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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 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)

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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

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GANPAT UNIVERSITY

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

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

Teaching Scheme Credit Examination Scheme

Theory Practical Grand Total

Sem. End Pract./ TW Assessment Lect.

(Hrs.) Pract. (Hrs.)

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

Asses. Marks Hrs. Total

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

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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




(Hrs.) Tu Pract. (Hrs.)



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.

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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


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







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)

1/2

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

2/2

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

1/2

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

2/2

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

1/2

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

1/3

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

2/3

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

1Φ & 3Φ 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.

GANPAT UNIVERSITY

U. V. Patel College of Engineering B. Tech. SEM. III (Mechatronics)

2MC301 Numerical Analysis & Computer Programming

NUMERICAL ANALISYS

1) Solving nonlinear equations Interval Halving Revisited, Linear Interpolation Method, Newton’s Method, Muller’s Method, Newton’s Method for polynomials, Bairstow’s method for quadratic factors

2) Solving Sets of equations Matrix notation, the elimination method, gauss & gauss-jordan methods, Iterative method, system of nonlinear equation

3) Interpolation and curve fitting Lagrangian polynomials, Divided difference, Least-Squares approximation

4) Numerical differentiation and numerical integration Getting derivatives and integrals numerically, Derivatives from difference table, higher order derivatives, extrapolation techniques, Newton-Cotes integration formulas, the trapezoidal rule, simpson’s rules

5) Numerical solution of ordinary differential equations The Taylor-Series method, Euler and modified euler method, runge-kutta method, multistep method, milne’s method, convergence criteria, error and error propagation, systems of equation and higher order equation, comparision of method/stiff equation

6) Boundary-Value problems and characteristic-value problem The Shooting method, solution through a set of equation, derivative boundary condition, rayleigh-ritz, collocation and galerkin method, the finite-element method, eigen values by iteration, eigen values by QR method, application of eigenvalues

7) Numerical Solution of Partial Differential equations Representation’s as a difference equation, Laplace’s equation on a rectangular region, interative methods for laplace’s equation, the poisson equation, derivative boundary conditions

8) Parabolic Partial-Differential Equations ,Hyperbolic Partial-Differential Equations, Approximation of functions(Chebyshev Polynomials, Economized power series, approximation with rational function, fourier series)

Examination Scheme Theory Practical Teaching Scheme Credit

Sem. End Lect. (Hrs.) Tu. Pract.

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

Asses. Marks Hrs. Total Pract.

Assessment

Grand Total

03 00 02 05 03 01 04 30 70 03 100 50 150

OBJECT ORIENTED PROGRAMMING

9) Principles of Object Oriented Programming Paradigm, Basic Concept, Benefits of OOP, Application of OOP, Structure of C++ program, scope resolution operator

10) Class and Object Introduction, specifying a class, defining member function, C++ program with class, making an outside function inline, private member function, arrays within a class, static data member, static member function, array of objects, object as function arguments, friendly function, returning objects, Constructors and Destructors 11) Operator Overloading and Type Conversion

Introduction, defining operator overloading, overloading unary operator, overloading binary operator, type conversion

12) Inheritance Introduction, defining derived class, single inheritance, multiple inheritance, multilevel inheritance, hierarchical inheritance, hybrid inheritance, virtual base class, abstract class, constructor in derived class

Term work: -

The term work shall be based on experimental and analytical work on the topics mentioned above and will be defended by the candidates. Referance Books:-

1) Object Oriented Programming with C++ by E.Balagurusamy 2) Teach Your Self C++ by Schmidt

3) Object Oriented Programming in Turbo C++ by Lafore Robert 4) Applied Numerical Analysis by Curtis F. Gerald, Patrick

O.Wheatley 5) C language and Numerical Method by C Xavier 6) Numerical Method by E. Balagurusamy

7) Computer Oriented Numerical Methods by V.Rajaraman

GANPAT UNIVERSITY U. V. Patel College of Engineering B.Tech. SEM. III (Mechatronics) 2MC302 Strength of Materials

1. Bending Stresses in Beams Introduction, simple bending, theory of simple bending, moment of resistance, modulus of section, beam of uniform section, composite section. 2. Shearing Stresses in Beams Introduction, shear stress distribution for beam of rectangular, circular, triangle and I- section. 3. Principal Stresses and strains Principal planes, principle stresses, Analytical method for principal stress, Mohr's circle of stress and strain, Theories of failure. 4. Deflection of beams Strain curvature and moment, curvature relations, differential equations for deflection of elastics beams, different methods for determining slope and deflections. 5. Columns and struts Short column subjected axial forces and bending moments, engineering problems, long columns, stability and equilibrium, ranking formula, Indian standard formula, criteria for design of columns. 6. Structured connections Riveted and welded connections, methods of failure of connections, eccentric riveted and welded connections, design requirements. 7. Torsion: Basic assumption, Torsion formula, Design of circular sections, Angle of twist, Shearing stress, Deformation, Closed coiled helical springs, Helical Springs, power transmitted by shaft, keys & coupling 8. Thick and thin cylinder Introduction, Thin cylinder and thin spherical vessels under pressure, Applications of thin cylinder, Hoop and radial Stresses in cylinders, longitudinal stresses in thick cylinder, Application of thick cylinder, Max circumferential and Radial stresses in thick cylinders 9. Direct and bending stresses Members subjected to eccentric loads, middle third rule, and kernel of section, chimney subjected to wind pressure, retaining walls and dams subjected to hydraulic pressure. Practical work: - The practical work shall be based on experimental and analytical work on the topics mentioned above and will be defended by the candidates. Reference Books : 1. Mechanics of structure vol I - By S. B. Junnarkar and H.J. Shah

Charotar publishing house, Anand 2. Strength of materials - By S. Ramamrutham

Dhanpat rai & Sons. 3. Strength of materials - By R. S. Khurmi

S. Chand & Co. New Delhi. 4. Strength of materials - By M. Chakraborti

S. K. Kataria & Sons. 5. Strength of materials - By Timo Shenko CBS Publisher, New Delhi.





Assessment

Grand Total

03 00 02 05 03 01 04 30 70 03 100 50 150

GANPAT UNIVERSITY

U.V. Patel College of Engineering B.Tech. Sem. III – (Mechatronics)

2MC303 Electrical Machines & Drives

Unit No.

Topics

1

Process of electro mechanical energy conversion laws of induction , low of interaction , equation of generation of voltage, force on a current carry conductor.

2

DC Machines: Principle of operation, types, construction, winding, EMF equation, characteristics of d-c generators, losses and efficiency, d-c motor operation and types, back EMF , torque, characteristics of motor, speed control of series and shunt motors, d-c shunt motor starter.

3

Transformer: Principle of operation, construction, types, EMF equation, voltage and current transformation ratio, transformer on no load and on load, phasor diagram, equivalent circuit, losses and efficiency, regulation, testing, Auto transformer, Three phase transformer connection.

4

Induction Motor: Working principle, types, construction, Torque equation, Torque / slip characteristics, power flow, losses and efficiency, starting of induction motor.

5

Synchronous Machines: Basic operating principle, construction, EMF equation, winding factor, armature reaction, synchronous impedence and equivalent circuit, phasor diagram, methods of evaluating regulation, synchronous motor operation, phasor diagram, starting, synchronous condenser.

6

Single Phase Motors: Principle of operation, split phase, shaded pole and repulsion induction motor, stepper motor, servomotor (DC & AC Servomotors.)

7

Drives: Introduction, merits and demerits of electrical drives, Factors affecting selection of electrical drives, classification, DC Machine drives, AC Machine drives.

Referance Books: 1. Electrical Technology – Vol – II - by B. L. Theraja 2. Theory & Performance of Electrical Machines – by J. B. Gupta 3. Electrical Drives- concept and application by Vedam Subramanyam 4. Electrical Machines – by P. K. Mukherjee





Assessment

Grand Total

03 00 02 05 03 01 04 30 70 03 100 50 150

GANPAT UNIVERSITY U. V. Patel College of Engineering B. Tech. Sem. III (Mechatronics)

2MC304 Kinematics

1. Links & Mechanisms: - Introduction to mechanisms, definition, kinematics links, type of links, kinematics pairs, machine & structure, type of constrained motions, kinematics chain, type of joints in a chains, mechanisms, degree of freedoms, kutzbach & grumbler’s criteria, single slider crank mechanisms, double slider crank mechanisms, four bar chin mechanisms, inversions. Introduction to lower pair mechanisms, pantograph, straight line mechanisms, exact straight line motion mechanisms made up of turning pairs (peaucellier, hart’s), Scott Russell’s mechanisms, approximate straight line motion mechanisms (watts, grasshopper, Roberts), steering gear mechanisms, Davis steering gear mechanisms, Ackerman steering gear mechanisms. 2. Kinematic analysis of mechanisms: - Introduction, motion of link, rectilinear and rotational motion in a plane, compound pendulum, equivalent dynamic system, velocity & acceleration in machine parts, instantaneous center, Number of I centers, Arnold Kennedy theorem, centroid velocity and acceleration diagrams for simple kinematics mechanisms (vector and graphical approach). 3. Friction: - Type of friction, inclined plane, condition for maximum efficiency, uniform pressure of uniform wear, friction circle, friction axis, friction of pivot & collar bearings, belt & rope drive effect of centrifugal stress on power transmitted, slip & creep effect, jockey pulleys. 4. Brakes & Dynamometer: - Type of brakes, shoe brakes, band brake, band & block brakes, internal expanding shoe brake, effect of braking, braking of vehicle, type of dynamometers, pony brake, rope brake, belt transmission, bevies Gibson torsion dynamometers. 5. Cams: - Introduction, type of cams, type of followers, motion of the followers, displacement, velocity & acceleration of cam, construction of cam profile with knife edge, roller and flat faced reciprocating & oscillating followers. 6. Gear Train: Simple, compound, reverted and epicycles gear train analysis of epicycles, sun & planet gear, torques in epicycles trains, bevel epicycles gear, differential gear box.

Practical work: -

The term work shall be based on experimental and analytical work on the topics mentioned above and will be defended by the candidates.

Reference Books: -

1. Theory of machines by S.S. Ratan 2. Mechanisms & Machine Theory by S.S. Rao, R,K. Dukkipatti 3. Theory of Machine by V.P. Singh 4. Theory of Machine by Sadhu – Singh.





Assessment

Grand Total

03 00 02 05 03 01 04 30 70 03 100 50 150

GANPAT UNIVERSITY U. V. Patel College of Engineering

B.Tech. SEM. III (Mechatronics) 2MC305 Analog Circuits & Devices

1. Bipolar Transistors The unbiased transistor, the biased transistor, transistor current, the CE connection, the base curve, collector curve. 2. Transistor Fundamental Variation in currant gain, the load line, the operating point, recognization saturation, the transistor switch, emitter bias. LED drivers, the effect of small changes, more Opto electronics devices, and surface mount transistor. 3. Transistor Biasing Voltage-Divider Bias, VDB analysis, VDB Load Line and Q Point, PNP transistors. 4. AC models Base biased amplifier, Emitter Biased amplifier, AC beta, AC resistance of the Emitter Diode, Two transistor models, Analyzing and amplifier, 5. Voltage Amplifiers Voltage gain, the loading effect of Input Impedance. 6. Power Amplifier Amplifier terms, two load lines, class A operation, class B operation, class C operation, class C formula, transistor power rating. 7. Emitter Followers Emitter Follower CC amplifier, output impedance, maximum peak to peak output, Darlington connection, class B push-pull emitter follower, biasing class B amplifier, class B Drivers, voltage regulation. 8. Frequency Effects Frequency response of an amplifier, Decibel power gain, Decibel voltage gain, Impedance matching. 9. Differential amplifiers The Differential amplifier, non-OP-AMP circuits, overview of oscillators, DC analysis of differential amplifier, AC analysis of diff. amplifier, Input characteristics of an OP-AMP, Common mode gain, Integrated Circuits, The current mirror, The loaded diff. amplifier. 10. Operational amplifier Introduction to OP-AMP, the 741 OP-AMP, the inverting amplifier, the non-inverting amplifier, OP-AMP applications, linear ICs, OP-AMP as surface mount devices. 11. Negative feedback (overview) Four types of negative feedback 11. Linear OP-AMP circuits Inverting amplifier circuits, non-inverting amplifier, Inverter-noninverter circuits, Differential amplifier, Instrumentation amplifier, Summing amplifier circuits, Current booster, Voltage controlled current source, Automatic gain control, and single supply operation.





Assessment

Grand Total

03 00 02 05 03 01 04 30 70 03 100 50 150

12. Nonlinear OP-AMP circuit Comparators with zero reference, Comparators with nonzero reference, Wave form generation., Differentiator and integrator. 13. Oscillators The theory of sinusoidal oscillation, the Wein bridge oscillator, Other RC oscillators (Twin – T Oscillator, Phase shift oscillator), Quartz crystal, The 555 timer, Astable operation of 555 timer, 555 circuits 14. Regulated power supplies Supply characteristics, Shunt regulators, Series regulators, Monolithic linear regulators, Current Boosters, DC to DC converters, switching regulators. Practical work: - The term work shall be based on experimental and analytical work on the topics mentioned above and will be defended by the candidates. REFERRENCE BOOKS (COMMON FOR ALL SEMESTERS):

1. Electronic Principles by Malvino (Tata McGraw Hill) 2. Electronic Devices and Circuits by Allan Cottershead. 3. Electronic Devices and circuit theory by Boylested & Nashelsky (Prentice Hall) 4. Electronic circuits, Discrete & integral. by Donald L. Schilling & Charles Belove


B.Tech SEM. III (Mechatronics) 2MC306 Thermal Engineering

1.Introduction

Macroscopic & Microscopic viewpoint, Thermodynamic system & control volume, Thermodynamic properties, Processes & cycle, Homogenous& Heterogeneous Systems, Thermodynamic Equilibrium, Quasistatic Processes, Zeroth Law of Thermodynamics

2.First Law of Thermodynamics First Law of Thermodynamics, P. M. M – I, Closed System (Non Flow Process), Open System (Flow System), Control volume. Application of first law of thermodynamics.

3.Second Law of Thermodynamics Second law of thermodynamics, Kelvin plank and clausius statement, corollary of second law, application of second law, reversibility and irreversibility.

4.Entropy Property of entropy, T-S plot, inequality of clausius, entropy principle, entropy transfer with heat transfer, entropy generation in close and open system, entropy and direction, entropy and disorder. Availability

5.Power cycle Gas power cycle:, Otto cycle, Diesel cycle, Dual cycle, Brayton cycle, comparison of cycles.

6.Heat transfer Principle of heat transfer, mode of heat transfer, conduction, convection & radiation, critical radius of insulation, thermal resistance, free & forced convection, dimensionless parameters in convective heat transfer, extended surfaces

7.Heat Exchangers Heat exchangers, parallel flow, counter flow, cross flow, application. NTU & LMTD method.

Practical work: - Practical & term-work will be based on the topic of the syllabus stated above.

Referance Books

1. Thermal Engineering by P.L.Ballany 2. Thermodynamics by P.K.Nag 3. Heat & Mass Transfer by D.S.Kumar 4. Thermodynamics & by R.Yadav Heat Engine Vol.I, II 5. Thermodynamics by Cengel. 6. Heat Transfer by Cengel





Assessment

Grand Total

02 00 02 04 02 01 03 25 50 02 75 50 125

GANPAT UNIVERSITY U. V. Patel College of Engineering B.Tech Sem. IV – (Mechatronics)

2HS401 Engineering Mathematics - III

1. Theory of complex variables : Analytic functions, Cauchy – Rieman equation, harmonic functions, line integral, Cauchy’s

theorem and Cauchy’s integral, Simple form of conform transformation with application of the solution of two dimensional problems.

2. Ordinary differential equation (higher order) : Ordinary differential equation with constant coefficient, variation of parameter methods, Cauchy

– Euler differential equations, simultaneous differential equations with constant coefficient, applications of ordinary differential equation.

3. Partial differential equations : Formation of partial differential equations, Lagranges first order partial differential equations,

directly integrable equations, method of separable of variables, application to wave equations, diffusion equation and Laplace equation.

4. Laplace transforms : Definition, Laplace transform of elementary functions, properties of Laplace transform, inverse

Laplace transform, transform of derivatives, transform of intergration, multiplication by tn , division by t, convolution theorem, unit step and heaviside’s unit function, direct-delta function, periodic functions, solution of ordinary linear differential equations, simultaneous equation with constant co-efficient applied to electrical circuits.

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 sine and cosine series, elements of harmonic analysis.

6. Fourier transforms : Definition, Fourier integral, Fourier sine and cosine intergration, complex form of Fourier

integral, Fourier transform, Fourier transforms, Fourier sine and cosine transform, inverse Fourier transforms.

7. Statistics : Probability, Total probability, Independent events, theorem of compound probability, Bay’s

theorem, random variable, discrete probability distribution, continuous probability distribution, expectation, moment generating function, repeated trials, Binominal, Poisson’s and normal distribution applications, calculation of error, probable error, standard error.

Referance Books :

1. Applied Mathematics Vol. I & II by P.N. Wartikar & J.N. Wartikar 2. High Engineering Mathematics by B.S. Grewal 3. Engineering Mathematics by Shrivastva 4. Text Book of Engineering Mathematics by A.B. Mathur & V.P. Jaggi

EXAMINATION SCHEME THEORY PRACTICAL TEACHING SCHEME CREDIT

SEM. END LECT. (HRS.) TU. PRACT.

(HRS.) TOTAL (HRS.) THEORY PR/TW TOTAL

INT. ASSES. MARKS HRS. TOTAL

PRACT. ASSESSMENT

GRAND TOTAL

04 00 00 04 04 00 04 30 70 03 100 0 100

GANPAT UNIVERSITY U. V. Patel College of Engineering B. Tech. SEM. IV (Mechatronics)

2MC402 Industrial Drafting, Design & Packages

PART A. MACHINE DESIGN: 1. Introduction to machine design:

Meaning of Design, Mechanical Engineering design, Introduction to machine design, Phases in design, Requisites of design engineer, Preferred Numbers & Standards, Codes for materials Properties & application of engineering materials and their selection.

2. Design considerations: Direct stresses (Tensile and Compressive), stress-strain diagram, Bending stresses, Bearing stresses, Torsional stresses, Eccentric loading, Principal stresses, Contact stresses, Castigliano’s theory for determining deflections. Factor of safety and factor influencing it, Theories of failures.

3. Design of cotter and Knuckle joint: Design of simple cotter joint, Sleeve and Cotter joint, Cotter foundation bolt, Gib and cotter joint, Design of knuckle joint

4. Design of Shaft, Keys & Couplings: Design of shaft & axles on basis of bending, torsion & combined loading, Shaft design on the basis of rigidity, Effect of keyways, Design of Square key, Rectangular key, Kennedy key, Splines, Design of Muff or Sleeve coupling, Clamp coupling, Flange coupling, Pin-bushed coupling.

5. Design of bolt and riveted joints: Riveted joints: Types of riveted joints, Design of double and triple riveted butt joint with equal and unequal cover plates, Design of riveted joint as per IBR, Design of lap joint, Lozenge joint Bolted joints: Definitions, Types of threads, screw fastenings, locking devices for nuts, washers, eye bolts, Efficiency of threads, Static stresses in screw fastenings Eccentric loading in riveted and bolted joints: a) Loading parallel to axis of bolts b) Loading perpendicular to axis of bolts c) Eccentric loading on circular base

6. Design of springs: Types of springs, Terminology related to springs, Types of end in helical springs, Design of helical spring, Wahl’s factor, Spring in combination: parallel and series, Concentric spring, Design of leaf spring





Assessment

Grand Total

03 00 02 05 03 01 04 30 70 03 100 50 150

7. Design of levers: Types of levers, Design of hand lever, Design of foot lever, Design of cranked lever, Design of lever of a safety valve, Design of bell-crank lever, Design of rocker-arm lever.

8. Struts and columns: Design of connecting rod, Design of push rod, Design of piston rod 9. Power Screw:

Types of threads, design of screw with different types of threads used in practice, design of nuts, design of C clamp, screw jack, design of toggle jack, design of coupler.

PART B INDUSTRIAL DRAFTING (To be dealt in Laboratory):

1. Assembly Drawing, Standard drawing, Machine shop drawing, Pattern shop, Sheet metal drawing.

2. Production Drawing : Element of production drawing, Information on Drawing, Tolerances, Manufacturing methods.

3. Limits, Tolerances and Fits : Indicating geometrical tolerances on the drawing, Standard followed in industry.

4. Surface Roughness : Roughness and machining symbols, Indication on drawings.

PART C PACKAGES: MODELING:

1. Introduction to Computer Aided Drawing:

Objectives, introduction to drawing using CAD, Advantages of using CAD. 2 & 3 dimensional modeling, application of CAD.

2. Overview of drafting package: Introduction, development, systems requirements, drawing by drafting package.

3. Basics of drafting package: Introduction of Main Menu, Starting new drawing, drawing editor, entering commands using mouse, pull down menus, screen menu, getting help from drafting package, data entry, error correcting.

4. Working with drafting package: Settings Limits, drawing lines, using zoom, erasing lines, drawing lines, saving the work.

5. Drawing, Editing, Viewing, dimension and text commands 6. Plotting the Drawing 7. Overview of modeling package: Basics of Feature based, solid modeling, parametric

modeling package. 8. Basic Commands: Extruding, Revolving, Sweeping, Blending, Pattern using

modeling package.

PRACTICALWORK : Part A MACHINE DESIGN : 1. Design of machine elements and preparation of report:

a) Design consideration b) Design of shaft c) Design of couplings d) Design of riveted joint e) Design of spring f) Design of levers g) Design of column h) Design of screw, nut and other parts

Part B INDUSTRIAL DRAFTING 2. Design & Assembly & detailed drawing of : a) Cotter / Knuckle joint/Connecting Rod (one sheet) b) Coupling/power screw(one sheet) The design calculations be included in Part A above. At least one drawing should be production drawing out of above. Drawing should be on A2 size ( both details and assembly.)

Preparation of assembly and detail drawings of Machine components (production drawing) NOTE : Part B be taught in laboratory & be tested only in oral examination as under. Reference Books :

1. Machine Design, vol-1 - by Haideri 2. Machine Design by V. B. Bhandri 3. Machine Design - by Pandya & Shah (1994 Edition) 4. Machine Design - by Sharma & Agrawal (6th Edit≥ion, 1997) 5. Mechanical engineering design by J.E. Shigley 6. Machine Design - by R.B. Gupta 7. Machine Design Vol.-I by R.C. Patel 8. Machine Design - by Sharma and purohit 9. Machine Design - by R.K. Jain 10. Machine Design – by R.B. Patil 11. Autocad 2002 with application by Sham Tickoo 12. Mastering Autocad 2000 by George Omura 13. Pro/Engineer Wildfire for Designerssd by Sham Tickoo


2MC403 Digital Circuits & Devices

1. Data and Number Representation - Binary - Complement Representation BCD - ASCII, ASCII

2. Boolean algebra, Logic Gates, Minimization, Use of Programs Such As Express in Minimization

3. Digital Circuit Technologies, Rtl/Dtl/Dctl/Ttl/Mos/Cmos/Ecl, Analysis of Basic Circuits in These Families, Internal Architecture of Programmable Logic Devices.

4. Combinational Design, Design with Muxes. 5. Sequential Circuits, Flip-Flops, Counters, Shift Registers, MultiVibrators, State

Diagrams -Sequential Circuit Design from State Diagrams - Computer Aids in Synthesis.

6. Memory System - RAM, ROM, EPROM, EPROM, Pal, Plds, Pgas. 7. A/D and D/A Conversion Techniques and Selected Case Studies 8. Bus Structures, Transmission Line Effects, Line Termination 9. Cad Tools, Fpga Based Design Exercises. 10. Introduction to VLSI Design, Custom and Semi-Custom Design.

Practical work:

The term work shall be based on experimental and analytical work on the topics mentioned above and will be defended by the candidates. Reference Book(S): 1. Digital Circuits and logic Design By Morris Mano 2. Designing with Fpgas and Cplds By Jesse Ii Jenkins 3. Digital Integrated Electronics By H Taub & D Schilling 4. VHDL By Douglas L Perry 5. Introduction to VLSI Systems By C Mead And I Conway 6. Electronics for Scientists and Engineers

By T.R.Viswanathan, G.K.Mehta and Rajaraman 7. Integrated Electronics, Analog and Digital Circuits and Systems

By J. Millman and Halkias





Assessment

Grand Total

03 00 02 05 03 01 04 30 70 03 100 50 150


2MC404 Dynamics of Machines

1. Balancing: - Introduction, Balancing of rotating masses, Rotating masses in same plane, Rotating masses in different planes, Balancing of reciprocating masses, Primary and secondary unbalanced forces of reciprocating engine, balancing of locomotives. 2. Vibration: - Introduction, Undamped free Vibrations, Dumped free vibration, force vibration, two - degree of freedom system. 3. Synthesis of mechanisms: - Introduction to synthesis and analysis, type of synthesis, synthesis of a four bar chain, Freudentein equation for four bar mechanisms, precision point for function generator (Chebychev spacing method), Bloch method etc. 4. Gyroscope: - Introduction, Gyroscope couple, effect of gyroscopic couple on bearings: Gyroscopic effect on Naval ship, stability of an automobile, stability of a two wheeler vehicle, Effect of Gyroscopic couple on the aero plane. 5. Governor: - Introduction, types of governors, centrifugal governors, dead weight and spring controlled governors, controlling force, sensitiveness of governors, hunting and sochronism in governors, effort and power of a governor, co efficiency of insensitiveness. 6. CAM:- Introduction disc, cylindrical & conical cams, Analytical & graphical determination of velocity & accelerations, dynamics of high speed cam systems, polydyn cam, force analysis of cams, vibrations, jump, shock, spring, surge, criteria in high spec cams 7. Gears: - Type of Gears, Involutes teeth, Cycloid teeth, Path of contact, Length of arc of contact, contact Ratio, Interference, Minimum number of teeth

Term work:- The Practical & Term work shall be based on experimental and analytical work on the topics mentioned above and will be defended by the candidates.

Reference Book:-

1. Theory of machine - By S.S Ratan 2. Theory of machine - By V.P. Singh 3. Theory of machine- BY J.S. Rao & R.V. Dukkipati 4. Theory of machine- By Sadhu Singh.





Assessment

Grand Total

03 00 02 05 03 01 04 30 70 03 100 50 150


2MC405 Fluid Mechanics & Machines

1. Property of fluid: - Type of fluid, law of continuum, property of fluid, viscosity, surface tension, cohesion & adhesion, capillarity / bulk modulus compressibility, compressibility, evaporability & vapor pressure 2. Fluid static: - Pre & its measurement, hydrostatic law, hydrostatic forces on submerged surfaces vertical, horizontal, inclined & curved surface, buoyancy and flotation, meta centric height, stability of immersed and floating body. 3. Fluid / Kinematic: - Types fluid flow, velocity & acc. of fluid flow, rate of flow & continuity equation, vortex flows. 4. Fluid Dynamics: - -Control volume & Control surface, Ealor’s equation, Bernoulli’s equation -Compressible flow: - velocity of sound, mach no & mach cone 5. Fluid machine: - -Impulse momentum principal force exerted by a jet on flat plate, hinged flat plate, moving flat plate, curved. -C.F. pump: - types, construction, velocity dia & plate, work done, effect of van shape, pump losses & efficiency pre rise in impeller, min. speed of pump, specific speed, cavitations & maximum suction lift, NPSH performance characteristics of C.F pump. 6. Hydraulic turbine: - Impulse reaction turbine, pelton wheel, Francis, propeller& Kaplan turbine, effective head, available power & efficiencies for above turbines, draft tube, specific speed of turbine, cavitation, performance characteristics of turbines. Practical work: - The term work shall be based on experimental and analytical work on the topics mentioned above and will be defended by the candidates. References books: -

1. Fluid Mechanics & Machine by R.K. Bansal 2. Fluid Mechanics & Machine by K.R. Arora 3. Fluid Mechanics & Machine by R.K. Rajput





Assessment

Grand Total

03 00 02 05 03 01 04 30 70 03 100 50 150


B.Tech SEM. IV (Mechatronics) 2MC406 Energy Conversion Systems

1. Refrigeration Vapour compression cycle, components of refrigeration system, condenser, compressor, expansion devices, evaporator. Refrigerant Vapour absorption system, and Electrolux refrigerator. 2. Air conditioning Central AC system, package AC system, Liquefaction of gases, Psychometrics Chart. Construction of Psychometrics Chart, different processes of Psychometry. 3. IC engines Diesel & petrol engine, engine performance parameters, testing & application 4. Automobiles Scooters, motor cycles, cars, general features & systems 5. Introduction to thermal power plant Rankine cycle, actual vapor cycle, comparison of Rankine and Carnot, binary vapor cycle. Layout & working of power plant, components of power plant. 6. Nuclear engineering Introduction, principal components of a reactor, classification of nuclear reactor, the pressurized water reactor, boiling water reactor, sodium-cooled graphite-moderated reactor, fast breeder reactor, nuclear power plant.

Practical work will be based on the topic of the syllabus stated above.

Referance books

1. Refrigeration & Air conditioning by P.L.Ballany 2. Thermal Engineering by R.S.Khurmi, J.K.Gupta 3. I.C.Engineering by Mehta & Mathur 4. Thermodynamics & by R.Yadav Heat Engine Vol.I, II 5.Refrigeration & Air Conditioning by C.P.Arora





Assessment

Grand Total

03 00 02 05 03 01 04 30 70 03 100 50 150


B. Tech. SEM. V (Mechatronics) 2MC501 Casting & Machining Processes

1. Foundry Processes: Classification of manufacturing processes, advantage of casting processes over the manufacturing processes.

2. Sand Casting: Patterns, types of patterns, advantages and limitation, pattern rational, pattern allowances, pattern colours, moulding sand, ingredients of moulding sand, sand making, additives of sand, moulding techniques, core and core print, core making, defects arises due to sand casting.

3. Gating and Risering: Different types of gates, gating design, advantages and disadvantages of gating system, riser, riser design, locating of riser.

4. Solidification of Casting: Nucleation, growth, and different types of solidification, progressive solidification, and directional solidification.

5. Special Casting Techniques: Metallic moulding, shell moulding, Co2 process, noback resin moulding, centrifugal casting, die casting, investment casting.

6. Melting Practice: Crucible furnace, cupola furnace, induction furnace, and iron-fired furnace.

7. Defects in Casting and their remedies:

8. Basic Machine Tool:

Introduction to machining processes, machine tool classification, primary cutting motion and auxiliary motion in machine tool.

9. Turning Process: Working principle, classification, construction and arrangement of engine lathe, lathe specification, mechanism, accessories and attachment for extending processing capacity of engine lathe, turning and allied operations, capstan and turret lathe, estimation of machining time.

10. Drilling Operation: Working principle, classification, construction and arrangement of radial drilling machine, work holding devices, operations, and estimation of machining time.



Sem. End Pract. AssessmentLect.

(Hrs.) Tu. Pract. (Hrs.)



03 00 02 05 03 01 04 30 70 03 100 50 150

11. Milling Operation: Working principle, classification, construction and arrangement of column and knee type milling machine, attachments, automatic feed mechanism, different cutter holding devices, types of milling cutters, elements of plain milling cutter, peripheral milling, up milling, down milling, work holding devices, operations, gear indexing, estimation of machining time.

12. Planing, Shaping and Slotting Operations: Working principle, mechanism, work and tool holding devices, tools, operations and applications, estimation of machining time.

13. Sawing and Broaching Operations: Working principle, classification of sawing machine, types of broaching machines, attachment of broaching machine, advantages and limitations of broaching machine.

14. Grinding Operations: Working principle, classification, types of abrasives, manufacturing of grinding wheel, grit, grade and structure of grinding wheel, I.S specification of wheel.

15. Microfinishing Processes: Introduction, honing, lapping, polishing, buffing and superfinishing. Laboratory Works: - Each candidate shall submit the following work. Pattern making including wood turning. Casting of the above pattern. Plain, step and taper turning. Thread cutting. Machining plane surface on a shaper. Simple job on milling machine. Text Books: (1) Hajara Choudhary, “Work shop technology Vol- I & Vol-II” Media Prom. Mumbai Edition 9th . (2) P.N.Rao “Manufacturing technology: metal cutting and machine” TMH Edition 2nd. Reference Books: (1) J.S.Campbell “Principles of manufacturing materials and processes”. TMH Edition 1st. (2) Roy A. Lindberg “Processes and material of manufacturing” PHI Edition 4th.

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GANPAT UNIVERSITY

U. V. PATEL COLLEGE OF ENGINEERING

B. TECH. SEM. V – MECHATRONICS ENGINEERING

2ME501- MATERIAL TECHNOLOGY (CBCS) Teaching Scheme Credit Exam. Scheme

Lect Pract Total Lect. Pract Total


Int. Asses

Sem End Total Int.

Asses Sem End Total

Marks Hrs 4 2 6 4 1 5 30 70 3 100 25 25 50 150

1. Theory of Alloys: Systems, phases and phase rule, structural constituents, equilibrium diagram, cooling curves, lever – arm principle, eutectic reaction, eutectoid reaction, peritectic reaction, Iron carbon diagram, constitution, microstructures & properties of plain carbon steels. 2. Heat treatment of steel: Study of heat treatment processes such as annealing, normalizing, spherodizing, hardening, tempering, carburizing, nitriding, cyaniding, induction hardening, flame hardening and hardenability of steel. Application of above processes to machine components & mechanical equipments such as gears, shaft bearings, turbine blades, crank shafts, pistons etc. 3. Steels : Effect of alloying elements such as manganese, nickel, chromium, molybdenum, vanadium, tungsten, cobalt and boron, law alloy steels, stainless steels, tool and die steels, high temperature alloys, selection of steels for various machines components and mechanical equipments, coding of steels as per ASME and ISI. 4. Cast Iron: Constitution, properties of gray, white, malleable and nodular cast irons, seasoning of cast iron, effect of silicon, manganese, sulphur, phosphorous and other elements on the properties of cast iron, use of specific grades of cast iron in mechanical field. 5. Non – ferrous Alloys: Constitution and properties of the alloys of copper, aluminum, lead, tin, zinc, magnesium etc., Application of mechanical field. 6. Powder Metallurgy: Application of powder metallurgy, advantages of powder metallurgy, manufacturing processes, production of powder ,compacting, sintering, products of powder metallurgy like filters, babbitted bearings for automobiles, cemented carbides, diamond impregnated tools. 7 Corrosion of metal and alloys: Mechanism of corrosion, types of corrosion, corrosion prevention techniques. 8. Development of Special Materials: Ceramic materials, Materials for nuclear reactors, High temperature alloys, cryogenic materials, Teflon, Araldite etc., 9. Refractory materials: Properties and classifications, selection of refractories for furnaces, boilers, cupola etc. 10. Composite Materials: Classification, Characterization & application of composite materials. 11. Nano Technology: Introduction to nano technology & nano science, field of application of nano materials.

12. Polymer Materials: Introduction to polymer, classification and processing of polymer materials. TERM WORK: The term work to be prepared by the candidates shall consists of technical report of about ten experiments performed by the candidates out of which at least two experiments will be based on each of the following topics listed under the headings of a. Physical metallurgy b. Ferrous metallurgy c. Non-ferrous metallurgy TEXT BOOKS: 1. O.P. Khanna, “Text Book of Materials Science & Metallurgy”, Dhanpat Rai and Sons 2. Sidney H. Avner, “Introduction to Physical Metallurgy”, T.M.H. Publisher REFERENCE BOOKS: 1. V. Raghavan, “Physical Metallurgy – Principles & Practice”, PHI Publisher 2. Y.Lakhtin, “Engineering Physical Metallurgy & Heat-Treatment”, C.B.S. Publisher 3. T.V.Rajan & C.P. Sharma, “Heat treatment”, PHI Publisher 4. Fontanna M.G. & Green N.D, “Corrosion Engineering”, TaTa McGraw Hill 5. Chawla Krishan K, “Composite Materials”, Spriger 6. George E. Dieter, “Mechanical Metallurgy”, TaTa McGraw Hill 7. Poole Charles P; Owens Frank J, “Introduction to Nano Technology”, Johan Wiley and Sons. Ltd ****************

GANPAT UNIVERSITY U. V. Patel College of Engineering B. Tech. SEM. V (Mechatronics)

2MC503 Design of Machine Elements

A THEORY:

1.Integrated approach in Design : Manufacturing consideration in Design, Ergonomic considerations, and cost and weight considerations in Designing machine members, safety and reliability in design, theories of failures. 2. Power transmission by Belts Chain and Rope : Classification, belt tension ratio, centrifugal tension, power transmitted by belt, selection of flat belt from manufacturer’s catalogue, selection of v-belt from manufacturer’s catalogue, Construction details of flat and V-belts, selection of belt drives. 3. clutches and Brakes: Design of clutch, positive and friction clutches, design of cone, single and multi plates and centrifugal clutches, application in automotive and industrial machinery Classification of clutches. Classification of brakes, design of brakes, band brake, external and internal shoe brakes, disk brakes, applications and construction details 4. Fatigue Loading: Completely reversed or cyclic stresses; stress v/s cycle (S-N) curves; fatigue and endurance limit; effect of surface finish, size and loading on endurance strength; Finite and infinite life; design for finite and infinite life; stress concentration, notch sensitivity and fatigue stress concentration factor; factor of safety for fatigue loading; Gerber, Goodman and Soderberg criteria for design of parts subjected to variable loading; Combined variable normal and shear stresses; applications of fatigue loading for design of shafts, axles etc. 5. Design of Mechanisms: Mechanisms for machine building, kinematics and dynamic considerations in analysis of Mechanisms. Design analysis of mechanism. 6. Design of Machine Tool Structure: Design based on rigidity like Spindle- deflection of spindle, runout of spindle, Column, Housing box. B. Termwork and Practicals: Practical and term work shall be based on ‘A’ above. Term work to be prepared by the candidate should be as under (a) Preparation of design report consisting of one major problem from the list given at (c) below and five minor problems including one solved by computer programming (b) Preparation of working drawing of A2 size of major problem in a above consisting of assembly and detail. (Minimum two sheet)







04 00 02 05 04 01 05 30 70 03 100 50 150

(c) List of major problems Brakes, Internal expanding shoe or external expanding shoe, band brake Clutches- cone, disc, multi plate or centrifugal clutch , Belt drive C. Practical Examination will be conducted as follows - Students are required to make sketches of machine elements studied in ‘A’ above at the time of practical exam. - Students will be required to define the work done in ‘B’ above. Term Work: The term work shall be based on the topics mentioned above Text Books:- (1) Haidary “Machine Design”, Nirali Prakashan Pune. Edition 2nd. (2) V.B. Bhandari “Design of machine Elements” TMH Edition 2nd Reference Books:- (1) Shigley J.E. “Mechanical Engineering Design” TMH. Edition 1st.

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2MC504 Control Engineering

1. Introduction to Control System: Introduction to control system, important definitions, Open loop and closed loop control systems, Concept of feedback & feed forwarded systems, Advantages and disadvantages of both types of systems, Classification of control systems, Servomechanisms. 2. Mathematical Modeling of Physical systems and Dynamic models: Definition, Laplace Transform, Laplace Transform of standard functions, Inverse Laplace Transform, Partial fraction method. Definition of Transform function, Impulse response and Transform functions, Poles & Zeros of Transfer function, Mathematical modeling of physical systems-physical model and mathematical model - modeling of mechanical systems –Translation motion and Rotational motion-Analogous electrical systems, Force voltage analogy, Force current analogy, Advantages of analogous systems, Dynamic modeling of systems and responses. 3. Block Diagram and Signal flow graph: Block diagram fundamentals, basic rules for block diagram reduction, Introduction to signal flow graph algebra, Node elimination in signal flow graph, Mason's Gain formula. 4. Time Domain Analysis: Time domain specifications, Standard test inputs, Step, Ramp, Parabolic and Impulse response, rise time, delay time, overshoot, and Steady state error, Error Coefficients. 5. Stability Analysis of Control systems: Characteristics equation of a control system, Location of roots of characteristics equation on s-plane and their effects on the response of the system, Routh-Hurwitz Stability Criterion, Special cases in RH Tabulation, Determination of the range of K for stable operation. 6. Frequency Domain Analysis: Sinusoidal response of liner control system, Magnitude and phase curve, Polar plot, Nyquest plot and stability criterion, Relative stability, margin and phase margin, Bode plots, determination of absolute and relative stability from Bode plot 7. Root Locus Plot: Angle and Magnitude criterion for plotting root locus, General rules for plotting root locus, Prediction of system response from root locus plot, Effect of addition of pole or zero on root locus.

Motion Control Electric motors and their Application: DC machines, DC variable speed drives, DC servomotors, induction machines, AC variable speed drives, stepper motors, synchronous machines, brushless machines, switched reluctance motor, toroidal torque motor, and electrical variable speed drive characteristics. Variable Speed drive Introduction criteria of the drive, selection criteria of the drive, configuration of parameter, remote and local operation, Variable Frequency drive, study of different operation methods.



Sem. End Pract. Assessment Lect.




04 00 02 06 04 01 05 30 70 03 100 50 150

Term Work: -

The term work shall be based on experimental and analytical work on the topics mentioned above and will be defended by the candidates.

Text Books:- (1)Nagrath and N. Gopal “Control System Engineering”, New age international Ltd Edition 3rd .

(2) KATSUHIKO OGATA “Modern Control Engineering”,Prentice – Hall of India Edition 4th . Reference Books:

(1) M. Gopal “Control Systems - Principles and Design” ,Prentice Hall of India Edition 3rd .

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2MC505 Microprocessor

* 8085 (8-BIT)

1. Introduction to Microprocessors, Microcomputers and Assembly language: Microprocessors, microprocessor instruction set and computer languages- from large computers to single chip micro controllers.

2. Overview of Microprocessor Architecture and Microcomputer systems: Microprocessor architecture and its operations – memory - input, output devices, example of a microcomputer system.

3. Interfacing I/O Devices: - Basic Interfacing Concepts. - Interfacing Output Devices. - Interfacing Input devices. - Memory-Mapped I/O.

4. Architecture and Memory interfacing: - Microprocessor Architecture and its Operations. - Memory and I/O Devices. 5. Programming of 8085: - Introduction to 8085 Assembly Language programming. - Introduction to 8085 Instructions. - Programming Techniques with Additional instructions. - Stack and Subroutines. 6. Interfacing and Peripheral: - Interrupts. - General Purpose Programmable Peripheral Devices.







03 00 02 05 03 01 04 30 70 03 100 50 150

* 8086 (16-BIT)

8086 internal architecture

Introduction to programming the 8086 1.8086 Family Assembly Language Programming: -Program development, Machine codes, Assembler & Program development tools. -8086 instructions descriptions & assembler directives. -8086 interrupts & hardware interrupt application. -Introduction to Pentium and Pentium-pro microprocessors. -Introduction to Single Chip Microcontroller. - Introduction to other 16 and 32 bit Microprocessors.

Text Books: 1. R.S. Gaonkar “Microprocessor Architecture, Programming and Applications with 8085” Penram

international Pub, Edition 3rd.

2. Douglas V. Hall “Microprocessors and Interfacing: Programming and Hardware” TMH Edition 2nd.

Reference Books: (1) BARRY B.BREY “The Intel Microprocessors 8086/8088, 80186/80188, 80286, 80386, 80486,

Pentium and Pentium pro processor. Architecture, Programming and Interfacing, PHI

(2) WILLIAM STALLINGS “Computer Organization and Architecture Designing for Performance”.PHI

****************

GANPAT UNIVERSITY U. V. Patel College of Engineering B. Tech. Sem. V (Mechatronics) 2MC506 Software Packages -I

1. Introduction: Introduction to modeling Softwares, Nature of modeling software, System requirements, important terms and definitions, file menu options, Managing file, Function of mouse, various toolbars

2. Sketcher: Configuring for sketcher, Setting sketching environment, Creating sketcher geometry, Modifying sketcher geometry, Dimensioning sketcher geometry, Constraining geometry

3. Part Modeling: Basic (Parent child relationship), Base feature, Create datum’s features, Edit features, Engineering features, Advanced features

4. Assembly: Creating top-down assemblies, creating bottom-up assemblies, Placement constraints, Assembly datum planes, assembling the components, redefining the components of the assembly, reordering the components, modifying the components of the assembly, the bill of material

5. Detailing: Creating drawing, working model views, Dimensioning and detailing your models, controlling drawing details with layers, Importing and exporting data

Reference Books: (1) Solid Works User Manuals

****************







00 00 02 02 00 01 01 00 00 00 00 50 50

GANPAT UNIVERSITY U. V. Patel College of Engineering B. Tech. SEM. VI (Mechatronics)

2MC601 Metal Forming & Fabrication

1. Fundamentals of metal forming: Classification of forming processes, mechanics of metal working, temperature in metal working, hot working, cold working, strain rate effects, metallurgical structure, hydrostatic pressure, workability, residual stresses.

2. Primary metal working and processes: A. Forging: Classification of forging processes, forging equipment, forging defects.

B. Rolling of metals: Classification of rolling processes, principle of metal rolling mills, simplified analysis of rolling load, rolling variables, defects in rolled products.

C. Extrusion: Classification of extrusion process, extrusion equipments, hot extrusion, deformation, lubrication and defects in extrusion, cold extrusion, hydrostatic extrusion, extrusion of tubing, production of seamless pipe and tubing.

D: Drawing of rods, wires and tubes: Sizing, coining and embossing.

3. Cold forming (Sheet metal working): A. Drawing: deep drawing, squeezing, bending, blanking, piercing, notching etc., high energy rate forming, spinning, operations and applications.

B. Press work: Types of press, drive mechanisms for presses, feed mechanisms press tools sets, die classification, elements of die and punch design.

4. Fabrication process: A. Welding: Welding process, description of braze welding, forge welding, gas welding, Resistance welding, induction welding, arc welding, electron beam, laser welding, friction welding, thermit welding, flow welding, cold welding, explosion welding, plasma arc welding.

B. The formation of a fusion welded joint, the factors involved, the nature of heat source, the welding arc, the cathode, the arc, powder source characteristics, metal transfer, heat flow, metallurgical reactions with weld pool, contraction of weld deposit.

C. Electrode coatings, electrode classification and selection.

D. Source of current supply for arc welding.







04 00 02 06 04 01 05 30 70 03 100 50 150

E. Welding defects and their detection.

F. Expansion, contraction, distortion and residual stress in welding, Method of controlling distortion and stress in welding.

G. Soldering and brazing, process description and application.

5. Plastic molding and forming processes: Blow molding, injection molding, continuous strip molding, liquid resin molding, rotational molding, thermo-forming, vacuum forming, pressure forming, profile extrusion, and twin sheet forming. Text Books

(1) O.P. Khanna, “Welding Technology”, Dhanpat Rai Pub. Edition 1st. (2) Jain & Gupta “Production Technology” Khanna Pub. 17 15th.

Reference Books:

(1) Higgins “Material Science” Vol. I & II , Viva Books Edition 1st (2) Lindberg “Manufacturing Process” PHI Edition 4th . (3) Begeman “Manufacturing Process “ Asia Pub. Bombay Edition 4th .

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GANPAT UNIVERSITY U. V. Patel College of Engineering B. Tech. Sem. VI (Mechatronics)

2MC602 Metrology & Instrumentation

Part 1 – Metrology: 1. Standards of measurements, sources of error on measurements, limits, fits, tolerances and allowances, IS for limits and fits.

2. Methods for measuring lengths, diameter inside a deep hole, small inside diameters, angles, profiles and positions, measurements of flatness, squareness, parallelism and alignment deflection measurement, linear transverse and torsional.

3. Gauges including their design IS for plug & ring gauges, Interchangeable manufacturing.

4. Amplifying devices and comparators.

5. Surface assignment.

6. Gear measurement.

7. Screw thread measurement. Part 2 - Mechanical Measurement: 1.Motion Measurement: Measurement of displacement, velocity, acceleration and vibrations by potentiometer, strain gauges, seismic pick ups, velocity pickups and acceleration pickups, calibration of pickups.

2.Force Measurement: Torque and shaft power measurement, Basic method of force measurements, elastic force transducers, torque measurement on rotating shaft, shaft power measurement.

3.Pressure measurement: Basic method of pressure measurement, dead weight gauges and manometers, elastic transducers and force balance transducer.

4.Flow measurement: Gross flow rate measuring meters, constants area, variable pressure drop meters (obstruction meters) constant pressure drop variable arc meters (Rotameter), local flow velocity magnitude and direction meters, pitot static tube, Hotwire anemometer, velometer.

5.Temperature measurement: Measurement of temperature by liquid – in – glass thermometers, pressure thermometers, thermocouples, their calibration, resistance thermometer, bimetallic thermometer, thermistors, radiation and optical pyrometers.







03 00 02 05 03 01 04 30 70 03 100 50 150

Term Work: The term work shall be based on the experimental work on the topic mentioned above. Text Books:

(1) R.K. Jain “A Text Book of Engineering Metrology” Khanna Pub. Edition 20th . (2) D.S. Kumar “Mechanical Measurement & Control" Metropolitan Edition 3rd .

Reference Books:

(1) Khare & Vajpayee “Dimensional Metrology” PHI Edition 1st . (2) N. Chaudhary “Instrumentation” Edition 1st .

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GANPAT UNIVERSITY

U. V. Patel College of Engineering B. Tech. SEM. VI (Mechatronics)

2MC603 Hydraulics & Pneumatics Systems

SECTION-I (HYDRAULICS)

1. Introduction to Fluid Power Introduction, advantages, disadvantages, application, fluid properties, Pascal law, application of Pascal law, continuity equation, hydraulics power, flow rate

2. Hydraulics Pumps Pumping theory, pump classification, gear pump, vane pump, piston pump, pump selection

3. Hydraulics Actuator & Motors Introduction, types of cylinder, cylinder force, velocity , power, construction of cylinder, seals in cylinder, mounting style of cylinder, cushioning of cylinder, some common problems in cylinder, introduction to hydraulic motor, gear motor, vane motor, piston motor

4. Hydraulics Valves Direction Control Valve: Construction, classification, valve operating method, centre condition of spool valves, Design factors

Pressure Control Valve: Pressure relief valve, pressure reducing valve, unloading valve, sequence valve, Counterbalance valve

Flow control Valve: Throttle valve, throttle with check valve, check valve

5. Hydraulics Accessories Pressure gauge, pressure intensifier, pressure switch, temperature switch, accumulators, flow meter

6. Circuit Design & Analysis Control of single acting and double acting cylinder, meter in and meter out circuits, regenerative circuits, counter valve application, automatic cylinder reciprocating, fail safe circuit, pump unloading circuits







04 00 02 06 04 01 05 30 70 03 100 50 150

SECTION-II (PNEUMATICS)

1. Basic of Pneumatics Systems Introduction, application of pneumatics, Gas laws, basic requirements for pneumatic systems.

2. Air Compressors Introduction, types of air compressors, classification. Single acting & double acting cylinders, piston type reciprocating compressor, rotary vane compressor, liquid ring compressor, twin lobe compressor, screw compressor, liquid cooled rotary screw compressor, selection criteria for compressors, characteristics of single acting & double acting cylinder, air receiver.

3. Servicing Compressed Air Introduction, FRL unit, air filter, pressure regulator, lubricator

4. Pneumatic Cylinders & Air Motor Introduction, types of cylinders, single acting cylinder, double acting cylinder, classification according to construction, cushion assembly, types of mount, piston speed & force, air motors, types of air motors

5. Pneumatic Valves Introduction, types of valves, direction control valves, valve position, basic construction of valves, overlapping, controlling methods, control techniques, flow control valve, non return flow control valve, check valve, quick exhaust valve, time delay valve, shuttle valve, twin pressure valve, solenoid valve, cascade systems

6. Basic Pneumatic circuits Symbols, control of single acting & double acting cylinder by various methods, impulse operation, speed control of a cylinder, sequencing of motions, automatic cylinder reciprocating, time delay circuits, logic operation circuits, circuits by cascade systems

7. Electrical Control in Pneumatic Circuits Electropneumatics, relays, Electropneumatics circuits Practical Work: The term work shall be based on experimental and analytical work on the topics mentioned above and will be defended by the candidates. Text Books:

(1) Anthony Esposito “Fluid Power Systems”, Prentice Hall Edition 2nd . (2) Majumdar S.R “Pneumatic systems Principles and maintenance“,Tata McGraw – Hill Edition 1st .

(3) Majumdar S.R. “Oil Hydraulics : Principles & Maintanence”, TMH Edition 1st . Reference Books:

(1) W. Boltan B/H Butterworth “Pneumatic and Hydraulic system”, Heinemam Edition 2nd .

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GANPAT UNIVERSITY U. V. Patel College of Engineering B. Tech. Sem. VI (Mechatronics)

2MC604 Microcontroller

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. Basic ALP Concepts:

Generic computer, mechanics of programming, ALP process, PAL practice CPU, programming tools and techniques, programming the 8051.

4. Moving Data:

Addressing ;modes, external data moves, code memory read PUSH and POP opcodes, data exchanges.

5. Logical Operations:

Byte-level logical operations, bit-level logical operations, rotate and swap operations.

6. Arithmetic Operations:

Flags, incrementing and decrementing, addition. Subtraction, multiplication and division, decimal arithmetic.

7. Jump and Call Instructions:

Jump and call program range, jumps, calls and subroutines, interrupts and returns.

8. 8051 Microcontroller design:

microcontroller specifications, 8051 micro controller design, testing the design, timing subroutines, look up tables for 8051, serial data transmission.

9. Applications:

Keyboards, displays, pulse measurements, D/A and A/D conversions, multiple interrupts.

10. Serial data Communication:

Network configuration, 8051 data communication modes. Term Work: The term work shall be based on experimental and analytical work on the topics mentioned above and will be defended by the candidates. Text Books: (1) Kenneth J. Ayala “The 8051 micro controller-Architecture, programming and application.”

Thomson learning Eidition 2nd. Reference Book: (2) Mazidi “The 8051 micro controller and Embedded system” PHI Eidition 2nd .







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B. Tech. SEM. VI (Mechatronics) 2MC605 Sensor Systems

1. Introduction to Sensor Based Measurement Systems

Terminology, Sensor Classification, General Input-Output Configuration, Static Characteristics, Dynamic Characteristics, Impedance, Reliabilty, Material for Sensors.

2. Sensor Characterization and Physical Effects: Electric charges, fields, potentials, resistance, capacitance, magnetism, induction, piezo electric, piezo resistive effect, hall effect gauss effect, magnetostrictive, thermo resistive, electric effect, photo effect.

3. Sensors: Sensors for position, angle, level, force, strain, torque, velocity, acceleration, pressure, temperature, flow, humidity, Electromagnetic field detectors,

4. Advanced Sensors : Chemical Sensors, Thin and Thick film sensors, Integrated Magnetic sensors, Overview of Optical Sensors, MEMS based Sensors

5. Static and Dynamic Calibration of Sensors Definition and need of sensor calibration, Static calibration, Dynamic behaviour of sensors, Dynamic calibration of first order system, Dynamic behaviour of Thermocouples, Frequency response of first order system, Dynamic calibration methods for force transducers, Dynamic calibration of pressure sensor

6. Sensor Applications:

Automotive sensors, Environmental sensors, sensors for medical diagnosis and patient monitoring, Aerospace sensors

7. Analog Test Circuits: Signal conditioning circuits – Amplifiers - filters - demodulators – multiplexer – reed relay - FET CMOS – cross talk – sample and hold – application – circuits - sampled data fundamentals- digital sampled data system – Digital Vs. Analog Quantization – signal conditioning – lead wire compensation – amplification and filtering







04 00 02 06 04 01 05 30 70 03 100 50 150

8. Digital Test Circuits: ADC hardware – dual ramp (noise effect)-Successive approximation- Flash. DAC- reference voltage, binary code, ladder network and spectrum analysis. Multiplexing, calibration, timers and triggers. System design and practice, Quantization error, sampling frequency, Aliasing frequency – design practice- Computer interface

9. Virtual Instrumentation: LabVIEW - Graphical user interfaces - Controls and Indicators - 'G' programming - Data type, Format, Precision and representation - Data flow programming - Debugging and Running a Virtual instrument - Functions and Libraries - FOR loops, WHILE loops, CASE structure, formula nodes, Sequence structures - Arrays and Clusters - Array operations - Bundle - Bundle/Un-bundle by name, graphs and charts - String and file I/O - High level and Low level file I/O's - Attribute modes Local and Global variables.

10. Data Acquisition I: Single Ended and Differential Measurement Systems, Common-Mode Rejection Ratio, Referenced and Non-Referenced Single-Ended Measurement Systems, Hardware versus Software Timing, Comparing DAQ Devices and Computer-Based Instruments for Data Acquisition, Instrument I/O, Buffered I/O - Real time Data Acquisition. VISA

11. Data Acquisition II: Measurements using DAQ Cards, Real-Time System, Field Point I/O , Compact RIO I/O and Intelligent Real-Time Embedded Controller. PCI or PXI R Series device Device Calibration- External Calibration & Internal Calibration

TEXT BOOKS:

(1) J Fraden, “Handbook of Modern Sensors”, AIP press, 2nd

edition, 2001.

(2) Ramon Pallas, “Sensors and Signal Conditioning”, Wiley-Interscience, 2nd

edition, 2000.

(3) Jon S Wilson, “Sensor Technology Handbook”, Newnes Publishers, 2004.

REFERENCE BOOKS:

(1) Sabriee Soloman ,” Hand Book of Sensors”, McGraw Hill, 1998.

(2) Jon. A.Allocca and Allen Stuart, " Transducers Theory and Applications", Prentice Hall,

2001.

(3) Jan Sinclair, "Sensors and Transducers", Butterworth -Heinmann, 2001.

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GANPAT UNIVERSITY U. V. Patel College of Engineering B. Tech. Sem. VI (Mechatronics) 2MC606 Software Packages - II

1 Introduction:

Matlab Environment, Help feature, Types of files, Search Path, script file 2 Constants, Variables and Expressions:

Character set, Data type, Constants and Variables, Operators, Some built in functions 3 Vectors and Matrices:

Introduction, Scalar and Vector, Entering data in matricesLine continuation, Matrix indices, Multi dimentional matrix, manipulations, some useful commands, matrix and array operation, structure array, Cell arrays,useful functions on cell and structure

4 Input and Output Statements: Data input, input, keyboard, menu, pause commands, reading and storing file data, output commands, file opening and closing functions, formatted input and output, binary input and output commands

5 Matlab Graphics: Two dimensional plots, Multiple Plots, Style options, legend command, Subplots, specialized two dimensional plots, Three dimensional plots

6 Control Structures: Loops, if statement, switch statement, break statement, continue statement, error statement,try-catch statement

7 User Defined Functions: function m-file, Passsing arguements, Function workspace, Types of functions, Function handles, Errors and warning, matlab degugger,Global variables, recursion.

8 Simulink Basics: Introduction, starting simulink, Simulink modelling, Solvers, Simulating model,Using variables, Data import/export, state space modelling, simulation of nonlinear systems.

9 Applications: Linear algebra, curve fitting and interpolation, data analysis and statistics, quadrature, ordinary differential equation, non linear algebric equation.

10 Minor Projects: Electrical circuits, control systems, optimization, engineering mechanics, mechanical vibration, Interfacing.

Text Books:

(1) Rao v. Dukkipatti “Matlab – An introduction with applications” New Age International. (2) Rudra Pratap “Getting started with MATLAB 7” Oxford Uni. Press.

Reference Books:

(1) Raj Kumar, Ashok Kumar Goel, Manoj Kumar Sharma “Matlab and its applications in Engineering “

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