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DIPLOMA (Calendar Year: 2008)
ANNA UNIVERSITY OF TECHNOLOGY
COIMBATORE
DIRECTORATE OF ONLINE AND DISTANCE EDUCATION
SYLLABUS WITH CURRICULAM & REGULATIONS
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ANNA UNIVERSITY OF TECHNOLOGY COIMBATORE DIRECTORATE OF ONLINE AND DISTANCE EDUCATION
REGULATIONS: 2008
This regulation is applicable to all candidates admitted into Diploma Programmes from the calendar year 2008 onwards.
1. PRELIMINARY DEFINITIONS AND NOMENCLATURE In this Regulation, unless the context otherwise requires:
i) “Programme” means Diploma programme.
ii) “Branch” means specialization or discipline of Diploma programme.
iii) “Course” means a theory or practical subject that is normally studied.
iv) “University” means ANNA UNIVERSITY OF TECHNOLOGY
COIMBATORE.
2. PROGRAMMES OFFERED
1. AC and Refrigerator Technician
2. Animation and Graphics
3. Auto Electrician
4. Auto Mechanic
5. Home Appliances Servicing
6. Knitwear Technician
7. Mobile Phone Servicing
8. Printing Technician
9. Share Market Operator
3. ADMISSION 1. Candidates seeking admission to the Diploma Programme should have passed
the Higher Secondary Examination of (10+2) curriculum (Academic stream)
prescribed by the Government of Tamil Nadu or equivalent.
2. The eligibility criteria shall be prescribed by the Syndicate of the University from
time to time.
2 4. STRUCTURE OF PROGRAMME
1. Every Programme shall have a curriculum comprising of theory and practical
courses, and a project work with well defined syllabi.
2. The medium of instruction, examinations and project report shall be in English.
5. DURATION AND PATTERN
A student is normally expected to complete the Diploma Programme in one year but
in any case not more than 3 years from the admission.
6. INTERACTIVE LEARNING PROGRAMME
1. Interactive Learning Programmes are arranged on Saturdays and Sundays or on
Public Holidays. University will arrange Tele Conference / Case Studies in
different centres after due notification.
2. Students need to effectively use the ILPs where they can interact with the
faculty. The schedule of ILP will be notified in the website. However attending
the ILP classes are not mandatory for Diploma programmes.
7. SYSTEM OF EXAMINATION
1. Each course (theory and practical) and project work shall be evaluated for a
maximum of 100 marks.
2. The University examinations of 3 hours duration shall ordinarily be conducted
between December & January and between May & June.
8. REQUIREMENTS FOR APPEARING FOR UNIVERSITY EXAMINATION
A candidate shall normally be permitted to appear for the University examination of
the current year if he/she satisfied the following condition requirement:
• Student is expected to attend all ILP classes and secure 100% attendance.
However, in order to allow for certain unavoidable reasons, the student is
expected to attend at least 50% of the ILP classes (Three pair of Saturday and
Sunday). For Diploma programmes the attendance in ILP classes is not
mandatory.
• Registration is mandatory for current semester / year examinations as well as
arrears examinations. Student is expected to register for examination for all
courses of that semester / year.
3 9. PASSING REQUIREMENTS
1. A candidate, who secures not less than 40% of total marks prescribed for all the
courses, shall be declared to have passed the Examination. If a candidate fails to
secure a pass / absent in a particular course, it is mandatory that he/she register
and reappear for the examination in that course during the next examination is
conducted in that course; he/she should continue the same till he/she secures a
pass.
2. A candidate who opts for project work shall be declared to have passed in the
Project work and Viva–voce examination, if he/she secures an overall minimum of
40% marks. If a candidate fails to secure a pass / absent in the Project work and
Viva-voce examination may be permitted to resubmit a project and appear for the
viva – voce for the second time if so recommended by the examiners. No
candidate shall be permitted to submit the project work and appear for the Viva –
Voce on more than two occasions. Note: - If a student indulges in malpractice in any of the University examinations,
he/she shall be liable for punitive action as prescribed by the University from
time to time.
10. ELIGIBILITY FOR THE AWARD OF DEGREE
A student shall be declared to the eligible for the award of the Diploma Degree
provided the student has
• Successfully completed the course requirements and passed all the prescribed
examinations within a maximum period 3 years reckoned from the
commencement of the course to which the candidates was admitted.
• The award of Degree must have been approved by the Syndicate of the
University.
11. CLASSIFICATION OF THE DEGREE AWARDED
1. A candidate who qualifies for the award of the Degree having passed the
examination in all the courses in his/her first appearance within a maximum
period of 1 year (1 year from the admission) and securing an aggregate of not
less than 75% of total marks shall be declared to have passed the examination in
Distinction.
2. A candidate who qualifies for the award of the Degree having passed the
examination in all the courses within a maximum period of 1 year reckoned from
the commencement of study and securing an aggregate of not less than 60% of
total marks shall be declared to have passed the examination in First Class.
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3. A candidate who qualifies for the award of the Degree having passed the
examination in all the courses not within a maximum period of 1 year reckoned
from the commencement of study and / or securing an aggregate of less than
60% of total marks shall be declared to have passed the examination in Second
Class.
4. All other candidates shall be declared as failed candidates.
12. GRADING SYSTEM
Marks Grade Grade Legend Grade Points95% - 100% O Outstanding 10.0 90% - 94% E Excellent 9.5 86% - 89% A Very Good 9.0 76% - 85% B Good 8.0 66% - 75% C Above Average 7.0 56% - 65% D Average 6.0 40% - 55% S Satisfactory 5.0 Below 40% RA Reappearance -
- W Withheld - - AB Absent -
*****
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ANNA UNIVERSITY OF TECHNOLOGY COIMBATORE DIRECTORATE OF ONLINE AND DISTANCE EDUCATION
DIPLOMA CURRICULUM
DIPLOMA IN A/C AND REFRIGERATOR TECHNICIAN Branch Code - 501
Course Code Course Marks Credits
150101 PRINCIPLES OF REFRIGERATION 100 3 150102 PRINCIPLES OF AIR-CONDITIONING AND COLD STORAGE 100 3 150103 REFRIGERATOR HARDWARE 100 3 150104 HVAC DESIGN 100 3 150105 ELECTRICAL TECHNOLOGY 100 3 150106 PROJECT WORK 100 3
Total Credits 18
DIPLOMA IN ANIMATION AND GRAPHICS Branch Code - 502
Course Code Course Marks Credits
150201 BASICS OF COMPUTER GRAPHICS 100 3 150202 2D AND 3D GRAPHICS 100 3 150203 MULTIMEDIA AND WEB DESIGNING TOOLS 100 3 150204 ANIMATION TOOLS 100 3 150205 MAYA 100 3 150206 PROJECT WORK 100 3
Total Credits 18
DIPLOMA IN AUTO MECHANIC Branch Code - 503
Course Code Course Marks Credits
150301 AUTOMOBILE ENGINES 100 3 150302 AUTOMOTIVE FUELS AND COMBUSTION 100 3 150303 CHASSIS, SUSPENSION AND TRANSMISSION 100 3 150304 AUTOMOBILE BRAKING AND ELECTRICAL SYSTEM 100 3 150305 AUTOMOBILE MAINTENANCE AND TROUBLESHOOTING 100 3
Total Credits 15
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DIPLOMA IN MOBILE PHONE SERVICING Branch Code - 504
Course Code Course Marks Credits
150401 WIRELESS COMMUNICATIONS 100 3 150402 INTRODUCTION TO MOBILE COMMUNICATION SYSTEMS 100 3 150403 TECHNOLOGIES IN MOBILE DEVICES 100 3 150404 FUNDAMENTALS OF PCB TECHNOLOGY 100 3 150405 PCB DESIGN 100 3
Total Credits 15
DIPLOMA IN KNITWEAR TECHNICIAN Branch Code - 505
Course Code Course Marks Credits
150501 FUNDAMENTALS OF TEXTILE MATERIALS 100 3 150502 PROCESSING OF KNIT FABRIC 100 3 150503 KNITTING TECHNOLOGY 100 3 150504 TEXTILE TESTING 100 3 150505 FASHION AND APPAREL DESIGN 100 3
Total Credits 15
DIPLOMA IN SHARE MARKET OPERATOR Branch Code - 506
Course Code Course Marks Credits
150601 FINANCIAL DERIVATIVES 100 3 150602 INDIAN STOCK MARKET 100 3 150603 SECURITY ANALYSIS 100 3 150604 PROTFOLIO MANAGEMENT 100 3 150605 MUTUAL FUND 100 3
Total Credits 15
DIPLOMA IN PRINTING TECHNICIAN Branch Code - 507
Course Code Course Marks Credits
150701 PRINTING MATERIALS 100 3 150702 PRINTING PROCESS 100 3 150703 IMAGE REPRODUCTION SYSTEMS 100 3 150704 PRINCIPLES OF BOOK PUBLISHING 100 3 150705 DESK TOP PUBLISHING 100 3
Total Credits 15
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DIPLOMA IN HOME APPLIANCES SERVICING Branch Code - 508
Course Code Course Marks Credits
150102 PRINCIPLES OF AIR-CONDITIONING AND COLD STORAGE 100 3 150103 REFRIGERATOR HARDWARE 100 3 150801 COLOUR TV INSTALLATION AND SERVICING 100 3 150802 PRINCIPLES OF AIR CONDITIONING AND COLD STORAGE 100 3 150803 AUDIO AND VIDEO SYSTEMS 100 3
Total Credits 15
DIPLOMA IN AUTO ELECTRICIAN Branch Code - 509
Course Code Course Marks Credits
150105 ELECTRICAL TECHNOLOGY 100 3 150301 AUTOMOBILE ENGINES 100 3 150303 CHASSIS, SUSPENSION AND TRANSMISSION 100 3 150304 AUTOMOBILE BRAKING AND ELECTRICAL SYSTEM 100 3 150305 AUTOMOBILE MAINTENANCE AND TROUBLESHOOTING 100 3
Total Credits 15
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DIPLOMA SYLLABUS
150101 - PRINCIPLES OF REFRIGERATION OBJECTIVE: To provide a comprehensive view on essential theories and practical aspects of
refrigeration systems.
MODULE 1: Introduction to Air Refrigeration Cycles – Units of Refrigeration - Coefficient of
Performance of a Refrigerator – Difference between a Heat Engine, Refrigerator and Heat Pump –
Open Air Refrigeration Cycle – Closed or Dense Air Refrigeration Cycle – Air Refrigerator Working
on Reversed Carnot Cycle – Temperature Limitations for Reversed Carnot Cycle – Air Refrigerator
Working on a Bell-Coleman Cycle
MODULE 2:
Introduction to Air Refrigerator Systems – Methods of Air Refrigeration Systems – Simple
Air Cooling System – Simple Air Evaporative Cooling System – Boot Strap Air Cooling System –
Boot Strap Air Evaporative Cooling System – Reduced Ambient Air Cooling System –
Regenerative Air Cooling System – Comparison of Various Air Cooling System used for Aircraft
MODULE 3: Introduction to Simple Vapour Compression Refrigeration Systems – Advantages and
Disadvantages – Mechanism – Pressure-Enthalpy (p-h) Chart – Types of Vapour Compression
Cycles – Actual Vapour Compression Cycle – Effect of Suction and Discharge Pressure –
Improvements in Simple Saturation Cycle – Introduction to Compound Vapour Compression
Refrigeration Systems – Advantages of Compound Vapour Compression – Types of Compound
Vapour Compression
MODULE 4:
Introduction to Multiple Evaporator and Compressor Systems – Types of Multiple
Evaporator and Compressor Systems – Introduction to Vapour Absorption Refrigeration Systems –
Simple Vapour Absorption System – Practical Vapour Absorption System – Advantages of Vapour
Absorption System – Coefficient of Performance – Domestic Electrolux Refrigerator – Lithium
Bromide Absorption Refrigeration System
MODULE 5: Introduction to Refrigerants – Desirable Properties of an Ideal Refrigerant – Classification
of Refrigerants – Halo carbon Refrigerants – Azeotrope Refrigerants – Inorganic Refrigerants –
Hydro carbon Refrigerants – Designation System for Refrigerants – Comparison of Refrigerants –
Thermodynamics Properties of Refrigerants – Chemical Properties Refrigerants – Physical
Properties Refrigerants – Secondary Refrigerants
9 MODULE 6:
Introduction to Low Temperature Refrigeration – Limitations of Vapour Compression
Refrigeration Systems – Cascade Refrigeration System – Coefficient of Performance of a Two
Stage Cascade System – Solid Carbon Dioxide or Dry Ice – Manufacture of Solid Carbon Dioxide
or Dry Ice – Liquefaction of Gases – Linde System for Liquefaction of Air – Claude system for
Liquefaction of Air – Liquefaction of Hydrogen – Applications of Refrigeration – Introduction – Food
Preservation – Industrial Refrigeration – Transport Refrigeration – Domestic Refrigerator and
Freezer – Defrosting in Refrigerators – Controls in Refrigerators
Text Books: R.S. Khurmi, J.K. Gupta, “A Textbook of Refrigeration and Air Conditioning”- S.Chand Publication
References: Ahmadul Ameen, “Refrigeration and Air Conditioning”, Prentice Hall India 2007
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150102 - PRINCIPLES OF AIR CONDITIONING AND COLD STORAGE OBJECTIVE: To impart the fundamental concepts and design aspects of air-conditioning
systems.
MODULE 1:
Review of Basic Principles – Basic Terminologies related to Physical Quantities –
Thermodynamics Systems – Properties of a System – State of a System – Temperature and its
Related terms – Pressure and its Related terms – Energy and its Related terms – Heat and its
Related terms – Work and its Related terms – Power and its Related terms – Laws of
Thermodynamics – Perfect Gas and its Related terms – Entropy – Thermodynamic Processes –
Work done during a Non-flow Process - Application of First Law of Thermodynamics to a Non-flow
Processes – Thermodynamic Cycle and its Related Terms
MODULE 2:
Introduction to Comfort Conditions – Thermal Exchanges of Body with Environment –
Physiological Hazards Resulting from Heat – Factors Affecting Human Comfort – Effective
Temperature – Modified Comfort Design – Heat Production and Regulation in Human Body – Heat
and Moisture Losses from the Human Body – Moisture Content of Air – Quality and Quantity of Air
– Air Motion – Cold and Hot Surfaces – Air stratification – Factors Affecting Optimum Effective
Temperature – Inside Summer Design Conditions – Outside Summer Design Conditions
MODULE 3:
Introduction to Air Conditioning Systems – Factors Affecting Comfort Air Conditioning – Air
Conditioning System – Equipments used in an Air Conditioning System – Classification of Air
Conditioning System – Comfort Air Conditioning System – Industrial Air Conditioning System –
Winter Air Conditioning System – Summer Air Conditioning System – Year-Round Air Conditioning
System – Unitary Air Conditioning System – Central Air Conditioning System – Room Sensible
Heat Factor – Grand Sensible Heat Factor – Effective Room Sensible Heat Factor
MODULE 4: Introduction to Fans – Types of Fans – Centrifugal Fans – Axial Flow Fans – Total
Pressure Developed by a Fan – Fan Air Power – Fan Efficiencies – Fan Performance Curves –
Velocity Triangles for Moving Blades of a Centrifugal Fan – Work done and Theoretical Total Heat
Developed by a Centrifugal Fan for Radial Entry of Air – Specific Speed of a Centrifugal Fan – Fan
Similarly Laws – Fan and System Characteristic – Fans in Series – Fans in Parallel
MODULE 5: Introduction to Air Distribution Systems – Terminology – Behavior of Jets from Outlet –
Comfort Criteria and Standards – Supply Air Outlets and Air Distribution Patterns – Air Distribution
System Design – Air Conditioning Control – Basic Elements of Control System – Types of Control
Systems – Control for Air Conditioning and Components
11 MODULE 6: Applications of Air Conditioning – Room Air Conditioners – Water Coolers – Capacity of
Water Coolers – Applications of Air Conditioning in Industry – Refrigerated Trucks – Marine Air
Conditioning – Ice Manufacture – Cooling of Milk – Cold Storages – Quick Freezing – Cooling and
Heating of Foods – Freeze Drying – Heat and Mass Transfer through the Dried Material
Text Books: R.S. Khurmi, J.K. Gupta, “A Textbook of Refrigeration and Air Conditioning”- S.Chand Publication
References: Ahmadul Ameen, “Refrigeration and Air Conditioning”, Prentice Hall India 2007
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150103 - REFRIGERATOR HARDWARE OBJECTIVE: To highlights the features and characteristics of various refrigerator hardware
including compressors, condensers and evaporators.
MODULE 1:
Introduction of Refrigerant Compressors - Classification of Compressors – Important
Terms – Reciprocating Compressors – Cases of Work Done - Power Requirements - Volumetric
Efficiency - Factors Effecting Volumetric Efficiency - Overall or Total Volumetric Efficiency – Multi-
Stage Compression – Advantages of Multi Stage Compression.
MODULE 2: Two Stage Reciprocating Compression with intercooler – Assumptions - Intercooling of
Refrigerant – Cases of Work Done – Minimum work Required – Performance Characteristics –
Hermetic Sealed Compressors – Rotary Compressors – Centrifugal Compressors – Advantages
and Disadvantages of Centrifugal Compressors – Capacity Control of Compressors, Reciprocating
Compressors, Centrifugal Compressors – Comparison of Performance.
MODULE 3: Introduction of Condensers – Working of a Condenser – Factors Affecting the Condenser
Capacity – Heat Rejection Factor – Classification of Condensers – Air Cooled Condensers and its
Types – Water Cooled Condensers and its Types - Comparison - Fouling Factor - Heat Transfer in
Condenser – Condensing Heat Transfer Coefficient – Air-side Coefficient – Water-side Coefficient
– Finned Tubes – Evaporative Condensers – Cooling Towers and Spray Ponds – Capacity of
Cooling Towers and Spray Ponds – Types of Cooling Towers and its description.
MODULE 4: Introduction of Evaporators – Working of an Evaporator – Capacity of an Evaporator –
Factors Affecting the Heat Transfer Capacity of an Evaporator – Heat Transfer in Evaporators –
Heat Transfer During Boiling – Heat Transfer Coefficient for Nucleate Pool Boiling – Fluid Side
Heat Transfer Coefficient – Types of Evaporators and its description –Methods of Defrosting.
MODULE 5: Introduction of Expansion Devices – Types Of Expansion Devices – Capillary Tube –
Hand-operated Expansion Valve – Automatic (or Constant Pressure) Expansion Value –
Thermostatic Expansion Value – Low-side Float Valve – High-Side Float Valve.
MODULE 6: Introduction to Accessories – Receiver – Filter Driver – Moisture Indicator – Oil Separator -
Liquid-Suction Heat Exchanger – Surge Tank – Vibration Eliminator – Refrigeration Controls –
High Pressure Cutout Control – Low Pressure Cutout Control – Solenoid Valve – Evaporator
Pressure Regulator – Accumulators – Suction Pressure Regulator
Text Books: R.S. Khurmi, J.K. Gupta, “A Textbook of Refrigeration and Air Conditioning”- S.Chand Publication
References: Ahmadul Ameen, “Refrigeration and Air Conditioning”, Prentice Hall India 2007
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150104 - HVAC DESIGN OBJECTIVE: To provide a comprehensive view on essential theories and practical aspects of
heating and ventilation systems.
MODULE 1:
Overview of Indoor Air Quality – Discomforts and Diseases Associated with Poor IAQ –
Pollutants and their Sources – Instruments for Monitoring Air Pollution – Pollutant Control – IAQ
Considerations in Air Conditioning System Design – Overview of Ventilation – Natural Ventilation –
Infiltration – Air Filtration – Causes of Indoor Air Pollution and Need for Proper Air Cleaning –
Methods of Removing Dust – Types of Air Cleaning Devices – Filter Performance
MODULE 2:
Introduction of Steam Jet Refrigeration System – Principle of Stream Jet Refrigeration
System – Water as a Refrigerant – Working of Steam Jet Refrigeration System – Steam Ejector –
Analysis Of Steam Jet Refrigeration System – Efficiencies used in Steam Jet Refrigeration System
– Mass of Motive Steam Required – Advantages and Disadvantages of Steam Jet Refrigeration
System.
MODULE 3:
Introduction of Psychrometry – Psychrometric Terms – Dalton’s Law of Partial Pressures –
Psychrometric Relations – Enthalpy (Total Heat) of Moist Air – Thermodynamic Wet Bulb
Temperature or Adiabatic Saturation Temperature – Psychrometric Chart – Psychrometric
Processes – Sensible Heating – Sensible Cooling - By-pass Factor of Heating and Cooling Coil –
Efficiency of Heating and Cooling Coils
MODULE 4:
Humidification and Dehumidification – Methods of obtaining Humidification and
Dehumidification – Sensible Heat Factor – Cooling and Dehumidification – Cooling with Adiabatic
Humidification – Cooling and Humidification by Water Injection (Evaporative Cooling) – Heating
and Humidification – Heating and Humidification by Steam Injection – Heating and
Dehumidification-Adiabatic Chemical Dehumidification – Adiabatic Mixing of Two Air System.
MODULE 5:
Introduction of Cooling Load Estimation – Components of a Cooling Load – Sensible Heat
Gain through Building Structure by Conduction – Heat Gain from Solar Radiation - Solar Heat
Gain (Sensible) through Outside Walls and Roofs – Sol Air Temperature – Solar Heat Gain
through Glass Areas – Heat Gain due to Infiltration – Heat Gain due to Ventilation – Heat Gain
from Occupants – Heat Gain from Appliances – Heat Gain from Products – Heat Gain from
Lighting Equipments – Heat Gain from Power Equipments – Heat Gain through Ducts.
14 MODULE 6:
Introduction of Ducts – Classification of Ducts – Duct Material – Duct Construction – Duct
Shape – Pressure in Ducts – Continuity Equation and Bernoulli’s Equation for Ducts – Pressure
Losses in Ducts – Pressure Loss Due to Friction in Ducts – Friction Factors for Ducts – Equivalent
Diameter of a Circular Duct – Friction Chart for Circular Ducts – Dynamic Losses in Ducts –
Pressure Loss due to Enlargement in Area and Static Regain, Contraction in Area, Suction and
Discharge, Obstruction – Duct Design – Methods for Determination of Duct Size – System
Resistance – Systems in Series and Parallel.
Text Books: R.S. Khurmi, J.K. Gupta, “A Textbook of Refrigeration and Air Conditioning”- S.Chand Publication
References: Ahmadul Ameen, “Refrigeration and Air Conditioning”, Prentice Hall India 2007
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150105 - ELECTRICAL TECHNOLOGY OBJECTIVE: To expose the students to the basic concepts of electrical circuits and machines.
MODULE 1: Introduction to DC Circuits - Ohm’s law – Resistances in Series and Parallel – Series
Parallel Circuits - Kirchhoff’s laws and its illustration – Star/delta and Delta/Star Transformation –
SI Units – Work, Power and Energy – Laws of Magnetic Force – Magnetic Field and Magnetic Flux
– Magnetic Effect of Electric Current - Current Carrying Conductor in Magnetic Field – Electro
Magnetic Induction - Faraday’s law – Direction of Induced E.M.F and Current – Induced E.M.F –
Statically Induced E.M.F - Self and Mutual Inductances.
MODULE 2: Introduction to AC Circuits – Sinusoidal Voltage and Current – RMS, Average and Peak
Values – Phase and Phase Difference - Phasor Representation – AC Circuits - Power Factor -
single phase RC, RL and RLC Series Circuits – Series resonance – Parallel AC Circuits –
Complex Power – Three Phase Circuits – Line and Phase values – Power Measurement.
MODULE 3: Introduction to DC Generators – Operating Principle of DC Generators – Construction
Details of DC Generators – EMF Equation of a DC Generator – Types of DC Generator – Losses
in DC Machine – DC Generator Characteristics – Applications of DC Generators.
MODULE 3: Introduction to DC Motors - Operating Principle of DC Motor – Back EMF Equation, Voltage
Equation and Power Equation of DC Motor – Types of DC Motor – Armature Torque of a DC Motor
– Speed of a DC Motor – Losses in DC Motor – DC Motor Characteristics – Applications of DC
Motors – Speed Control of DC Motor – DC Motor Starting.
MODULE 4: Introduction to Transformers - Construction Details – Operating Principle – EMF Equation –
Practical and Ideal Transformer – Voltage Regulation – Transformer Tests – Losses in
Transformers – Efficiency of a Transformer – Types of Transformer – Cooling of Transformer –
Three Phase Transformer.
MODULE 5: Introduction to Three Phase Induction Motor – Construction Details – Operating Principle –
Slip – Rotor Current and Rotor Torque – Starting Torque – Torque Slip Characteristics – Speed
Regulation and Speed Control – Types of Induction Motors – Methods of Starting - Introduction to
Single Phase Motor – Types of Single Phase Motors and its descriptions.
MODULE 6: Introduction to Alternators – Construction Details – Operating Principle – EMF Equation –
Voltage Regulation – Introduction to Synchronous Motor – Construction Details – Operating
Principle – Applications – Introduction to Electrical Instruments – Types - Operating Principle –
Essentials of indicating instruments - Ammeters and voltmeters – Sources of Errors - Electrostatic
Voltmeters – Types and Characteristics of Electrostatic Voltmeters – Wattmeter.
Text Books: V.K. Mehta, Rohit Mehta, “Principles of Electrical Engineering” - S.Chand Publication
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150201 - BASICS OF COMPUTER GRAPHICS OBJECTIVE: To impart the fundamental concepts of Computer Graphics.
MODULE 1: A Survey of Computer Graphics - Computer Aided Design – Presentation Graphics –
Computer Art – Entertainment – Education and Training – Visualization – Image Processing –
Graphical User Interfaces – Overview of Graphics Systems – Video Display Devices – Raster and
Random Scan Systems – Graphics Monitors and Workstations – Input Devices – Hard Copy
Devices – Graphics Software
MODULE 2: Output Primitives – Points and Lines – Line Drawing Algorithms – Loading the Frame
Buffer – Line Function – Circle Generating Algorithms – Ellipse Generating Algorithms – Other
Curves – Parallel Curve Algorithms – Curve Functions – Pixel Addressing – Filled Area Primitives
– Fill Area Functions – Cell Array – Character Generation
MODULE 3: Attributes of Output Primitives – Line Attributes – Curve Attributes – Color and Grayscale
Levels – Area Fill Attributes – Character Attributes – Bundled Attributes – Inquiry Functions –
Antialiasing – Filtering Techniques – Pixel Phasing – Antialiasing
MODULE 4: Structures and Hierarchical Modeling – Structure Concepts – Editing Structures – Basic
Modeling Concepts – Hierarchical Modeling with Structures – Graphical User Interfaces and
Interactive Input Methods – The User Dialogue – Input of Graphical Data – Input Functions –
Interactive Picture Construction Techniques – Virtual Reality Environments
MODULE 5: Color Models and Color Applications – Properties of Lights – Standard Primaries and the
Chromaticity Diagram – Intuitive Color Concepts – RGB Color Model – YIQ Color Model – CMY
Color Model – HSV Color Model – Conversion between HSV and RGB Models – HLS Color Model
– Color Selection and Application
MODULE 6: Computer Animation – Design of Animation Sequences – General Computer Animation
Functions – Raster Animations – Computer Animation Languages – Key Frame Systems – Motion
Specifications
Text Books:
Donald Hearn, M. Pauline Baker, “Computer Graphics”- Prentice Hall India, 2nd Edition
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150202 - 2D AND 3D GRAPHICS OBJECTIVE: To provide the various aspects of 2D and 3D graphics and their mathematical
representations.
MODULE 1:
Introduction to 2D Concepts – 2D Basic Transformations – Matrix Representations –
Composite Transformations – Other Transformations – Transformations Between Coordinate
Systems – Affine Transformations – Transformation Functions – Raster Methods for
Transformations
MODULE 2:
2D Viewing – The Viewing Pipeline – Viewing Coordinate Reference Frame – Window to
View port Coordinate Transformation – 2D Viewing Functions – Clipping Operations – Point
Clipping – Line Clipping – Polygon Clipping – Curve Clipping – Text Clipping – Exterior Clipping
MODULE 3: 3D Concepts – 3D Display Methods – 3D Graphics Packages – 3D Object Representations
– Polygon Surfaces – Curved Lines and Surfaces – Quadric Surfaces – Super quadrics – Blobby
Objects – Sweep Representation – Constructive Solid Geometry Methods – Octrees – BSP Trees
- Fractal Geometry Methods – Particle Systems – Visualization of Data Sets
MODULE 4:
3D Geometric and Modeling Transformations – Translation – Rotation – Scaling – Other
Transformations – Composite Transformations – 3D Transformation Functions – Modeling and
Coordinate Transformations – 3D Viewing – Viewing Pipeline – Viewing Coordinates – Projections
– Clipping - Hardware Implementations – 3D Viewing Functions
MODULE 5:
Visible Surface Detection Methods – Classification of Visible-Surface Detection Algorithms
– Back-Space Detection – Depth-Buffer Method – A-Buffer Method – Scan-Line Method – Depth-
Sorting Method – BSP-Tree Method – Area-Subdivision Method – Octree Methods – Ray-Casting
Methods – Curved Surfaces – Wireframe Methods – Visibility-Detection Functions
MODULE 6:
Illumination Models and Surface Rendering Methods – Light Sources – Basic Illumination
Models – Displaying Light Intensities – Halftone Patterns and Dithering Techniques – Polygon-
Rendering Methods – Ray Tracing Methods – Radiosity Lighting Model – Environment Mapping -
Adding Surface Detail
Text Books: Donald Hearn, M. Pauline Baker, “Computer Graphics”- Prentice Hall India, 2nd Edition
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150203 - MULTIMEDIA AND WEB DESIGNING TOOLS OBJECTIVE: To provide all-round exposure on various multimedia and web development tools
MODULE 1:
Introduction to Computers – Computer Hardware - Introduction to Windows – Windows XP
– Mouse Basics – Working in Windows XP – Learning More About the Mouse – Performing Mouse
Actions – Components of a Window – Quitting Windows XP
MODULE 2:
Introduction to Photoshop CS2 – Photoshop Basics - Working with Images – Making
Selections – Painting, Drawing and Retouching Tools – Layers – Filters
MODULE 3:
CorelDraw Basics – Drawing and Selecting – Working with Text – Working with Images –
Page Layout and Background
MODULE 4: Introduction to HTML – Document Overview – Head Elements – Section Headings – Block
Oriented Elements – Lists – Uniform Resource Locators – Hypertext Links – Images – Tables –
Frames - Forms
MODULE 5:
Introduction to Dreamweaver MX – Working with Tables, Anchors and Frameset – Layers
and Style sheets – Forms and Media Elements
MODULE 6:
Introduction to Sound Forge – Creating a Project in Sound Forge – Opening an Audio File
and Saving it as Workspace – Import a Media File – File Properties – Editing in Sound Forge –
Effects – Recording in Sound Forge
Text Books: Vikas Gupta, “Multimedia and Web Design”, Dreamtech Press, 2008
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150204 - ANIMATION TOOLS OBJECTIVE: To provide all the aspects of various animation tools
MODULE 1:
Introduction to Flash – Flash Files and Flash Player – The Flash Workspace – The Panels
– Component Inspector Panel – Working with Graphics and Colors – Understanding Vector and
Bitmap Graphics – Drawing Models in Flash – Selecting Objects in Flash – Creating Graphics in
Flash – Setting Pen Tool Preferences – Fills and Outlines – The Color Palette – Using the Color
Swatches Panel – Using the Color Mixing Panel – Applying a Locked Gradient as a Fill
MODULE 2: Transforming and Aligning Graphics – Grouping the Objects – Understanding the Stacking
Order of Objects – Breaking Apart Groups and Objects – Transforming the Objects – Aligning the
Objects – Symbol and Library – Creating Library – Creating a Button – Editing Symbols –
Modifying the Instance of a Symbol – Using the Library – Using the Common Libraries – Opening
the Library – Creating the Custom Libraries.
MODULE 3: Animation in Flash – Working with Timeline Effects – Using the Transform Timeline Effect –
Using the Explode Timeline Effect – Using the Frame-by-Frame Animation Technique – Using
Motion Tweening to Create Animations – Using Shape Tweening to Create Animations –
Animating Filters – Applying the Bevel Filter – Applying the Glow Filter – Animating the Filter using
the Motion Tween.
MODULE 4: Introduction to 3dsMax – Understanding the 3dsMax Interface Elements – Working with
Viewports – Setting System Units – Managing 3dsMax Files – Working with Objects – Working
with Primitive Objects – Modifying the Primitives – Selecting Objects – Transforming Objects –
Hiding / Freezing the Objects – Cloning Objects – Mirroring Objects – Grouping Objects – Aligning
Objects – Aligning the Objects Using Quick Align Tool.
MODULE 5: Modifiers – Types – Modifier Stack – Using Modifiers – Objects and Modifiers sub-objects –
Applying the Bend Modifier – Applying the Taper Modifier – Applying the Twist Modifier – Applying
the Noise Modifier – Applying the Stretch Modifier – Applying the Squeeze Modifier – Working with
2D Shapes – Shape Primitives – Creating a Line, Star, Text – Creating Multi Spline Shapes –
Modifying the Splines – Rendering Splines – Making Splines Editable – Combining Shapes –
Cross Section Feature – Editing Vertices.
MODULE 6: Lights – Standard and Photometric Lights – Key Light, Fill Light and Back Light – Default
Lightning – Creating Standard Light Objects – Modifying Parameters of Light Object – Animation in
3dsMax – Understanding Frames, Key Frames and Keys – 3dsMax Animation Tools – Changing
the number of Frames – Animating Objects in Auto Key and Set Key Mode – Working with the
Motion Panel – Assigning a Path Constraint
Text Books: Vikas Gupta, “Multimedia and Web Design”, Dreamtech Press, 2008
20
150205 - MAYA OBJECTIVE: To provide clear knowledge about the use, design and implementation of animation
software development using Maya 2008
MODULE 1:
Introduction to Maya 2008 – Workflow of 3D Content Development – Installing Maya 2008
– Steps to Start Maya 2008 – Exploring Maya 2008 User Interface – Exiting Maya 2008 – Working
with Projects and Scenes – Viewing the Workspace – Working with Objects – Grouping and
Ungrouping Objects – Duplicating Objects – Working with Construction History
MODULE 2:
Polygon Modeling in Maya 2008 – Exploring the Components of a Polygon Mesh –
Creating a Polygon Mesh – Modifying a Polygon Mesh
MODULE 3:
NURBS Modeling – NURBS Curves – Creating a NURBS Curve – Editing a NURBS Curve
– Creating NURBS Surface – Editing a NURBS Surface
MODULE 4: Animating Objects in Maya 2008 – Basics – Types of Animation – Using the Animation
Controls – Animating an Object Using Key Frame Animation – Adding Sound to an Animation –
Previewing an Animation
MODULE 5:
Shading, Texturing and Lighting – Shader Types – Shader Attributes – Hyper shade –
Using Hyper shade – Maya Lights – Adding Shadows – Mental Ray Lighting – Lightning Effects
MODULE 6:
Rendering Scenes in Maya 2008 – Types of Rendering and Renderers – Using the Render
Settings Window - Working with a Camera – Adding Depth of Field – Adding Motion Blur –
Rendering a Scene using Maya Software Renderer – Rendering Nodes – Working with Rendering
Layers – Using the Mental Ray for Maya Renderer
Text Books: “Maya 2008 – Simple Steps”, Dreamtech Press, 2008
21
150301 - AUTOMOBILE ENGINES MODULE 1: Introduction to automobile- Brief history- Classification- parts of an automobile- Description-
performance- rolling wind and gradient resistance. Heat engines- internal and external combustion
engines- development and classification- Application of IC Engines- Engine cycle- energy balance
MODULE 2: Parts of IC engines- cylinder, head, piston, Rings, connecting rod, Crankshaft-Flywheel
and Governor –Types of Governors- Value operating mechanisms- Valve -Petrol engine parts-
Sparkplug- Operating range- Firing voltage -Carburetor –Fuel pump- Diesel engine parts- Fuel
atomizer- IC Engines bore, stroke, BDC, TDC, Swept volume compression ratio.
MODULE 3: Working cycles- Otto cycle, Diesel cycle, Dual combustion cycle- four stoke Ottocycle
engines- four stoke diesel cycle engine- Valve timing diagrams- Two stroke petrol engine-
Compression ignition engines- Comparison of four stoke and Two stroke engines- SI and CI
engines .
MODULE 4: Testing and performance of IC engines-power and mechanical efficiency-basic
measurement-speed ,fuel consumption, air consumption ,smoke density, measurement of
indicated power-engine friction-measurement of fractional power- engine performance curves-
SFC –Fuel consumption load output and exhaust composition-Governing of IC engines-Noise
abatment-Heat balance sheet-Morse test
MODULE 5:
Miscellaneous engines-dual fuel and multi fuel engines and working- factors affecting
combustion- -performance, advantages and applications-stratified charged engine- classification –
sterling engine-engine geometry and driving mechanism- sterling vs. Conventional engines-
wankel rotary combustion engine-features construction and working- rotor housing ,seals,
sparkplug location-clearance and swept volume –power and fuel combustion-advantages and
application of rotary combustion engines.
MODULE 6:
Construction and working of Two stoke engines- Port timing diagram- disadvantage of
Two stoke SI engines and CI engines- Scavenging efficiency- scavenging systems- Loop
scavenging- Cross scavenging- Crankcase scavenging-Scavenging pumps blowers.
Text Books: R. K. Rajput, ”Text book of automobile engineering”, Laxmi Publication, New Delhi.
22
150302 - AUTOMOTIVE FUELS AND COMBUSTION MODULE 1:
Fuels for IC engines-Conventional fuels- Gaseous fuels- Liquid fuels- Structure of
petroleum-Paraffins, iso paraffins olefins, napthenes, aromatics-composition of crude oil-Fractional
distillation-Fuels for SI engines-Volatility-ASTM set- EAD-effects of volatility-vapour lock- Knock
rating of SI engine fuels- Highest useful compression ratio- Octane numbers- antiknock index
MODULE 2: Advantages of high octane fuel-properties of SI engine fuels-Diesel fuel- Cetane number-
diesel index- alternative fuels for IC engines- -advantages and disadvantages-alcohol as fuels-
methane as a fuel –ethanol as fuel-properties of ethanol and methanol –fuel blends-hydrogen as
fuel advantages and disadvantages-Natural gas fuel advantages and disadvantages-Biogas.
MODULE 3: Purpose of supercharging-object-supercharging of SI engines-boost pressure and pressure
ratio- supercharging power-supercharging of CI engines –Superchargers-supercharging
arrangements- turbochargers- altitude compensation-methods of turbo charging-Problems
MODULE 4: Combustion in SI engines- Combustion phenomenon- affecting engine variables on flame
propagation – Factors affecting normal combustion – Abnormal combustion - Ignition lag- Spark
advance – Effects of pre ignition- detonation effects- control of detonation- knocks
MODULE 5: Performance chamber –Combustion chamber design- Induction Swirl- Squish and table-
Quench area- Turbulence- Surface to volume ration- Compression ration- Types of combustion
chambers – Divided combustion chamber- Combustion in CI engines- Three phases of CI engine
combustion- factors affecting combustion- combustion in diesel engines- Delay period in CI
engines –Diesel knock- CI engine combustion chambers- Types- Cold starting aids.
MODULE 6: Cooling air and water requirements. Cooling systems- Role of anti-freeze solution-
Phenonmosyphon cooling- Forces cool systems- Prescribed water cooling- Evaporation cooling-
Components of water cooling systems. Water jacket ,water pump fan, thermostat, connecting
hoses, radiators- Specification -the cooling system cooling system data of some Indian vehicles.
Text Books: R. K. Rajput, ”Text book of automobile engineering”, Laxmi Publication, New Delhi.
23
150303 - CHASSIS, SUSPENSION AND TRANSMISSION MODULE 1:
Chassis- Classification- Fitting of engine- Engine fitted ingrown but crosswise- Frame-
Functions- types of frames- defects in chassis frame- body – vehicle dimensions- Introduction to
suspension system- Functions and requirements- Elements of a supervision system
MODULE 2: Springs- Types of springs- Dampers- telescopic, rocking lever- Suspension systems-
Independent suspension- Four wheel independent front suspension- Stabilizer- Rigid suspension-
Independent rear suspension-Interconnected suspension systems- Hydroelectric, hydra gas-
Suspension systems of Indian automobiles
MODULE 3: Wheels and tyros – Wire wheel- Light alloy cast rip wheels –Tyres- Functions- Types of
tyres- Tubeless tyre- Tyre construction – Radial ply construction - Tyre material- Tyre shape-
tread pattern- Tyre markups- type inflation pressure- causes of tyro wear- Factors affecting tyre
life- Tyre maintenance- Enhancing tyre life- Wheel balancing systems
MODULE 4: Requirements of transmission system- Types- clutch- gearbox- and line axle transmission-
Circles’ of transmission system- clutch- Function and requirements – Principal of operation-
Friction materials- Friction and cone clutch –Single plate clutch- Multiplate clutch- Plate clutch
parts- Centrifugal clutch- automatic clutch adjustment- Gearbox- Ratios- Types of gear boxes-
sliding mesh gear box- Constant mesh gear box-
MODULE 5: Synchromesh- Progressive type gear boxes- Maruthi800 Gearbox- Gear shifting-
Transfercase- Troubleshooting of gearbox- Gear boxes used in India automobiles – Automatic
transmission- Overdrive- Four-wheel unit – Propeller shaft- Hotchkiss type propeller shaft-
Crowrushorting universal joints- Construction and working- Type of universal joints- Final drive and
differcital- Bevel and hypoid- Bevel gear- Differential-rear axles- Half floating rear axle- Causes of
axle failures- Real axle noises-
MODULE 6: Purpose of steering system- Function- Requirements of a good steering system- General
arrangement- Working of steering mechanism—Description of steering parts-Steering gears-
Worm and roller sleeping gear- rack and pinion sleeping gear- sleeping ration- Reversibiling-
Sleeping geometry- Wheel alignment- King pin inclination caster- Toe –Out- Checking of wheel
alignment – Steering Mechanisms –Steering gear mechanisms- Under steering and over treeing-
steering linkages- steering wheel and column – Steering arm- Draglink –Power steering-
Fundamentals- Types of power steering systems- Electronic power steering- steering geometry-
steering troubleshooting- Front axle- Construction- Type of front axles- Stub axles- Braking
system.
Text book: R. K. Rajput, ”Text book of automobile engineering”, Laxmi Publication, New Delhi.
24
150304 - AUTOMOBILE BRAKING AND ELECTRICAL SYSTEM MODULE 1:
Introduction- necessity of a braking system-functions of brakes-requirements of a good
braking system-classification of brakes mechanical brakes- hand brakes –disc brakes- hydra tic
brakes-advantages- bleeding of brakes-hill holder-power brakes-air brakes- main parts-engine
exhaust brake-vacuum brakes-electric brakes-factors controlling the stop of an automobile-break
shoes and linkages brake testers-break service
MODULE 2:
Introduction to electrical system-typical automotive electrical system-battery system-types
of batteries-chemistry of a lead acid battery-Zinc air battery-Capacity of a battery-Efficiency,
primary, secondary cells-battery rating-battery maintenance-battery charging-battery data of
automobiles-factors affecting battery life-battery faults and troubles-dry charged batteries-battery
testing-specific gravity test, high rate discharge test-starting motor-description field coil windings –
drive unit-Overrunning clutch-Magnetic switch or relay.
MODULE 3:
Charging system -Introduction –Necessity and function- requirements-Generator-Working
principle of DC generator-Parts of a dynamo-Dynamo regulation-Cut out relay-Regulation for DC
generators-Trouble shooting of a dynamo-Alternator-advantages-Working principle of an
alternative-Operations-Charging circuits-Alternator regulation-Transistorized regulator.
MODULE 4:
Ignition system-Introduction-Purpose of an ignition system-Requirement –Basic ignition
systems-Battery system-Working-Components of battery ignition systems-Maintenance- Magnetic
ignition system-Firing order-Ignition timings-Spark advance mechanism –Vacuum spark-Spark
plugs-Factors affecting ARC-Hot and cold spark plug-Spark plug failure-Limitations of conventional
ignition system-Electronic ignition systems-TCI and CDI systems-Break less electronic ignition
system-Trouble shooting .
MODULE 5:
Lighting and accessories-Main circuits of the automobile electrical system-Car wiring
diagram-Symbols used-Lighting system-Wiring circuit –Fuses-Head lights-Pre focus bulb-Head
lamp-Head lamp double filament-Light switch-Dimmer and stop light switch-Indicating lights
MODULE 6:
Trouble shooting of lighting system-Essential accessories-Types of horn-Windscreen
wiper-Water temperature gauge-Speedometer and odometer assembly-Ventilating system-Heating
system- Air conditioning system-Components
Text Books:
R. K. Rajput, ”Text book of automobile engineering”, Laxmi Publication, New Delhi.
25
150305 - AUTOMOBILE MAINTENANCE AND TROUBLE SHOOTING
MODULE 1: Lubrication –Chart-Properties of engine oils-Automobile lubricating methods- Preventive
maintenance schedule- Engine maintenance- Connecting rod assembly –Piston and rings-
Crankshaft assembly- Valve mechanism- Cam shaft- Cylinder head cylinder block.
MODULE 2:
Auto inspection and testing- Road testing- Maintenance of automobile body- Painting and
tinkering—Troubleshooting of an automobile. Gas power cycles-Ideal efficiency-Carnot cycle-
diesel cycle-Comparisons of Otto, diesel and dual combustion cycles- automotive gas turbines-
Brayton cycle-Classification of gas turbines-Uses of gas turbine-Gas turbine for automotive
vehicles.
MODULE 3:
Automobile body and safety consideration-Car driving-Basic requirements- Preliminary
requirements-Police signals-Traffic signs-Driving practice of four wheeler-Fuel saving-Type of
garages-Garage tools-Application of tools-Flaring, swaging, tubecutter, tube blender, Pinch off
tools, Wrenches and dies-Safety precautions-Garages service station equipment.
MODULE 4:
Zero emissions-SI engine emission and control-three way catalytic converter-electronic
catalytic converter- exhaust emission control by fuel variation-diesel engine emissions-exhaust
smoke- causes of smoke- measurement of smoke-control of smoke-gasoline and diesel
emissions-effects of emissions on human health
MODULE 5:
Technical specifications of automotive vehicles -Maruti 800,marnticen,AltoLx,Fiat
,Santro,Ford Ikon, HyundaiAccent, Honda Acccord ,Skoda.
MODULE 6:
Troubleshooting of cooling system- Trouble shooting of ignition system-. trouble shooting
chart of break shoes and drums- trouble shooting chart of hydraulic break system-air breaks-
Troubleshooting of heating system-Trouble shooting of air conditioning system.
Text book: R. K. Rajput, ”Text book of automobile engineering”, Laxmi Publication, New Delhi.
26
150401 – WIRELESS COMMUNICATIONS OBJECTIVE: To impart the fundamental concepts of wireless data communications technologies
MODULE 1: Wireless Communications – Basic Concepts of Wireless Technologies – Wireless
Applications – Wireless Advantages and Disadvantages – Wireless Data Transmission – Data
Representation – Wireless Signals – Radio Data Transmission – Spread Spectrum
MODULE 2:
Radio Frequency Communications – Components and Design of a Radio System –
Understanding Standards – Radio Frequency Spectrum – Antennas – Gain and Loss – Antenna
Characteristics and Performance – Antenna System Implementation
MODULE 3:
Low Rate Wireless Personal Area Networks – Definition – Infrared WPAN – RF WPAN –
Low Rate WPAN Security – High Rate Wireless Personal Area Networks – Standards – 802.15.3
High Rate WPAN – Ultra Wide Band – WPAN Challenges
MODULE 4: Low Speed Wireless LAN – WLAN Applications – WLAN Components – WLAN Modes –
WLAN Standards and Operation – High Speed Wireless LAN – IEEE 802.11a – IEEE 802.11G –
Other WLAN Standards – WLAN Security
MODULE 5: Wireless Metropolitan Area Networks – Definition – Land Based Fixed Broadband Services
– IEEE 802.16 – WMAN Security – Wireless Wide Area Networks – Cellular Telephone
Applications – Working of Cellular Telephony – Digital Cellular Technologies and Challenges –
Client Software – Satellite Broadband Wireless
MODULE 6:
Radio Frequency Identification – Definition and Working of RFID – RFID Applications and
Challenges – Wireless Communication in Business – Advantages of Wireless Technology –
Challenges of Using Wireless Technology – Building a Wireless Infrastructure
Text Books: Mark Ciampa, Jorge Olenewa, “Wireless Communications”, Cengage Learning, 2007.
27
150402 – INTRODUCTION TO MOBILE COMMUNICATION SYSTEMS OBJECTIVE: To make the students to understand the basic aspects of mobile communications.
MODULE 1:
Mobile Communications – Guided and Unguided Transmission – Voice Oriented Data
Communication Standards – WPAN – WLAN and Internet Access – Mobile Computing – Mobile
Computing Architecture – Mobile Devices – Mobile System Networks – Mobility Management
MODULE 2:
Mobile Devices and Systems – Mobile Phones – Digital Music Players – Handheld Packet
Computers – Handheld Devices – Smart Systems – Limitations of Mobile Devices – Automotive
Systems
MODULE 3:
GSM - Services and System Architecture – Radio Interfaces – Protocols – Localization –
Calling – Handover – Security – New Data Services – General Packet Radio Service – High
Speed Circuit Swithced Data – DECT
MODULE 4: Wireless MAC and CDMA Based Communication – Medium Access Control – Introduction
to CDMA Based Systems – Spread Spectrum in CDMA Systems – Coding Methods in CDMA –
IS95 cdmaOne System – IMT 2000 – i-mode – OFDM
MODULE 5: IP and Mobile IP Network Layers – Packet Delivery and Handover Management – Location
Management – Registration – Tunneling and Encapsulation – Route Optimization – Dynamic Host
Configuration Protocol
MODULE 6:
Mobile Transport Layer – Conventional TCP/IP Protocols – Indirect TCP – Snooping TCP –
Mobile TCP – Other Methods of TCP for Mobile Networks – TCP Over 2.5G / 3G Mobile Networks
Text Books: Raj Kamal, “Mobile Computing”, Oxford University Press, 2008
28
150403 – TECHNOLOGIES IN MOBILE DEVICES OBJECTIVE: To provide an in-depth knowledge of technologies and technical concepts in mobile
devices.
MODULE 1:
Databases – Database Handling Techniques – Data Caching – Client Server Computing
and Adaptation – Transactional Models – Query Processing – Data Recovery Process – Issues
Relating to Quality of Service
MODULE 2:
Data Dissemination and Broadcasting Systems – Communication Asymmetry –
Classification of Data Delivery Mechanisms – Data Dissemination Broadcast Models – Selective
Tuning and Indexing Techniques – DAB - DVB
MODULE 3:
Data Synchronization in Mobile Computing Systems – Synchronization – Synchronization
Software for Mobile Devices – Synchronization Protocols – SyncML – Sync4J – Synchronized
Multimedia Markup Language (SIML)
MODULE 4:
Mobile Devices – Mobile Agent – Application Server – Gateways – Portals – Service
Discovery – Device Management – Mobile File Systems – Security – Introduction to Mobile Ad-hoc
Network – MANET – Wireless Sensor Networks – Applications
MODULE 5: Wireless LAN Architecture and Protocol Layers – WAP 1.1 and WAP 2.0 Architectures –
XHTML-MP – Bluetooth Enabled Devices Network – Layers in Bluetooth Protocol – Security in
Bluetooth Protocol – IrDA – ZigBee
MODULE 6:
Mobile Application Languages – XML – JAVA – Java 2 Micro Edition – JavaCard – Mobile
Operating Systems – Basics – PalmOS – Windows CE – Symbian OS – Linux for Mobile Devices
Text Books: Raj Kamal, “Mobile Computing”, Oxford University Press, 2008
29
150404 – FUNDAMENTALS OF PCB TECHNOLOGY OBJECTIVE: To explore the basics of PCB technology. MODULE 1:
Film Master Production – Emulsion Parameters – Film Emulsion – Reprographic Cameras
– Darkroom – Film Processing – Increasing and Decreasing Line Widths – Film Registration –
Manufacture of Copper Clad Laminates – Properties of Laminates – Types of Laminates –
Specification and Test Methods
MODULE 2:
Board Cleaning – Photoprinting – Basic Process – Photoresists – Wet-Film Resists –
Coating Process – Exposure and Further Processing – Dry-Film Resists – Screen Printing –
Scope – Screen Fabrics – Screen and Frame Preparation – Pattern Transfer onto the Screen –
Printing – Trouble Shooting
MODULE 3:
Plating – Immersion Plating – Electroless Plating – Electroplating – Alternative Finishes –
Plating Quality Control – Etching – Etching Machines – Etchant Systems – Minimizing Pollution
MODULE 4:
Mechanical Machining Operations – Shearing – Sawing – Punching – Blanking – Milling –
Routing – Drilling – PCB Technology Trends – Fine Line Conductors – Multilayer and Multiwire
Boards – Additive Process – Subtractive and Semi Additive Processes – Flexible PCB – Metal
Core Circuit Boards – Mechanical Milling of PCBs.
MODULE 5:
Multilayer Boards – Design and Test Consideration – Multilayer Construction – Equipment
– Laminating and Further Processing – Solders – Principles – Solder Alloys and Flexes –
Soldering Techniques – Solder Mask – Reflow Soldering Practice – Testing and Quality Control –
Safety, Health and Medical Aspects
MODULE 6:
Component Assembly Techniques – Preparation and Monitoring of Components – Lead
Cutting and Soldering – PCB Cleaning after Soldering – Guidelines for Starting PCB Facilities –
Market Constraints – Equipment – Room and Building Requirements – Control of Pollution and
Health Hazards
Text Books: Walter C. Bosshart, ”Printed Circuit Boards”, Tata McGraw Hill, 2008.
30
150405 – PCB DESIGN OBJECTIVE: To provide an in-depth understanding of how to design various kinds of highly
reliable, professional quality PCBs with low investment costs. MODULE 1:
Layout Planning – General Considerations – PCB Sizes – Layout Approaches –
Documentation – Resistance – Capacitance – Inductance – Conductor Spacing – Realizing Supply
and Ground Conductors – Component Placing and Mounting – Cooling Requirements and
Package Density – Layout Check
MODULE 2:
Design Rules for Digital PCBs – Reflections – Crosstalk – Ground and Supply Line Noise –
Electromagnetic Inference from Pulse Type EM Fields
MODULE 3:
Design Rules for PCBs in High Frequency Applications – Matching of Conductors – Pulse
Circuits – Line Defects – Printed Capacitors and Inductors – Ground and Supply Lines – Rise
Time Limitations and High Frequency Losses
MODULE 4:
Design Rules for Analog Circuit PCBs – Design rules for PCBs in Power Electronics
Applications – Design Rules for PCBs in Microwave Applications – Basic Definitions – Strip and
Microstrip Line – Applications – Materials for Microwave PCBs – Fabrication of PCBs – Uses
MODULE 5:
Artwork – Basic Concepts – Basic Approaches – Artwork Taping Guidelines – General
Artwork Rules – Artwork Check and Inspection
MODULE 6:
Automation and Computers in PCB Design – Limitations of Manual Designing – Automated
Artwork Draught – Computer Aided Design – Design Automation
Text Books: Walter C. Bosshart, ”Printed Circuit Boards”, Tata McGraw Hill, 2008.
31
150501 – FUNDAMENTALS OF TEXTILE MATERIALS OBJECTIVE: To provide in-depth knowledge of the origins, properties and manufacture of fabric.
MODULE 1: Plant Fibres – Cellulosic of Vegetable Fibres - Cotton – Linen – Jute – Hemp – Ramie –
Sunn – Abaca – Sisal – Coir – Rayon
MODULE 2:
Animal Fibres – Wool – Silk – Casein – Fibre – Soyabean Protein Fibre – Peanut Fibre –
Corn Fire
MODULE 3:
Acetate – Nylon – Dacron – Vinyon – Orlon – Care of Synthetic Fibres – Absestos – Glass
Fibre – Metallic Fibres – Rubber – Alginates – Paper Yarns – Plastic
MODULE 4: Making Yarn – Fabric Construction – Finishes and Finishing Materials – Mixed and
Blended Yarns – Dyes – Traditional Colors – Dyeing at Home – Batik – Judging and Selecting
Clothes – Clothing Plan – Woman’s and Children’s Clothe – Shoes – Household Textiles
MODULE 5: Laundry Materials and Equipment – Water – Laundry Soaps – Soapless Detergents –
Starch – Other Stiffening Agents – Laundry Blues – Additional Laundry Reagents – Absorbents –
Bleaches – Laundry Equipment – Irons and Ironing Boards
MODULE 6:
Principles of Washing and their Application – Laundering Cottons and Linens – Ironing –
Laundering Woolens and Colored Fabrics – Laundering Skills and Rayon & Nylon – Special Types
of Laundering – Dry-cleaning – Removing Stains – Cleaning Carpets – Disinfecting Clothing –
Storing Clothes
Text Books: Susheela Dantyagi, “Fundamentals of Textiles and their Care”, 5th Edition, Orient BlackSwan,
2008
32
150502 - PROCESSING OF KNIT FABRIC OBJECTIVE: To make the students to understand the basics of processing the knitted fabric. MODULE 1:
Fabric Preparation – Objectives – Chemical Processing Treatment – Impurities Present in
Gray Cotton and Cotton Fabric - Singeing – Gas Singeing - Desizing Process – Definition and
Classification – Merits and Demerits – Applications - Scouring – Definition and Mechanism –
Scouring of Cotton Fabric using Kiers - Bleaching – Definition - Hypochlorite and Hydrogen
Peroxide Bleaching – Merits and Demerits – Full Bleaching – Brightening and Blueing Agents -
Continuous Scouring and Bleaching using J Box – Vertical Drying Range
MODULE 2:
Dyeing - Dyes – Definition – Basic Terms related to Dyeing – Classification of Dyes –
Dyeing of Cotton with Azoic Dyes – Dyeing of Cotton with Vat Dyes – Dyeing of Cotton with
Sulphur Dyes – Dyeing of Cotton with Reactive Dyes – Dyeing of Polyester with Disperse Dyes –
Dyeing of Protein Fibres – Dyeing of other Synthetic Fibres – Dyeing Machines
MODULE 3:
Printing – Definition – Comparison between Dyeing and Printing – Styles and Methods of
Printing – Important Ingredients in the Printing Paste – Printing of Cellulosic Fibre with Reactive
and Pigments – Discharge Print Technique on Reactive Dyed Fabric – Resist Style of Printing
using Reactive Dyes – Printing of Polyester with Disperse Dyes – Batik printing – Screen
Preparation – Table Screen, Flat Bed Screen, Rotary Screen Printing – Curing Chamber – Loop
Ager
MODULE 4:
Finishing – Definition – Advantages – Types of Finish – Classification of Textile Finishes –
Finishing of Cotton Fabric with Stiffeners – Finishing of Cotton Fabric with Softeners – Anti Crease
Finish – Anti Shrink Finish – Sanforising Machines - Use of Silicones in Finishing
MODULE 5:
Mercerisation – Definition – Advantages of Mercerisation – Effects of Mercerisation –
Changes during Mercerisation – Woven Fabric Mercerising – Chain Mercerisation – Chainless
Mercerisation – Damping – Calendering - Definition and Objectives – Swizzing Calender – Stenter
– Hot Air Stenter MODULE 6:
Importance and Need for Quality Control - Colour Fastness – Colour Fastness to Washing
– Colour Fastness to Rubbing – Colour Fastness to Light – Computer Colour Matching –
Importance and Need for Environment Protection – Pollution and their Types – Effluent Treatment
– Importance of Eco-Friendly Processing – Eco Labels – ISO 14000 EMS Text Books: P. Angappan, A. Edwin Sunder, V. Ilango, “Textile Chemical Processing”, SSMITT Publication.
33
150503 – KNITTING TECHNOLOGY OBJECTIVE: To make the students to understand the basics of Knitting Technology.
MODULE 1: Weft Knitting Machines and Industry – Knitting Terms and Functional Elements – Selection
Criteria in Weft Knitting – Principal Stitches in Weft Knitting – Basic Structures and Notations in
Weft Knitting – Basic Machines and Fabrics
MODULE 2:
Double Knit Structures – Patterning in Weft Knitting – Needle Selection Techniques in
Circular Knitting Machines – Weft Knit Fabric Geometry
MODULE 3:
Knitting Dynamics – Quality Control in Circular Weft Knitting – Circular Knitting
Developments – Calculations in Weft Knitting
MODULE 4: Finishing of Knitted Fabrics – Wrap Knitting – Functional Elements of Wrap Knitting –
Patterning in Wrap Knitting – Tricot and Raschel Machines – Principal Stitches of Wrap Knitting
MODULE 5: Structures of Wrap Knitting – Yarn Preparation, Yarn Feed and Fabric Take-up – Wrap Knit
Fabric Geometry and Calculations
MODULE 6:
Specialty Wrap Knits – Warp Knitted Technical Textiles – Flat Bed Knitting – Hosiery Socks
Knitting
Text Books: N. Anbumani, “Knitting Fundamentals, Machines, Structures and Developments”, 1st Edition, New
Age International Publishers, 2007.
34
150504 - TEXTILE TESTING OBJECTIVE: To impart the fundamental aspects of textile testing in different stages like fibre,
yarn, and in fabric.
MODULE 1: Introduction to Textile Testing – Importance – Objective of Testing – Testing Bureau –
Humidity – Regain and Moisture Content – Atmospheric Conditions and Relative Humidity –
Moisture Determination – Effect of Moisture on Properties – Moisture Regain and Moisture
Content – Fibre Testing – Fibre Length Measurement – Measurement of the Fibre-fineness –
Principles of Fineness Measurement – Maturity of Fibre – Yarn Testing – Direct and Indirect
System of Yam-numbering – Length and Weight Measurement – Court Calculations – Yarns Twist
and Twist Measurement – Amount of Twist – Twist Measurement.
MODULE 2: Fabric Testing – Length and Width of the Fabric – Fabric Thickness – Crimp of Yarn in
Fabric – Air Permeability – Thermal Property of Fabrics – Fabric Stiffness, Handle and Drape –
Shirely’s Stiffness Tester – Drape Meter – Crease Resistance and Crease Recovery –
Measurement of Crease Recovery – Testing of Abrasion Resistance – Assessment of Abrasion
Damage – The B.F.T Abrasion Testing Machine – and its Features – Flex Abrasion Tester – Pilling
of Fabrics – Water and Fabric Relationship – Wetting of Fabric and Methods of Testing.
MODULE 3: The Tensile Testing – Terminologies and Definitions – Factors affecting the Tensile
Properties of Textiles – Yarn Strength Testing – Fabric Strength Testing – Physical Tests –
Microscopic Examination – Chemical Tests – Testing Of Yarn – Fibrous Adulteration of Yarn –
General Examination of Yarn – Physical Properties of Yarn – Count Calculations – Equivalent
Counts – Testing of Woven Fabrics – Width and Length – Determination of Warp and Welt – The
Face Side of the Cloth – Determination of Thread Per inch
MODULE 4: Testing of Knitted Fabrics – Testing and Analysis of Textiles – Varieties of Fabrics – The
Examination of Cloth – Testing of Bleached Fabrics – Testing of Dyed Fabrics – Testing of
Fastness
MODULE 5: Specification of Textile Stores – Testing and Analysis of Textile – Defects in Yarn, Woven
Fabrics, Bleached Fabrics, Dyed Fabrics, Knitted Fabrics and Rayon Fabric – Defects due to
Faulty Dyeing – Tenderness – Capillarity Tests – Testing of Dyed Materials – Determination of
Light Fastness – Fastness to Washing – Fastness to Perspiration – Fastness to Chlorinated Water
– Fastness to Chlorination – Fastness to Cross Dyeing – Fastness to Mercerizing – Identification
of Dyes – Chromatography
35 MODULE 6: Testing of Colour – Description of Ostwald’s and Munsell’s Systems Of Colour
Classification – Measurement of Colour – The Costing of Textiles – Costing and Cost Accounting –
Elements of Cost – Allocation and Recovery of Expenses – Costing of Yarn – The Cost of Running
the Machine – Manufacturing, Training, Profit and Loss Account – Business Phrases – Cloth
Contract Terms – Metrication and SI Units in Textile Testing.
Text Books: Raul Jewel, “Textile Testing”, APH Publishing, 2009
36
150505 – FASHION AND APPAREL DESIGN OBJECTIVE: To provide a fundamental concepts and principles of fashion and apparel designing.
MODULE 1: Fashion and Fashion Designing – Definition and Importance – Elements of Fashion –
Classification of Fashion – Fashion Cycle – Factors Influencing Fashion – Fashion Creation –
Basic Terminologies Related to Fashion Industry and Fashion Technology
MODULE 2:
Divisions of Cloth Designing – Basic Silhouettes – Elements of Art – Principles of Design –
Colors and their Meanings – Color Wheel – Using of Colors – Color Schemes – Qualities of Colors
– Some Traditional Textiles of India – Costumes and Fashion
MODULE 3:
Terms used for Clothing – Fashion Industry – Importance – Reportage in the Trade and
Commercial Press – Present Structure of the Fashion Industry – Textiles and Materials in the
Fashion Industry – Structure of the Fashion Market
MODULE 4:
Fashion Promotion – Basics – Fashion Advertising – Fashion Journalism – Fashion Shows
– Fashion Message Windows – Fashion Designers and their Famous Labels – International
Designers View of Well Dressing – Future Fashions
MODULE 5:
Prints – Definition and Importance – Types of Prints – Necklines – Definition and
Importance – Types of Necklines – Sleeve Styles – Cuffs
MODULE 6:
Collars – Definition and Basic Styles – Types of Collars – Skirts Shapes and Silhouettes –
Basic Silhouettes – Pants – Pockets – Hats – Waist Bands – Bows and Ties
Text Books: G.J. Sumathi, “Elements of Fashion and Apparel Design”, New Age International Publishers, 2008.
37
150601 - FINANCIAL DERIVATIVES OBJECTIVE: The objective of this subject is familiarizing students with the basic techniques of
risk management and derivatives.
MODULE 1:
Introduction to Derivatives Market – Derivatives – Meaning and Definition – Types of
Derivatives – Use of Derivatives - Derivatives in India – Futures – Cash settlement vs Physical
settlement –continuous compounding – Cost of carry- Differences between Futures and Forwards
– Margin requirement – Basis risk – Cross Hedging – Basic Pricing Principles – Stock Futures –
Uses and applications of Stock Index futures.
MODULE 2:
Options – types of Options and Option terminology – Options Markets – Differences
between Options and Futures – Payoff of Long and Short Call – Payoff of Long and Short put –
Risk and Premium – Covered Call writing – Protective Put strategy – Straddle – Strangle – Bull
spreads – Bear spreads – Butterfly spread – Box spread.
MODULE 3:
Exotic Options – Packages – Non-standard American Options – Forward Start Options –
Compound Options – Chooser Options – Barrier Options – Binary Options – Look-Back Options –
Shouts and Ladders – Asian Options
MODULE 4:
Option Greeks and Basic Delta Hedging – Delta and its uses – Delta Hedging – Gamma,
Theta, Vega and Rho – Interest rate Derivatives and Eurodollar derivatives – Treasury Bill and
Treasury Bond Futures – Hedging with T-Bills and T notes – Eurodollar derivatives – Forward Rate
Agreements – Caps, Floors, Collars.
MODULE 5:
Swaps – Plain vanilla Interest rate Swaps – Spread Differential – Currency Swaps –
Valuing Swaps and Unwinding – Credit Derivatives – Types of Credit Derivatives – Credit default
Swap – Total Return Swap – Collateralized Debt Obligations – the Indian Scenario.
MODULE 6:
Risk Management with Derivatives – Hedging using Greeks – Delta-Gamma Hedging –
Discussion on Hedging Policy – Current status of Derivative markets in India.
Text Book: N.R.Parasuraman, “Fundamentals of Financial Derivatives”, Wiley Precise Textbook, New Delhi,
First Edition, 2008.
38
150602 - INDIAN STOCK MARKET OBJECTIVE: To familiarize the students with the functions of Stock Market.
MODULE 1:
Introduction – Investment – Speculation – Gambling – Investment Objectives – Investment
Process- Security Analysis – Valuation – Securities – Equity Shares – Sweat Equity – Non-voting
Shares – Right Shares – Bonus Shares – preference Stock – Debenture – Bond – Warrants –
Investment Information.
MODULE 2:
Investment Alternatives – Negotiable Securities – Non-negotiable securities – Insurance
schemes – Mutual funds – Basis of selection – Real assets – Real estate.
MODULE 3:
New Issue market – Primary market – Parties involved in the New Issue – Government and
Statutory Agencies – Collection Centers – Placement of the issue – Pricing of New Issues –
Allotment of Shares – Investors Protection in the Primary Market.
MODULE 4:
Secondary Market – History of Stock Exchanges in India – Functions of Stock Exchange –
Regulatory framework – Stock exchanges – Types of Orders – Share Groups – Online Trading –
Margins – Listing of Securities – Demerits – Qualification for Listing – Listing of Right Shares –
High Powered Committee Recommendation – Chandratre Committee Report(1997).
MODULE 5:
Bombay Stock Exchange – Trading System – Securities Traded – Surveillance system –
Check on the BOLT Terminals – Protection against Default – National Stock Exchange –
Membership – Capital Market Segment – Types of Order – Volume conditions – Advantages of
NSE – Inter-connected Stock Exchange – OTCEI – National Securities Depository Limited –
Functioning – Transactions of the NSDL.
MODULE 6:
Securities and Exchange Board of India – Objectives – Functions – Organisation – SEBI’s
role in Primary Market & Secondary Market – Mutual Funds and SEBI – FII’s – Stock Market
Indices – Computation – BSE Sensitive Index – NSE-Nifty.
Text Book: Punithavathy Pandian, “Security Analysis and Portfolio Management”. Vikas Publishing House
Pvt.Ltd, 2008.
39
150603 - SECURITY ANALYSIS OBJECTIVE: To familiarize the students on the fundamentals of Security Analysis.
MODULE 1:
Risk – Definition – Types of risk – Systematic and Unsystematic risk – Minimizing Risk
Exposure – Risk Measurement.
MODULE 2:
Bond Return and Valuation – Bond Basics – Bond Risk – Time value of money – Bond
Return – Yield to Maturity – Bond Value Theorems – Convexity – Term Structure of Interest Rate –
Duration – Immunization.
MODULE 3:
Stock Return and Valuation – Return – Anticipated Return – PV of return – Multiple Year
Holding Period – Constant Growth Model – Two Stage growth model – Three Phase Model – P/E
ratio model.
MODULE 4:
Fundamental Analysis – Economic Analysis – Industry Analysis – Company Analysis –
Earnings of the company – Financial analysis – Growth in Earnings.
MODULE 5:
Technical Analysis – Assumptions – History of Technical analysis – Technical Tools – Dow
Theory – Primary Trend – Secondary Trend – Minor Trends – Support and Resistance Level –
Indicators – Odd Lot Trading – Moving Average – Rate of Change – Charts.
MODULE 6:
Efficient Market Theory – Basic Concepts – Random Walk Theory – Forms of Efficiencies –
Market Inefficiencies.
Text Book: Punithavathy Pandian, “Security Analysis and Portfolio Management”. Vikas Publishing House
Pvt.Ltd, 2008.
40
150604 - PORTFOLIO MANAGEMENT
OBJECTIVE: To enlighten the students on the basics and fundamentals of Portfolio Management
Process.
MODULE 1:
Introduction to Portfolio Management – Portfolio Management Process – Objectives –
Construction of Portfolio – Evaluation.
MODULE 2:
Portfolio Construction – Approaches in Portfolio Construction – Determination of Objectives
– Selection of Portfolio.
MODULE 3:
Portfolio – Markowitz Model – Simple Diversification –Risk and Return with Different
Correlation – Markowitz efficient frontier.
MODULE 4:
Sharpe Index Model – Single index Model – Corner Portfolio – Sharpe’s Optimal Portfolio –
Construction of the Optimal Portfolio – CAPM theory – Arbitrage Pricing Theory.
MODULE 5:
Portfolio Evaluation – Mutual Fund – Sharpe’s Performance Index – Treynor’s Performance
Index – Jensen’s Performance Index.
MODULE 6:
Portfolio Revision – Passive Management – Active Management – Formula Plans –
Assumptions of the Formula Plan – Variable Ratio Plan – Revision and the Cost.
Text Book: Punithavathy Pandian, “Security Analysis and Portfolio Management”. Vikas Publishing House
Pvt.Ltd,
2008.
41
150605 - MUTUAL FUND
OBJECTIVE: To provide an insight into the principles, operational policies and practices of Mutual
Funds in India.
MODULE 1:
Introduction – Financial Market in India – Financial Sector reforms – Money market –
Capital Market – SEBI – NSE – BSE – Security Trading Corporation of India – Stock Holding
Corporation of India – National Clearance and Depository System.
MODULE 2:
Mutual Funds in India – Concept – importance of Mutual Funds – Classification –
Advantages – Tax Implications – Long term Capital gains – Growth trends of Mutual Funds –
Efficiency – Emerging issues in Mutual funds in India – Global Scenario – Shortcoming of Mutual
Fund Operations – SWOT analysis of Mutual Funds.
MODULE 3:
Regulatory Framework and Organization of Mutual Funds in India – Regulation of Mutual
Fund – Guidelines by Ministry of Finance – Dave Panel recommendations – SEBI guidelines for
Mutual funds – General guidelines – Guidelines for advertisement – Schemes of mutual funds –
Recent scenario of Regulations – Mutual fund evaluation – Organization of Mutual funds – Role of
Association of Mutual funds of India.
MODULE 4:
Investment – Portfolio risk and return – Time and investing – Performance evaluation –
Portfolio theory – Risk return theory – Risk – Measuring risk – CAPM model – Efficient market
Hypothesis – Treynor’s, Sharpe’s, Jensen’s, Fama’s measure – Treynor & Mazuy measure –
Henriksson & Merton measure.
MODULE 5:
Mutual funds marketing – Market analysis – Process of marketing – Developing Marketing
Strategies – Rationale behind mutual funds – Marketing Plan – Marketing mix – E-marketing in
Mutual funds – Scope of Marketing Research in Mutual funds – Market Research Process in
Mutual Funds.
MODULE 6:
Mutual fund Derivatives – Hedging – Speculation – Arbitrage – Future Scenario of the
Mutual Fund Industry – Key Challenges – Future growth – Growth Strategy of Indian Mutual Funds
– Cases.
Text Book: Nalini Prava Tripathy, “Mutual Funds in India-Emerging Issues”, First Edition, Excel Books, New
Delhi, 2007.
42
150701 – PRINTING MATERIALS OBJECTIVE: To make the students to understand the physical and chemical nature of the printing
materials, and their role and applications in the various processes of the graphic art industry.
MODULE 1:
Acid-Base Concepts – Ionic Product of Water – pH of a Solution – Buffer Solution –
Calculation and Determination of pH Value – Water Technology – Sources of Water – Impurities in
Natural Water – Specification of Water for Printing – Classification of Organic Compounds –
Hydrocarbons – Fats and Oils – Amino Acids – Proteins.
MODULE 2:
High Polymers – Fundamentals and Classification of Polymers – Types of Polymerization –
Plasticizers – Elastomers – Colloidal Systems – Types of Colloidal Systems – Sols – Emulsions –
Gels – Colloids in Printing Industry.
MODULE 3:
Dyes – Classification of Dyes – Pigments – Properties and Types of Pigments – Varnishes
– Types and Constituents of Varnishes – Synthetic Varnishes – Applications of Varnishes –
Lacquers – Constituents and Applications of Lacquers – Printing Inks – Types of Printing Inks –
Ingredients in Printing Inks – Properties of Inks – Ink and Water Interaction.
MODULE 4:
Paper Technology – Nature of Paper – Paper Manufacture – Pulp Preparation, Stock
Preparation, Paper Making and Finishing Process - Types of Paper - Properties of Paper –
Physical Properties – Strength Properties – Optical Properties – Chemical Properties – Printing
Properties.
MODULE 5:
Adhesives – Theory of Adhesion – Ingredients of Adhesive – Types of Adhesives – Factors
Influencing Adhesive Action – Bonding Processes by Adhesives – Chemistry of Photography –
Photographic Materials – Steps Involved in Photography – Photographic Reducers and Intensifiers
– Photopolymer Plates – Photopolymerization – Lithographic and Flexographic Plates.
MODULE 6:
Metals for Platemaking – Lithographic Properties of Metals – Metals used in Platemaking –
Graining of Lithoplates – Press Rollers – General Requirements – Types of Rollers – Anatomy of a
Roller – Applications of Rollers in Printing – Fountain Solutions – Composition and Types of
Fountain Solutions – Functions of Fountain Solutions – Monitoring the Concentration of Fountain
Solutions.
Text Book: Prakash Shetty, “Science and Technology of Printing Materials”, MJP Publishers, Chennai. 2008.
43
150702 – PRINTING PROCESSES OBJECTIVE: To enlighten the students on the basics and principles of different printing
processes.
MODULE 1:
Introduction to Contact Printing – Printing Methods – Printing System – Preparatory
Sections – Printing – Binding and Finishing – Inks for Letterpress and Lithography – Specialty
Panting - Noncontact Printing – Impactless Variable Printing Methods - Coated and Commercial
Papers – Coating Methods – Coating Materials – Adhesives – Coated Paper Properties and Use.
MODULE 2: Offset Lithography – Printing Processes – History of Lithography – Job Planning –
Evolution of Offset Printing – Offset Machine Construction – Pre-Make Ready and Make Ready –
Setting the Machine for Operation – Small Offset – Running Problems – Colour – Rollers – Tests
for Offset Printing - Principle of Planographic Printing – Direct and Offset Printing Process –
Working Process – Advantages and Disadvantages.
MODULE 3: Sheet-fed Offset Machines – Mechanical Features – Sheet Feeding Mechanism – Sheet
Board – Sheet Lifting and Forwarding – Sheet Controls – Sheet Register – Sheet Insertion and
Transfer – Inking System – Distribution System – Multiroll System – Wash-up Device – Adjustment
of Rollers – Different Dampening Systems – Cleaning of Dampeners – Construction of the
Machine – Working on the Cleaning Machine.
MODULE 4: Plate Cylinder – Blanket Cylinder – Impression Cylinder – Adjustment of Cylinders –
Advantages – Delivery Mechanism – Anti-Setoff Spray – Miscellaneous Operations – Web Offset
Machines – Driving Mechanism – Printing Units – Main Parts of Printing Unit – Inking System –
Delivery Unit – Folding Unit – Ancillary Operations by Delivery Units.
MODULE 5: Screen Printing – Basics – Merits and Demerits of Screen Printing - Selection of Correct
Screen Printing Fabric – Antistatic Stencil Mesh – Screen Printing Frames – Stretching
Equipments – Correct Stretching – Adhesive – Diapositive - Manufacture of Diapositives – Making
of Stencils and their Sources of Errors.
MODULE 6: Screen Printing Accessories – Stencils – Types of Stencils – Chemicals used – Common
Faults in Screen Printing – Printing Unit – Automatic Screen Printing Machine – Screen Printing on
Different Surfaces – Inks for Screen Printing - Flexography – Flexographic Platemaking – Photo
Chemical Change – Rotary Principle – Rubber Plates – Flexo Substrates – Overview of
Rotogravure Printing
Text Book:
NIIR Board, “Hand Book of Printing Technology”, Asia Pacific Business Press, New Delhi.
44
150703 – IMAGE REPRODUCTION SYSTEMS OBJECTIVE: To familiarize the students on the fundamentals image reproduction system.
MODULE 1:
Light, Colour and its Attributes – Colour Reproduction – Basic Terminologies – Mixing and
Matching of Colours – Sequence of Colours in Printing – Understanding Resolutions – Colour
Models and File Formats - Digital Reproduction Techniques - Elements of Digital Camera - Image
capturing techniques - Image manipulations and storage - Working Principles of Scanners and
their Types - Vector and Bitmapped Images.
MODULE 2: Line Photography – Making of Negative – Process Lens – Illumination – Sensitive Materials
– Scaling Copy – Illumination of the Copy Board – Focusing the Image – Organization of the
Darkroom – Developing – Developing Chemicals – Effect of Time and Temperature – Reduction
and Enlargements – Producing Negatives – Dry Plate and Paper Negatives – Clearing the
Negative – Halftone Photography.
MODULE 3: Camera Department – Lightroom and its Equipment – Darkroom: Entrance, Ventilation,
and Equipment – Arc Light and Arc Lamps – Types of Carbon and its characteristics – Exposure
Meters and Light Integrators – Photographer’s Tools – Safety in the Camera Department –
Originals for Halftone Photography – Problems Associated with various kinds of Copy – Grouping
of Originals.
MODULE 4: Focusing the Camera – Ground Glass Focusing – Focusing with Calibrated Tapes and
Numerical Counters – Viewing the Halftone Image – Dot Fringe – Evaluating the Halftone Negative
– Focusing the Screen – Screen Ruling – Screen Aperture to Screen Distance Ratio – Setting the
Screen – Exposure – Observations on Various Stop Systems – Miscellaneous Exposure
Information.
MODULE 5: Halftone Processing Procedures - Etching and Chemical Reduction – Physical Action of
Reduction – Subtractive Reducers – Proportional Reducers – Intensification – Special Hardener
Treatment – Halftone Camera Techniques – Screen Tints – Dropout Negatives – Re-screening
Halftones – Duotones – Opaquing Masks – Indirect Process of Making Halftone Images – Image
Reversal
MODULE 6: Film Processing - Types of Films, Film Structure, Film Sensitivity, Film Contrast, and Film
Speed - Processing Chemicals and Trays - Manual and Automatic Film Processing - Automatic
Film Processor - Plate Processing - Type of Plates – Wipe-on, Pre-sensitized Plates - Plate
Processing Steps - Automatic Plate Processor - CtP Plate Processing.
Text Book: NIIR Board, “Hand Book of Printing Technology”, Asia Pacific Business Press, New Delhi.
45
150704 – PRINCIPLES OF BOOK PUBLISHING
OBJECTIVE: To provide an insight into the various publishing processes in book publishing.
MODULE 1:
Basics of Book Publishing – Definition of Publishing – Book Publishing and Publishers –
Publishing Phase – Focus Areas – Publishing House – Organization Structure – Director –
Editorial Department – Production Department – Warehouse Department – Marketing and
Administrative Department.
MODULE 2:
Acquisition Editor – Overview of Acquiring Manuscripts – Process of Acquisition – Role of
Acquisitions Editor – Organizing Reviews.
MODULE 3:
Editorial Department – Development Editing – Copy Editing – The Copy Editor – Necessity
of Copy Editor – In-House Style – Permissions Editor – Copyright – Clean-up Editing – Design
Editor – Specification Sheet – Production Editor – Editorial Symbols and Type Coding.
MODULE 4:
Typography – Features of a Good Design – Layout – Grid System – Selection of Typeface
– Display Type – Proofreading – Proofs – Types of Proofs – Proofreading Process – Proofreader –
Proofreading Symbols: Operational Signs, Typographical Signs, Punctuation Marks.
MODULE 5:
References Vs Bibliography – Need for Referencing – Parts and Systems of Referencing –
Other Systems – Style of Referencing – Index – Types of Index – Subdivisions of Index – Process
of Indexing – Creating an Index – Index Editing – Parts of Book – Front Matter – Parts in Text –
Back Matter – Cover.
MODULE 6:
Printing – Offset Lithography – Processes of Printing – Printing Process – Paper – Wrapper
Printing – Binding – Types of Binding – Steps in Binding – Pricing of the Book – Costing –
Production Cost – Factors of Pricing – Marketing and Distribution – Publicity, Promotion and Sales
Department – Channels of Distribution.
Text Book: C. Sajeesh Kumar, “Book Publishing”, MJP Publishers, Chennai, 2009.
46
150705 – DESK TOP PUBLISHING OBJECTIVE: To prepare students having skills to work in the field of content designs or desk top
publishing.
MODULE 1:
Introduction to Computers – Windows XP: Hardware Requirements, Windows Desktop,
Mouse Actions, Windows Components, Managing Files and Folders, Windows Explorer, Recycle
Bin, Control Panel - DTP Basics: Paper Quality, Colours, Fonts – Hardware Requirements for DTP
– Design Steps – General Design Considerations – Text Organization – Design of Common Media
Publications.
MODULE 2:
Introduction to PageMaker - Components of PageMaker Window – Publication – Creating
and Modifying Publication - Components of Sample Document – Handling Text – Multiple Text
Blocks - Story Editor – Spell Check and Correcting Mistakes – Formatting Text - Changing Font
and Font Size - Making and Removing Boldface, Italics, Underlines – Aligning the Text – Tracking,
Kerning and Leading – Style Sheets – Bullets and Numbering.
MODULE 3:
Master Pages – Placing Elements on Master Pages – Managing Master Pages – Columns
– Graphics and Objects – Tool Bar – Creating Simple Graphics – Adding Text to the Graphic –
Importing Graphic – Resizing and Moving a Graphic – Adding Caption to the Graphic – Cropping a
Graphic – Grouping and Ungrouping – Links – Links Manager – Managing a Publication – Page
Setup – Table of Contents – Managing Books – Printing a Publication.
MODULE 4:
Introduction to CorelDraw – CorelDraw Screen – Property Bar – Drawing Basic Geometric
Figures – and Polygon – Views – View Manager – Toolbox – Managing CorelDraw Projects –
Flow, Dimension and Out Lines – Object Reshaping – Transformation Dockers – Adding Effects to
Objects – The Text Tool – Creating Book Cover – Text Conversion – Formatting Text – The Text
Editor – CorelDraw Images – Importing Images – Resizing, Rotating and Skewing Images –
Cropping an Image – Image Conversion – Adding Special Effects – Exporting and Publishing –
Managing Colour – Page Layout and Background.
MODULE 5:
Introduction to Photoshop CS2 – Program Window – The Toolbox – Screen Modes –
Managing Files – Photoshop Images – Image Size and Resolution – Editing Images – Colour
Modes – File Formats – Selection and Selection Tools – Grow and Similar Commands – Edition
Selections – Copying and Filling a Selection – Transforming Selections – Painting Tools – Drawing
Tools – Retouching Tools.
47 MODULE 6:
Layers – Layers Palette – Creating a New Layers – Hiding and Showing Layers –
Repositioning Layers – Flattening Images – Adjustment Layers – Layer Effects – Masking Layers
– Types in Photoshop – Type Tool – Type Settings – Type Masking – Filters – Filter Menu – Filter
Gallery – Extract Filter – Liquify Filter – Vanishing Point Filter – Artistic Filters – Blur Filters –
Brush Stroke Filters – Distort Filters – Noise Filters – Pixelate Filters – Lighting Effects –
Difference Clouds – Sharpen, Sketch and Stylize Filters – Printing and Customization.
Text Book: Vikas Gupta, “Comdex DTP”, Dreamtech Press, New Delhi, 2009.
48
150801 – COLOUR TV INSTALLATION AND SERVICING OBJECTIVE: To provide a complete knowledge about various colour television systems with their
maintenance and servicing techniques.
MODULE 1:
Essentials of Colour Television – Light Sources - Elements and Attributes of Colour –
Chromaticity Chart – Colour Spectrum – Compatibility - Colour TV Signal – Luminance and
Chrominance Signal – Interleaving Process – Phase Errors - Composite Colour Signal – Basic
Colour TV System – Elements of NTSC and SECAM Colour System – SECAM and PAL Coder
and Decoder.
MODULE 2: Colour Picture Tube – Requirements - Shadow Mask – Gun Assembly – In-Line and
Trinitron Colour Picture Tubes – Hitachi and Precision In-Line Colour Picture Tubes –
Requirements for Beam Control – Degaussing – Purity and Convergence – Colour Receiver Set-
up Procedure – Troubles in Colour Picture Tubes - Colour TV Receiver Controls – Operating and
Service Controls – Location of Controls – Remote Control Operation – Ultrasonic Transducers –
Signal Encoding – Trouble shooting Remote Control.
MODULE 3: Colour TV Receivers – Block Diagram – Antenna – RF Tuner – AFT – Video IF Amplifier –
Sound Section – Colour Burst Circuits – AGC – Deflection System – Power Supply System –
SMPS - ITT Colour TV Receiver: Block Diagram, RF Tuner, Video IF Section, Sound Section, PAL
Colour Decoder, CRT Drive, Deflection System, Sync Separator, AFC – Adjustments of ITT
Receiver – Trouble-shooting ITT
MODULE 4: Samsung Colour TV Receiver: Specifications, Salient Features, Video Amplifiers and Video
Detectors, Sound Section, Chroma Section, CRT Drive, Sweep Section, Output Section, Power
Supply Section – Trouble-shooting Samsung Receiver – Installation and Service Adjustments –
General Alignment Instructions.
MODULE 5: Mitsubishi Colour TV Receiver – User’s Controls – Service Controls – Tuning of AL –
Alignment Adjustments – Safety Precautions – BEL Colour TV Receiver – Basics – Video IF
Subsystem – Chroma Processing Subsystem – Video Amplifier and Picture Tube Biasing –
Horizontal and Vertical Subsystem – Output Section – Sound IF and Audio Output Subsystem –
Power Supply Section – Front Panel Controls – Trouble Shooting.
MODULE 6: Systems Compatibility and Transmission Standards – Test Charts – Philips PM 5544 Test
Pattern – Advanced Television Systems - Satellite TV - Cable TV – VCR - Tele Text – Digital TV –
Projection Television – 3-D TV – HDTV – Video Interface System - Safety Rules, Practices and
Devices.
Text Book: S. P. Bali, “Colour Television – Theory and Practice”, Tata McGraw Hill, New Delhi, 2009.
49
150802 – AUDIO AND VIDEO SYSTEMS OBJECTIVE: To make the students to understand the theory, applications and maintenance of various
audio and video systems.
MODULE 1:
Microphones – Characteristics – Carbon Microphones – Crystal Microphones – Dynamic
Microphones – Ribbon Microphones – Capacitor Microphones – Electrets Microphones – Gun Microphones
– Lavaliere Microphones – Tie-clip Microphones – Wireless Microphones – Dual-unit Microphones -
Headphones and Headsets – Types of Headphones – Moving-iron Headphones – Crystal Headphones –
Dynamic Headphones – Electrostatic Phones – Hearing Impairments – Hearing Aids – User Operated
Controls – Dispenser Operated Controls – Filters – Output Controls and AGC – Other Types of AGC.
MODULE 2: Loudspeakers – Different Verities of Loudspeakers – Loudspeaker Construction – Permanent
Magnet – Voice Coil – Loudspeaker Impedance – Acoustic Impedance and Resonance – Woofers – Mid-
range and Extended-range Speakers – Cone Type, Dome Type and Horn Type Tweeters – High Fidelity –
Multispeaker Systems – Speaker Baffles - Baffles – Infinite Baffle Systems – Bass-reflex systems – Acoustic
Labyrinth systems – Folded-horn Systems – Corner Folded Horn Systems.
MODULE 3: Loudspeaker Systems - Horns – Indoor Acoustics – Stereo Systems – Cost and Efficiency –
Multiway Systems - Monophony – Stereophony – Quadraphony – Stereo Practice – Recorder Circuits - 4 W
Tape Recorder – Tape Preamplifier – Modifications for Stereo Operation – AGC Circuit for Tape Recorders
– 6 W Universal Hi-Fi Amplifier – Amplifying Systems - Monaural systems – Stereophonic Systems – Power
Supplies – Layout of High-Quality Audio Circuitry.
MODULE 4: Commercial Sound - Electric Guitar – Electric Wind Instruments – Recording – Manual Synthesizer
– Programmed Synthesizer – Digital Computer – Speaker Matching Systems – PA System Characteristics –
Public Address Amplifiers – Megaphones – Intercommunication Equipment – Background Music and Paging
Systems - Sound Track – Types of Sound Film – Theatre Sound Reproduction systems – Working of a
Projector – Sound pick-up – Cine Screens.
MODULE 5: Tuners - AM/FM Basics – Tuners – AM Tuners – Practical AM Tuner Circuit – FM Tuners – Audio
Systems - Anatomy of a Hi-Fi systems – Source Units – Signal Propagation – Stereo Multiplex –
Compatibility – Remote Controls - Ultrasonic Transducers – Frequency Signal Encoding –Encoding
Schemes – Remote Control Transmitter – Ultrasonic Transmitter Circuit – Troubleshooting Remote Control
System – Remote Control Operation – Video System - Canon Portable Video System – Laser vision –Video
Disc System – Interactive Video Systems.
MODULE 6: Video Tape – Problems in Video Recording on Tape – Early Video – FM Modulation – Head Gap
and Writing Speed – Helical Tape Scan – Domestic Video – Slant Azimuth System – Colour Recoding –
VHS and Beta Formats – Video 2000 Format – Common Features – 8mm Format – Video Tape Format
Parameters – Video Tape Track Configuration – Video and Audio Heads – Additional Heads – Video Head
Geometries – Head Switching – VHS High-fidelity Audio – Auto Tracking – PCM Audio – CVBS Signal –
Block Diagram of a Video Cassette, Recorder – Controls on Video Cassette Recorders.
Text Book: S. P. Bali, “Consumer Electronics”, Pearson Education, New Delhi, 2009.
50
.150803 – HOME APPLIANCES DEVICES OBJECTIVE: To familiarize the students on the fundamentals and maintenance of
telecommunication systems and electronic home appliances.
MODULE 1:
Telecommunication Systems – Line Systems Characteristics – Radio System
Characteristics – Telephone Receivers and Handsets – Signaling – CCITT No.7 – Modes of
Operation – Station Interconnections – RS232C Interconnecting Cable - Switching System -
Principles – Uniselectors – Two-motion Selectors – Four Digit Step-by-step Automatic Exchange –
Reed Relay and Crossbar Exchanges – Traffic Handling Capacity – Stored Program Control –
PBX Switching – Functions of a Switching Office – Hands Free Pones Vs Speakerphones –
Feature Phones and Answering Machines.
MODULE 2:
Modular Techniques - Carrier System – Submarine Cables - Analog Methods – Digital
Methods – Pulse Methods – Multiplexing – Concentrators and Multiple Access – Two-channel
TDM System - Fibre Optics - Telephone Network – Nonvoice Traffic – Fiber in Local Loop –
Optical Systems – Optical Fibre Cable – Types of Optical Fibre – Optical Fibre Advantages and
Disadvantages.
MODULE 3:
Digital Transmission – Advantages and Disadvantages - Digital Exchanges – The Borscht
Functions – Local Distribution Networks – Data Services – Message Switching – Message
Switching, Circuit Switching and Packet Switching - Packet Format – LAN, MAN and WAN – ISDN
– The Internet – Mobile Radio Systems – WLL – Role of WLL – Point-to-point, Point-to-multipoint
WLL – Radio Paging Services – VHF/UHF Radio Systems – Cordless Phones – Cellular
Communications – Digital Cellular Phone Block Diagram – Types of Mobile Phones – Cellular
Systems – Establishing a Call – Smart Card.
MODULE 4:
FAX - Facsimile Machine – Basic Fax Machine Operations – Group-3 Fax Machines –
Xerography - Xerographic Process – Extension to a Dynamic Copier – Calculators - Structure of a
Calculator – Internal Organization of a Calculator – Servicing Electronic Calculators - Digital Clock
– LSI Digital Clock – Set-Top Boxes.
MODULE 5:
Microprocessors – Microcomputers – Microcontrollers – Comparing Microprocessors and
Microcontrollers – The Z80 and the 8051 – In-Car Computers - Applications – Electronic Ignition –
Electronic Ignition Lock System – Antilock Braking System (ABS) – Electronically Controlled
Suspension (ECS) – Instrument Panel Displays – Ultrasonic Car Safety Belt System – Air Bag
System – Vehicle Proximity Detection System – Car Navigation System (Travel Pilot) – Car
Navigation System (AVIC – 1).
51 MODULE 6:
Microware Ovens - Microwaves – Transit Time – Magnetrons – Wave Guides – Block
Diagram – LCD Timer with Alarm – Single-chip Controllers – Types of Microwave Ovens –
Microwave Cooking – Features Diagram – Writing Instructions – Safety Instructions – Microwave
Cookware – Operating Problems – Care and Cleaning – Removable Parts – Special Care – Metal
Rack Care – Washing Machines - Electronic controller – Washing Machine Hardware – Washing
Cycle – Hardware and Software Development – Types of Washing Machines – Fuzzy Logic
Washing Machines – Miscellaneous Features.
Text Book: S. P. Bali, “Consumer Electronics”, Pearson Education, New Delhi, 2009.
52
150102 - PRINCIPLES OF AIR CONDITIONING AND COLD STORAGE OBJECTIVE: To impart the fundamental concepts and design aspects of air-conditioning
systems.
MODULE 1:
Review of Basic Principles – Basic Terminologies related to Physical Quantities –
Thermodynamics Systems – Properties of a System – State of a System – Temperature and its
Related terms – Pressure and its Related terms – Energy and its Related terms – Heat and its
Related terms – Work and its Related terms – Power and its Related terms – Laws of
Thermodynamics – Perfect Gas and its Related terms – Entropy – Thermodynamic Processes –
Work done during a Non-flow Process - Application of First Law of Thermodynamics to a Non-flow
Processes – Thermodynamic Cycle and its Related Terms
MODULE 2:
Introduction to Comfort Conditions – Thermal Exchanges of Body with Environment –
Physiological Hazards Resulting from Heat – Factors Affecting Human Comfort – Effective
Temperature – Modified Comfort Design – Heat Production and Regulation in Human Body – Heat
and Moisture Losses from the Human Body – Moisture Content of Air – Quality and Quantity of Air
– Air Motion – Cold and Hot Surfaces – Air stratification – Factors Affecting Optimum Effective
Temperature – Inside Summer Design Conditions – Outside Summer Design Conditions
MODULE 3:
Introduction to Air Conditioning Systems – Factors Affecting Comfort Air Conditioning – Air
Conditioning System – Equipments used in an Air Conditioning System – Classification of Air
Conditioning System – Comfort Air Conditioning System – Industrial Air Conditioning System –
Winter Air Conditioning System – Summer Air Conditioning System – Year-Round Air Conditioning
System – Unitary Air Conditioning System – Central Air Conditioning System – Room Sensible
Heat Factor – Grand Sensible Heat Factor – Effective Room Sensible Heat Factor
MODULE 4: Introduction to Fans – Types of Fans – Centrifugal Fans – Axial Flow Fans – Total
Pressure Developed by a Fan – Fan Air Power – Fan Efficiencies – Fan Performance Curves –
Velocity Triangles for Moving Blades of a Centrifugal Fan – Work done and Theoretical Total Heat
Developed by a Centrifugal Fan for Radial Entry of Air – Specific Speed of a Centrifugal Fan – Fan
Similarly Laws – Fan and System Characteristic – Fans in Series – Fans in Parallel
MODULE 5: Introduction to Air Distribution Systems – Terminology – Behavior of Jets from Outlet –
Comfort Criteria and Standards – Supply Air Outlets and Air Distribution Patterns – Air Distribution
System Design – Air Conditioning Control – Basic Elements of Control System – Types of Control
Systems – Control for Air Conditioning and Components
53 MODULE 6: Applications of Air Conditioning – Room Air Conditioners – Water Coolers – Capacity of
Water Coolers – Applications of Air Conditioning in Industry – Refrigerated Trucks – Marine Air
Conditioning – Ice Manufacture – Cooling of Milk – Cold Storages – Quick Freezing – Cooling and
Heating of Foods – Freeze Drying – Heat and Mass Transfer through the Dried Material
Text Books: R.S. Khurmi, J.K. Gupta, “A Textbook of Refrigeration and Air Conditioning”- S.Chand Publication
References: Ahmadul Ameen, “Refrigeration and Air Conditioning”, Prentice Hall India 2007
54
150103 - REFRIGERATOR HARDWARE OBJECTIVE: To highlights the features and characteristics of various refrigerator hardware
including compressors, condensers and evaporators.
MODULE 1:
Introduction of Refrigerant Compressors - Classification of Compressors – Important
Terms – Reciprocating Compressors – Cases of Work Done - Power Requirements - Volumetric
Efficiency - Factors Effecting Volumetric Efficiency - Overall or Total Volumetric Efficiency – Multi-
Stage Compression – Advantages of Multi Stage Compression.
MODULE 2: Two Stage Reciprocating Compression with intercooler – Assumptions - Intercooling of
Refrigerant – Cases of Work Done – Minimum work Required – Performance Characteristics –
Hermetic Sealed Compressors – Rotary Compressors – Centrifugal Compressors – Advantages
and Disadvantages of Centrifugal Compressors – Capacity Control of Compressors, Reciprocating
Compressors, Centrifugal Compressors – Comparison of Performance.
MODULE 3: Introduction of Condensers – Working of a Condenser – Factors Affecting the Condenser
Capacity – Heat Rejection Factor – Classification of Condensers – Air Cooled Condensers and its
Types – Water Cooled Condensers and its Types - Comparison - Fouling Factor - Heat Transfer in
Condenser – Condensing Heat Transfer Coefficient – Air-side Coefficient – Water-side Coefficient
– Finned Tubes – Evaporative Condensers – Cooling Towers and Spray Ponds – Capacity of
Cooling Towers and Spray Ponds – Types of Cooling Towers and its description.
MODULE 4: Introduction of Evaporators – Working of an Evaporator – Capacity of an Evaporator –
Factors Affecting the Heat Transfer Capacity of an Evaporator – Heat Transfer in Evaporators –
Heat Transfer During Boiling – Heat Transfer Coefficient for Nucleate Pool Boiling – Fluid Side
Heat Transfer Coefficient – Types of Evaporators and its description –Methods of Defrosting.
MODULE 5: Introduction of Expansion Devices – Types Of Expansion Devices – Capillary Tube –
Hand-operated Expansion Valve – Automatic (or Constant Pressure) Expansion Value –
Thermostatic Expansion Value – Low-side Float Valve – High-Side Float Valve.
MODULE 6: Introduction to Accessories – Receiver – Filter Driver – Moisture Indicator – Oil Separator -
Liquid-Suction Heat Exchanger – Surge Tank – Vibration Eliminator – Refrigeration Controls –
High Pressure Cutout Control – Low Pressure Cutout Control – Solenoid Valve – Evaporator
Pressure Regulator – Accumulators – Suction Pressure Regulator
Text Books: R.S. Khurmi, J.K. Gupta, “A Textbook of Refrigeration and Air Conditioning”- S.Chand Publication
References: Ahmadul Ameen, “Refrigeration and Air Conditioning”, Prentice Hall India 2007
55
150105 - ELECTRICAL TECHNOLOGY OBJECTIVE: To expose the students to the basic concepts of electrical circuits and machines.
MODULE 1: Introduction to DC Circuits - Ohm’s law – Resistances in Series and Parallel – Series
Parallel Circuits - Kirchhoff’s laws and its illustration – Star/delta and Delta/Star Transformation –
SI Units – Work, Power and Energy – Laws of Magnetic Force – Magnetic Field and Magnetic Flux
– Magnetic Effect of Electric Current - Current Carrying Conductor in Magnetic Field – Electro
Magnetic Induction - Faraday’s law – Direction of Induced E.M.F and Current – Induced E.M.F –
Statically Induced E.M.F - Self and Mutual Inductances.
MODULE 2: Introduction to AC Circuits – Sinusoidal Voltage and Current – RMS, Average and Peak
Values – Phase and Phase Difference - Phasor Representation – AC Circuits - Power Factor -
single phase RC, RL and RLC Series Circuits – Series resonance – Parallel AC Circuits –
Complex Power – Three Phase Circuits – Line and Phase values – Power Measurement.
MODULE 3: Introduction to DC Generators – Operating Principle of DC Generators – Construction
Details of DC Generators – EMF Equation of a DC Generator – Types of DC Generator – Losses
in DC Machine – DC Generator Characteristics – Applications of DC Generators.
MODULE 3: Introduction to DC Motors - Operating Principle of DC Motor – Back EMF Equation, Voltage
Equation and Power Equation of DC Motor – Types of DC Motor – Armature Torque of a DC Motor
– Speed of a DC Motor – Losses in DC Motor – DC Motor Characteristics – Applications of DC
Motors – Speed Control of DC Motor – DC Motor Starting.
MODULE 4: Introduction to Transformers - Construction Details – Operating Principle – EMF Equation –
Practical and Ideal Transformer – Voltage Regulation – Transformer Tests – Losses in
Transformers – Efficiency of a Transformer – Types of Transformer – Cooling of Transformer –
Three Phase Transformer.
MODULE 5: Introduction to Three Phase Induction Motor – Construction Details – Operating Principle –
Slip – Rotor Current and Rotor Torque – Starting Torque – Torque Slip Characteristics – Speed
Regulation and Speed Control – Types of Induction Motors – Methods of Starting - Introduction to
Single Phase Motor – Types of Single Phase Motors and its descriptions.
MODULE 6: Introduction to Alternators – Construction Details – Operating Principle – EMF Equation –
Voltage Regulation – Introduction to Synchronous Motor – Construction Details – Operating
Principle – Applications – Introduction to Electrical Instruments – Types - Operating Principle –
Essentials of indicating instruments - Ammeters and voltmeters – Sources of Errors - Electrostatic
Voltmeters – Types and Characteristics of Electrostatic Voltmeters – Wattmeter.
Text Books: V.K. Mehta, Rohit Mehta, “Principles of Electrical Engineering” - S.Chand Publication
56
150301 - AUTOMOBILE ENGINES MODULE 1: Introduction to automobile- Brief history- Classification- parts of an automobile- Description-
performance- rolling wind and gradient resistance. Heat engines- internal and external combustion
engines- development and classification- Application of IC Engines- Engine cycle- energy balance
MODULE 2: Parts of IC engines- cylinder, head, piston, Rings, connecting rod, Crankshaft-Flywheel
and Governor –Types of Governors- Value operating mechanisms- Valve -Petrol engine parts-
Sparkplug- Operating range- Firing voltage -Carburetor –Fuel pump- Diesel engine parts- Fuel
atomizer- IC Engines bore, stroke, BDC, TDC, Swept volume compression ratio.
MODULE 3: Working cycles- Otto cycle, Diesel cycle, Dual combustion cycle- four stoke Ottocycle
engines- four stoke diesel cycle engine- Valve timing diagrams- Two stroke petrol engine-
Compression ignition engines- Comparison of four stoke and Two stroke engines- SI and CI
engines .
MODULE 4: Testing and performance of IC engines-power and mechanical efficiency-basic
measurement-speed ,fuel consumption, air consumption ,smoke density, measurement of
indicated power-engine friction-measurement of fractional power- engine performance curves-
SFC –Fuel consumption load output and exhaust composition-Governing of IC engines-Noise
abatment-Heat balance sheet-Morse test
MODULE 5:
Miscellaneous engines-dual fuel and multi fuel engines and working- factors affecting
combustion- -performance, advantages and applications-stratified charged engine- classification –
sterling engine-engine geometry and driving mechanism- sterling vs. Conventional engines-
wankel rotary combustion engine-features construction and working- rotor housing ,seals,
sparkplug location-clearance and swept volume –power and fuel combustion-advantages and
application of rotary combustion engines.
MODULE 6:
Construction and working of Two stoke engines- Port timing diagram- disadvantage of
Two stoke SI engines and CI engines- Scavenging efficiency- scavenging systems- Loop
scavenging- Cross scavenging- Crankcase scavenging-Scavenging pumps blowers.
Text Books: R. K. Rajput, ”Text book of automobile engineering”, Laxmi Publication, New Delhi.
57
150303 - CHASSIS, SUSPENSION AND TRANSMISSION MODULE 1:
Chassis- Classification- Fitting of engine- Engine fitted ingrown but crosswise- Frame-
Functions- types of frames- defects in chassis frame- body – vehicle dimensions- Introduction to
suspension system- Functions and requirements- Elements of a supervision system
MODULE 2: Springs- Types of springs- Dampers- telescopic, rocking lever- Suspension systems-
Independent suspension- Four wheel independent front suspension- Stabilizer- Rigid suspension-
Independent rear suspension-Interconnected suspension systems- Hydroelectric, hydra gas-
Suspension systems of Indian automobiles
MODULE 3: Wheels and tyros – Wire wheel- Light alloy cast rip wheels –Tyres- Functions- Types of
tyres- Tubeless tyre- Tyre construction – Radial ply construction - Tyre material- Tyre shape-
tread pattern- Tyre markups- type inflation pressure- causes of tyro wear- Factors affecting tyre
life- Tyre maintenance- Enhancing tyre life- Wheel balancing systems
MODULE 4: Requirements of transmission system- Types- clutch- gearbox- and line axle transmission-
Circles’ of transmission system- clutch- Function and requirements – Principal of operation-
Friction materials- Friction and cone clutch –Single plate clutch- Multiplate clutch- Plate clutch
parts- Centrifugal clutch- automatic clutch adjustment- Gearbox- Ratios- Types of gear boxes-
sliding mesh gear box- Constant mesh gear box-
MODULE 5: Synchromesh- Progressive type gear boxes- Maruthi800 Gearbox- Gear shifting-
Transfercase- Troubleshooting of gearbox- Gear boxes used in India automobiles – Automatic
transmission- Overdrive- Four-wheel unit – Propeller shaft- Hotchkiss type propeller shaft-
Crowrushorting universal joints- Construction and working- Type of universal joints- Final drive and
differcital- Bevel and hypoid- Bevel gear- Differential-rear axles- Half floating rear axle- Causes of
axle failures- Real axle noises-
MODULE 6: Purpose of steering system- Function- Requirements of a good steering system- General
arrangement- Working of steering mechanism—Description of steering parts-Steering gears-
Worm and roller sleeping gear- rack and pinion sleeping gear- sleeping ration- Reversibiling-
Sleeping geometry- Wheel alignment- King pin inclination caster- Toe –Out- Checking of wheel
alignment – Steering Mechanisms –Steering gear mechanisms- Under steering and over treeing-
steering linkages- steering wheel and column – Steering arm- Draglink –Power steering-
Fundamentals- Types of power steering systems- Electronic power steering- steering geometry-
steering troubleshooting- Front axle- Construction- Type of front axles- Stub axles- Braking
system.
Text book: R. K. Rajput, ”Text book of automobile engineering”, Laxmi Publication, New Delhi.
58
150304 - AUTOMOBILE BRAKING AND ELECTRICAL SYSTEM MODULE 1:
Introduction- necessity of a braking system-functions of brakes-requirements of a good
braking system-classification of brakes mechanical brakes- hand brakes –disc brakes- hydra tic
brakes-advantages- bleeding of brakes-hill holder-power brakes-air brakes- main parts-engine
exhaust brake-vacuum brakes-electric brakes-factors controlling the stop of an automobile-break
shoes and linkages brake testers-break service
MODULE 2:
Introduction to electrical system-typical automotive electrical system-battery system-types
of batteries-chemistry of a lead acid battery-Zinc air battery-Capacity of a battery-Efficiency,
primary, secondary cells-battery rating-battery maintenance-battery charging-battery data of
automobiles-factors affecting battery life-battery faults and troubles-dry charged batteries-battery
testing-specific gravity test, high rate discharge test-starting motor-description field coil windings –
drive unit-Overrunning clutch-Magnetic switch or relay.
MODULE 3:
Charging system -Introduction –Necessity and function- requirements-Generator-Working
principle of DC generator-Parts of a dynamo-Dynamo regulation-Cut out relay-Regulation for DC
generators-Trouble shooting of a dynamo-Alternator-advantages-Working principle of an
alternative-Operations-Charging circuits-Alternator regulation-Transistorized regulator.
MODULE 4:
Ignition system-Introduction-Purpose of an ignition system-Requirement –Basic ignition
systems-Battery system-Working-Components of battery ignition systems-Maintenance- Magnetic
ignition system-Firing order-Ignition timings-Spark advance mechanism –Vacuum spark-Spark
plugs-Factors affecting ARC-Hot and cold spark plug-Spark plug failure-Limitations of conventional
ignition system-Electronic ignition systems-TCI and CDI systems-Break less electronic ignition
system-Trouble shooting .
MODULE 5:
Lighting and accessories-Main circuits of the automobile electrical system-Car wiring
diagram-Symbols used-Lighting system-Wiring circuit –Fuses-Head lights-Pre focus bulb-Head
lamp-Head lamp double filament-Light switch-Dimmer and stop light switch-Indicating lights
MODULE 6:
Trouble shooting of lighting system-Essential accessories-Types of horn-Windscreen
wiper-Water temperature gauge-Speedometer and odometer assembly-Ventilating system-Heating
system- Air conditioning system-Components
Text Books:
R. K. Rajput, ”Text book of automobile engineering”, Laxmi Publication, New Delhi.
59
150305 - AUTOMOBILE MAINTENANCE AND TROUBLE SHOOTING
MODULE 1: Lubrication –Chart-Properties of engine oils-Automobile lubricating methods- Preventive
maintenance schedule- Engine maintenance- Connecting rod assembly –Piston and rings-
Crankshaft assembly- Valve mechanism- Cam shaft- Cylinder head cylinder block.
MODULE 2:
Auto inspection and testing- Road testing- Maintenance of automobile body- Painting and
tinkering—Troubleshooting of an automobile. Gas power cycles-Ideal efficiency-Carnot cycle-
diesel cycle-Comparisons of Otto, diesel and dual combustion cycles- automotive gas turbines-
Brayton cycle-Classification of gas turbines-Uses of gas turbine-Gas turbine for automotive
vehicles.
MODULE 3:
Automobile body and safety consideration-Car driving-Basic requirements- Preliminary
requirements-Police signals-Traffic signs-Driving practice of four wheeler-Fuel saving-Type of
garages-Garage tools-Application of tools-Flaring, swaging, tubecutter, tube blender, Pinch off
tools, Wrenches and dies-Safety precautions-Garages service station equipment.
MODULE 4:
Zero emissions-SI engine emission and control-three way catalytic converter-electronic
catalytic converter- exhaust emission control by fuel variation-diesel engine emissions-exhaust
smoke- causes of smoke- measurement of smoke-control of smoke-gasoline and diesel
emissions-effects of emissions on human health
MODULE 5:
Technical specifications of automotive vehicles -Maruti 800,marnticen,AltoLx,Fiat
,Santro,Ford Ikon, HyundaiAccent, Honda Acccord ,Skoda.
MODULE 6:
Troubleshooting of cooling system- Trouble shooting of ignition system-. trouble shooting
chart of break shoes and drums- trouble shooting chart of hydraulic break system-air breaks-
Troubleshooting of heating system-Trouble shooting of air conditioning system.
Text book: R. K. Rajput, ”Text book of automobile engineering”, Laxmi Publication, New Delhi.