Career Guidance - annauniv.edu20-%20Programme%20on%20… · Design CATIA V5. 8-9 4. Mechanical...
Transcript of Career Guidance - annauniv.edu20-%20Programme%20on%20… · Design CATIA V5. 8-9 4. Mechanical...
RASHTRIYA UCHCHATAR SHIKSHA ABHIYAN (RUSA)
Centre for University – Industry Collaboration Anna University, Chennai
Programme on “Career Guidance”
(Skill Development Programme funded by Government of India / Government of Tamil Nadu)
TABLE OF CONTENT
SI. No. Title Page 1 Registration Form 1
2 Eligibility & Contact Details 2
3 Details of Skill Development Programme offered at
AU-FRG Institute for CAD/CAM, Anna University
3 - 43
4 Details of Skill Development Programme offered at
Siemens Centre of Excellence (SCoE), Anna
University
44 - 69
1
RASHTRIYA UCHCHATAR SHIKSHA ABHIYAN (RUSA)
Centre for University – Industry Collaboration Anna University, Chennai
Programme on “Career Guidance”
(Skill Development Programme funded by Govt. of India / Govt. of TN)
Registration Form
Name of the student : ___________________________________________ Roll Number : ___________________________________________ Branch / % of Marks : ___________________________________________ College Address in full : ___________________________________________
___________________________________________
___________________________________________
Residential Address in full : ___________________________________________
___________________________________________
___________________________________________
Telephone Number : ___________________________________________ Mobile Number : ___________________________________________ e-mail ID : ___________________________________________ Community : OC / BC / MBC / SC / ST I, _________________________, here by agree to attend the Programme on “Career Guidance” organized by the AU-CUIC sponsored by Rashtriya Uchchatar Shiksha Abhiyan (RUSA). I also admit that I have not paid any programme fees to the College / University / Company. I will attend the training programme in all the specified days.
Signature of the Student Signature of the Principal with Seal
STUDENT PHOTO
2
ELIGIBILITY & CONTACT DETAILS 1. Any student pursuing Degree in Engineering (UG - 2nd to final year /
PG – 1st to final year / Ph.D – any semester) who wants to register for Skill
Development Programme offered under RUSA Scheme in AU-FRG Institute for CAD/CAM may kindly contact the following:
Dr. M. Pradeep Kumar
Director
AU-FRG Institute for CAD/CAM, Anna University, Chennai - 600 025
Ph: 044 - 2235 1991 / 2235 8051
M: 9962562713
Email ID: [email protected]
2. Any student pursuing Degree in Engineering (UG - 2nd to final year /
PG – 1st to final year / Ph.D – any semester) who wants to register for Skill
Development Programme offered under RUSA Scheme in Siemens Centre of Excellence (SCoE) may kindly contact the following:
Dr. K. Arunachalam
Coordinator
Siemens Centre of Excellence (SCoE)
MIT Campus, Anna University,
Chromepet, Chennai - 600 044
Ph: 044 - 2251 6069
M : 98843 45564
Email ID: [email protected]
3
Details of Skill Development Programme
offered by AU-FRG Institute for
CAD/CAM
4
AU-FRG Institute for CAD/CAM
Department of Higher Education Rashtriya Uchchatar Shiksha Abhiyan (RUSA)
State Project Directorate DOTE Campus, Guindy, Chennai Government of Tamilnadu.
Skill Development Campin Government Colleges under RUSA Entrepreneur Hubs
COURSE CONTENT
AU-FRG ICC, CEG CAMPUS,
ANNA UNIVERSITY, GUINDY,
CHENNAI – 600025,
TAMILNADU
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AU-FRG Institute for CAD/CAM Table ofContents:
S.No Stream Sector Name of the Skill Programme
Page No
1. Mechanical ComputerAided Design
NEW PRODUCT DEVELOPMENT & REVERSE ENGINEERING.
4-5
2. Mechanical ComputerAided Design
GENERATIVE DESIGN & TOPOLOGY OPTIMIZATION.
6-7
3. Mechanical ComputerAided
Design CATIA V5. 8-9
4. Mechanical ComputerAided
Design SOLIDWORKS. 10-11
5. Mechanical ComputerAided
Design GEOMENTRICAL DIMENSIONING AND TOLERANCING.
12-13
6. Mechanical ComputerAided
Manufacturing CNC MILLING & TURNING.
14-15
7.
Mechanical
ComputerAided Manufacturing
3-D PRINTING. 16-17
8. Mechanical ComputerAided Manufacturing
BIO PRINTING. 18-19
9. Mechanical ComputerAided
Engineering
ANSYS. 20-21
10. Mechanical ComputerAided
Engineering
HYPERMESH. 22-23
11. Mechanical ComputerAided
Engineering
ANSYS FLUENT 24-25
6
12. Mechanical ComputerAided
Engineering
ADAMS. 26-27
13. Mechanical ComputerAided
Engineering
ABAQUS. 28-29
14 Mechanical/
Automobile Mechanical INDUSTRY 4.0 30-31
15 Mechanical/ Electonics/
Computer Science Engineering
Information Technology
IOT TECHNOLOGY 32-33
16 Mechanical/
Electrical
Automobile ELECTRIC AND HYBRID VEHICLES 34-35
17 Mechanical/
Computer Science Engineering
Information Technology
BLOCKCHAIN 36-37
18 Mechanical/
Computer Science Engineering
Information Technology
ARTIFICIAL INTELLIGENCE & MACHINE LEARNING.
38-39
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CertificateProgrammeinComputer Aided Design ‐ NEW PRODUCT DEVELOPMENT&REVERSE ENGINEERING.
T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
NEW PRODUCT DEVELOPMENT
Theory + Practical 25 25 50
REVERSE ENGINEERING
Theory + Practical 25 25 50
Product Development
Theory + Practical 25 25 50
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
Project Project work 25 75 100 Total 300
Sector – QP Computer Aided Design ‐ NEW PRODUCT DEVELOPMENT& REVERSE ENGINEERING
NSQF level 8/9 Stream Mechanical Engineering, Production engineering, Automobile Engineering Total number of hours and break up
100 Hrs. (T: 30 Hrs., P: 30 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning Outcome
Skills focused
Industrial Design and Ergonomics, Design for Manufacturing, Reverse engineering
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry AutomotiveIndustry Entrepreneur /Self‐employed
8
CertificateProgrammeinComputer Aided Design ‐ NEW PRODUCT DEVELOPMENT&REVERSE ENGINEERING.
Course Contents
Course Code
Course Title Theory/ Practical Computer Aided Design ‐ NEW PRODUCT DEVELOPMENT &
REVERSE ENGINEERING Unit No Modules
I
NEW PRODUCT DEVELOPMENT: Product Development - Methodologies and Organization -
Evaluation of new Product ideas -Concept Generation, Evaluation and Testing -Sequential Engineering versus Concurrent Engineering -Performance Measurement and Comparison - Understanding Customer and User Needs -Identifying Market Opportunities -Product Specifications -Product Architecture- Industrial Design and Ergonomics - Geometrical Dimensioning and Tolerancing - Introduction to CAD Tools -Introduction to FEA - Design for Manufacturing - Failure Mode and Effect Analysis (FMEA) - Product Testing and Reliability - Product Lifecycle Management
30 Hrs (T15Hrs+ P15Hrs)
II
REVERSE ENGINEERING: Introduction to Reverse Engineering – Tools for Reverse
engineering - Digitizing techniques - Types of 3D Scanning Methods - Introduction to ATOS Compact Scanner - Preparation of technique of Scanning objects -Scanning and Measuring strategies -Calibration of 3D Scanner -Scanning Objects - Mesh Edit -Exporting Mesh -Design Comparison (Design Inspection) -3D modeling using Scanned data - Geometric design X (Basics)
30 Hrs (T15Hrs+ P15Hrs)
III
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
IV PROJECT: 15Hrs Total 100 Hrs
9
CertificateProgrammeinComputer Aided Design ‐ GENERATIVE DESIGN & TOPOLOGY OPTIMIZTION
Sector – QP Computer Aided Design ‐ Generative Design & Topology Optimiztion
NSQF level 8/9 Stream Mechanical Engineering, Automobile Engineering, Civil Engineering,
Aerospace Engineering. Total number of hours and break up
100 Hrs. (T: 30 Hrs., P: 30 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Material interpolation, Generative design, Design realization, Shape optimization
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry AutomotiveIndustry Civil Industry Aerospace Industry Entrepreneur /Self‐employed
* (T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities)
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
GENERATIVE DESIGN Theory + Practical 25 50 75
TOPOLOGY OPTIMIZATION
Theory + Practical 25 50 75
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
10
CertificateProgrammeinComputer Aided Design ‐ GENERATIVE DESIGN & TOPOLOGY OPTIMIZTION
Course Contents
Course Code
Course Title Theory/ Practical Computer Aided Design ‐ Generative design
Unit No Modules
I GENERATIVE DESIGN:
Introduction to Generative design - Benefits of generative design -Design exploration-Examine multiple design options and review tradeoffs in materials , performance, and manufacturing methods - Editable geometry - Integrated workflows-Multiple manufacturing methods- Additive – 3 or 5 axis milling – Application using Autodesk Fusion 360.
30 Hrs (T15Hrs+ P15Hrs)
II
TOPOLOGY OPTIMIZATION : Introduction to Optimization - Introduction to structural
optimization - Material interpolation - Introduction to Topology Optimization -FE model-Load cases- Design Volume - Topology optimization - Design realization - FE analysis - Shape optimization
30 Hrs (T15Hrs+ P15Hrs)
III
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
IV PROJECT: 15Hrs Total 100 Hrs
11
CertificateProgrammeinComputer Aided Design ‐ CATIA V5.
Sector – QP Computer Aided Design ‐ CATIA V5
NSQF level 8/9 Stream Mechanical Engineering, Automobile Engineering, Aerospace Engineering Total number of hours and break up
100 Hrs. (T: 15 Hrs, P: 40 Hr., H: 45 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
3D Modeling, Assembly, Surface designing, Generative shape design
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry Automotive Industry AerospaceIndustry Entrepreneur /Self‐employed
* T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
SOLID MODELING Theory + Practical 25 50 75
SURFACE DESIGNING Theory + Practical 25 50 75
DRAFTING Theory + Practical 25 25 50
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 25 50 Total 300
12
CertificateProgrammeinComputer Aided Design ‐ CATIA V5.
Course Contents
Course Code
Course Title Theory/ Practical Computer Aided Design ‐ CATIA V5.
Unit No Modules
I
SOLID MODELING: Introduction to CATIA V5-Sketcher-Profile-Operation-
Constraints-Part modeling-Sketch based features-Transformation features-Boolean operations-Assembly.
25 Hrs (T5Hrs+ P20Hrs)
II
SURFACE DESIGNING: Wireframe & Surface design – Surfaces – Sweep - Multi section
surfaces - Trim operations - Generative shape design - Generative sheet metal design.
25 Hrs (T5Hrs+ P20Hrs)
III
DRAFTING: Drafting-Visual Realism-Digital mockup Kinematics.
10 Hrs (T 5Hrs + P 5 Hrs)
IV
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
V PROJECT: 15Hrs Total 100 Hrs
13
CertificateProgrammeinComputer Aided Design ‐ SOLIDWORKS.
Sector – QP Computer Aided Design ‐ SOLIDWORKS NSQF level 8/9 Stream All Branches Total number of hours and break up
100 Hrs. (T: 15 Hrs., P: 45 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
3D Modeling, Assembly, Surface designing, Sheet metal design
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry AutomotiveIndustry Aerospace Industry Entrepreneur /Self‐employed
* (T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities)
Course Outline Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
INTRODUCTION Theory + Practical 25 25 50
PART MODELING & ASSEMBLY
Theory + Practical 25 25 50
SHEET METAL & SURFACE MODELING
Theory + Practical 25 50 75
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 50 75 Total 300
14
CertificateProgrammeinComputer Aided Design ‐ SOLIDWORKS. Course Contents
Course Code
Course Title Theory/ Practical Computer Aided Design ‐ SOLIDWORKS
Unit No Modules
I INTRODUCTION: Introduction to Solidworks Graphical User Interface – Unit system – Sketcher - Sketch commands - Sketch entities - Sketch tools - Sketch settings – Blocks - Spline tools – Dimensions – Relations - Measure - 3D Sketching.
20Hrs (T5Hrs+ P15Hrs)
II
PART MODELING & ASSEMBLY: Part modeling - Extruded boss - Revolved boss - Sweep boss - Lofted boss - Extruded cut- Hole wizard - Revolve cut- Sweep cut-Lofted cut - Boundary cut – Fillet – Pattern – Rib – Draft – Shell - Introduction to Assembly - Bottom up approach - Top down approach - Inserting of components - Assembly constrains.
20Hrs (T5Hrs+ P15Hrs)
III
SHEET METAL & SURFACE MODELING: Sheet metal design – Sketching - Lofted bend - Jog feature - Forming tools - Swept flange – Pattern - Surface modeling – Extrude – Revolve – Sweep – Loft – Planar – Fillet – Offset - Fill-Extend – Trim – Untrim – Drafting - Simulation using SOLIDWORKS.
20Hrs (T 5 Hrs + P 15Hrs)
IV
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
V PROJECT: 15Hrs Total 100 Hrs
15
CertificateProgrammeinComputer Aided Design ‐ Geometric Dimension & Tolerancing
Sector – QP Computer Aided Design ‐ Geometric Dimension & Tolerancing
NSQF level 8/9 Stream Mechanical Engineering, Automobile Engineering, Manufacturing Engineering. Total number of hours and break up
100 Hrs. (T: 40 Hrs., P: 20 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Datum features,Geometric Tolerancing,Types of Tolerances
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry AutomotiveIndustry Entrepreneur /Self‐employed
* T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities
Course Outline Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
INTRODUCTION TO GD&T
Theory + Practical 25 25 50
GEOMETRIC TOLERANCING
Theory + Practical 50 50 100
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
16
CertificateProgrammeinComputer Aided Design ‐ Geometric Dimension & Tolerancing
Course Contents
Course Code
Course Title Theory/ Practical Computer Aided Design ‐ Geometric Dimension & Tolerancing
Unit No Modules
I INTRODUCTION TO GD&T:
Introduction toGeometric Dimension & Tolerancing -GD&T standards-Criteria for selecting Datum features-Feature control frame representation-Interpretation of drawings & dimensions
30 Hrs (T20Hrs+ P10Hrs)
II
GEOMETRIC TOLERANCING: Types of Tolerances- Form- Profile- Orientaion- Location-
Runout- Maximum Material Condition (MMC) – Least Material Condition (LMC)- Regardless of Feature size (RFS)
30 Hrs (T20Hrs+ P10Hrs)
III
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
IV PROJECT: 15Hrs Total 100 Hrs
17
CertificateProgrammeinComputerAided Manufacturing-CNC MILLING & TURNING
Sector – QP ComputerAided Manufacturing- ComputerAided Manufacturing-CNC MILLING & TURNING
NSQF level 8/9 Stream Mechanical Engineering, Automobile Engineering, Production Engineering,
Manufacturing Engineering. Total number of hours and break up
100 Hrs. (T: 40 Hrs., P: 20 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
CNC lathe,Computer Aided Part programming , CNC Milling
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry AutomotiveIndustry Manufacturing Industry Production Industry Entrepreneur /Self‐employed
* T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
CNC MACHINING Theory + Practical 25 50 75
CNC TURNING CENTRE
Theory + Practical 25 50 75
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
18
CertificateProgrammeinComputerAided Manufacturing-CNC MILLING & TURNING
Course Contents
Course Code
Course Title Theory/ Practical
ComputerAided Manufacturing-CNC MILLING & TURNING
Unit No Modules
I
CNC TURNING CENTRE : Introduction & CNC Process Overview - Introduction to CNC lathe
- Co- ordinate system of CNC lathe - Preparatory functions (G codes) -Miscellanies functions (M codes) - Manual part programming (linear and circular) - Tool nose radius compensation - Rough cutting cycle and finishing cycle - Pattern repeating cycle - Drilling cycle -Grooving cycle - Tread cutting cycle - Tapping cycle - Boring cycle Computer Aided Part programming
30 Hrs (T20Hrs+ P10Hrs)
II CNC MACHINING : Introduction & CNC Process Overview-Introduction to CNC machining
Centre - Co- ordinate system - Preparatory functions (G codes) - Miscellanies functions (M codes) - Manual part programming (linear and circular)-Cutter radius compensation - Tool length compensation - Canned cycle (drilling and boring) operations -Computer Aided Part programming - Selection of tools for CNC turning
30 Hrs (T20Hrs+ P10Hrs)
III
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
IV PROJECT : 15Hrs
Total
100 Hrs
19
CertificateProgrammeinComputerAided Manufacturing-3D PRINTING
Sector – QP Computer Aided Manufacturing ‐ 3D PRINTING
NSQF level 8/9 Stream All Branches Total number of hours and break up
100 Hrs. (T: 30 Hrs., P: 30 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Rapid Prototyping , 3D Modeling, Model slicing, 3D Printing
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry AutomotiveIndustry Medical Industry Entrepreneur /Self‐employed
* (T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities)
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
3D MODEL CREATION Theory + Practical 25 25 50
PART ORIENTATION & SLICING
Theory + Practical 25 25 50
3D-PRINTING Theory + Practical 25 25 50
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
20
CertificateProgrammeinComputerAided Manufacturing-3D PRINTING
Course Contents
Course Code
Course Title Theory/ Practical Computer Aided Manufacturing ‐ 3D PRINTING
Unit No Modules
I 3D MODEL CREATION:
Introduction to Rapid Prototyping / Additive Manufacturing-Solid model creation – Sketching – 3D Modeling- Assembly -Generative Design – Conversion of CAD model to STL format
20 Hrs (T10Hrs+ P10Hrs)
II
PART ORIENTATION & SLICING: Slicing Software - Part orientation – surface finish - support generation - Model slicing and tool path generation – Material selection – Types of 3D Printing materials
20 Hrs (T10Hrs+ P 10Hrs)
III
3D-PRINTING: Model Printing on RP machine - Post processing - Application of Additive Manufacturing in Automobile, Medical, Aeronautical etc.
20 Hrs (T10Hrs+P10 Hrs)
IV
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
V PROJECT: 15Hrs Total 100 Hrs
21
CertificateProgrammeinComputer Aided Manufacturing ‐ Bio Printing.
Sector – QP Computer Aided Manufacturing ‐ Bio Printing
NSQF level 8/9 Stream Medical Total number of hours and break up
100 Hrs. (T: 30 Hrs., P: 30 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Bio printing, Bio Printing materials, Model slicing
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Medical Industry Entrepreneur /Self‐employed
* (T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities)
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
INTRODUCTION TO BIO PRINTING
Theory + Practical 25 25 50
PART ORIENTATION & SLICING
Theory + Practical 25 25 50
PRINTING MEDICAL MODELS
Theory + Practical 25 25 50
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
22
CertificateProgrammeinComputer Aided Manufacturing ‐ Bio Printing.
Course Contents
Course Code
Course Title Theory/ Practical Computer Aided Manufacturing ‐ Bio Printing
Unit No Modules
I INTRODUCTION TO BIOPRINTING:
Introduction to Bio printing- 3D open source softwares -ConvertingfromDICOMfile / CT scans / MRI scanstoSTL format-Cleaningupandpreparingyour STL for 3D Printing- Bio Printing materials – Bio compactible material
20 Hrs (T10Hrs+ P10Hrs)
23
CertificateProgrammeinComputerAided Engineering-ANSYS.
Sector – QP ComputerAided Engineering-ANSYS. NSQF level 8/9 Stream Mechanical Engineering, Automobile Engineering, Aerospace Engineering,
Material science Engineering.
Total number of hours and break up
100 Hrs. (T: 20Hrs., P: 40 Hrs., H: 40 Hrs.)
II
PART ORIENTATION & SLICING: Slicing Software - Part orientation – surface finish - support
generation - Model slicing and tool path generation
20 Hrs (T10Hrs+ P10Hrs)
III
PRINTING MEDICAL MODELS: Model Printing on RP machine - Medical models - Post
processing – Case studies – Medical applications
20 Hrs (T10Hrs+ P10Hrs)
IV
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
V PROJECT: 15Hrs Total 100 Hrs
24
Occupational Standards
Expected Learning outcome
Skills focused
Modeling,Structural Analysis,Thermal Analysis, Steady state analysis, Transient Analysis
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry Automotive I ndustry Aerospace Industry Entrepreneur /Self‐employed
* (T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities)
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
ANSYS APDL Theory + Practical 25 50 75
ANSYS WORKBENCH Theory + Practical 25 50 75
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 100 100 Total 300
A
25
CertificateProgrammeinComputerAided Engineering-ANSYS.
Course Contents
Course Code
Course Title Theory/ Practical ComputerAided Engineering-ANSYS.
Unit No Modules
I
ANSYS APDL: Introduction to FEA & ANSYS Graphical User Interface - Basics & general analysis procedure – Modeling - Creating 1D and 2D model - Select entities and Component manager - Structural Analysis: Static – Modal – Harmonic - Transient analysis - Thermal Analysis: Steady state thermal analysis.
30 Hrs (T10Hrs+ P20Hrs)
II
ANSYS WORKBENCH: Introduction to FEA & ANSYS Graphical User Interface - Basics
& general analysis procedure – Modeling - Creating 1D-2D and 3D model - Engineering Data sheet – Meshing - Quad and Tetrahedron mesh – Volume mesh – Areas mesh - Line meshing- Free and mapped meshing – Mesh quality check - Structural Analysis – Static-Modal – Harmonic - Nonlinear & Transient analysis - Thermal Analysis - Steady state thermal and Transient thermal analysis.
30 Hrs (T10Hrs+ P20Hrs)
III
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
IV PROJECT: 15Hrs Total 100 Hrs
A
26
CertificateProgrammeinComputerAided Engineering-HyperMesh.
Sector – QP ComputerAided Engineering-HyperMesh.
NSQF level 8/9 Stream Mechanical Engineering, Automobile Engineering, Aerospace Engineering Total number of hours and break up
100 Hrs. (T: 20 Hrs, P: 40 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Modeling, Meshing
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry Automotive Industry Aerospace Industry Entrepreneur /Self‐employed
* (T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities)
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
MODELING Theory + Practical 25 25 50
MESHING Theory + Practical 25 75 100
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
27
CertificateProgrammeinComputerAided Engineering-HyperMesh.
Course Contents
Course Code
Course Title Theory/ Practical ComputerAided Engineering-HyperMesh.
Unit No Modules
I
MODELING: Introduction to Graphical User Interface-Importing and
Exporting geometry – Node –Node edit- Line modeling- Surface modeling- Solid modeling- Geometry cleanup – Masking – Geometry edit.
20 Hrs (T10Hrs+ P10Hrs)
II
MESHING: Organizing the model with collector - Extracting mid surfaces
and simplifying - Selecting the user Profiles - Project – Numbering-Normals - Interactive surface meshing – Case studies.
40 Hrs (T10Hrs+ P30Hrs)
III
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
IV PROJECT: 15Hrs Total 100 Hrs
28
CertificateProgrammeinComputerAided Engineering-ANSYS FLUENT
Sector – QP ComputerAided Engineering-ANSYS FLUENT
NSQF level 8/9 Stream Mechanical Engineering, Automobile Engineering, Aerospace Engineering. Total number of hours and break up
100 Hrs. (T: 15 Hrs., P: 45 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Modeling, Internal and External fluid flows
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry AutomotiveIndustry Aerospace Industry Entrepreneur /Self‐employed
T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
MODELING Theory + Practical 25 25 50
2D ANALYSIS Theory + Practical 25 25 50
3D ANALYSIS Theory + Practical 25 25 50
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
29
CertificateProgrammeinComputerAided Engineering-ANSYS FLUENT
Course Contents
Course Code
Course Title Theory/ Practical
ComputerAided Engineering-ANSYS FLUENT.
Unit No Modules
I
MODELING Introduction to Graphical User Interface - Introduction to
2D and 3D modeling using Design modeler- Modeling of 2D and 3D components using Space claim- Importing of CAD models- Introduction to Engineering data library.
10Hrs (T5Hrs+ P5Hrs)
II
2D ANALYSIS: Introduction to fluid flow over a 2D object - Combined
fluid flows - Varying cross section flow - Heat transfer flow - Laminar and Turbulent flows - Contraction and Expansion flows - Compressible and Incompressible flow.
25 Hrs (T5Hrs+ P20Hrs)
III
3D ANALYSIS: Introduction to fluid flow over a 3D object – Meshing -
Combined fluid flows - Varying cross section flow - Heat transfer flow - Laminar and Turbulent flows - Contraction and Expansion flows - Compressible and Incompressible flow – Case study’s.
25Hrs (T5Hrs+ P20Hrs)
IV
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
V PROJECT: 15 Hrs
Total 100 Hrs
30
CertificateProgrammeinComputer Aided Engineering ‐ ADAMS
Sector – QP Computer Aided Engineering ‐ ADAMS
NSQF level 8/9 Stream Mechanical Engineering, Automobile Engineering, Aerospace Engineering Total number of hours and break up
100 Hrs. (T: 20 Hrs., P: 40 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Kinetics & Kinematics Simulations
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry AutomotiveIndustry Aerospace Industry Entrepreneur /Self‐employed
* (T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities)
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
INTRODUCTION TO MULTI BODY DYNAMICS
Theory + Practical 50 50 100
APPLICATION USING ADAMS
Theory + Practical 25 25 50
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
31
CertificateProgrammeinComputer Aided Engineering ‐ ADAMS.
COURSE CONTENTS
Course Code
Course Title Theory/ Practical Computer Aided Engineering ‐ ADAMS
Unit No Modules
I INTRODUCTION TO MULTI BODY DYNAMICS:
Introduction to Multi Body Dynamics – Solid bodies – Links –Joints – Motions - Forward dynamics - Inverse dynamics – Kinetics -Kinematics
30 Hrs (T10Hrs+ P20Hrs)
II
APPLICATION USING ADAMS: Free fall of an object – Projectile motion - One Degree of
Freedom (DOF) Pendulum - Sliding friction simulation-Slider Crank mechanism - Cam and Follower simulation - Screw, constant velocity and coupler joints - Gears: simple, compound and epicyclic gears - Spring-Mass system - Vibration analysis - Four Bar mechanism
30 Hrs (T10Hrs+ P20Hrs)
III
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
IV PROJECT: 15Hrs Total 100 Hrs
32
CertificateProgrammeinComputerAided Engineering-ABAQUS.
Sector – QP ComputerAided Engineering- ABAQUS. NSQF level 8/9 Stream Mechanical Engineering, Automobile Engineering, Aerospace Engineering,
Material science Engineering.
Total number of hours and break up
100 Hrs. (T: 20Hrs., P: 40 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Modeling, Nonlinear & Transient analysis
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry Automotive I ndustry Aerospace Industry Entrepreneur /Self‐employed
* (T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities)
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
INTRODUCTION TO FEA
Theory + Practical 25 50 75
APPLICATION USING ABAQUS
Theory + Practical 25 50 75
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 100 100 Total 300
33
CertificateProgrammeinComputerAided Engineering-ABAQUS.
Course Contents
Course Code
Course Title Theory/ Practical ComputerAided Engineering-ABAQUS.
Unit No Modules
I
INTRODUCTION TO FEA: Introduction to FEA–1D Elements - 2D Element- 3D Element– Static and Dynamic Concept – Introduction to Non linearity – Material, Geometry & Contact Non linearity.
20 Hrs (T10Hrs+ P10Hrs)
II
APPLICATION USING ABAQUS: Introduction to ABAQUS Graphical User Interface - Basics &
general analysis procedure – Modeling - Creating 1D-2D and 3D model - Engineering Data sheet – Meshing - Quad and Tetrahedron mesh – Volume mesh – Areas mesh - Line meshing- Free and mapped meshing – Mesh quality check - Structural Analysis – Static- Modal – Harmonic - Nonlinear & Transient analysis - Thermal Analysis - Steady state thermal and Transient thermal analysis.
40 Hrs (T10Hrs+ P30Hrs)
III
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
IV PROJECT: 15Hrs Total 100 Hrs
34
CertificateProgrammeinINDUSTRY 4.0.
Sector – QP INDUSTRY 4.0
NSQF level 8/9 Stream Mechanical Engineering, Automobile Engineering, Manufacturing Engineering Total number of hours and break up
100 Hrs. (T: 45 Hrs., P: 15 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Digitalisation, Smart Manufacturing, Internet of Things, Robotic Automation
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry AutomotiveIndustry Entrepreneur /Self‐employed
* T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
INTRODUCTION TO INDUSTRY 4.0
Theory + Practical 25 25 50
ROAD TO INDUSTRY 4.0 Theory + Practical 25 25 50
TECHNOLOGIES FOR ENABLING INDUSTRY 4.0
Theory + Practical 25 25 50
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
35
CertificateProgrammeinINDUSTRY 4.0.
Course Content
Course Code
Course Title Theory/ Practical INDUSTRY 4.0
Unit No Modules
I INTRODUCTION TO INDUSTRY 4.0
The Various Industrial Revolutions - Digitalisation and the Networked Economy - Drivers, Enablers, Compelling Forces and Challenges for Industry 4.0 - The Journey so far: Developments in USA, Europe, China and other countries - Comparison of Industry 4.0 Factory and Today's Factory - Trends of Industrial Big Data and Predictive Analytics for Smart Business Transformation
20 Hrs (T15Hrs+ P5Hrs)
II
Road to Industry 4.0 Internet of Things (IoT) & Industrial Internet of Things (IIoT) &
Internet of Services - Smart Manufacturing - Smart Devices and Products - Smart Logistics - Smart Cities - Predictive Analytics
20 Hrs (T15Hrs+ P5 Hrs)
III
TECHNOLOGIES FOR ENABLING INDUSTRY 4.0 Cyberphysical Systems - Robotic Automation and Collaborative
Robots - Support System for Industry 4.0 - Mobile Computing - Related Disciplines - Cyber Security - 4 Cloud Computing Basics - Cloud Computing and Industry 4.0 - Case Studies
20 Hrs (T15Hrs+ P5Hrs)
IV
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
V PROJECT: 15Hrs Total 100 Hrs
36
CertificateProgrammeinINTERNET OF THINGS TECHNOLOGY.
Sector – QP INTERNET OF THINGS
NSQF level 8/9 Stream All Branches Total number of hours and break up
100 Hrs. (T: 45 Hrs., P: 15 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
IOT Enabling Technologies, IOT Architecture, IOT Protocols, IOT Algorithm
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry Information technology Industry Entrepreneur /Self‐employed
T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
INTRODUCTION TO IOT
Theory + Practical 25 25 50
IOT ARCHITECTURE
Theory + Practical 25 25 50
BUILDING IOT WITH RASPBERRY PI & ARDUINO
Theory + Practical 25 25 50
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
37
CertificateProgrammeinINTERNET OF THINGS TECHNOLOGY.
Course Contents
Course Code
Course Title Theory/ Practical INTERNET OF THINGS
Unit No Modules
I INTRODUCTION TO IOT :
Internet of Things - Physical Design- Logical Design- IOT Enabling Technologies - IOT Levels & Deployment Templates - Domain Specific IOTs - IOT and M2M - IOT System Management with NETCONF-YANG- IOT Platforms Design Methodology
20 Hrs (T15Hrs+ P5Hrs)
II
IOT ARCHITECTURE : M2M high-level ETSI architecture - IETF architecture for IOT -
OGC architecture - IOT referencemodel - Domain model - information model - functional model - communication model – IOT reference architecture- IOT PROTOCOLS - Protocol Standardization for IOT – Efforts – M2M and WSN Protocols – SCADA and RFID Protocols – Unified Data Standards – Protocols – IEEE 802.15.4 – BACNet Protocol – Modbus– Zigbee Architecture – Network layer – 6LowPAN - CoAP - Security
20 Hrs (T15Hrs+ P5Hrs)
III
BUILDING IOT WITH RASPBERRY PI & ARDUINO : Building IOT with RASPERRY PI- IOT Systems - Logical Design
using Python – IOT Physical Devices & Endpoints - IOT Device -Building blocks -Raspberry Pi -Board - Linux on Raspberry Pi - Raspberry Pi Interfaces -Programming Raspberry Pi with Python - Other IOT Platforms – Arduino - Case studies - Real world design constraints - Applications - Asset management, Industrial automation, smart grid, Commercial building automation, Smart cities - participatory sensing - Data Analytics for IOT – Software & Management Tools for IOT Cloud Storage Models & Communication APIs – Cloud for IOT - Amazon Web Services for IOT.
20 Hrs (T15 Hrs+ P5Hrs)
IV
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
V PROJECT: 15Hrs Total 100 Hrs
38
CertificateProgrammeinELECTRIC AND HYBRID VEHICLES.
Sector – QP ELECTRIC AND HYBRID VEHICLES
NSQF level 8/9 Stream Mechanical Engineering, Automobile Engineering, Electrical & Electronics
Engineering. Total number of hours and break up
100 Hrs. (T: 45 Hrs., P: 15 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Vehicle mechanics, Dynamics of vehicle motion, Transmission configuration, Electric components used in hybrid and electric vehicles
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
MechanicalIndustry AutomotiveIndustry Entrepreneur /Self‐employed
T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
INTRODUCTION TO HYBRID ELECTRIC VEHICLES
Theory + Practical 25 25 50
HYBRID ELECTRIC DRIVE-TRAINS
Theory + Practical 25 25 50
ELECTRIC PROPULSION & STORAGE
Theory + Practical 25 25 50
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
39
CertificateProgrammeinELECTRIC AND HYBRID VEHICLES.
Course Contents
Course Code
Course Title Theory/ Practical ELECTRIC AND HYBRID VEHICLES
Unit No Modules
I INTRODUCTION TO HYBRID ELECTRIC VEHICLES
Introduction –History of hybrid and electric vehicles - social and environmental importance of hybrid and electric vehicles- Components - vehicle mechanics – Roadway fundamentals - vehicle kinetics - Dynamics of vehicle motion
20 Hrs (T15Hrs+ P5Hrs)
II
HYBRID ELECTRIC DRIVE-TRAINS Transmission configuration - Components – gears, differential,
clutch, brakes regenerative braking - motor sizing -Types – series, parallel and series, parallel configuration – Design – Drive train, sizing of components.
20 Hrs (T15Hrs+ P5Hrs)
III
ELECTRIC PROPULSION & STORAGE Introduction to electric components used in hybrid and
electric vehicles - Motor and Engine rating – Requirements - DC machines - Three phase A/c machines - Induction machines - permanent magnet machines - switched reluctance machines-Basics – Types, Parameters – Capacity, Discharge rate, State of charge, state of Discharge, Depth of Discharge, Technical characteristics, Battery pack Design, Properties of Batteries.
20 Hrs (T15Hrs+ P5Hrs)
IV
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
V PROJECT: 15Hrs Total 100 Hrs
40
CertificateProgrammeinBLOCKCHAIN.
Sector – QP BLOCKCHAIN NSQF level 8/9 Stream Computer Science Engineering, Information Technology Engineering.
Total number of hours and break up
100 Hrs. (T: 45 Hrs., P: 15 Hrs., H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Distributed Ledger Technology, Components of blockchain, Crypto currency, Hyper ledger
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Information Technology Industry Entrepreneur /Self‐employed
* T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
INTRODUCTION TO BLOCKCHAIN
Theory + Practical 25 25 50
INTRODUCTION TO BITCOIN
Theory + Practical 25 25 50
INTRODUCTION TO HYPERLEDGER FABRIC
Theory + Practical 25 25 50
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
41
CertificateProgrammeinBLOCKCHAIN.
Course ContentS
Course Code
Course Title Theory/ Practical BLOCKCHAIN
Unit No Modules
I INTRODUCTION TO BLOCKCHAIN
Digital Trust – Asset – Transactions - Distributed Ledger Technology - Types of network - Components of blockchain or DLT- Ledger - PKI and Cryptography – Consensus – Security – Crypto currency - Digital Token - How Blockchain Works - Structure of Blockchain – Block – Hash – Blockchain – Distributed - Lifecycle of Blockchain
20 Hrs (T15Hrs+ P5Hrs)
II
INTRODUCTION TO BITCOIN Currency - Double Spending – Crypto currency - P2P Payment
Gateway – Wallet – Mining -Ethereum network – EVM - Transaction fee – Mist - Ether, gas - Solidity - Smart contracts- Truffle - Web3 -Design and issue Crypto currency – Mining – Dapps - .
20 Hrs (T15Hrs+ P5Hrs)
III
INTRODUCTION TO HYPERLEDGER FABRIC Introduction to Hyper ledger - Getting started with fabric
model – Chain code - Architecture of Hyper ledger Fabric – Bootstrapping - Introduction to Hyper ledger Explorer - Introduction to Hyper ledger Composer - Hyper ledger Composer Playground
20 Hrs (T15Hrs+ P5Hrs)
IV
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
V PROJECT: 15Hrs Total 100 Hrs
42
CertificateProgrammeinARTIFICIAL INTELLIGENCE & MACHINE LEARNING.
Sector – QP ARTIFICIAL INTELLIGENCE & MACHINE LEARNING NSQF level 8/9 Stream Computer Science Engineering, Information Technology Engineering.
Total number of hours and break up
100 Hrs. (T: 45 Hrs, P: 15 Hrs, H: 40 Hrs.)
Occupational Standards
Expected Learning outcome
Skills focused
Artificial Intelligence, Machine LearningTechniques, Principles of Big Data
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Information Technology Industry Entrepreneur /Self‐employed
* (T=Theory,P=Practical,H=handsontraining/Aptitude/Projectwork/task‐orientedactivities)
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
INTRODUCTION TO ARTIFICIAL INTELLIGENCE & MACHINE LEARNING
Theory + Practical 25 25 50
FOUNDATIONS FOR MACHINE LEARNING
Theory + Practical 25 25 50
FOUNDATIONS FOR ARTIFICIAL INTELLIGENCE
Theory + Practical 25 25 50
SOFT SKILLS Aptitude+task‐orientedactivities
25 25 50
PROJECT Project work 25 75 100 Total 300
43
CertificateProgrammeinARTIFICIAL INTELLIGENCE & MACHINE LEARNING.
Course Contents
Course Code
Course Title Theory/ Practical ARTIFICIAL INTELLIGENCE & MACHINE LEARNING
Unit No Modules
I INTRODUCTION TO ARTIFICIAL INTELLIGENCE & MACHINE LEARNING
Introduction to Artificial Intelligence & Machine Learning- Statistical Analysis - Data Acquisition - Data Pre-processing and Preparation - Data Quality and Transformation - Principles of Big Data - Data Visualization.
20 Hrs (T15Hrs+ P5 Hrs)
II
FOUNDATIONS FOR MACHINE LEARNING Machine Learning Techniques overview - Validation
Techniques – Clustering - Classification Naïve Bayes Classifier - Association Rule mining.
20 Hrs (T15 Hrs+ P5 Hrs)
III
FOUNDATIONS FOR ARTIFICIAL INTELLIGENCE Artificial Intelligence -Application areas - AI Basics -
Convolution Neural Networks - Recurrent Neural Networks - Deep Learning - Case Study.
20 Hrs (T15 Hrs+ P5Hrs)
IV
SOFTSKILLS: Communicationskill–Resumebuildingskill–Groupdiscussionskill–Interviewskill.
H25Hrs
V PROJECT: 15Hrs Total 100 Hrs
44
Details of Skill
Development Programme offered by
Siemens Centre of Excellence (SCoE)
45
Department of Higher Education Rashtriya Uchchatar Shiksha Abhiyan
(RUSA) State Project Directorate DOTE Campus, Guindy, Chennai
Government of Tamilnadu.
Skill Development Camp in Government Colleges under RUSA Entrepreneur Hubs
COURSE CONTENT
SIEMENS CENTRE OF EXCELLENCE, SCOE, MIT CAMPUS, ANNA
UNIVERSITY, CHROMEPET,
CHENNAI – 600044, TAMILNADU
46
Department of Higher Education Rashtriya Uchchatar Shiksha Abhiyan (RUSA)
State Project Directorate DOTE Campus, Guindy, Chennai
Government of Tamilnadu.
SIEMENS CENTRE OF EXCELLENCE, SCOE, MIT CAMPUS, ANNA UNIVERSITY,
CHROMEPET, CHENNAI – 600044, TAMILNADU
Skill Development Camp in Government Colleges under RUSA Entrepreneur
Hubs
Table of Contents:
S.No Stream Sector Name of the Skill Programme Page No
1. Mechanical Computer Aided Design
Computer Aided Product Design & Employability Enhancement. 3-4
2. Mechanical Computer Aided Engineering
Computer Aided Product Engineering& Employability Enhancement. 5-6
3. Mechanical Computer Aided Engineering
Numerical Testing and Optimization of Vibration in Engineering Applications & Employability Enhancement.
7-8
4. Mechanical Computer Aided Manufacturing
Computer Aided Turning & Employability Enhancement. 9-10
5. Mechanical
Computer Aided Manufacturing
Computer Aided Milling & Employability Enhancement. 11-12
6. Mechanical Automobile Engineering
Automotive Body Repair, Painting and Overhauling of Chassis System & Employability Enhancement.
13-14
7. Electrical Motors and Switch Gear
Induction Motors, Low Voltage Switch Gears & Employability Enhancement. 15-17
8. Electrical Automation Fundamentals of PLC, Advancement in Industrial Automation & Employability Enhancement.
18-20
9. Electrical, Mechanical
Motors and Vertical Transportation
Basics of Induction Motors and Lift Installation and Maintenance&Employability Enhancement.
21-22
10. Information Technology Computer Science Basics of Industrial Robotics, IoT, Cloud
Computing & Employability Enhancement. 23-25
47
Certificate Programme in Computer Aided Product Design & Employability Enhancement.
Sector – QP Computer Aided Design - Computer Aided Product Design & Employability Enhancement.
NSQF level 10 Stream Mechanical Engineering Total number of hours and break up
100 Hrs. (T: 32Hrs., P: 32Hrs., H: 36Hrs.) *
Occupational Standards
Expected Learning outcome
Skills focused
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Mechanical industry Automotive industry Entrepreneur / Self-employed
* T = Theory, P=Practical, H=hands on training / Aptitude / Project work / task-oriented activities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
Essentials for NX Designers
Theory + Practical 50 50 100
Synchronous Modelling and Parametric Design
Theory + Practical 25 25 50
Soft skills Aptitude + task-oriented activities
25 25 50
Project Project work 25 75 100 Total 300
48
Certificate Programme in Computer Aided Product Design & Employability Enhancement.
Course Contents
Course Code
Course Title Theory / Practical
Computer Aided Product Design& Employability Enhancement. Unit No Modules T (Hrs.)
I
Essentials for Designers: Introduction to cad - Opening and closing parts and activity - User interface and working with interface and activity - Impact of datum coordinate systems - Sketching methods - Sketching constraints and activity - Sketch curve functions and activities - Sketching Exercises - Sweeping geometry and activity - Concept of layers - Creating expressions for dimensions and activity - Creating datum geometry (planes) and activity - Examining structure of model - Editing and manipulating sketches - Trimming a solid body - Swept features offset and draft - Creating and editing holes and activity - Manipulating shell features and activity - Creating pattern and mirrors in bodies - Blending and chamfering - Measuring Techniques and Synchronous modelling - Loading assemblies - Working with assemblies - Simple drawings.
40 Hrs (T 20 Hrs + P 20 Hrs)
II
Synchronous Modelling and Parametric Design: Documenting design intent - Editing parametric models - Associative curve operations - Emboss geometry - Blending techniques – Inter-part references - Capturing part shape variations when assembled - Design optimization - Introduction to Synchronous Modelling and Modify Face - Detail Feature, Delete Face, Reuse commands - Synchronous Modelling relationships, Dimension commands - Adaptive Shell, Edit Cross Section and Edit Section, Optimize Face.
24 Hrs (T 12 Hrs + P 12 Hrs)
III Soft skills: Communication skill – Resume building skill – Group discussion skill – Interview skill.
H 16 Hrs
Project: H 20 Hrs Total 100 Hrs
49
Certificate Programme in Computer Aided Product Engineering & Employability Enhancement.
Sector – QP Computer Aided Engineering - Computer Aided Product Engineering & Employability Enhancement.
NSQF level 10 Stream Mechanical Engineering Total number of hours and break up
100 Hrs. (T: 32Hrs., P: 32Hrs., H: 36Hrs.) *
Occupational Standards
Expected Learning outcome
Skills focused
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Mechanical industry Automotive industry Entrepreneur / Self-employed
* T = Theory, P=Practical, H=hands on training / Aptitude / Project work / task-oriented activities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
Essentials for NX Designers
Theory + Practical 50 50 100
Motion Simulation Theory + Practical 25 25 50 Soft skills Aptitude + task-
oriented activities 25 25 50
Project Project work 25 75 100 Total 300
50
Certificate Programme in Computer Aided Product Engineering & Employability Enhancement.
Course Contents
Course Code
Course Title Theory / Practical
Computer Aided Product Engineering & Employability Enhancement.
Unit No Modules T (Hrs.)
I
Essentials for Designers: Introduction to cad - Opening and closing parts and activity - User interface and working with interface and activity - Impact of datum coordinate systems - Sketching methods - Sketching constraints and activity - Sketch curve functions and activities - Sketching Exercises - Sweeping geometry and activity - Concept of layers - Creating expressions for dimensions and activity - Creating datum geometry (planes) and activity - Examining structure of model - Editing and manipulating sketches - Trimming a solid body - Swept features offset and draft - Creating and editing holes and activity - Manipulating shell features and activity - Creating pattern and mirrors in bodies - Blending and chamfering - Measuring Techniques and Synchronous modelling - Loading assemblies - Working with assemblies - Simple drawings.
40 Hrs (T 20 Hrs + P 20 Hrs)
II
Motion Simulation: Introduction to motion simulation – Workflow – Links – Joints - Specialised couplers and constraints - Motion drivers - Working with results - Working with assemblies - Springs and dampers - Forces and torque - Markers, smart points and sensors – 2D contact – 3D contact - Joint friction – Bushings - Load transfer - Flexible body analysis - PMDC electric motors.
24 Hrs (T 12 Hrs + P 12 Hrs)
III Soft skills: Communication skill – Resume building skill – Group discussion skill – Interview skill.
H 16 Hrs
Project: H 20 Hrs Total 100 Hrs
51
Certificate Programme in Numerical Testing and Optimization of Vibration in Engineering Applications & Employability Enhancement.
Sector – QP Computer Aided Engineering - Numerical Testing and Optimization of Vibration in Engineering Applications & Employability Enhancement.
NSQF level 10 Stream Mechanical Engineering Total number of hours and break up
100 Hrs. (T: 32Hrs., P: 32Hrs., H: 36Hrs.) *
Occupational Standards
Expected Learning outcome
Skills focused
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Mechanical industry Automotive industry Entrepreneur / Self-employed
* T = Theory, P=Practical, H=hands on training / Aptitude / Project work / task-oriented activities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
LMS Test Lab - Vibration Testing Analysis
Theory + Practical 50 25 75
LMS TestLab-Modal Testing and Analysis
Theory + Practical 50 25 75
Soft skills Aptitude + task-oriented activities
25 25 50
Project Project work 25 75 100 Total 300
52
Certificate Programme in Numerical Testing and Optimization of Vibration in Engineering Applications & Employability Enhancement.
Course Contents
Course Code
Course Title Theory / Practical
Numerical Testing and Optimization of Vibration in Engineering Applications & Employability Enhancement.
Unit No Modules T (Hrs.)
I
LMS Test lab - Vibration Testing Analysis: Introduction to Signature Testing - Typical measurement setup – Instrumentation - Digital Signal Processing – Measurement - Signature Throughput Processing – Reporting - Torsional Vibration - Measuring Torsional Vibrations.
32 Hrs (T 20 Hrs + P 20 Hrs)
II
LMS Test Lab-Modal Testing and Analysis: Introduction - Structural Testing - Impact acquisition - Spectral acquisition - Modal Analysis – Multi Run Modal Analysis - Operational Modal Analysis - Operational Deflection Shapes - Modification Prediction - Rigid Body Modes -Documentation of Project.
32 Hrs (T 12 Hrs + P 12 Hrs)
III Soft skills: Communication skill – Resume building skill – Group discussion skill – Interview skill.
H 16 Hrs
Project: H 20 Hrs Total 100 Hrs
53
Certificate Programme in Computer Aided Turning& Employability Enhancement.
Sector – QP Computer Aided Manufacturing - Computer Aided Turning& Employability Enhancement.
NSQF level 10 Stream Mechanical Engineering Total number of hours and break up
100 Hrs. (T: 32Hrs., P: 32Hrs., H: 36Hrs.) *
Occupational Standards
Expected Learning outcome
Skills focused
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Mechanical industry Automotive industry Entrepreneur / Self-employed
* T = Theory, P=Practical, H=hands on training / Aptitude / Project work / task-oriented activities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
TURNING -Numerical control programming
Theory + Practical 50 25 75
CNC TURNING- Operation and Machining
Theory + Practical 50 25 75
Soft skills Aptitude + task-oriented activities
25 25 50
Project Project work 25 75 100 Total 300
54
Certificate Programme in Computer Aided Turning & Employability Enhancement.
Course Contents
Course Code
Course Title Theory / Practical
Computer Aided Turning & Employability Enhancement. Unit No Modules T (Hrs.)
I
TURNING -Numerical control programming: Manufacturing History & types - Introduction to Conventional Lathe - Elements of CNC TURNING Machine - ISO Machine Tool Definition - Axis Nomenclature - Controller Pattern - Key Function - Create a Program - Create Tools - Part programming structure - G codes - M codes - Different letters in CNC programming - Tool Selection - Manual Programming - Stock Removal - Step Turning – Grooving - Cutting off – Boring – Threading – Contouring - Sub Program.
32 Hrs (T 16 Hrs + P 16 Hrs)
II
CNC TURNING- Operation and Machining: Machine Structure - Elements Of Turning Machine - Controller Pattern - Key Function - Create a Program - Create Tools - Reference Mode - Jog Mode - Handwheel Mode - MDA Mode - Auto Mode - Single Block Mode – Rapid Types of cutting Tools - Key Code for Cutting Tools - Cutting Tool Material - Tool Parameters – Facing – Turning - Taper turning – Drilling – Boring - Profile Turning – Grooving – Threading – Knurling - Facing Programming - Step Turning Programming - Chamfer Programming - Radius Programming - Sub Programming - X Axis Offset - Z Axis Offset - Machining Operation – Inspection - Wear Offset - Insert Change Process – Facing – Turning - Taper turning – Drilling – Boring - Profile Turning – Threading - Types of Maintenance - Safety Check On CNC Machine - General Safety On CNC Machine.
32 Hrs (T 16 Hrs + P 16 Hrs)
III Soft skills: Communication skill – Resume building skill – Group discussion skill – Interview skill.
H 16 Hrs
Project: H 20 Hrs Total 100 Hrs
55
Certificate Programme in Computer Aided Milling & Employability Enhancement.
Sector – QP Computer Aided Manufacturing - Computer Aided Milling & Employability Enhancement.
NSQF level 10 Stream Mechanical Engineering Total number of hours and break up
100 Hrs. (T: 32Hrs., P: 32Hrs., H: 36Hrs.) *
Occupational Standards
Expected Learning outcome
Skills focused
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Mechanical industry Automotive industry Entrepreneur / Self-employed
* T = Theory, P=Practical, H=hands on training / Aptitude / Project work / task-oriented activities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
MILLING -Numerical control programming
Theory + Practical 50 25 75
CNC MILLING- Operation and Machining
Theory + Practical 50 25 75
Soft skills Aptitude + task-oriented activities
25 25 50
Project Project work 25 75 100 Total 300
56
Certificate Programme in Computer Aided Milling& Employability Enhancement.
Course Contents
Course Code
Course Title Theory / Practical
Computer Aided Milling& Employability Enhancement. Unit No Modules
I
MILLING -Numerical control programming: Manufacturing History & types - Introduction To Conventional Lathe - Elements Of CNC MILLING Machine - ISO Machine Tool Definition - Axis Nomenclature - Controller Pattern - Key Function - Create a Program - Create Tools - Part programming structure - G codes - M codes - Different letters in CNC programming - Tool Selection - Manual Programming - Face Milling - Contour Milling - Rectangular Spigot - Circular Spigot - Rectangular Pocket - Circular Pocket - Elongated Hole - Circumferential Slot - Thread Milling -Sub Program.
32 Hrs (T 16 Hrs + P 16 Hrs)
II
CNC MILLING- Operation and Machining: Machine Structure - Elements OF Milling Machine - Controller Pattern - Key Function - Create a Program - Create Tools - Reference Mode - Jog Mode - Handwheel Mode - MDA Mode - Auto Mode - Single Block Mode – Rapid Types of cutting Tools - Key Code for Cutting Tools - Cutting Tool Material - Tool Parameters - Face Milling - End Milling - Cavity Milling - Slot Milling - Thread Milling - Cutting Off - Plunge Milling – Drilling – Reaming - Facing Programming - Profile Programming – Drilling Programming - Tapping Programming - Sub Programming - X Axis Offset - Y Axis Offset - Z Axis Offset - Machining Operation – Inspection - Wear Offset - Insert Change Process - Face Milling – Drilling Cycles - Multi Position Drilling - Pocket Milling - Spigot Milling - Slot Milling - Contour Cycles - Types of Maintenance - Safety Check On CNC Machine - General Safety On CNC Machine.
32 Hrs (T 16 Hrs + P 16 Hrs)
III Soft skills: Communication skill – Resume building skill – Group discussion skill – Interview skill.
H 16 Hrs
Project: H 20 Hrs Total 100 Hrs
57
Certificate Programme in Automotive Body Repair, Painting and Overhauling of Chassis System & Employability Enhancement.
Sector – QP Automobile Engineering - Automotive Body Repair, Painting and Overhauling of Chassis System & Employability Enhancement.
NSQF level 10 Stream Mechanical Engineering Total number of hours and break up
100 Hrs. (T: 32Hrs., P: 32Hrs., H: 36Hrs.) *
Occupational Standards
Expected Learning outcome
Skills focused
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Automotive industry Entrepreneur / Self-employed
* T = Theory, P=Practical, H=hands on training / Aptitude / Project work / task-oriented activities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
Auto Body Repair, Denting and Painting.
Theory + Practical 50 25 75
Repair and Overhauling of Chassis System (Passenger Cars).
Theory + Practical 50 25 75
Soft skills Aptitude + task-oriented activities
25 25 50
Project Project work 25 75 100 Total 300
58
Certificate Programme in Automotive Body Repair, Painting and Overhauling of Chassis System & Employability Enhancement.
Course Contents
Course Code
Course Title Theory / Practical
Automotive Body Repair, Painting and Overhauling of Chassis System & Employability Enhancement.
Unit No Modules
I
Auto Body Repair, Denting and Painting: Introduction: Measuring Instruments – Tools – Equipment - Personal Protective Equipment. Automotive Body Components: Classification of Vehicle Body - Damage Identification - Repairing Body Components: Introduction - Dent Removing - Paint Stripping - Carbon Shrinking - Feather Edging – De-greasing. Applying Body Filler: Introduction - Importance of Body Filler - Mixing Process Body Filler and Hardener – Sanding: Introduction - Type of Sanding - Grit Paper types and finishes - Applying Guide Coat. Applying Primer: Introduction - Importance of Primer - Mixing Primer - Process of spraying Primer - Sanding Primer - Applying Guide Coat. Applying Paint: Introduction - Categories of Base Coat Paint Mixing according to the category - Applying Base Coat - Paint Mixing - Clear Coat - Applying Clear Coat - Polishing and Buffing.
34 Hrs (T 17 Hrs + P 17 Hrs)
II
Repair and Overhauling of Chassis System (Passenger Cars): Introduction: Measuring Instruments – Tools – Equipment - Personal Protective Equipment -Vehicle Safety Accessories. Automotive Body Construction: Introduction - Automotive Body Construction. Chassis Cutting Equipment: Air Saw - Plasma Cutter - Pneumatic Chisel - Spot weld Drill - Belt Sander. Type of Welding: MIG Welding - MAG Welding - Spot Welding. Chassis Repair Process: Removing Parts to Access Centre Pillar - Measuring Damaged Area of Chassis - Chassis Cutting - Installation of Centre Pillar SOP – Welding – Grinding - Body Panel Gap - Refitting Parts to Access Centre Pillar. Windshield Glass Replacement: Removal of Parts to Remove Windshield Glass SOP - Removal Process of Windshield Glass - Installation Process of Windshield Glass -Cleaning and Measuring Process - Installation Process of Windshield Glass -Water Leakage Test - Fitting Parts after Replacing Windshield Glass SOP.
30 Hrs (T 15 Hrs + P 15 Hrs)
III Soft skills: Communication skill – Resume building skill – Group discussion skill – Interview skill.
H 16 Hrs
Project: H 20 Hrs Total 100 Hrs
59
Certificate Programme in Basics of Induction Motors, Low Voltage Switch Gears& Employability Enhancement.
Sector – QP Motors and Switch Gear –Basics of Induction Motors and Low Voltage Switch Gears & Employability Enhancement.
NSQF level 10 Stream Electrical Engineering. Total number of hours and break up
100 Hrs. (T: 32Hrs., P: 32Hrs., H: 36Hrs.) *
Occupational Standards
Expected Learning outcome
Skills focused
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Power plants, Sugar plants, cement plants Electrical based Core Industries Entrepreneur/Self-Employed
* T = Theory, P=Practical, H=hands on training / Aptitude / Project work / task-oriented activities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
Basics of Induction Motor and its Characteristics
Theory + Practical 25 25 50
Design of Electrical Systems using LVSG
Theory + Practical 50 50 100
Soft skills Aptitude + task-oriented activities
25 25 50
Project Project work 25 75 100 Total 300
60
Certificate Programme in Basics of Induction Motors, Low Voltage Switch Gears& Employability Enhancement.
Course Contents
Course Code
Course Title
Basics of Induction Motors, Low Voltage Switch Gears& Employability Enhancement.
Unit No Modules Theory / Practical
I
Basics of Induction Motor and its Characteristics Basic Concepts-Different types of Motor-Parts of Induction Motor-Construction details-Motor terminology-Concept of frame size-Mounting Instructions-Insulation Class & Temperature rise inside the Motor-Effect of 3-Phase Current passing through a Stator- Concept of Rotating Magnetic Field-Effect of RMF on closed conductor- Speed of rotation of Rotor-Concept of Slip-Energy transfer in Motor- 3-Phase Squirrel Cage Induction Motor-Advantages of Energy Efficient Motor-Motor Control-Starter-Product Spectrum-Siemens Motor-Induction Motor Characteristics and Malfunction- Speed Torque Characteristics-Failure of Electric Motor-Causes-Action- Motor maintenance- Procedures-Causes of Errors- Standards and Name Plate- Duty class of Induction Motor-National & International Standards of IM-Name Plate Reading- Simocode- Introduction-Components-Functions-Configuration-Cost Comparison. Simocode -Hands on Practices on Different Applications.
24 Hrs (T 12 Hrs + P 12 Hrs)
II
Design of Electrical Systems using LVSG Contactor and Relays-Introduction of contactor-Contactor characteristics-Design-Types of contactor-Applications of contactor-Maintenance of contactor-Siemens series contactors and Range-Concepts, features-Benefits of sirus series contactors-MLFB structure of sirus series contactors-Overload Relay- Relay characteristics and Design- Relay types of overload relay-maintenance of overload relay-Siemens series overload relays and its range-concepts, features and benefits of sirus series overload relays-General Purpose relays-Characteristics, Types, Requirements and Applications Circuit Breakers and Soft Starters-Motor Protection Circuit Breaker-Concept of MPCB-Characteristics and Design-Types, Applications, Requirements of MPCB-Siemens Series MPCB and its Range- concepts, features and benefits of Siemens MPCB-Miniature Circuit
40 Hrs (T 20 Hrs + P 20 Hrs)
61
Breaker-Concepts and Characteristics of MCB-Types, Applications, Requirements of MCB-Siemens series MCB and its range-Concepts, features and benefits of siemens MCB, MLFB Structure of siemens MCB-Residual Current Circuit Breaker- Concept, Characteristics and Design of RCCB-Types, Applications, Requirements of RCCB-Siemens Series RCCB and its Range- concepts, features and benefits of Siemens RCCB-Soft Starter-Concepts and Characteristics of soft starter-Types, Applications, Requirements of soft starter-Siemens series starter and its range-Concepts, features and benefits of siemens starter Fuse and Pac Meter-Concepts and Characteristics of Fuse-Types, Applications, Requirements of Fuse-Siemens series Fuse and its range-Concepts, features and benefits of Siemens Fuse-PAC Meter- Concepts and Characteristics of PAC Meter -Types, Applications, Requirements of PAC Meter -Siemens series Fuse PAC Meter and its range-Concepts, features and benefits of Siemens PAC Meter
III Soft skills: Communication skill – Resume building skill – Group discussion skill – Interview skill.
H 16 Hrs
Project: H 20 Hrs Total 100 Hrs
62
Certificate Programme in Fundamentals of PLC, Advancement in Industrial Automation & Employability Enhancement.
Sector – QP Automation - Fundamentals of PLC, Advancement in Industrial Automation & Employability Enhancement.
NSQF level 10 Stream Electrical Engineering. Total number of hours and break up
100 Hrs. (T: 32Hrs., P: 32Hrs., H: 36Hrs.) *
Occupational Standards
Expected Learning outcome
Skills focused
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Power plants, Sugar plants, cement plants Electrical based Core Industries Automation Industries Entrepreneur/Self-Employed
* T = Theory, P=Practical, H=hands on training / Aptitude / Project work / task-oriented activities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
Basic Principles of PLC Systems, Functions, and Programming
Theory + Practical 50 50 100
Advancement in Industrial Automation
Theory + Practical 25 25 50
Soft skills Aptitude + task-oriented activities
25 25 50
Project Project work 25 75 100 Total 300
63
Certificate Programme in Fundamentals of PLC, Advancement in Industrial Automation & Employability Enhancement.
Course Contents
Course Code
Course Title
Fundamentals of PLC, Advancement in Industrial Automation& Employability Enhancement.
Unit No Modules Theory / Practical
I
Basic Principles of PLC Systems: Automation Overview, system overview: Types of Automation, Advantages and Disadvantages of Automation, Control Strategies, Types of Control, Components of Automation, PLC Introduction, Difference between PLC and PC, Advantages and Disadvantages of PLC, SIMATIC S7 Overview, Positioning of the Modular S7 Controllers, SIMATIC S7-1200: The Modular Mini-PLC, SIMATIC S7-1500: Modular Controller for the Mid to Upper, Performance Range, SIMATIC S7-1200/1500: Technology Functions, SIMATIC S7-1200/1500: Memory Card(s), Distributed I/O Systems,-Digital Fundamentals: Bit Byte Word Concepts, Different Logic gates Engineering Software TIA Portal: TIA Portal - Central Engineering Framework, STEP 7 Range of Products, WinCC Range of Products, Start drive Range of Products and Licensing, Operating Systems for PC/PGs, Parallel Installation Side-by-Side, TIA Portal: Portal View and Project View, Libraries, Help Functions-Devices & Networks:Creating a Hardware Station ,Downloading the Actual Configuration into the Project, Inserting an Unspecified CPU Compiling the Hardware Configuration and Downloading it into the CPU-PLC Tags: Global and Local Tags -- HMI Access to PLC Tags. Program Blocks and Program Editor System Description: The Conveyor Model as Transport Conveyor-Types of Program Blocks-Structured Programming-Block Properties: Programming Language, Time Stamps- IEC Check-- Know-how Protection-Other Block Attributes, Editor Settings, Networks-Block Programming-Closing / Saving / Rejecting a Block-Block Calls-Compiling a Block-Downloading Blocks into the CPU-"Upload" Blocks "from Device" -Binary Operations- Binary Logic Operations: Digital Operations: Acquiring, Processing and Outputting Data - Data Type- Display Formats-Counters: CTU, CTD, CTUD-Counter / Timer Instance Data Blocks-Counter Function: Pulse Diagram-Basic Mathematical Functions: Addition- Comparison Operations-Value Assignment of a Variable-Digital Logic Operations-Comparator Operations:Data Blocks and their Usage-Functions and Function Blocks : Management of the Local Data Stack-The Use of Local, Temporary Variables-Parameter-
50 Hrs (T 25 Hrs + P 25 Hrs)
64
assignable Blocks:-Organization Blocks-Types of Program Blocks- Hands on Practices-Connecting an HMI Device-Configuration and Troubleshooting of PLC systems.
II
Advancement in Industrial Automation: Other Programming Types of PLC: Instruction List-Structured Text-Sequential Function Chart. Safety PLC-Process Control Station. SCADA-Familiarization of SCADA-Supervised control and Data Acquisition. DCS-Architecture-Industrial Standard Bus-Operator Station-Engineering Station-Remote Terminal Unit.
14 Hrs (T 7 Hrs + P 7 Hrs)
III Soft skills: Communication skill – Resume building skill – Group discussion skill – Interview skill.
H 16 Hrs
Project: H 20 Hrs Total 100 Hrs
65
Certificate Programme in Basics of Induction Motors and Lift Installation and Maintenance & Employability Enhancement.
Sector – QP Motors and Vertical Transportation - Basics of Induction Motors and Lift Installation and Maintenance & Employability Enhancement.
NSQF level 10 Stream Electrical Engineering, Mechanical Engineering Total number of hours and break up
100 Hrs. (T: 32Hrs., P: 32Hrs., H: 36Hrs.) *
Occupational Standards
Expected Learning outcome
Skills focused
Course approved by
To be approved by the Anna University, Chennai.
Placement areas
Electrical Industry Mechanical Industry
* T = Theory, P=Practical, H=hands on training / Aptitude / Project work / task-oriented activities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
Basics of Induction Motors.
Theory + Practical 25 25 50
Lift Installation & Maintenance
Theory + Practical 50 50 100
Soft skills Aptitude + task-oriented activities
25 25 50
Project Project work 25 75 100 Total 300
66
Certificate Programme in Basics of Induction Motors and Lift Installation and Maintenance & Employability Enhancement.
Course Contents
Course Code
Course Title
Basics of Induction Motors and Lift Installation and Maintenance & Employability Enhancement.
Unit No Modules Theory / Practical
I
Basics of Induction Motors: Basic Concepts-Different types of Motor-Parts of Induction Motor-Construction details-Motor terminology-Concept of frame size-Mounting Instructions-Insulation Class & Temperature rise inside the Motor-Effect of 3-Phase Current passing through a Stator- Concept of Rotating Magnetic Field-Effect of RMF on closed conductor- Speed of rotation of Rotor-Concept of Slip-Energy transfer in Motor- 3-Phase Squirrel Cage Induction Motor-Advantages of Energy Efficient Motor-Motor Control-Starter-Product Spectrum-Siemens Motor-Induction Motor Characteristics and Malfunction- Speed Torque Characteristics-Failure of Electric Motor-Causes-Action- Motor maintenance- Procedures-Causes of Errors- Standards and Name Plate- Duty class of Induction Motor-National & International Standards of IM-Name Plate Reading- Simocode- Introduction-Components-Functions-Configuration-Cost Comparison. Simocode -Hands on Practices on Different Applications.
24 Hrs (T 12 Hrs + P 12 Hrs)
II
Lift Installation & Maintenance: Elevator Safety: Safety Precautions - Safe Access to The Elevator Shaft – PPE. Measuring Instruments: Open End Spanner - Screw Driver - Double Face Hammer - Rotary Hammer - Electric Drill - Ratchet Set - Spirit Level - Guide Rail Alignment Gauge - Wire Stripper. Introduction to Elevator: Introduction to Elevator and Uses - Types of Elevator – Components: Machine Room - Car Assembly – Pit - Working of Elevator - Types of Roping. Preventive Maintenance: Door Misalignment - Abnormal Running of Car - Machine Room – Pit.
40 Hrs (T 20 Hrs + P 20 Hrs)
III Soft skills: Communication skill – Resume building skill – Group discussion skill – Interview skill.
H 16 Hrs
Project: H 20 Hrs Total 100 Hrs
67
Certificate Programme in Basics of Industrial Robotics, IoT, Cloud Computing & Employability Enhancement.
Sector – QP Computer Science- Certificate Programme in Basics of Industrial Robotics, IoT, Cloud Computing & Employability Enhancement.
NSQF level 10 Stream Information Technology Total number of hours and break up
100 Hrs. (T: 32Hrs., P: 32Hrs., H: 36Hrs.) *
Occupational Standards
Expected Learning outcome
Skills focused Course approved by
To be approved by the Anna University, Chennai.
Placement areas Mechanical industries Automation Industries Data storage and Processing industries IT Industries Entrepreneur/Self-Employed
* T = Theory, P=Practical, H=hands on training / Aptitude / Project work / task-oriented activities
Course Outline
Course Code
Paper Title Theory / Practical Internal Marks
External Marks
Total
Principles of Industrial Robotics.
Theory + Practical 50 50 100
Fundamentals of IoT, Cloud Computing.
Theory + Practical 25 25 50
Soft skills Aptitude + task-oriented activities
25 25 50
Project Project work 25 75 100 Total 300
68
Certificate Programme in Basics of Industrial Robotics, IoT, Cloud Computing & Employability Enhancement
Course Contents
Course Code
Course Title Theory / Practical
Basics of Industrial Robotics, IoT, Cloud Computing & Employability Enhancement
Unit No Modules
I
Principles of Industrial Robotics:
Introduction of Robots- Technical Features in Industrial Robot-Introduction of KUKA Robots- KUKA Robot Range- KUKA Robot Application- KUKA Robot Components -1- KUKA Manipulator- KUKA Controllers- KUKA Robot Components -2- KUKA KRC4 Controller - System Panel- KUKA SmartPAD- Robot Safety- Robot Cell Demo- KUKA – Material Handling Cell Demo- KUKA – MIG Welding Cell Demo- KUKA – Spot Welding Cell Demo- Robot Installation Phases- Mechanical- Electrical- Programming- Robot Coordinate Systems- Robroot- World-Tool-Base- KUKA SmartPAD- KUKA SmartPAD Introduction- Start KUKA SmartPAD- Robot Mastering- Robot Mastering Data- Programming Phases- Start-up Mode- Robot Load- Robot Load Data- Load Data- Getting Load Data- Robot Jogging- Jogging - Cartesian Coordinate- Jogging - Axis-Specific- Jog Options Window- Robot Tool & Base Calibration- Tool Calibration- Base Calibration- Kuka Simpro- KUKA Sim Pro Introduction- Start KUKA Sim Pro- KUKA Sim Pro Interface- Mouse Controls- Sim Pro Layout- KRL Programming- KRL Programming Syntax- KUKA Program- Subprogram sequence- Program Modules- SRC files and DAT files- PTP Motion- LIN - Motion- CIRC - Motion
40 Hrs (T 20 Hrs + P 20 Hrs)
II
Fundamentals of IoT, Cloud Computing: IoT Introduction- Enabling technologies -IoT levels-Domain specific IoTs - IoT vs M2M. IoT Design Methodology -IoT systems management - Specifications - Integration and Application Development. IoT Components -Sensors and activators - Communication modules - Zigbee-RFID-Wi-Fi-Power sources. Building IoT With Hardware Platforms - Arduino/Intel Galileo/Raspberry Pi- Physical device - Interfaces - Programming -
24 Hrs (T 12 Hrs + P 12 Hrs)
69
APIs/Packages - Web services. Introduction to Cloud Computing – Evolution of Cloud Computing –Underlying Principles of Parallel and Distributed Computing .Virtualization-Basics of Virtualization – Types of Virtualization – Implementation Levels of Virtualization –Virtualization Structures – Tools and Mechanisms .Cloud Enabling Technologies and Infrastructure-Service Oriented Architecture -Architecture – laaS – PaaS – SaaS – Public, Private and Hybrid Clouds – Cloud Storage –Design Challenges in Cloud – Peer-to-Peer Architecture. Resource Management and Security in Cloud-Inter Cloud Resource Management Security Overview – Cloud Security Challenges – Software-asa-Service Security-Virtual Machine Security. Programming Models and Case Studies - Parallel and Distributed programming Paradigms – MapReduce – Hadoop – Mapping Applications– Google App Engine – Amazon AWS – Cloud Software Environments –Eucalyptus – OpenNebula – Open Stack.Various Real time applications of IoT-Connecting IoT to cloud-Cloud storage for IoT-Data Analytics for IoT- Software & Management Tools for IoT.
III Soft skills: Communication skill – Resume building skill – Group discussion skill – Interview skill.
H 16 Hrs
Project Work: H 20 Hrs Total 100 Hrs