Saturday, 23 February 2019

20 Best Electrical Engineering Software Which Definitely Helps You For Best Salary Package Jobs

20 Best Electrical Engineering Software Which Definitely Helps You For Best Salary Package Jobs



A Twenty Best Electrical Engineering Softwares The All Is As Per Below Which Are The Definitely Helps You For The Get The Best Salary Package Of Jobs In The Electrical Companys .







You Know This Time Is All Appliances Turn In Digital .

When You Are Going For Find The Job In The Electrical Company That Time If You Have Any Software Knowledge Than Your Selection Probability Will Be Must Increases.







This Time The All Industrial jobs of an Electrical Engineer involves design, development, simulation, prototyping and testing of electrical equipment and systems.


We All Know The Our Electrical Engineering Field is based heavily on the use of various simulation software and programming skills.






Here’s given 20 Best Software of electrical engineering every Electrical graduate must learn.

These All Given softwares help build a strong career path in electrical engineering, whether working in research & academia building components and systems as a field engineer.

The Listed software are used extensively in designing electrical engineering projects And Also Used In The Design Of Electrical Engineering Applications .







20 Best Electrical Engineering Software Which Definitely Helps You For Best Salary Package Jobs




1. MATLAB (Software for Numerical Computing)


The MATLAB (MATrix LABarotary) is the most popular electrical engineering software among Electrical Engineering students.

YOU know???  It was launched in 1983 by Mathworks Inc. and was one of the first commercial packages for linear algebra.

It has evolved over time and has become the most comprehensive software for Numerical Computing, Dyanimc System Simulations, Algebraic Solutions, Symbolic Mathematics etc.

It contains add-on packages (called Toolboxes) for various functionalities. Toolboxes provide built-in functions to perform numerical computations including but not limited to Ordinary & Partial Differential Equations, Optimization, Linear System Implementation, Linear Algebra, Control System Design, System Identification, Curve Fitting.



2. Simulink (GUI based software for Dynamic System Simulation)

Simulink is the GUI based companion software for Matlab.

It is powered by Matlab programming language. Many electrical engineers find Simulink much easier to use than MATLAB.

When you use MATLAB® and Simulink® together, you combine textual and graphical programming to design your system in a simulation environment.

Directly using the thousands of algorithms that are already in MATLAB. Use MATLAB to create input data sets to drive simulation. Run thousands of simulations in parallel. Then analyze and visualize the data in MATLAB.



3. Pspice (Electrical Schematic Software)

OrCAD EE PSpice is a SPICE circuit simulator application for simulation and verification of analog and mixed-signal circuits.

PSpice is an acronym for Personal Simulation Program with Integrated Circuit Emphasis.



4. Multisim (Circuit Simulation & PCB Design Software)

Multisim integrates industry-standard SPICE simulation with an interactive schematic environment to instantly visualize and analyze electronic circuit behavior.

Its intuitive interface helps educators reinforce circuit theory and improve retention of theory throughout engineering curriculum.

By adding powerful circuit simulation and analyses to the design flow, Multisim helps researchers and designers reduce printed circuit board (PCB) prototype iterations and save development costs.



5. ETAP (Software for Electrical Power Systems)

ETAP (Electrical Transient Analyzer Program) is a full spectrum analytical electrical engineering software company specializing in the analysis, simulation, monitoring, control, optimization, and automation of electrical power systems.

ETAP software offers the best and most comprehensive suite of integrated power system enterprise solution that spans from modelling to operation.



6. Power World Simulator (Visual power system analysis software)

PowerWorld Simulator is an interactive power system simulation package designed to simulate high voltage power system operation on a time frame ranging from several minutes to several days.

The software contains a highly effective power flow analysis package capable of efficiently solving systems of up to 250,000 buses.

The functionality of PowerWorld Simulator can be increased by adding serveral additional add-on to the base simulator package.

The add-ons can be used for Distributed Computing, adding the effect of Geomagnetically Induced Currents (GIC), Integrated topology processing, optimal power flow, transient stability, voltage stability (PVQV) and many more.



7. PSCAD (Electromagnetic Transient Analysis Software)

PSCAD is an electrical engineering software package for electromagnetic transient analysis in power systems.

It is developed by Manitoba Hydro Int. Ltd. based on the slogan “If you can dream it, you can simulate it“.

As power systems evolve, the need for accurate, intuitive simulation tools becomes more and more important. With PSCAD™/EMTDC™ you can build, simulate, and model your systems with ease, providing limitless possibilities in power system simulation.

Included is a comprehensive library of system models ranging from simple passive elements and control functions to electric machines and other complex devices.



8. PSS/E (Power System Simulator for Engineers)

PSSE is used by planning and operations engineers, consultants, universities, and research labs around the world.

PSSE allows you to perform a wide variety of analysis functions, including power flow, dynamics, short circuit, contingency analysis, optimal power flow, voltage stability, transient stability simulation, and much more.




9. LabVIEW (Designing Interfacing and HMIs)

LabVIEW (Laborartory Virtual Instruments Engineering Workbench) is a systems engineering software for applications that require test, measurement, and control with rapid access to hardware and data insights.

The LabVIEW software offers a graphical programming approach that helps you visualize every aspect of your application, including hardware configuration, measurement data, and debugging.

This visualization makes it simple to integrate measurement hardware from any vendor, represent complex logic on the diagram, develop data analysis algorithms, and design custom engineering user interfaces.



10. Keil uVision

For designing and testing embedded systems, microcontrollers are used extensively for control electrical instruments. Keil uVision provides an all-in-one solution for programming embedded devices.

The µVision IDE combines project management, run-time environment, build facilities, source code editing, and program debugging in a single powerful environment. µVision is easy-to-use and accelerates your embedded software development.

µVision supports multiple screens and allows you to create individual window layouts anywhere on the visual surface.

The µVision Debugger provides a single environment in which you may test, verify, and optimize your application code.

The debugger includes traditional features like simple and complex breakpoints, watch windows, and execution control and provides full visibility to device peripherals.



11. SmartDesign

Design automation tool for creating NEC compliant low-voltage electrical systems.


12.SEE Electrical

An Electrical CAD intuitive yet powerful package. Comes in 3 levels to precisely fit your requirement.

13.EDraw Max

Graphics utility that makes it simple to create professional-looking diagrams and charts.

14.ANSYS

The global leader in engineering simulation software.

15.Electra E8

Installed engineering CAD solution designed to help you complete your electrical, pneumatic and hydraulic projects.

16.AutoCAD Electrical

CAD tool with industyry specific library for documenting electrical control systems.

17.SolidWorks Electrical Schematics

An electric design software to help streamline electrical interconnections for intricate electrical systems.

18.AVEVA Electrical

An ETAP integrated engineering and project management software for electrical engineering.

19.E-Coord

A tool that helps configure fuses and circuit breakers in new protective systems via calculating their time-current curves.

20.E3.series

Modular solution for electrical cable, schematics, and control panel design.






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Here The Electrical Engineering Interview Questions Provided So Go And Prepare Well For Your Exam ::



May You Like To Read This Useful Articles  ::

Reference : EEPOWERSCHOOL

Saturday, 16 February 2019

All About The Future Big Revolution In Electrical Engineering With Uses Of Solar Energy !!

All About The Future Big Revolution In Electrical Engineering With Uses Of Solar Energy !!



All Description About The Solar Energy And Solar System Which Will Be  The Future Big Revolution In Electrical Engineering. 



How Solar Panels Generate Electricity?

Generally, the solar grid has thin metal lines printed on the top N-type layer and the bottom P-type layer is in contact with an aluminum plate.

When the solar energy in the form of light waves hits the top surface of the silicon photovoltaic cell, only lights with wavelength from a specific window of the solar spectrum (350 to 1140nm) are absorbed into the middle layer.


This range of waves length includes the visible spectrum. Ultraviolet wavelengths are so short they stop at the surface. Infrared wavelengths are so long they can’t be absorbed and pass right through the cell or are reflected back.


Every time this occurs the light wave knocks an electron off a silicon atom, this set the electron loose and leave an area of positive charge a hole.

The loose electron then moves towards and reaches the top N-type layer, which readily accepts electrons.

In a similar way, the loose hole moves towards and reaches the bottom P-type layer which readily accepts holes.

For Getting Deeper Knowledge Than Full Article On How Solar Panels Generate Electricity??  Available Is Here 




How To Solar Panels Works ???

For Transfer The Solar Energy Into Electrical Energy Which Was We Can Use In Our Electrical Applications .




The World Intercept A lot Of Power 173000 terawatt That's 10000 Times More Power Than Planet Population Used.


First WE Need To Understand How Solar Panels  Converts The Solar Energy Into Electrical Energy.

Solar Panels Are Made By Small Units Its Called Solar Cell.




Most Common Solar Cell Made From Silicon. In Solar Cell The Crystal And Silicon is Sandwich Between Conductive Layers.

Each Silicon Atoms Are Connected To Their Neighbors By 4 strong Bonds Which Keep Electrons In Place So No Current Can Flow.

A silicone Solar Cell Uses Two Different Layers Which In N - Type Silicone Has Extra Electrons And P - Type Silicone Has Extra Spaces For Electrons Called Halls.





Solar panels are consisting of some solar cells connected in series. Each of the cell produce half volt ( 0.5 volt ). Thus to charge a cell phone maximum 12 solar Cells are needed.

For Full Article :: How Do Solar Panel Works ??



The Tips And Tricks For Getting Zero Electricity Bill With Using Of The Solar Rooftop System With Full Detail.


For Making Solar Rooftop System First You Need To Know How To Works The Solar Panels  .


After Getting Knowledge Of How The Solar Panels Works Now we Get Start How We Can Get The Zero Electricity Bill By Using Solar Rooftop System.

Some Specification Of This Solar Rooftop System.

2kv System
3000 Unit/year

Electricity Bill Zero.

For Full Article  Visit Now :: Tips And Tricks For Zero Electricity Bill | Solar Rooftop System For Home | Full Details




How We Can Build Easily Basic Portable Solar System  !! 

That Was Helps Us To In Generate Electricity By Using The Solar Energy  !!


For Making A Basic Portable Solar System First You Need To Learn How The Solar Panels Works ??




After Learn How Solar Panel Works We Need To Require Some Components Which are Used To Making A Basic Portable Solar System.

Here The List Of Components Which Was Used In Our System .


  • 40watt 12V Solar Panel
  • Inverter  : 1500Watt 12V DC to 240 vac
  • 100 amp DC Breaker
  • 30 amp mppt charge controller 

  • Diode block

Full Article Available At Here :: How To Build A Basic Portable Solar System !!


@@@@@@@

May You Like To Read This Informative Articles ::

Friday, 15 February 2019

How To Build A Basic Portable Solar System !!

How To Build A Basic Portable Solar System !!





Learn The How We Can Build Easily Basic Portable Solar System  !! That Was Helps Us To In Generate Electricity By Using The Solar Energy  !!


For Making A Basic Portable Solar System First You Need To Learn How The Solar Panels Works ??

So Get The  Knowledge About The How Solar Panels Works :: Article Available Is Here

May You Like This :: Tips And Tricks For Zero Electricity Bill | Solar Rooftop System For Home | Full Details





After Learn How Solar Panel Works We Need To Require Some Components Which are Used To Making A Basic Portable Solar System.

Here The List Of Components Which Was Used In Our System .


  • 40watt 12V Solar Panel
  • Inverter  : 1500Watt 12V DC to 240 vac
  • 100 amp DC Breaker
  • 30 amp mppt charge controller 
  • Diode block




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    Watch Video For Fully Understanding Of Portable Solar System. 


    If You Than Share This On Your Social Media Accounts As You Can!! 
    Sharing Is Caring So Don't Forget To Share!! 

    Tips And Tricks For Zero Electricity Bill | Solar Rooftop System For Home | Full Details

    Tips And Tricks For Zero Electricity Bill | Solar Rooftop System For Home | Full Details



    Here Present The Tips And Tricks For Getting Zero Electricity Bill With Using Of The Solar Rooftop System With Full Detail.


    For Making Solar Rooftop System First You Need To Know How To Works The Solar Panels  .

    So Know The How Solar Panels Works :: Available At Here

    May You Like This :: How To Build A Basic Portable Solar System !!





    After Getting Knowledge Of How The Solar Panels Works Now we Get Start How We Can Get The Zero Electricity Bill By Using Solar Rooftop System.

    Some Specification Of This Solar Rooftop System.

    2kv System
    3000 Unit/year
    Electricity Bill Zero.


    In The Real Life
    There Are Two Types Of Solar System
    1 : On Grid System
    2 : Off Grid System





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    Watch Video For Getting All Knowledge Of  Tips And Tricks For Zero Electricity Bill | Solar Rooftop System For Home | Full Details


    If You Like This Than Share In Your Social Media Accounts As You Can .
    Sharing Is Caring So Don't Forget To Share It

    How Do Solar Panels Works ??

    How Do Solar Panels Works ??



    Here The Present How To Solar Panels Works For Transfer The Solar Energy Into Electrical Energy Which Was We Can Use In Our Electrical Applications .




    The World Intercept A lot Of Power 173000 terawatt That's 10000 Times More Power Than Planet Population Used.


    May You Like This Knowledgeable Articles :
    How To Build Basic Portable Solar System
    Tips And Tricks For Zero Electricity Bill | Solar Rooftop System For Home | Full Details


    First WE Need To Understand How Solar Panels  Converts The Solar Energy Into Electrical Energy.

    Solar Panels Are Made By Small Units Its Called Solar Cell.






    Most Common Solar Cell Made From Silicon. In Solar Cell The Crystal And Silicon is Sandwich Between Conductive Layers.

    Each Silicon Atoms Are Connected To Their Neighbors By 4 strong Bonds Which Keep Electrons In Place So No Current Can Flow.

    A silicone Solar Cell Uses Two Different Layers Which In N - Type Silicone Has Extra Electrons And P - Type Silicone Has Extra Spaces For Electrons Called Halls.




    Solar panels are consisting of some solar cells connected in series. Each of the cell produce half volt ( 0.5 volt ). Thus to charge a cell phone maximum 12 solar Cells are needed.

    The main and basic element of a solar cell is silicon. Silicon is flattened and two conducting plates are attached over the flattened silicon .





    One Silicon atom has 4 electrons that make four strong co-valent bond with the other silicon atom thus there is no free electron and hole takes place naturally silicon is very very bad conductor of electricity UNLESS DOPING OVER IT IS DONE.

    There are two types of doping …

    A. N - type doping

    B. P - type doping.



    Flattened silicon is hypothetically cut in two halves in one half N type doping is done , an electron is injected in N side then that electron become free to move across N side.


    If N side is ljghtly doped then number of free electron will be less if it is heavily doped then number of free electron increases and carier density also increases .

    Electrons become the majority carrier .




    Now ,

    On the other half of the flattened silicon P type doping is done .

    An electron is taking outside from the co -valent bond forcefully which creates an empty place , this empty place is called as hole .


    To fulfill that hole one electron rush towards the hole and it will create another hole from where it will come. In this way holes become free to move If is highly doped then the carrier ( holes ) density will be more.




    In solar cell photons are main source of energy . When protons are triggered over conduction plate then temperature rises and free electron absorbs the energy and gets excited thus it will jump from valence band to conduction band ( overcome the forbidden energy gap ) Composition changes drastically. Electron conducts in one direction only.


    Thus voltage produce in the output terminal is DC in type , current is unidirectional in nature.

    The electrons cover the closed path by emitting themselves from the N - type region and come to the end or closes its circulation path by fulfilling the empty places ( holes ) in the P side region , in this way the circuit is completed.

    Amount of voltage is basically depends on intensity of light falling over the cell. Intensity of light is not same in parts of our country thats why output voltage of a solar cell varies .

    The output if a solar cell is stored in a solar battery. In day light the bettery gets charged.






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    How Solar Panels Generate Electricity?

    Generally, the solar grid has thin metal lines printed on the top N-type layer and the bottom P-type layer is in contact with an aluminum plate.

    When the solar energy in the form of light waves hits the top surface of the silicon photovoltaic cell, only lights with wavelength from a specific window of the solar spectrum (350 to 1140nm) are absorbed into the middle layer.


    This range of waves length includes the visible spectrum. Ultraviolet wavelengths are so short they stop at the surface. Infrared wavelengths are so long they can’t be absorbed and pass right through the cell or are reflected back.


    Every time this occurs the light wave knocks an electron off a silicon atom, this set the electron loose and leave an area of positive charge a hole.

    The loose electron then moves towards and reaches the top N-type layer, which readily accepts electrons.

    In a similar way, the loose hole moves towards and reaches the bottom P-type layer which readily accepts holes.

    This process keeps repeating as long as the sun is shining on the solar cell.

    Now that the electrons and the holes have been separated, a wire connected between the top and bottom metal electrodes provides a pathway for the electrons to move towards the hole.

    A flow of electrons is what gives us electrical current.

    The basic process of photon hits atom exciting electrons.

    If the hit contains enough energy, the electrons can exit the atoms, ionizing them.

    Well, electrical current is fundamentally a steady stream of electrons flowing through atoms.





    The key job solar panels do is to:

    1 - Have the right materials to capture as much as possible of that photonic energy into excited atoms

    2 - Force those excited electrons into electrical current


    A large solar panels is a string of dozens of little photovoltaic cells. Each producing perhaps under 1 volt of electrical potential each. Linked in series typically producing around 48+ volts total in optimal conditions.


    In real world systems, many solar panels are wired in series or parallel. If you have 20 solar panels in series, with each panel having 60 or 72 cells, you have 1200 little cells in series.

    Solar panels in your roof typically convert 12 to 23% of sunlight into useable electricity.


    There are much more expensive ones that reach 30% or higher efficiency (typically used only on satellites and systems where cost is a much lower concern than performance). Top end panels achieve 40% efficiency.

    Rooftop (residential and commercial) PV efficiency have been climbing steadily. Like a half percentage point per year.

    In a decade we could be nearing 30% efficiency at commercial panels.

    The sun provide us with a lot of energy. A square meter gets around 1000 Watts of raw solar radiation in a clear day except close to sunrise and sunset.

    This allows rooftop solar panels which are typically 2 square meters large to produce up to 400 watts of electricity each. But typical cheaper panels will give you 200–300W.



    May You Like To Read This Useful Articles :

    Every Electrical Person Should Know How To Make Series Electric Board

    Every Electrical Person Should Know How To Make Series Electric Board .



    Here It Will Present How We Can Make Series Electrical Board . How To Make Series Board .How To Use Series Board. 


    You Will Learn How To Connection Of Series Electrical Board. 



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    Here 10 Awesome Electrical Engineering Project By No.8 Will Definitely Be A Winer In Your Competition :: Available Is Here 



    Watch Video For All Knowledge 


    If You Like Than Share In Social Media As You Can : 

    How To Proper Joint Of Electrical Wire Without Any Tools !!

    How To Proper Joint Of Electrical Wire Without Any Tools  !!



    Here You Can Learn How To Proper Joint Of Electrical Wire When You Have No Any Available Tools !!!





    It Will Helps You To Know How We Can Joint Any To Electrical Wire When We Haven't Any Professional Tool. 

    This Joint Name Is Married Joint. 

    In This We Used The Heat Shrink Tube For Protection  Also We Can Use The Tap For Joint .

    This Joint Is Better Than The Normal Twist Joint. 

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    So Don't Miss To Learn How We Can Properly Joint The Electrical Wire Without Any Tools.

    May You Like This Best Electrical Innovative Projects ::


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    Here 10 Awesome Electrical Engineering Project By No.8 Will Definitely Be A Winer In Your Competition :: Available Is Here 

    Watch This Video For Getting All Knowledge Related To Joints Of Electrical Wire .



    If You Like This Than Share In Your Social Media As You Can  .

    Monday, 4 February 2019

    Top 10 Best Project For Electrical Engineering Person No.7 Was Really Amazing

    Top 10 Best Project For Electrical Engineering Person No.7 Was Really Amazing 



    Present The Best Electrical Engineering Project Which Will Definitely Wining The Marks So Visit All Of Project Don't Miss Anyone Of Them. 







    List Of Project -  Don't Miss One Of This Awesome Project 




    1 : High Voltage Detector  ( Electrostatic Polarity Detector With Increased Sensitivity)   :: Check Here In Detail




    2 : Water Level Indicator Using 74HC147 & 4511 IC :: Check Here In Detail




    3 : Simple Automatic 1 HP Water Pump On Off Controller In Under Rs.25 . :: Check Here In Detail




    4 : Convert A Normal Clock Into In Automatic Clock  :: Check Here In Detail




    5 : Make A SCROLLING TEXT DISPLAY  :: Check Here In Detail






    6 : LASER Light Security Alarm :: Check Here In Detail




    7 : Make A RF Transmitter And Receiver  :: Check Here In Detail




    8 : Make Wireless RC car/boat/ helicopter 4 Channel RF Transmitter Receiver :: Check Here In Detail




    9 : Make A Drone With Camera :: Check Here In Detail




    10 : 8 * 8 * 8 LED Cube With Arduino UNO  :: Check Here In Detail






    Are You Interested For Electrical Engineering Innovative Projects Than Its Only For You :: Check Now ::






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