Electrical Skill Devlopement

Residential Electrical Designing using AutoCAD

Course Name: Residential Electrical Designing using AutoCAD
Course Objective: ·         Impart a basic knowledge of electrical quantities such as current, voltage, power, energy and frequency.

·         Provide working knowledge for the analysis of basic DC and AC circuits used in electrical and electronic devices.

·         To explain the components used in residential wiring and types of wiring

·         To give an exposure to market survey for available components

·         Highlight the importance of transformers in transmission and distribution of electric power.

·         To aware them about Project Planning and Estimation, BOQ and Tendering

·         To enhance employability of a student.

 

Course Content: Basics of Electrical CAD.

 

WIRING AND CABLE MANAGEMENT SYSTEMS

Rules & regulations.

Types & selection of wiring systems,

Applications and Selection of switches & sockets.

Applications and Selection of wires and cables.

Lighting, power circuit wiring diagrams.  Conduit Layout Design.

Load schedule & Load balancing.

Selection of MCB Distribution Boards.

Standard heights of mounting accessories.

LIGHTING MANAGEMENT SYSTEM

Lighting Schemes.

Lighting load estimation and designing of lighting panel.

Types and application of luminaries.

Lighting designing of Auditoriums and Theatres, Lighting designing for

interior decoration and landscape.

Emergency lighting system.

 POWER DISTRIBUTION SYSTEM

Types & selection of Circuit Breakers.

Importance & application of VCB, ACB, MCCB & MCB Residual

Current

Devices Isolators and SDF (Switch Disconnecting Fuse) Capacitors,

Resistor and Reactors.

Selection of AMF (Automatic Main Failure) & APFC (Automatic Power

Factor Correction) Panel Under Ground cable type & selection.

LT Panel Board Design.

ELECTRICAL DESIGN CALCULATIONS

Calculating the Total power requirements

Circuit Breaker selection & Design calculations

RCBO/ELCB selection & Design calculations

Branch & Main feeder cable sizing, selection & calculation.

Determining cable trays and trenches

Busbar selection and Design.

ELECTRICAL SYSTEM DRAUGHTING (CAD)

Basics of Electrical CAD.

Preparation of Lighting, Power, Communication and Earthing layout.

Preparation of Schematic Diagrams.

Physical layout of transformers, Generators & Panel Boards.

Preparation of general installations and sections

Schematic Drawings

PROJECT MANAGEMENT

Project Planning and Estimation.

Preparation of BOQ.

Tendering.

Course Duration: 6 months
Course Outcome: Upon successful completion of this course, the students will be able to: –

·         Students should understand the use of different component and their costing

·         Calculation of wire size, protection component  according to load

·         They should understand mounting height of different SB from finished floor.

·         To know about  the Installation of lightning accessories

·         Student should able draw the lighting layout of their own house

·         Also they will come to know about Project Planning & Estimation, Preparation of BOQ, Tendering

 

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Hands on Training on Design of Three Phase Induction Motor

Course Name: Hands on Training on Design of  Three Phase Induction Motor
Course Objective: ·         Electrical Machine in our power system.

·         Understanding all Design and Construction requirement of Induction Motor.

·         Complete Hands on experience of basic laws require in Electrical Machine Design.

·         Understanding various phases of Electrical machine Design.

·         Roll of magnetic Circuit and its material selection criteria.

·         Detail understandings of Electromagnetic theory.

·         Use of International Standards & Design Basis for selection of core material/Copper winding/Insulating Material.

·         To get hands on experience to assemble Induction Motor

 

CONTENT
Session- 1 Induction Motor…..Educational and Industrial Importance.
Phases of Electrical Machine Design.
Basic requirement of Induction Motor design.
Basic Laws
Basic Concept
                  Induction, Self & Mutual induced e.m.f. etc.
Hands on Demonstrations with explanation
Session- 2 Laws of magnetic forces
  Magnetic Flux
Electromagnetic Induction
Flux linkage
Faradays Frist Law
Faradays Second Law
Lenz Law
Mutual Induced e.m.f.
Role of magnetic circuit
Effect of air gap on Magnetic Circuit
Evolution of Induction Motor Principle
Technical Parameter Selection and Calculation Sessions
Session- 3 Overview, Importance of International Standards
Step-1 : Design of  Induction Motor Magnetic Circuit / Core
            Calculation of volt ampere Turns/volts (Te), flux , maximum flux
            density, Main Dimensions of IM, etc.
Selection Criteria of Core material
Step-2 : Design of  Induction Motor Electric Circuit ( Winding )
              Calculation of current in winding, area of winding, diameter of bare conductor, Diameter of insulated conductor,   Number of Stator turns etc.
Technical Parameter Selection and Calculation Sessions
  Numerical on Induction Motor Electric circuit Design.
  Step 3: Selection of Insulation
Session- 4             Importance of Insulation
            Insulation material in Induction Motor
          Insulation on Conductor
          Insulation on Stamping
            Insulation Between Coils
 
Hands on Experience Sessions
 

Session- 5

Estimation of Material Requirement
Stator Winding assembly
 Testing of stator winding
 
Hands on Experience Sessions
 

Session-6

Fixing of Rotor
 Assembly part-2
Fixing of Frame
Testing of Designed Induction Motor
 

Session- 8

Continuity test
Winding Resistance test
Megger test
Course Duration: 04 Days
Course Outcome: Upon successful completion of this course, the students will be able to: –

·         Learn the basic criteria of  Induction Motor Designing

·         Understand the basic concepts and properties of material used.

·         Knowing Client requirements & collection of specific data for calculation of Induction Motor parameter.

·         Estimation of material requirement.

·         Development of Design Plan through Calculation.

·         Hands on experience of Induction Motor Design.

·         Testing of Self-Designed Induction Motor.

 

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Hands on Training on Design of Three Phase Transformer

Course Name: Hands on Training on Design of  Three Phase Transformer
Course Objective: ·         Electrical Machine in our power system.

·         Understanding all Design and Construction requirement of  Transformer.

·         Complete Hands on experience of basic laws require in Electrical Machine Design.

·         Understanding various phases of Electrical machine Design.

·         Roll of magnetic Circuit and its material selection criteria.

·         Detail understandings of Electromagnetic theory.

·         Use of International Standards & Design Basis for selection of core material/Copper winding/Insulating Material.

 

CONTENT
Session- 1 Transformer…..Educational and Industrial Importance.
Phases of Electrical Machine Design.
Basic requirement of transformer design.
Basic Laws
                  Faradays Law, Lenz Law, Right Hand Thumb Rule Etc.
Basic Concept
                  Induction, Self & Mutual induced e.m.f. Etc.
Some Brainstorming Question which still unanswered on transformer.
Hands on Demonstrations with explanation
Session- 2 Laws of magnetic forces
  Magnetic Flux
Electromagnetic Induction
Flux linkage
Faradays Frist Law
Faradays Second Law
Lenz Law
Mutual Induced e.m.f.
Role of magnetic circuit
Effect of air gap on Magnetic Circuit
Evolution of Transformer Principle
Technical Parameter Selection and Calculation Sessions
Session- 3 Overview, Importance of International Standards
Step-1 : Design of  Transformer Magnetic Circuit / Core
            Calculation of volt ampere Turns/volts (Te), flux , maximum flux
            density, Cross Sectional area of core, etc.
Selection Criteria of Core material
Step-2 : Design of  Transformer Electric Circuit ( Winding )
              Calculation of current in winding, area of winding, diameter of bare conductor, Diameter of insulated conductor, Space factor, Number of primary and Secondary turns, Window space Factor etc.
Technical Parameter Selection and Calculation Sessions
  Numerical on Transformer Electric circuit Design.
  Step 3: Selection of Insulation
Session- 4             Importance of Insulation
            Insulation material in Transformer
          Insulation on Conductor
          Insulation on Stamping
            Insulation Between Winding
            Insulation Between Winding to core
Hands on Experience Sessions
 

Session- 5

Estimation of Material Requirement
Primary Winding assembly
Testing after Primary assembly
 
 

Session- 6

Insulation assembly
Secondary Winding assembly
Testing after Secondary assembly
Core Assembly part-I
Hands on Experience Sessions
 

Session- 7

Fixing of Bobbin
Core Assembly part-2
Fixing of Frame
Testing of Designed Transformer
 

Session- 8

Continuity test
Magnetic Balance Test
Winding Resistance test
Megger test
Voltage Ratio Test
O.C & S.C. Test & Parameter Calculation
Course Duration: 05 Days
Course Outcome: Upon successful completion of this course, the students will be able to: –

·         Learn the basic criteria of  Transformer Designing

·         Understand the basic concepts and properties of material used.

·         Knowing Client requirements & collection of specific data for calculation of Transformer parameter.

·         Estimation of material requirement.

·         Development of Design Plan through Calculation.

·         Hands on experience of Transformer Design.

·         Testing of Self-Designed Transformer.

 

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Hands on Training based on PLC and SCADA

Course Name: Hands on Training based on PLC and SCADA
Course Objective: ·        To understand the generic architecture and constituent components of a Programmable Logic Controller.

·        To develop a software program using modern engineering tools and technique for PLC and SCADA.

·        To apply knowledge gained about PLCs and SCADA systems to real-life industrial applications.

Course Content:
Day Program (Course) Contents
1 Concept of Automation, Need & history of automation, Basics of PLC Introduction to PLC, pin diagrams, Block diagram of PLC, Detailed information of PLC.
2 Programming by using Allen Bradly PLC &MicroLogix, RS Logix software.
3 Troubleshooting & fault diagnostics of PLC.
4 SCADA wonder ware InTouch, creating new SCADA applications, creating database of tags, creating & editing graphic display with automation.
5 Connectivity with the PLC, connectivity between software and excel, troubleshooting & applications, Practical as on existing available in college.
Course Duration: 05 Days
Course Outcome: Upon successful completion of this course, the students will be able to: –

·        Classify input and output interfacing devices with PLC.

·        Execute, debug and test the programs developed for digital and analog operations.

·        Determine I/O requirement of application, develop program and interface system with PLC

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