as a communicative process, Types and strategies of reading like reading for facts, guessing meanings from context, paraphrasing, scanning, skimming, inferring meaning, critical reading, Reading at various speeds (slow, fast, very fast); reading different kinds of texts for varied purposes; reading between lines, Reading of technical text

3 Oral Communication: 6

Presentation and Public Speaking: Nature of presentation, How to prepare presentation, Presentation tools along with guidelines of effective presentation, Boredom Factors in presentation and how to overcome them, Interactive presentation. Nature of public speaking, Tips for public speaking, Difference between presentation and public speaking

Job Interviews and Group Discussion: The interview process, Objectives of job interview, Types of interview, Characteristics of job interview, Pre-interview preparation techniques, Interview questions and answering techniques, Nature of group discussion, Characteristics of group discussion, Organizational group discussion, Group discussion as a part of selection process, group discussion strategies, Techniques for individual contribution in group discussion

4 Business Writing: 5

Business letter writing: Essentials of effective letter writing, Need, Functions and Types of business letters. Structure and Layout of a business letter, Drafting of business letters like inquiry, reply, purchase order, complaint and adjustment letter, sales promotion

Advertisements: Basics of advertisement, Nature and purpose of advertisement, Types of an advertisement, Media for advertisement, preparing of an advertisement draft

2/2

5 Professional Writing: 5

Report writing: Purpose of a report, types of reports, Structure and style of reports, Committee report, Individual report

Resume and job application: Significance of resume and job application, structure, types, tips for job application, Resume writing, Job application letter

Notice, agenda, minutes of meeting: Requisites of meeting, Types of company meetings, drafting of notice, agenda and minutes of meeting

Official Correspondence: Introduction, Correspondence with different authorities like government departments, civic authorities, office bearers of financial institutions, insurance agencies

Total 24

Practicals:

At least 10 Practicals shall be performed based on above course contents during the semester.

Assignments:

At least 10 Assignments shall be given periodically during the semester.

Reference Books:

(1) Technical Communication – Principles and Practice by Meenaksi Raman & Sangeeta Sharma (Oxford

University Press)

(2) Effective Technical Communication by M Ashraf Rizvi (TMH Publication)

(3) Business Communication by V. K. Jain and Omprakash Biyani (S. Chand & Company)

(4) Business Correspondence and Report Writing by R. C. Sharma & Krishna Mohan (TMH Publication)

(5) A Guide to Business Correspondence and Communication skills by A. N. Kapoor (S. Chand &

Company)

(6) A Communicative Grammar of English by Geoffery Leech and Fan Svartvik (Pearson Longman)

(7) New International Business English by Jones & Alexander (Oxford University Press)

1/2

GANPAT UNIVERSITY B.Tech I/II (CE/IT/EC/BM & I/MC/ME/C)

2EE 101: Elements of Electrical Engineering

Unit No.

Topics

Lectures (Hours)

1

D.C. Circuits : Source Transformation, Star-Delta Transformation, Application of Kirchhoff’s Law, Superposition Theorem, Thevenin’s Theorem, Norton’s & Maximum Power Transfer Theorem.

04

2

Capacitor : Types of Capacitor, Capacitance of Multiple Parallel Plate Capacitor, Energy stored in a Capacitor, Charging & Discharging of Capacitor & Time constant.

03

3

Magnetic circuit : Law of Magnetic Circuit , Series & parallel Magnetic Circuits and Calculation, Comparison of magnetic & Electric Circuit, Magnetization Curves.

05

4

Electromagnetic Induction : Review of Faraday’s Law, Lenz’s Law, Self & Mutual Inductance, Inductance of coupled circuits, Rise and Decay of Current in Inductive circuit & Time Constant, Magnetic Hysterisis, Hysterisis Loss, Eddy Current Loss.

06

5

Work, Power, Energy : Heating Effect of Electric Current and Joule’s law - Thermal Efficiency- Electrical Units of Power and Energy - Mechanical Units of Force- Torque & Power - Calculation of Power & Energy - Energy Bill.

02

6

Illumination : Definition and important terms, Laws of illumination, Requirement of good lightning, Types and Design of lightning scheme, Street lightning , Factory and Flood lightning.

03

7

Batteries and Cells : Primary and Secondary cells, Lead acid, Nickel Cadmium secondary cells, Charging of Lead acid Batteries, Lithium primary and secondary cells, Dry button cells.

02

8

A.C.Circuits : Generation of A.C. Voltage , Equation of A.C. Voltage, Average value, R.M.S. Value, Form Factor, Peak Factor, Phase & Phase Difference, Vector Representation of A.C. Voltage and Current. Addition and Subtraction of Vectors, Mathematical Representation of Vectors, Complex Algebra, Polar & Exponential form, Pure Resistive, Pure Inductive, Pure Capacitive and combination of R-L-C Circuits, Active -Reactive and Apparent power & Power Factor, Resonance in R-L-C Series Circuit, Q-factor, Bandwidth, Solution of Parallel circuit by Admittance, Phasor & Complex Algebra methods, Resonance in Parallel circuit, Q-factor, Bandwidth.

12

9 3-Phase Circuits : Generation of 3-phase voltage, Phase Sequence , Interconnection of three

03

Teaching Scheme Credit

Examination Scheme ( Marks)

(Hrs.) Theory

Practical / TW

Total Theory Pr/TW Total

Int. Assess

Sem. End L P Total Marks Hrs

04 02 06 04 01 05 30 70 03 25 125

2/2

phase, Star – Delta, Voltage ,Current & Power relationship in balanced 3-Phase Circuits, Measurement of power in 3-phase circuit and Effect of power factor on Wattmeter readings.

10 Economic Aspects : Load curve and related factors, Tariff & its types, Causes and effects of low power factor, Methods of improving power factor.

03

11

Measuring Instrument : Operating system of Indicating instrument, Constructional and working of PMMC, Moving Iron, Dynamometer instruments, shunts and multiplier, multimeter and megger.

03

12

Safety & Protection : Safety, electric shock, first aid for electric shock other hazards of electrical laboratories & safety rules, circuit protection devices, fuses, MCB, ELCB & relays

02

Total 48

Laboratory work

At least 10 Practicals to be performed based on above syllabus. Tutorials

At least 10 Assignments and Tutorials to be solved. Reference Books: (1) Electrical Technology Volume-I by B.L.Thereja, Pub. By S.Chand (2) Elements of Electrical & Electronics Engineering by U.A.Patel , Pub. By Atul Prakashan (3) Basic Electrical Engineering by V.N.Mittal Pub. By Tata Mc Grawhill, New Delhi (4) Electrical Wiring ,Estimating and Costing by S.L.Uppal, By Khanna Publication

(5) Principles of Power Systems by V.K.Mehta Pub. By S.Chand

1/2

GANPAT UNIVERSITY


2ME 101: Elements of Mechanical Engineering

Unit No.

Topics

Lectures (Hours)

1

Introduction: Prime movers, Sources of energy, Types of prime movers, Force and mass, Pressure, Work, Power, Energy, Heat, Temperature, Units of heat, Specific heat capacity, Interchange of heat, Change of state, Mechanical equivalent of heat, Internal energy, Enthalpy, Entropy, Efficiency, Statements of Zeroth Law, First law and Second Law of Thermodynamics.

04

2 Fuels and Combustion: Introduction, Classification, Solid fuels, Liquid Fuels, Gaseous fuels, LPG,CNG and biofuels ,Calorific values.

02

3

Properties of gases : Gas laws, Boyle's law, Charle's law, Combined gas law, Gas constant, Internal energy, Relation between Cp and Cv, Enthalpy, Non flow process, Constant volume process, Constant pressure process, Isothermal process, Poly-tropic process, Adiabatic process.

05

4

Properties of Steam : Introduction, Steam formation, Types of Steam, Enthalpy, Specific volume of steam and dryness fraction of steam , Internal energy, Steam tables, Non-flow process. Measurement of dryness fraction, Throttling calorimeter, Separating calorimeter, Combined calorimeter.

05

5 Heat Engines: Thermal prime movers, Elementary heat engines, Sources of heat, Working substances, Converting machines, Classification of heat engines.

03

6

Steam Boilers : Introduction, Classification, Simple vertical boiler, Vertical multitubular boiler, Cochran type, Lancashire boiler, Locomotive boiler, Babcock and Wilcox boiler, Boiler details, Boiler performance. Functioning of different mountings and accessories.

05

7

Internal Combustion Engines : Introduction, Classification, Engine details, otto four-stroke cycle, Diesel-four-stroke cycle, Difference between otto cycle and Diesel cycle, Two-stroke cycle, Difference between two-stroke and four-stroke cycle, indicated power (ip), Brake Power (bp), Efficiencies.

06

8 Speed Control: Introduction, Governors, I.C. Engine governing, Fly wheel.

02

9 Pumps: Introduction, Reciprocating pump, types and operation, Air Chamber, Centrifugal pumps, Priming, Positive displacement pumps.

04

10

Air Compressors: Introduction, Uses of Compressed air, Reciprocating compressors, Operation of a compressor, Work for compression, Power required, Reciprocating compressor efficiency, Multistage reciprocating compressors, Rotary compressors.

03




(Hrs.) Pract. (Hrs.)



4 2 6 4 1 5 30 70 3 100 25 125

2/2

11 Refrigeration & Air Conditioning: Introduction, Refrigerant, Types of refrigerators, Vapour compression refrigerating system, Window and split air conditioners.

03

12 Couplings, Clutches and Brakes: Introduction, Couplings, Clutches, Brakes, Types of brakes. Difference between a brake and a clutch.

03

13 Transmission of Motion and Power: Introduction, Methods of drive, Power transmission elements, shaft and axle, Belt-drive, Pulleys, Power transmitted by a belt, Chain drive, Friction drive, Gear drive.

03

Total 48

Reference Books: 1. Thermal Science and Engineering by Dr. D.S. Kumar, S.K. Kataria & sons Publication New Delhi

2. Fundamental of Mechanical Engineering by G.S. Sawhney, Prentice Hall of India Publication

New Delhi

3. Thermal Engineering by R.K. Rajput ,S.Chand Publication New Delhi

1/2

GANPAT UNIVERSITY


2CI 102: Mechanics of Solids

Unit No.

Topics

Lectures (Hours)

1 Introduction:- Scalar and vector quantities, absolute and derived units, the science of mechanics, fundamental principles, SI units.

1

2 Forces & Force Systems:- Force and force systems, composition and resolution of forces, moment of a force, law of parallelogram, resultant of different force systems, Varignon’s principle..

6

3 Equilibrium: Equilibrium of a particle, resultant and equilibrant, free body and free body diagram, Lami’s theorem, equilibrium of human body joints.

3

4 Centre of gravity and Moment of Inertia:- Center of gravity of curves, plane areas and bodies, Pappus Guldinus theorem I & II, method of integration, Area moment of inertia, mass moment of inertia, M.I. of flywheel, different methods of M.I., law of parallel axis, law of perpendicular axis.

8

5 Friction:- Theory of friction, Types of friction, inclined plane friction, ladder friction, wedge friction, belt and rope friction.

3

6 Simple Lifting Machines:- Velocity ratio, mechanical advantage, efficiency, reversibility, law of machines, simple wheel & axle, differential wheel & axle, single purchase crab winch, differential wheel & axle, pulley & pulley block.

3

7 Dynamics of Particles:- De-Alembert's principle, motion of connected bodies, motion along inclined planes, impulse and momentum, Single degree free vibration

4

8 Physical and Mechanical properties of materials: Properties related to axial, bending and torsional and shear loading, Toughness, hardness ,proof stress, factor of safety, working stress, load factor.

3

9 Stresses & Strains:- Elastic, homogeneous, isotropic materials, limit of elasticity and proportionality, yield limit, ultimate strength, strain hardening, section of composite materials, prismatic and non prismatic sections. Strains: Linear, shear,lateral,thermal and volumetric, Poisson’s ratio. Stresses: Normal stresses, axial- tensile and compressive, shear and complementry shear, thermal and hoop. Applications to composite material stepped and tapered bars.

7



Sem. End Pract./ TW AssessmentLect.

(Hrs.) Tu Hrs

Pract. (Hrs.)



04 00 02 06 04 01 05 30 70 03 100 25 125

2/2

10 Beams:- Types of supports, Types of beams, Types of loads, determinate andindeterminate beams. .Bending moments and Shear force , Bending moment and shear force diagrams for statically determinate beams subjected to couples, connected forces, uniformly distributed loadings, relation between bending moment, shear force and rate of loading, point of contra flexture.

10

Total 48

Reference Books:

(1) Engineering Mechanics by Beer & Johnston (2) Applied Mechanics by S.B.Junarkar & H. J. Shah (3) Mechanics of Structure Vol. I by S.B.Junarkar & H. J. Shah

(4) Engineering Mechanics by M.N.Patel (5) Engineering Mechanics by P.J.Shah (6) Engineering Mechanics by A. K. Tayal (7) Engineering Mechanics by S. Ramamrutham (8) Engineering Mechanics by Kumar (9) Strength of Materials by Timo Shenko

(10) Strength of Materials by S. Ramamrutham

1/2

GANPAT UNIVERSITY


2CI 103: Environment Study & Disaster Management

Unit No.

Topics

Lectures (Hours)

1

Introduction to Environment: Definition, Inter-relationships amongst and between them, Components of Environment, Relationship between different components, Man-Environment relationship Impact of Technology on the environment, Environmental Degradation.

4

2

Ecology & Ecosystems: Introduction: Ecology- Objectives and Classification, Concepts of an ecosystem- structure & function of ecosystem, Components of ecosystem- Producers, Consumers, Decomposers, Bio-Geo- Chemical Cycles- Hydrological Cycle, carbon cycle, Oxygen Cycle, Nitrogen Cycle, Sulfur Cycle, Energy Flow in Ecosystem, Food Chains: Grazing, Detritus, & Food webs, Ecological Pyramids, Major Ecosystems: Forest Ecosystem, Grassland Ecosystem, Desert Ecosystem, Aquatic ecosystem, Estuarine Ecosystem.

8

3

Environmental Pollution: Air Pollution: Composition of air , Structure of atmosphere, Ambient Air Quality Standards, Classification of air pollutants, Sources of common air pollutants like SPM, SO2, NOX – Natural & Anthropogenic Sources, Effects of common air pollutants, Carbon credit. Noise Pollution: Introduction- Sources of Noise Pollution, Ambient noise levels, Effects of noise pollution on human being and wild life, Noise pollution controls, Noise standards. Water Pollution: Introduction – Water Quality Standards, Sources of Water Pollution, Classification of water pollutants, Effects of water pollutants, Eutrophication. Current Environmental Global Issues: Global Warming & Green Houses Effects, Acid Rain, Depletion of Ozone Layer.

8

4

Energy Resources: Renewable & Nonrenewable Resources: Renewable Resources, Nonrenewable Resources, Destruction versus Conservation. Energy Resources: Energy Resources - Indian Scenario , Conventional Energy Sources & its problems, non-conventional energy sources-Advantages & its limitations , Problems due to Overexploitation of Energy Resources.

4

5 Natural Disasters: Introduction, Floods, Earthquakes and Landslides, Cyclones and Thunderstorms, Tsunami, Drought, Heat wave and Sandstorms

8







04 00 00 04 04 00 04 30 70 03 100 00 100

2/2

6

Man made Disasters: War and Terrorism, Riots and Demonstrations, Residential and Industrial Fires, Transportation Accidents, Nuclear Power Accidents, Hazardous Materials and Toxic Emission, Utility Failure.

7

7

Problems regarding victims and its awareness: Saving Victims – First Twenty-Four Hours, Conducting Medical Relief Operations, Managing Relief Operations, Psychological Issues, Carrying Out Rehabilitation Work

6

8 Planning for disaster management: Local Disaster Management Cell, How to Prepare a Business Recovery Plan?, Government Response in Disaster.

3

Total 48

NOTE: It is necessary to include mock drill, field visit and expert lectures in the portion of Disaster Management. The format of the question paper in the portion of Disaster Management should be objective with short answer questions, multiple choice questions etc.

REFERENCE BOOKS:

1. Citizen’s guide to disaster management by Satish Modh Publisher:-Macmillan Publishers India,

2. Environment Engineering Vol-I & II, by Dr.S.K.Garg,

3. Introduction to Air Pollution, by R.K.Trivedi & P.K.Goel.-BS Publications,

4. Environmental Pollution Control Engineering, by C.S.Rao,

5. Vol-I- Air Pollution, Vol-II- Water Pollution, Vol-V- Noise Pollution – By S.K.Agarwal –

A.P.H.Publishing Corporation,

6. Environmental Studies: R. Rajagopalan,Oxford University Press

7. Environmental Pollution: Causes, Effects & Control by K.C Agrawal

8. Environmental Science by Richard T Wright & Bernard J Nebel

9. Environmental Science by Daniel B Botkin & Edward A Keller

10. Environmental Engineering & Management by Suresh K Dameja

11. Environmental Management by Dr. Swapan C Deb

12. Environment & Ecology by Dr Gourkrishna Dasmohapatra

13. Introduction to Environmental Engineering and Science by Master Gilbert M.

GANPAT UNIVERSITY U. V. PATEL COLLEGE OF ENGINEERING GANPAT VIDYANAGAR, KHERVA-384012

ELECTRONICS & COMMUNICATION ENGINEERING DEPARTMENT

SYLLABUS SCHEME FOR

3RD SEMESTER

U. V. Patel College Of Engineering

Constituent College Of GANPAT UNIVERSITY Ganpat Vidyanagar

Mehsana-Gozaria Highway, Kherva. (Dist: Mehsana) Gujarat

Phone: +91-2762-286805, +91-2762-286082 Fax: +91-2762-286650 web: www.uvpce.ac.in

2HS 301 : ENGINEERING MATHEMATICS III Teaching Scheme Credit Examination Scheme

Lect. Pract Total Theory Pra.

/ Oral

Total Theory Practical

Grand Total Int.

Assess. Sem End

Total Internal Assessment Marks Hrs

3 0 3 3 0 3 30 70 3 100 0 100

1. Theory of complex variables: Analytic functions, Cauchy-Riemann equation, Line integral, Cauchy’s theorem and Cauchy’s integral. Simple form of conformal transformation with application of the solution of two-dimensional problems. 2. Finite differences and difference equations: Finite differences interpolation. Newton’s and LaGrange’s formula. Difference equation with constants co-efficient. Solution of ordinary and partial differential equations with boundary conditions by finite difference method. 3. Numerical methods: Roots of algebraic equations. Solution of linear simultaneous equations. Numerical differentiation and integration. Numerical methods to solve first order, first degree ordinary differential equations. 4. Laplace transforms: Definition, Laplace transform of elementary functions. Properties of Laplace transform, Inverse Laplace transforms. Transform derivatives, Transform of integration. Multiplication by tn , Division by t, Convolution theorem. Unit step and Heaviside’s unit function, Dirac-delta function. Periodic functions Solution of ordinary linear differential equations. 5. Fourier series: Definition of periodic function. Euler’s formula. Functions having points of discontinuity. Change of intervals. Odd and even functions. Expansion of odd or even periodic functions. Half range cosine and sine series. Elements of harmonic analysis. Reference Books: 1. Higher Engineering Mathematics. By Krezig. 2. Applied Mathematics vol.-I and II. By P.N. Wartikar And J.N.Wartikar.. 3. Engineering mathematics By Srivastava. 4. Textbook of engineering mathematics By A.B.Mathur and V.P. Jaggi.

2EC 302 : ELECTRONIC DEVICES AND CIRCUITS Teaching Scheme Credit Examination Scheme


/ Oral


Grand Total Int.

Assess. Sem End


4 2 6 4 1 5 30 70 3 100 50 150

1. Diode theory and diode circuits: Review of basic semiconductor physics, Drift & Diffusion, Mobility, Conductivity, PN junction diode, Ohmic contacts, Diode volt-ampere characteristics, Temperature dependence of volt-ampere characteristics, Diode resistance, Transition Capacitance and Diffusion Capacitance, Fermilevel, Review of diode rectifiers and diode limiting circuits, Junction diode switching times, Schottkey diode, Zener diode. Tunnel Diode, Semiconductor Photodiode, Photovoltaic effect, Light emitting diode. 2. Transistor Characteristics: Review of transistor operation, current components, Ebers-Moll representation of BJT, Modes of operation, Input and Output characteristics, Transistor as an amplifier, Transistor as a switch, Transistor packages and terminal identification. Phototransistor 3. Transistor Biasing Circuits: DC Operating point, Base bias, Emitter bias, Voltage divider bias, Effect of �dc , stability of operating point, Stability factors, Thermal runaway 4. Transistor small signal amplifiers: Small signal amplifier operation, ac equivalent circuits, h parameters, common emitter, common collector and common base amplifiers, input resistance, output resistance, current gain, voltage gain, effect of bypass capacitor, stability of voltage gain, cascading of various stages. Analysis of Amplifiers. Miller’s Theorem 5. Amplifier frequency response: General concepts, low frequency amplifier response, High frequency amplifier response, Gain-Bandwidth product, Distortion in the amplifier 6. Field effect transistor: The junction field effect transistor, Characteristics of FET, Pinchoff voltage MOSFETs, Enhancement mode and depletion mode MOSFETs, Input characteristics and output characteristics of MOSFET. Small signal analysis. The FET as a VVR, CS Amplifier at high frequencies. CD amplifier at higher frequencies. 7. Integrated Circuit Fabrication: Monolithic Integrated Technology, Process steps, Photolithography, Masking and etching, Ion implantation, Packaging. 8. Power Amplifiers: Large signal amplification, Class A, Class B, Class C, Class AB push pull amplifiers, Analysis of distortion, load power, efficiency Reference Books: 1. Electronic Devices By Robert Bolystad 2. Electronic Devices By Floyd (Pearson Education) 3. Microelectronics By Jacob Millman and Arvin Grabel 4. Microelectronics circuits By Sedra/Smith 5. Integrated Electronics By Jacob Millman & Helkias

2EE 303: Electrical Engineering



/ Oral


Grand Total Int.

Assess. Sem End


3 2 5 3 1 4 30 70 3 100 50 150 1. DC Machines: Principle of operation, types, construction, winding, EMF equation, armature reaction, characteristics of dc generators, dc motor operation and types, back EMF, torque, characteristics of motor, speed control of series and shunt motors, dc motor starter. 2. Transformer: Principle of operation, construction, types, EMF equation, voltage and current transformation ratio, transformer on no load and on load, phasor diagram, voltage regulation, equivalent circuit, losses and efficiency, testing, parallel operation, Auto transformer. 3. Induction Motor: Working principle, types, construction, Torque equation, Torque / slip characteristics, power flow, losses and efficiency, speed control of induction motor, starting of induction motor, Single phase induction motor principle, types and construction, stepper motor. 4. Synchronous Machines: Basic operating principle, construction, EMF equation, winding factor, armature reaction, voltage regulation Method, and equivalent circuit, synchronous motor operation, phasor diagram, starting, synchronous condenser. 5. Electrical Power: Layout and equipments used in thermal, hydro, nuclear and gas turbine power plants, concept of transmission and distribution systems, concept of power system protection and Equipments. Reference Books:

1. Theory & Performance of Electrical Machines by J. B. Gupta. 2. Electrical machines : theory and practice M.N. Bandyopadhyaya PHI publication. 3. Electrical Technology, Volume II by B. L. Theraja. 4. Electrical Power by S. L. Uppal. 5. Electrical power system by V .K .Mehta .

�

2EC 304 : DIGITAL ELECTRONICS



/ Oral


Grand Total Int.

Assess. Sem End


4 2 6 4 1 5 30 70 3 100 50 150

1. Binary Systems: Digital Computer & Systems, Binary Numbers, Number Base conversions, Different Number systems & their relations, Complements, Binary codes, Binary storage & registers. 2. Digital Integrated Circuits: RTL, DTL circuits, I2L Logic, TTL, ECL, MOS & CMOS circuits & their characteristics, source current & sink current. 3. Boolean Algebra & Logic Gates: Basic definitions, Axiomatic definition of Boolean Algebra, Basic Theorems & Properties, Boolean functions, Canonical & Standard forms, Logic operations, Digital Logic gates & Logic families. 4. Simplification of Boolean Functions: Map method,Two,Three,Four,Five & Six variable maps, Products of Sum & Sum of Products implification, NAND, NOR & Other two level Implementations, Don't care conditions,Tabulation method. 5. Combinational Logic: Design Procedure, Adders, Subtractors, Code Conversion, Analysis Procedure, Multilevel NAND & NOR circuits, Exclusive-OR & Equivalence functions. 6. Combinational Logic with MSI & LSI: Binary Parallel Adder, Decimal Adder, Magnitude Comparator, Decoders, Multiplexers, ROMs, PLAs, introduction of PLDs, CPLDs and FPGA.. 7. Sequential Logic: Latch, Flip Flops, difference between latch and flip flop, Triggering of Flip flops, Analysis of clocked sequential circuits, State reduction & assignment, Flip Flop Excitation tables, Design of Sequential circuits, Design of counters, Design using state equations. 8. Registers and Counters: Registers, Shift registers, Ripple Counters, Synchronous Counters, Memory. 9. Logic Famillies: VHDL implementation of basic gates and simple logic systems. Reference Books: 1. Digital Logic and Computer Design By Morris Mano 2. Digital Fundamentals By Floyd 3. Digital Principles and Design By Donald D Givone 4. Digital Electronics-A Practical Approach By William Kleitz 5. Digital Electronics By R. P. Jain 6. Digital Logic Design By Brian Holdsworth

2EC 305 : NETWORK ANALYSIS Teaching Scheme Credit Examination Scheme


/ Oral


Grand Total Int.

Assess. Sem End


4 2 6 4 1 5 30 70 3 100 50 150

1. Network equation formulation: Reference direction for current and voltage, active and passive element, dot conversion for coupled circuit, topological description of networks, kirchoff laws, no. of network equation, source transformations, examples of the formulation of network equations, loop variable analysis, node variable analysis, determinates, minor and Guass’s method, duality, state variable analysis. 2. Network equations solutions: Classical method, general and particular solution, time constant, integrating factor, more complicated network, second order equations. With internal and external excitation, initial conditions in networks, higher order equations, network excited by external energy source, response as related to s-plane location of roots, general solutions in terms of s,q, and Wn, laplace transformation, initial and final values of network variables. 3. Transforms of special signal waveforms : Shifted unit step function, ramp and impulse function, waveform synthesis. 4. Impedance functions and network theorems: Concept of complex frequency transfer impedance and transform circuits, superposition, reciprocity, Thevenin’s and Norton’s theorems, maximum power transfer theorem. 5. Network functions: Network functions for 1 port and 2 port, ladder network, poles and zeros of network functions, time domain behavior form pole and zero plots. 6. Two port parameters: Relationship of two port variables, admittance, impedance, transmission and hybrid parameters, relationship between parameter sets, parallel connection of two port networks. 7. Input port parameters: Sinusoidal steady state analysis, energy and power, effective or r.m.s. value, average and complex power. 8. Passive Filters: Classification of filters, filter networks, equation of filter networks, classification of pass band and stop band, characteristics impedance in pass band and stop band, constant k-low pass and high pass filter, band pass filter, band elimination filter Reference Books: 1. Network analysis By M. E. Van valkenburg. 2. Circuits and Networks: analysis and synthesis By Sudhakar and S. P. Shyammohan 3. Electronic circuits By Edminister. 4. Network analysis By G.K.Mithal.

2EC 306 : SIMULATION LABORATORY Teaching Scheme Credit Examination Scheme


/ Oral


Grand Total Int.

Assess. Sem End


0 2 2 0 1 1 0 0 0 0 50 50

Circuit Simulation software covering following topi cs. 1. Introduction 2. Basics of Simulation Software 3. Tutorial Lessons 4. Interactive Computation 5. Programming in Software 6. Applications Reference Books: 1. Software user manual.



DETAILED SYLLABUS FOR

4TH SEMESTER

U. V. Patel College Of Engineering

Constituent College Of GANPAT UNIVERSITY Ganpat Vidyanagar

Mehsana-Gozaria Highway, Kherva. (Dist: Mehsana) Gujarat

Phone: +91-2762-286805, +91-2762-286082 Fax: +91-2762-286650 web: www.uvpce.ac.in

2EC 401 : SIGNALS & SYSTEMS



/ Oral

Total

Theory Practical

Grand Total Int.

Assess.

Sem End Total Internal


4 2 6 4 1 5 30 70 3 100 50 150

1. Introduction What is signal?, What is system?, Overview of specific systems, Classification of signals, Basic operations of signals, Elementary signals, Signals viewed as interconnections of operations, Properties of systems 2. Linear Time-Invariant systems Discrete time LTI systems: The Convolution sum, Continues time LTI systems: The Convolution Integral, Properties of LTI systems, Causal LTI system Described by Differential and Difference Equations. Use of Laplace Transform in Analysis. 3. Fourier series representation of periodic signal s The response of LTI system to Complex Exponentials, Fourier Series representation of Continuous-time periodic signals, Convergence of the Fourier Series, Properties of Continuous-time Fourier Series, Fourier Series representation of Discrete- time periodic signals, Properties of Discrete -time Fourier Series, Fourier Series and LTI systems. 4. The Continuous -time Fourier Transform Introduction, Presentation of aperiodic signals: The Continuous -time Fourier Transform, Fourier Transform for periodic signals, Properties of Continuous-time Fourier Transform, The convolution property, The multiplication property 5. The Discrete -time Fourier Transform Introduction, Presentation of aperiodic signals: The Discrete -time Fourier Transform, Fourier Transform for periodic signals, Properties of Discrete -time Fourier Transform The convolution property, The multiplication property. 6. The z- Transform Introduction, The z-transform, The region of convergence for the z-transform, The inverse z-transform, Geometric Evaluation of the Fourier Transform from pole-zero plot, Properties of the z-transform, Some common z-transform pairs, Analysis and characterizing of LTI systems using z-transform

Reference Books: 1. Signals & Systems By Alan V. Oppenheim, Alan S. Willsky and S. Hamid Nawab

(Pearson Education Asia, 2nd edition, 1997). 2. Signals and Systems By Simon Haykin, Barry van Veen, (John Wiley & Sons (Asia)

Private Limited, 2001). 3. Signals and Systems: Analysis of signals through linear systems By Michel J. Roberts

(Tata McGraw Hill, 2003).

2EC 402 : CONTROL SYSTEMS Teaching Scheme Credit Examination Scheme


/ Oral

Total

Theory Practical

Grand Total Int.

Assess.



3 2 5 3 1 4 30 70 3 100 50 150

1. Introduction: The control system, open loop & close loop control system, servomechanism, history and development of automatic control, digital computer control, application of control theory in non-engineering fields and the control problem. 2. Mathematical models of physical systems: Differential equations of physical systems (limited to mechanical, electrical systems & gear trains), transfer functions, block diagram algebra, signal flow graph. 3. Feedback characteristics of control system: Feedback and non-feedback systems, reduction of parameter variation by use of feedback and effects of disturbance signals; regenerative feedback. 4. Control system & components: Construction and operation of DC and AC servomotor, potentiometers, optical encoders, synchros, techo generators, AC and DC position control system, stepper motor. 5. Time response analysis: Standard test systems : time response of first order systems; time response of second order systems, steady state errors & error constants, effect of adding a zero to a system, design specifications of second order systems, design considerations of higher order systems, performance indices. 6. Stability Analysis: Concept of stability, necessary conditions for stability, Routh-Harwitz stability criterion; relative stability analysis. 7. Root-Locus Technique: Concept of root locus, construction rules and root contours. 8. Frequency response analysis: Correlation between time and frequency response, polar plots, bode plots, all pass and minimum phase systems, log magnitude versus phase plots. 9. Stability in Frequency Domain Mapping contours in s-Plane, the Nyquist stability criterion, relative stability and Nyquist criterion. 10.State variable analysis: Concept of state, state variables & state model, state models for linear continuous time systems, diagonalisation, solutions of state equations, concept of controllability & observability.

Reference books: 1. Control system engineering by I.J.Nagrath & M.Gopal (New Age International Publishers) 2. Modern control systems by R.Dorf & R.Bishop (Pearson Education) 3. Automatic control systems by B. C. Kuo (PHI) 4. Modern control engineering by K.Ogata(PHI)

2EC 403 : ANALOG ELECTRONICS Teaching Scheme Credit Examination Scheme


/ Oral

Total

Theory Practical

Grand Total Int.

Assess.



4 2 6 4 1 5 30 70 3 100 50 150

1. Feedback Amplifiers: Classification of amplifiers, Concept of feedback, Properties of negative feedback amplifiers, Analysis of feedback amplifier, Input and output impedance of feedback amplifier, Feedback circuits using BJT and FET. 2. Oscillators and Phased locked loop: Basic concepts of Oscillator, Principles of operation, Wien bridge oscillator, Phase shift oscillators, Oscillator with LC feedback circuit, Multivibrators using transistors (Circuit description), 555 timer, Phased Locked Loop 3. Operational Amplifiers: Ideal operational amplifier, Differential amplifier, Operational amplifier parameters like offset voltages and current, bias current etc., CMRR, PSRR, Measurement of parameters, Slew rate, Frequency response and compensation 4. Application of Operational Amplifiers: Inverting and non-inverting configurations, Comparators, Schmitt trigger circuit, Current to voltage converter and voltage to current converter, Differentiator and Integrator circuit, Waveform generator circuits, Small signal rectifier, Instrumentation amplifier 5. Active Filters: Low pass, High pass, Band pass, Band stop filters, Filter response, Critical frequency, Bandwidth, Quality factor. 6. Voltage Regulators: Voltage regulation, 3-pin monolithic series regulator, Shunt regulator, Switching regulator 7. Time base generators: General features of time base signal, Voltage time base generator, Miller and Bootstrap time base generators, Transistor current time base generator, Applications Reference Books: 1. Electronic Devices By Floyd (Pearson Education). 2. Microelectronics By Jacob Millman and Arvin Grabel 3. Opamps and Linear Integrated Circuit By Ramakant Gayakwad

2EC 404 : MICROPROCESSOR ARCHITECTURE AND PROGRAMMING



/ Oral

Total

Theory Practical

Grand Total Int.

Assess.



4 2 6 4 1 5 30 70 3 100 50 150

1. Microprocessor Based Systems-Hardware and Interf acing: Microprocessors, Microcomputers and Assembly Language, Microprocessor Architecture and Microcomputer Systems, 8085 Microprocessor Architecture and Memory Interfacing, Interfacing I/O Devices. 2. Programming the 8085: Introduction to 8085 Assembly Language Programming, Introduction to 8085 Instructions, Programming Techniques with Additional Instructions, Counters and Time Delays, Stack and Subroutines, Code Conversion, BCD Arithmetic, and 16-Bit Data Operations. 3. Interfacing Peripherals and Applications: Interrupts, Interfacing Data Converters: DAC and ADC, General Purpose Programmable Peripheral Devices: 8255 (Programmable Peripheral Interface), 8254(Timer), 8259 (Programmable Interrupt Controller), 8237(DMA Controller), 8279 (Programmable Keyboard/Display Interface), Serial I/O and Data Communication. Reference Books: 1. Microprocessors Architecture Programming and Applications with the 8085 By Ramesh

S. Gaonkar (Penram International Publication). 2. Fundamentals of Microprocessors and Microcomputers By Mohamad Raffic.

2EC 405: DIGITAL DESIGN USING HDL Teaching Scheme Credit Examination Scheme


/ Oral

Total

Theory Practical

Grand Total Int.

Assess.



2 2 4 2 1 3 15 35 2 50 50 100

Introduction to Data structure 1. Overview of Digital Design with Verilog HDL Emergence of HDLs, typical HDL-based design flow, Importance of HDL, trends in HDLs 2. Hierarchical Modeling Concepts: Top-down and bottom-up design methodology, differences between modules and module instances, parts of a simulation, design block, stimulus block 3. Basic concepts Lexical convention, number specification, strings, identifiers data types, system tasks and compiler directives 4. Modules and Ports Module definition, port declaration, connecting ports, hierarchical name referencing. 5. Gate-Level Modeling Modeling using basic Verilog gate primitives, description of and/or and buf/not type gates, rise, fall and turn-off delays, min, max, and typical delays. 6. Dataflow Modeling Continuous assignments, delay specification, expressions, operators, operands, operator types. 7. Behavioral Modeling Structured procedures, initial and always, blocking and non-blocking statements, delay control, generate statement, event control, conditional statements, multi-way branching, loops, sequential and parallel blocks. 8. Tasks and Functions Differences between tasks and functions, declaration, invocation, automatic tasks and functions 9. Useful Modeling Techniques Procedural continuous assignments, overriding parameters, conditional compilation and execution, useful system tasks

10. Timing and Delays Distributed, lumped and pin-to-pin delays, specify blocks, parallel and full connection, timing checks, delay back-annotation

Reference Books: 1. Verilog HDL By Samir Palnitkar (Pearson Education) 2. Verilog HDL Primer By Bhasker J. (B.S.P., Hyderabad) 3. Verilog HDL Synthesis By Bhasker J. (B. S. P., Hyderabad) 4. Verilog Quickstart By Lee James M. (Springer, New Delhi)




5TH SEMESTER

U. V. Patel College Of Engineering Constituent College Of GANPAT UNIVERSITY

Ganpat Vidyanagar Mehsana-Gozaria Highway,

Kherva. (Dist: Mehsana) Gujarat Phone: +91-2762-286805, +91-2762-286082

Fax: +91-2762-286650 web: www.uvpce.ac.in

2EC501: MICROCONTROLLERS & INTERFACES



/ Oral

Total

Theory Practical/Oral Grand Total Int.

Assess. Sem End

Total Int. Assess. Total

Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1. Microprocessors and microcontrollers: Microprocessors and microcontrollers, Z80 and the 8051, a microcontroller survey, development systems for microcontrollers. 2. 8051 architecture: 8051 micro controller hardware, input/output pins, ports, ports and circuits, external memory, counters and timers, serial data i/o, interrupts. 3. An 8051 Instruction set: Addressing modes, external data moves, code memory read PUSH and POP opcodes, data exchanges, Byte-level logical operations, bit-level logical operations, rotate and swap operations, Flags, incrementing and decrementing, addition, subtraction, multiplication and division, decimal arithmetic, Jump and call program range, jumps, calls and subroutines, interrupts and returns. 4. An 8051 microcontroller design: Microcontroller specifications, 8051 micro controller design, testing the design, timing subroutines, look up tables for 8051, serial data transmission. 5. Applications: Keyboards, displays, pulse measurements, D/A and A/D conversions, multiple interrupts, RTC. 6. Serial data communication: Network configuration, 8051 data communication modes. 7. Introduction to other microcontrollers and buses : ARM, PIC microcontrollers and AMBA, CAN, USB, SPI & PCI etc families for buses.

Reference Books:

1. The 8051 Microcontroller: Architecture, programming and applications By Kenneth J. Ayala (Penram International) 2. The 8051 Microcontroller and Embedded Systems By Mazidi & Mazidi (PHI)

2EC502 : ELECTRO MAGNETIC THEORY & WAVE PROPAGATION



/ Oral

Total


Assess. Sem End


Marks Hrs

4 0 4 4 0 4 30 70 3 100 0 0 100

1. Introduction: Scalars and vectors, Dot and cross products, Co-ordinate systems and conversions, Coulomb’s law, fields due to different charge distributions, Concept of electric flux density, Gauss’s law and its application, Differential volume element, divergence, Maxwell’s first equation and divergence theorem, Energy expended in moving a point charge in electrical field, line integral, definition of potential difference and potential, potential field of a point charge and system of charged, potential gradient, dipole, potential density in Electro static field, Definition of currents and current density, continuity equation, metallic conductors and their properties, semiconductors, dielectric materials, characteristics, boundary conditions, capacitance of a parallel plate capacitor, coaxial cable and spherical capacitor. 2. Poision’s and Laplace equation: Poisson’s and Laplace’s equation, Uniqueness theorem, Examples of solutions of Laplace and Poisson equation. 3. Steady magnetic field: Bio-Sawart law, ampere’s circular law, concept of curl, Stoke’s theorem, definition of magnetic flux and magnetic flux density, scalar and vector magnetic potential. 4. Magnetic forces, materials and inductance: Force on a moving charge, force on a differential current element, force and torque on a close circuit, magnetization and permeability, magnetic boundary condition, magnetic circuit inductance and mutual inductance. 5. Time varying field Maxwell’s equation: Faraday’s law, displacement current, Maxwell equation in point and integral form. 6. The uniform plane waves: Wave motion in free space, perfect dielectric, lossy dielectric pointing vector, power consideration, propagation in good conduction, phenomena of skin effect, reflection of uniform plane waves. 7. Radio Wave Propagation: Modes of propagation, Ground Wave Propagation, Structure of troposphere and ionosphere, Characteristic of Ionospheric layers, Sky wave propagation, Definitions for Virtual height, MUF and Skip distance, OWF, Fading, ionospheric absorptions, Multi-hop propagation, Space wave propagation and Super refraction. Reference Books: 1. Electronic magnetic wave propagation By William Hayt, (TMH) 2. J. D. Kraus, Fleisch, Daniel: Electromagnetic, 5th edition, McGraw-Hill, 1999 3. J. Griffiths, Introduction to Electrodynamics, 2nd edition, PHI, 1995. 4. E.C. Jordan & K. G. Balmain, Electromagnetic Waves and Radiating Systems, 2nd Edition, PHI 5. Elements of Electromagnetic, Matthew N O Sadiku Oxford, 3rd Edition

2EC503 : POWER ELECTRONICS & APPLICATIONS



/ Oral

Total


Assess. Sem End


Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1. Introduction: Application of power electronics, power semiconductor devices, control characteristics of power devices, types of power electronics circuits, design of power electronic equipments. 2. Power semiconductor Devices: Introduction, Power Diodes, Power BJT, UJT, Triac, Thyristor Characteristics, Two Transistor model of Thyristor, Series and Parallel operation of Thyristors, Power MOSFET, GTO, IGBT, SIT- Device Structures and Characteristics, Handling precautions and power dissipation in all these devices, Turn ONTurn OFF methods and Circuits, Protections, Ratings and applications, Handling precautions and power dissipation in all these devices. 3. Rectifiers and Converters: Single phase half wave rectifiers, Single phase full wave rectifiers, multiphase star rectifiers, three-phase bridge rectifier, Principles of phase control converter operation, single phase semi, full, dual and series converters, three phase half wave, semi, full and dual converters, effect of load and source inductances, Step-up and step-down choppers, performance parameters, converter classifications, switching mode regulators, comparison of regulators, Buck-Boost Converter. 4. Inverters: Principal of Operation of Pulse Width Modulated Inverters, Performance Parameters, Single Phase and Three Phase Bridge Inverters. 5. AC voltage controllers: Principles of on/off control, principles of phase control, single phase controllers with R and L loads, three phase full wave controllers. 6. AC and DC drives: Basic characteristics of DC motors, operating modes, single phase, three phase and DC-DC converter drives, close loop control of DC drives, Induction motor drives, synchronous motor drives.

7. Protection of devices and circuits: Cooling and heat sinks, Snubber circuits, Reverse recovery transients. 8. Applications: Uninterruptible Power Supply, Switched mode Power Supply, RF Heating, Battery Charger, Di-electric heating, Induction heating, Transformer Design. Reference Books: 1. Power Electronics circuits, devices and application By M.H.Rashid. (PHI) 2. Power Electronics By Bimbra Khanna Publications. 3. Power Electronics By Williams. 4. Power Electronic systems: Theory and design By J. P. Agrawal (Pearson Education) 5. Power Electronic, M.D. Singh and Khanchandani, Tata McGraw Hill Publications.

2EC504 : COMPUTER ORGANISATION



/ Oral

Total


Assess. Sem End


Marks Hrs

3 0 3 3 0 3 30 70 3 100 0 0 100

1. Basic Structure of Computers: Computer types, Functional Units, Basic Operational Concepts, Bus structure, Software, Performance, Multiprocessor & Multicomputers, Historical perspective

2. Number System: Floating points numbers and operations

3. The Memory System: Some basic concepts, Read only memory, Speed, size and cost, Cache memories, Performance considerations, Virtual memories, Memory management requirements, Secondary storage, memory organization techniques

4. Basic Processing Unit: Some fundamental concepts, Execution of a complete instruction, Multiple-Bus Organization, Hardwired Control, Microprogrammed Control

5. Pipelining: Basic concepts, Data Hazards, Instruction Hazards, Influence on instruction sets, Data path and control considerations, Superscalar operation, Performance considerations

6. Input/Output Organization: Accessing I/O Devices, Interrupts, Buses, Interface Circuits, Standard I/O Interfaces

7. Reduced Instruction Set Computers: Instruction Execution Characteristics, The use of a Large register File, Compiler-Based Register Optimization, Reduced Instruction Set Computers, RISC Pipelining, MIPS R4000, SPARC, RISC versus CISC Controversy

8. IO Subsystem Architecture: IO Subsystem Performance Measure, Design of IO Subsystem, Architecture of IO Bus, SCSI Bus, ISA Bus Architecture, PCI Bus, Microchannel Architecture

Reference Books: 1. Computer Organization & Architecture (Sixth Edition) By William Stallings (PHI) 2. Computer Organization (Fifth Edition) By Carl Hamacher, Zvonko Vranesic & Safwat Zaky

(TMH). 3. Computer Organization and Design (Second Edition) By P. Pal Chaudhury (PHI)

2EC505 : COMMUNICATION ENGINEERING



/ Oral

Total


Assess. Sem End


Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1. Introduction Communication system, Analog and digital Messages, Channel effect, Modulation and detection, Historical review of telecommunication. 2. Series and Parallel Tuned Circuits: Series Tuned circuits , Parallel tuned circuits, mutual inductance, coupling circuits topics derivations & problems, passive filters. 3. Noise: Introduction to noise, thermal noise, shot noise, partition noise, flicker noise, burst noise, avalanche noise, BJT noise, FET noise, noise figure, amplifier input noise in terms of F. 3. Receivers: Introduction, Superhetrodyne receiver, tuning range, Tracking, padder, trimmer & three point tracking, Image rejection, relative response, double spotting and image rejection, spurious response, Adjacent channel selectivity,AGC,block diagram and features of double conversion receivers. VCO (Voltage CONTROLLED OSCILLATOR) 4. Amplitude Modulation: Introduction, Amplitude Modulation, Amplitude Modulation index, modulation index for sinusoidal AM, equation, double sideband suppressed carrier modulation, Amplitude modulators, Amplitude demodulator circuits, Amplitude-modulated Transmitters. Base band, AM in presence of Noise. 5. Single Side band Modulation: Introduction, Hilbert transformation, balanced modulator, SSB Generation, SSB Reception. 6. Angle Modulation: Introduction, frequency Modulation, Sinusoidal FM, Frequency Spectrum for Sinusoidal FM(no Bessel’s function),Non-sinusoidal modulation-Deviation ratio, measurement of modulation index for sinusoidal FM, phase modulation, Equivalence between PM and FM, sinusoidal phase modulation, Angle modulator circuits, FM transmitters, angle modulation detectors, Automatic Frequency Control, amplitude limiters, FM broadcast Receivers,FM stereo receivers, Angle modulation in Presence of Noise, Optimum pre-emphasis and de-emphasis system. 7. Overview of Satellite Communication: Introduction, Kepler’s laws, orbits, geostationary orbit, power systems, satellite station keeping. Reference Books: 1. Modern Digital and Analog Communication Systems By B. P. Lathi, 3rd Edition, Oxford 2. Communication Systems By Simon Hykin, 2nd edition, Wiley Eastern 3. Electronics Communication By Roddy and Coolean, 4th Edition, (PHI) 4. Electronics Communication By John Kennedy, 3rd Edition, (TMH)

2EC506: ELECTRONIC MEASUREMENT TECHNIQUES



/ Oral

Total


Assess. Sem End


Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1. Measurement Fundamentals Definition of Measurement And Instrumentation, Basics of Ohmmeter ,Ammeters, Voltmeters and multimetres, Static Performance Characteristics, Errors In Measurement, Statistical Analysis, Standards, Calibration. 2. Indicators And Display Devices Introduction, Types of Instrument, PMMC Movement, Electrodynamometer, Moving Iron Types Instruments, Digital Display Systems and Indicators in details 3. Resistance & Impedance Bridges Wheastone Bridge, Kelvin’s Bridge, Capacitance Comparison Bridge, Wein’s Bridge, Schering Bridge, Inductance Comparison Bridge, Maxwell’s Bridge, Hay’s Bridge. 4. Oscilloscope Oscilloscope Block Diagram, Cathode Ray Tube, Vertical Deflection System, Delay Line, Multiple Trace, Horizontal Deflection System, Oscilloscope Probes, Special Oscilloscope: Storage Oscilloscopes (Basics Only). 5. Signal Analysis Instruments Basic Wave Analyzer, Frequency Selective Wave Analyzer, Heterodyne Wave Analyzer, Harmonic Distortion Analyzer, Spectrum Analyzer 6. Transducer Classification of Transducers: Input & Output Transducers, Sensors vs. Transducers. Active and Passive Transducers, Resistive (Strain Gauge) Transducer, Inductive and Capacitive Transducer, Thermoelectric, Piezoelectric, Hall Effect and Electromechanical Transducer, Optical transducer, Ultrasonic transducer. 7. Digital Data Acquisition Systems and Signal conditi oning Resolution and Sensitivity of Digital Meters, Microprocessor Based Ramp Type DVM, Digital Multimeters and signal conditioning in detail. Reference Books: 1. Electronics Instrumentation By: H.S. Kalsi 2. Electronic Instrumentation & Measurement Techniques By: W.D.Cooper & A.D. Helfrick 3. Transducers & Instrumentation By: D V S Murty 4. Instrumentation Devices & Systems By: C S Rangan, G.R. Sharma, V.S.V.Mani 5. Applied Electrical Measurements By: I F Kinard 6. Elements Of Electronics Instrumentation And Measurements By: Joseph J. Carr 7. Measurement Systems: Application & Design By: Ernest O. Doebelin 8. Principals Of Measurements & Instrumentation By: Alan S. Moris

9. Electronics & Instrumentation By: Dr. S.K.Bhattacharya, Dr. Renu

EC507: MINI PROJECT



/ Oral

Total


Assess. Sem End


Marks Hrs

0 2 2 0 1 1 0 0 0 0 50 50 50

1. Design concepts for driving LEDs, 7-segment display, LCD, Stepper motor, sensors/transducers

and other devices.

2. Design and implementation of basic circuits and systems.

3. Troubleshooting the circuits.

4. Review of OrCAD (PCB Designing).

5. Review of Electronic Workbench (Circuit simulation).

6. Project.

7. Project presentation.

Reference Books: 1. OrCAD Manual 2. Electronic circuit design principles By Tim Williams. 3. Handbook of PCB




6TH SEMESTER

U. V. Patel College Of Engineering Constituent College Of GANPAT UNIVERSITY

Ganpat Vidyanagar Mehsana-Gozaria Highway,

Kherva. (Dist: Mehsana) Gujarat Phone: +91-2762-286805, +91-2762-286082

Fax: +91-2762-286650 web: www.uvpce.ac.in

2EC601: ANTENNA ENGINEERING



/ Oral

Total


Assess. Sem End


Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1. Basic antenna concepts: Definition and functions of an antenna, comparison between an antenna & transmission line, radio communication link with transmitting antenna and a receiving antenna, radiation patterns of antennas-field and power patterns, all antenna types. 2. Radiation of Electric Dipole: Potential functions and the electromagnetic field, Oscillating electric dipole- derivations for E and H field components in spherical coordinate systems, Power Radiated by a current element, Application to antennas, Radiation from quaterwave monopole and half wave dipoles, Derivation for radiation resistance, application of reciprocity theorem to antennas, equality of directional patterns and effective lengths of transmitting and receiving antennas, directional properties of dipole antennas, antenna feeding methods.. 3. Antenna Parameters and Definitions: Beam area, beam width- Half-Power Beam width (HPBW)and First Null Beam width(FNBW) ,Polarisation,Radiation Intensity ,Beam Efficiency, Directivity and directive gain, radiation resistance, radiation efficiency, resolution, Antenna aperture-physical and effective apertures, effective height, transmission formula, antenna field zones, Transmission loss as a function of frequency. Antenna temperature and signal to noise ratio. 4. Arrays of point sources: Expression for electric fields from two, three and N element arrays- linear arrays: Broad-side array and End-Fire array- Method of pattern multiplication- Binomial array-Horizontal and Vertical Antennas above the ground plane, Effect of ground on ungrounded antenna, Schelkunoff theorems for linear arrays, Dolph-Tchebysheff distribution for linear arrays. 5. Loop antenna: Small loop, short magnetic dipole, comparison of far field of small loop and short dipole, loop antennas, field pattern of circular loop antenna and its radiation resistance, effective loop as a receiving antenna, effective height, radiation resistance. 6. Helical antenna: Helical geometry, transmission, radiation modes, practical design considerations, wide band characteristic of helical antenna. 7. Arrays of dipole and apertures: Horizontal antenna and vertical antennas above a ground plane, arrays with parasitic elements, frequency scanning arrays, retro arrays, adaptive arrays and smart antennas, long wire antennas, location method of feeding antennas, folded dipole antennas.

8. Reflector antennas and feed systems: Plane sheet reflection and diffraction, corner reflectors parabola, parabolic reflectors, apertures distribution, and efficiencies, off axis operation of parabolic reflectors, cassegrain feed and other reflector antennas. 9. Slot horn and complementary antennas: Slot antennas, its patterns, babinets principles and complementary antennas, impedance of slot antennas, various types of horn antennas. 10. Microstrip (patch) antennas: Rectangular and circular types-function, features analysis, design considerations and applications 11. Lens antennas: Dielectric lens antennas, reflector lens antennas, Polaroid.

12. Broadband and frequency independent antennas: Broadband antenna, frequency independent antennas, log periodic antenna, yagi- uda, corner log periodic array. 13. Antenna for special applications: Sleeve, turnstile, super turnstile antennas, matching arrangements, micro strip antennas, high gain omni, submerged antennas, antenna design consideration for satellite communications, L.W., M.W. and S.W. antennas. L & T mast, horizontal. 13. Antenna measurement: Measurement of pattern, gain, phases polarization and terminal impedance. Reference Books: 1. Antennas By John D Kraus & R J Marhefka 3rd Edition, 2002 (TMH) 2. Electromagnetic waves and radiating systems By Jordan and Balmain (PHI) 3. Antenna Theory By C A Balanis, 2nd Edition (John Wiley Publishers). 4. Antenna and wave propagation By G.S.N. Raju 2005 (Pearson Education)

2EC602: COMPUTER NETWORKS



/ Oral

Total


Assess. Sem End


Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1. Introduction: Uses of computer Networks, Network Hardware-LAN,MAN,WAN, Internetworks, Network Software - Design Issues, interfaces & services, Connection Oriented & Connectionless services. Service primitives, Relationship of services to protocols, Reference Models - OSI & TCP/IP, their comparison & critiques, ATM model, Frame relay & X.25.

2. The Physical Layer: Transmission Media – magnetic media, twisted pair, Co-axial cable, Fiber optics, Wireless Transmission - radio, Microwave, infrared & light wave, PSTN, Cellular Radio- Paging systems, cordless telephones, analog & digital telephones.

3. The Data Link Layer: DLL Design issues, Error Detection & Correction. Elementary Data link Protocols: Stop & Wait, Automatic Repeat Request. Sliding Window Protocols. 1 bit sliding window, Go Back N, Selective Repeat Protocols, Point to point, HDLC.

4. Medium Access Sub layer: Channel Allocation Problem - Static & Dynamic. Multiple Accesses protocols - ALOHA, CSMA, Collision Free Protocols, Limited contention protocols, WDMA protocol , ETHERNET PROTOCOL, wireless LAN protocols, Overview of Bluetooth. Hub, switch, bridges, router, gateway

5. The Network Layer: Network layer Design issues. Routing Algorithms, flooding, Congestion Control Algorithms general policies, congestion prevention policies, traffic shaping, flow specifications, congestion control in VC subnets, choke packets. The network layer in the internet - the IP protocol, IP addresses & subnets, RIP, OSPF & BGP, ICMP, IGMP.

6. The Transport Layer: The Transport Service, Elements of Transport Protocols, The Internet Transport Protocols - TCP service model, TCP protocol, TCP Segment Header, TCP Connection Management, TCP Transmission Policy, TCP Congestion Policy. Real Time transmits Protocol, TCP/IP for mobiles, UDP & overview of Socket. Performance Issues - Performance problems in Computer Networks, Measuring Network Performance.

7. The Application Layer: Domain name system, E-mail, Mobile IP, World Wide Web, HTTP, URL, SNMP, IPV6, FTP, TELNET & RLOGIN, Network Security, Traditional Cryptography, Two Fundamental Cryptographic Principles, Secret-Key Algorithms, Public-key.

Reference Books: 1. Computer Networks By Andrew S. Tannebaum, 4TH Ed, (PHI). 2. Data & Computer Communications By William Stallings, 2ed, Maxell Macmillan Int. 3. Communication Networks, Fundamental Concepts & key architecture By Leon-Garcia & Widjaj,

(TMH). 4. TCP/IP Protocol Suite By Forouzen (TMH)

2EC603: OPTICAL FIBER COMMUNICATION



/ Oral

Total


Assess. Sem End


Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1. Overview of optical fiber communication: Basic network information rates, the evolution of fiber optic systems, Elements of an optical fiber transmission link, Advantages and disadvantages of optical fiber system. 2. Optical fibers: structure, wave-guide and fabric ation : The nature of light , Basic optical laws and definitions, Optical fiber modes and configurations, Mode theory for circular wave guides, Single mode fiber, Graded index fiber structure, Fiber material, Fiber fabrication, mechanical properties of fiber, Fiber optics cables. 3. Signal degradation in optical fibers: Attenuation, Signal distortion in optical wave-guides, Mode coupling Design optimization of single mode fibers 4. Optical sources: Topics from semiconductor physics, LEDs, LASER diodes, light source linearity. 5. Power launching and coupling: Source to fiber power launching, Lensing scheme for coupling improvement, Fiber to fiber joints, LED coupling to single mode fiber, Fiber splicing, optical fiber connector 6. Optical receiver: Physical principles of photodiodes, Photo detector noise, Detector response time, Structures of InGaAs APDs, Temperature effect on Avalanche gain, Comparison of photo detectors, Receiver operation, Preamplifier types, receiver performance and sensitivity, Eye diagrams, Coherent detection, Specification of receivers. 7. Optical amplifiers: Basic applications and types of optical amplifiers, Definition of external pumping and amplifiers gain, Erbium doped amplifier, wave length converter. 8. Optical networks: Basic networks, SONET/SDH 9. Transmission system Point –to-point link –system considerations, Link power budget and rise time budget methods for design of optical link, BER calculation, Multichannel ( Analog system) transmission system. 10. WDM concepts and function Operation principle of WDM, DWDM, Passive components, Tunable sources, Tunable filters.

11. Measurements: Test equipment, Attenuation measurements, Dispersion measurement (only time and frequency domain intermodal dispersion measurement, OTDR field applications (OMIT attenuation measurement), Eye patterns, Spectral analyzer applications.

Reference Books: 1. Optical Fiber Communications By Gerd Keiser, 3rd Edition (McGraw Hill international edition). 2. Optical fiber communications principles and practice By Jhon M Senior (PHI)

2EC604: INTRODUCTION TO DETECTION THEORY



/ Oral

Total


Assess. Sem End


Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1.Probability: Basic concepts, Axioms of Probability, Conditional Probability, Baye’s Theorem and problems. mathematical expectations. 2.Random Variable: One Dimensional Random Variables, Classification of Random Variable, PDF, CDF, Expectation, Moments, Theoretical Distribution, Discrete Probability Distributions – Binomial and Poission, Continuous Probability Distribution – Exponential, Uniform, Normal Distribution, Rayleigh, Gamma, Rician, Chebyshev’s inequality, Markov’s Inequality, functions of random variables, Central Limit theorem. 3.Two-Dimensional Random Variables: Joint Probability Distribution – Discrete & Continuous, Conditional Expectation, Correlation, Variance. Classification of Stochastic Process, White noise random process, Random process passed through linear systems, Optimum filtering - Wiener Filter. 4. Detection Theory: Binary detection, ML detection, MAP detection, Decision rules, sufficient statistics, General Binary detection, detection of bandpass signals, signals with equal energy, M-ary detection, Non-coherent detection, error performance of Non-coherent receiver.

Reference Books:

1.Probability, Random Variables and Stochastic Processes By A. Papoulis and S. Unnikrishnan Pillai, McGraw Hill, 4th Edition.

2.Probability and Statistics for Engineers and Scientists By Walpole, R.E., Myers, R. H. Myers R. S. L. and Ye. K, “Seventh Edition, Pearson Education, Delhi, 2002.

3. Digital Communication By J. G. Proakis 2002 (TMH) 4. Modern Digital and Analog Communication Systems By B. P. Lathi 1998, 3rd Edition

(Oxford University Press).

5. Probability and Statistics for Engineers By Johnson. R.A., “Miller & Freund’s, Sixth Edition, Pearson Education, Delhi, 2000. (Chapters 7, 8, 9, 12).

2EC605 : DIGITAL COMMUNICATION



/ Oral

Total


Assess. Sem End


Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1. Analog to Digital conversion: PAM, PWM, P P M , PCM, quantization, differential PCM, delta modulation, adaptive delta modulation, adaptive differential PCM, applications.

2. Geometric representation of signal waveforms: Baseband and bandpass signals, constellations, signal as a vector, Gram-Schmidt orthogonalization procedure, correlation receiver, matched filter receiver.

3. Digital transmission through band-limited (BL) c hannel: PAM signals, polar format, line codes, Inter symbol interference, Nyquist criterion for zero ISI; design of BL signals with zero ISI; design of bandlimited signals for controlled ISI- partial response signals; maximum-likelihood detector for partial response signaling; design of transmitter and receiver for known channel; channel equalization, synchronization.

4. Bandpass transmission through AWGN channel: bandwidth, power and error probability; optimum receiver structures, basic digital bandpass modulation schemes- ASK, PSK, QAM and FSK; Coherent demodulation; optimum receiver structures for non-coherent detection.

5.Transmission through fading channel Analysis of transmission through Rayleigh/Riciean fading channel.

Reference Books: 1. Digital Communications By S. Haykin 3rd Edition 2000 (John Wiley & Sons). 2. Digital Communication By J. G. Proakis 2002 (TMH) 3. Modern Digital and Analog Communication Systems By B. P. Lathi 1998, 3rd Edition

(Oxford University Press). 4. Communication Systems Engineering By J. G. Proakis and S. Salehi 2002 (Pearson

Edition).

2EC606(A): AUDIO & VIDEO SYSTEMS



/ Oral

Total


Assess. Sem End


Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1. Microphones & Loud speakers

AUDIO

Characteristic of microphone, Moving coil microphone, Condenser microphone, Carbon microphone, Characteristics of loud speaker, Electrodynamic loud speaker, Horn type loud speakers, Beffles and Enclousers, Multi way speaker system-Woofers and Tweeters, crossover network.

2. Public Address system Block diagram of PA system, Requirement of PA system. 3.Accoustic Enggineering Overview of acoustical engineering with design and architecture.

VIDEO

4. Introduction to television: Picture transmission, Television Transmitter, Television Receiver, Synchronization, Receiver Controls.

5. Television Pictures: Geometric form and Aspect Ratio, Image continuity, Number of scanning Lines, Interlaced Scanning, Picture Resolution, brightness Gradation and Color Characteristics.

6.. Composite Video Signal: Video Signal Dimensions, Horizontal Sync Composition, Vertical Sync Details Functions of Vertical Pulse Train, Scanning Sequence Details.

7. Color Signal Generation and Encoding: Perception of Brightness and Colors, Additive Color Mixing, Video Signals for Colors, Luminance Signals, Compatibility, Color Difference Signals, Encoding of Color Difference Signals, PAL-Encoder, Chrominance Signal for Color Bar Pattern. 8. Television Systems and Standards: American 525 Line Black and White TV System, NTSC Color System, 625 Line Monochrome Systems, PAL Color System, French Black and White and Color TV Systems, Television Standards.

9. PAL-D Color Receiver: Introduction to Monochrome TV Receiver, Electronics tuner. IF subsystem, Y-signal channel. Chroma decoder. Separation of U & V colour phasor. Synchronous demodulator. Sub carrier generation & control. Matrixing for drive circuits. Raster circuits. Summary of receiver operations.

10. Advances in Television Technology: Three dimensional (3-D) television pictures, Digital television, High definition television (HDTV), LED , LCD & Plasma T.V.

Reference Books: 1. Modern Television Practice By R.R.Gulati (New Age International) 2. Fundamentals of Acoustics By Kinsler and Frey (John wiley) 3. Audio and Video Systems By R.G. Gupta (TMH) 4. Essentials of Electronics Communication By Sluzvberg

2EC606(B) : INDUSTRIAL INSTRUMENTATION



/ Oral

Total


Assess. Sem End


Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1. Programmable Logic Controllers (PLC) : Principles, operation and Applications

2. PLC Hardware Concepts I/O Modules and Specifications, CPU, Memory Design, and recording/Retrieving Data

3. Logic Fundamentals: Comprehensive Review of Logic, Hard Wired versus Programmed Logic, Word-Level Logic Instructions

4. PLC Programming Processor Memory Organization, Relay Instructions and Ladder Diagrams PLC Languages

5. PLC Wiring and Ladder Type Programs Control Relays, Motor Starters, and Switches. Transducers and Sensors Connecting Relay Ladder Diagrams into PLC Ladder Programs

6. Programming Timers and Counters Instructions and Incremental Encoder-Counter Applications, Timer Instructions, Counter Instructions, Combining Functions

7. Program Control Instructions and Data Manipulati on I/O Instructions, Addresses, Safety, and Fault Routines, Selectable Timed interrupts, transfer Compare and Set-Point Control, Data Compare and Data manipulation

8. Math, Sequence and Shift Register Instructions Device Integration with Lab Applications, Industrial Processes and Data Acquisition systems, Computer Integrated Devices and Data communications

References Books: 1. Programmable Logic Controllers By Frank D. Petruzella Third Edition, (McGraw Hill

Publishing Company) 2. Programmable Logic PLDs and FPGAs By R.C. Seals and G.F. Whapshott (McGraw Hill

Publishing Company) 3. Introduction to Programmable Logic Controllers By Gary Dunning (Thomas learning

Australia) 4. Programmable Logic Controllers By John W. Webb and Ronald A Reiss (PHI) 5. Programmable Logic Controllers By John R Hackworth & F D Hackworth (Pearson

Education)

2EC606(C): OBJECT ORIENTED PROGRAMMING



/ Oral

Total


Assess. Sem End


Marks Hrs

3 2 5 3 1 4 30 70 3 100 50 50 150

1. Object Oriented Concepts: Object Or iented Development, the Object Modeling Technique, Objects and Classes, Generalization and Inheritance, Aggregation 2. Object Oriented Programming styles and languages : Object-Oriented Style, Reusability, Extensibility, Class Definitions, Creating Objects, Calling Operations, Using Inheritance, Implementing Association, Object-Oriented Language Features 3. Object oriented languages-An Example: Basic Programming, Output Using Cout, Preprocessor Directives, Variables, Input and output, Manipulators, Type Conversion, Operators, Library Functions 4. Loops and Decisions: Structures, Enumerated Data Types, Simple Functions, Passing Arguments, Overloaded Functions, Inline Functions, Default Arguments, A Simple Class, Objects as Physical Objects & as Data Types, Constructors, Objects As Physical Objects & as Data Types, Constructors Objects as Function Arrays of Objects, Strings. Function Overloading & Operator Overloading Overloading Unary Operators, Overloading Binary Operators, Data Conversion 5. Inheritance: Class Hierarchies, Public And Private Inheritance, Levels Of inheritance, Multiple Inheritance, Containership, Classes Within Classes, Interfaces, Extending and implementing interfaces, Java packages 6. Multithreaded Programming Creating threads, Stopping and Blocking a thread Life cycle of a thread, Use of thread methods, thread exceptions, thread priority, thread synchronization, Runnable interface 7. Managing Errors and Exceptions Types of error, Exception handling, Try, catch and throwing exception, Finally statement, Throwing own exception, exceptions for debugging 8. Applet and Graphics Programming Local and remote applets, Applet life cycle, creating executable applet, designing web page with an applet, parameter passing to an applet, interactive applets, use of graphic class for the drawing, handling mouse motion events.

Reference Books: 1. Programming with Java primer - By E. Balagurusamy (TATA McGRAW HILL) 2. The complete reference Java - By Herbert Schildt (TATA McGRAW HILL)

Documents

GANPAT UNIVERSITY Sem-I (CE/IT/EC/BM/MC/ME/C) … TECH EC... · A Text Book of Engineering Graphics By P.J.Shah S.Chand & Company Ltd., New Delhi 2. A Text Book of Machine Drawing