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Online and Offline Electrical Design Course

Advnace Electrical Design Course will us teach primary equiptments Design and Secoundry equiptments Design and caclutions,Electrical Design course we will learn residencial and commercial Building Electrification ,Distribution of Low voltas and also high volats Design and Calculations. Online and Offline Electrical Design course we will learn Primery Equipments Design like: Cable selection and Sizing , Earthing Selection and Sizing, Lightening Design and Internal Electrification as per Standards like IS, IEC, BS and IEEE. within Secundry engineering Design which include , Substation Design Engneering, Tranmision Line Design and Calculation, Such As Busbar Design calculation, Conductor sizing calculation, Transformer Design Calculations,CT,PT and Voltage Transformer Design calculations with Power System Protections Design and Calculation. Swithching Schemes Design Calculation, Sinlge Line Diagram Design Calculation from 11kv to 765kv Substation Design and Online Tranmision Line Design and Calculations. Advance Electrical Design course we will learn Sostware for simulation for Transint Anlysit , Load flow Anlysis, Short ciruit Anlysis, Cable and Earthing Anlysis and Relay potection and coordination anlysis on Power system Software. also we will learn lighting software like DaiLux for lighting Design calculation like Lux level calculation and illuminating systems. Not just provides with a detailed education on the subject but the teaching process also involves digital explainations with graphics which increases the tendency for understanding, the hands-on workshops puts theory into practice. The teaching faculty and the diligent availability of the teachers lead to better study environment. live chat, office hours, a course glossary, extensive Internet resources and case studies are included in the online classroom. The growing needs of the students is targeted which leads to construction of the best online course module to benefit the students. .



Who should attend:
solar design online course, Solar power plant design online course, solar power plant design training course, Solar plant design training, Solar installer online course, Solar design online training course Anybody who wants to gain valuable hands-on experience, especially electrical and mechanical engineers; electrical and general contractors, electrical designers, solar companies and solar industry professionals who want to further their knowledge of solar design.

Prerequisites: Participants should have a basic understanding of solar PV or basic solar design, PV installation or related experience. Participants should also have knowledge of Electrical.

What time:

  • Weekend Batch : Saturday and Sunday
  • Regulr Batch : Monday to Friday
  • Time : 2 Hours/per day (Flexible timming as required)

How much:  For Fees Details call Us +918467024957.  Fee includes
course materials with Softwares .

How to Register: We offer the following options to register for this class. Class size is limited, so we recommend that you register early to guarantee a seat.

1. Online - click on the Enroll Now button below and register using a credit card or check card. You will be redirected to our online payment page for a safe, secure transaction. You will receive an email confirmation when the transaction is complete.
2. By phone – simply call us at (+91) 8467024957,7531923094 and we'll process your registration over the phone.
3. By whatApp on (+91) 8467024957,7531923094
4. Skype Id : aedei01



Syllabus of Online and Offline Electrical Design Course
solar design training syllabus

Module-1 System planning

  • Basic design considerations
  • Planning guide for the supply and distribution system
  • Power system modernization and evaluation studies/program
  • Voltage considerations
  • Voltage control in electric power systems
  • Voltage selection
  • Voltage ratings for low-voltage utilization equipment
  • Voltage drop considerations in locating the low-voltage/ high-voltage
  • Calculation of voltage drops

Module-2 Cost estimating of industrial power system

  • Preparing the cost estimate
  • Classes of estimates
  • Equipment and material costs
  • installation costs
  • Other costs

Chapter- 3 LIGHTING DESIGN

  • Different entities of illuminating systems
  • Light sources: daylight, incandescent, electric discharge, fluorescent, arc lamp and Lasers
  • Luminaries, wiring, switching & control circuits
  • Laws of illumination; illumination from point, line and surface sources Photometry and spectrophotometry
  • Interior lighting – industrial, residential, office departmental stores, indoor stadium, theater and hospitals.
  • Exterior lighting- flood, street, aviation and transport lighting, lighting for displays and signaling- neon signs, LED-LCD displays beacons and lighting for surveillance
  • Utility services for large building/office complex & layout of different meters and protection units
  • Different type of loads and their individual protections
  • Selection of cable/wire sizes; potential sources of fire hazards and precautions.
  • Prepare layout of Different type lights
  • Refer Std:- IES(illumination Engineering Society )
  • IES (illumination Engineering Society)
  • IS 3646Code of Practice for Interior Illumination
  • IEC62504 General Lighting — LEDs and LED Modules —terms and definitions
  • National Lighting Code (Nlc)-2010
  • IS 6665 Code of Practice forIndustrial Lighting
  • IS 1944 Code of Practice for Lighting of public Thoroughfares
  • IEC 60598-2-3 Particular requirements – Luminaires for road and street lighting

Chapter- 4 Cable Sizing and Selection of single Phase and Three Phase

    • Load Details Calculation
    • Cable type and Construction features
    • Site Installation Conditions
    • Cable Selection Based on Current Rating of feeder
    • Base Current Ratings of feeder
    • Installed Current Ratings of Cable
    • Cable Selection and Coordination with Protective Devices
    • Feeders load detail
    • Motors load detail
    • Voltage Drop of cable
    • Cable Impedances
    • Maximum Permissible Voltage Drop by ANSI and IEC std.
    • Calculating Maximum Cable Length due to Voltage Drop
    • Short Circuit Temperature Rise calculation of cable
    • selection Minimum Cable Size Due to Short Circuit Temperature Rise
    • Initial and Final Conductor Temperatures withstand capability of cable
      Ref.Std.IEC
      • IEC 60364-5-52:election and erection of electrical equipment –Wiring systems
      • IEC 60364-5-54:Selection and erection of electrical equipment –Earthing arrangements, protective conductors and protective bonding conductors
      • IEC 60502-2: Power cables with extruded insulation and their accessories for rated voltages from 6kV up to 30kV
      • IS 7098 (Part 2)-1985:Specification for Cross-linked polyethylene insulated PVC sheathed cables–Specification (3.3kV to 33kV).
      • IS 1255:Code of practice for installation and maintenance of power cablesup to and including 33 kV rating

      Module-5 Internal Electrification design

      • Electrical Layout in residential building using Auto CAD
      • Selection of house wiring
      • Sizing and Selection of Conduit
      • Sizing and selection of Switch Socket
      • Calculation of load on circuit
      • Design of sub circuit (Lighting Circuit and Power Circuit)
      • Distribution of Power Circuit
      • Calculation of fan
      • Calculation of Earthing for residential buildings
      • Sizing and selection of low voltage switchgears (MCB,MCCB, RCB, RCBO MPCB)
        Refer Std. IS 4648,CPWD

      Module-6 PROTECTION OF BUILDINGS AND ALLIED STRUCTURES AGAINST LIGHTNING

      • Method of Lightening protection
      • Basic Consideration for Protection
      • Calculations for Evaluating the Need for Protection
      • Calculation of Protective Angles And Zone Of Protection For Various
        Forms of Air Termination
      • Selection of lightening protection device
      • Selection of ESE type Lightening Protection
        Rfer Std.
        IS 2309,NFC 72-102

Module-7 Earthing Design and Calculation of Power Plants .

  • Factors Influencing The Choice Of Earthed And Unearthed Systems
  • System Earthing &Equipment EarthingConnections To Earth
  • Resistance to Earth and Earth Electrode Current Density at The Surface of an Earth Electrode
  • Selection of an Earthing Conductor and Connection af an Electrode
  • Chemical Earthing Calculation
  • Voltage Gradient around Earth Electrodes
  • Connections to Earth Electrodes — Earthing And Protective Conductors
  • Earthing Arrangement for Protective Purposes
  • Earthing Arrangement for Functional Purposes
  • Earthing Arrangements For Combined Protective And Functional Purposes
  • Equipotential Bonding Conductors
  • Typical Schematic of Earthing And Protective Conductors
  • Earthing In Power Stations And Substations
  • Earthing Associated With Overhead Power Lines
  • Calculation of Earth Fault Currents
  • Measurement of Earth Resistivity
  • Measurement of Earth Electrode Resistance
  • Measurement of Earth Loop Impedance
  • Equipotential Bonding Conductors
Earhing Calculation For Switchyard And Power Plants
  • Step Voltage,Touch Voltage
  • Design Procedure
  • Calculation of Maximum Step And Mesh Voltages
  • Refinement of Preliminary Design
  • Application of Equations For EmAndesUse of Computer Analysis In Grid Design
  • Std. Ref. IS, IEC. IEEE, BS
    • IEEE Std 80-2000 Guide for Safetyin AC Substation Grounding.
    • BS 7430 Code of practice forEarthing
    • IS : 3043Code of Practice for Earthing

    Module-8 DESIGN AND ENGINEERING OF TRANSMISSION LINE

    • Transmission Planning
    • Indian Electricity Rules and State Regulations for transmission line
    • Choice of Route of transmission line
    • Selection of conductors for Overhead transmission
    • Spacing of Conductors in transmission lines
    • Calculation of SAG and Tension
    • Overhead transmission line Clearance
    • Selection of structure Pole, Lattice, Tower
    • Survey of transmission line upto 220KV
    • Sag Template and Tower Spotting
    • Classification of soil of Soil for 220KV transmission line
    • Tower Erection at Site Condition
    • Choice of Spans for 440kV transmission
    • Transmission line Earthing Calculation
    • Selection of Transmission line Insulator and fittings
    • Overhead transmission line lightning Calculation
    • Transmission line maintaince and erection solution

    Module-9 DESIGN AND ENGINEERING OF SWITCHYARD

    • Selection of project – Classification – Zone/Area wise
    • Electrical Clearance of substation
    • Insulation Coordinationcalculation of Equipment
    • Outdoor Substation Layout
    • Control Room Layout
    • Types of bus-bar schemes of Substation
    • Substation Main Equipment
    • sizing of Transformers
    • Reactive Compensation Equipment
    • Shunt Capacitors
    • Static VAR Systems
    • Selection and Sizing of Voltage Transformers (VT) for switchyards
    • Selection and Sizing of Current Transformers (CT)
    • HT/LT Circuit Breaker Selection and Sizing
    • Control& Relay Panels
    • Standard Protection Schemes for Substation and Transmission line
    • Substation Automation system design
    • Selection of PLC, Communication protocol
    • Benefits of Substation Automation system
    • Substation Automation with IEC 61850 Standard
    • selection and sizing of Disconnectors and earth switches (isolators)
    • selection and sizing of Lightning Protection
    • Selection of luminaries
    • Selection and sizing of Bus Support Insulators
    • Selection and sizing ofStrain Insulators
    • Power line carrier Equipment (PLCC)
    • Earthing of Switchyard
    • Cabling of Switchyard
    • Fire Protection Facilities in Substation
    • DC Auxiliary supply/ Battery bank Sizing and selection
    • Ref. Std
      • IEEE Std 80-2000 :Guide for Safetyin AC Substation Grounding.
      • IS 5613:Code of practice for design, installation and maintenance of overhead power lines,
      • IEC 60071-2:Insulation co-ordination – Part 2:
      • IEC: 62271-100:High-voltage switchgear and controlgear
      • IEC 826-1991: Technical report on loading and strength of overhead transmission lines.
      • IEC 60853:Sections on operating conditions – Reference operating conditions and selection of cable type
      • IEC 60949:Calculation of thermally permissible short-circuit currents, taking into account non-adiabatic heating effects
      • IS 3646: Code of Practice for Interior Illumination
      • Chapter 10 - Electrical Sofware

        • ETAP
        • DaiLux
        • Autocad