Mechanical Engineering and Electrical Engineering Explained
Learn how things work! Boilers, engines, valves, transformers, pumps, learn it all in this constantly growing course!
Created by saVRee 3D  saVRee.com. High quality online engineering courses.
Students: 13270, Price: $29.99
Students: 13270, Price: Paid
Want to know how things work? How electricity is generated and transmitted to your home? How engines are cooled? Or how hydroelectric power stations work? Well, this is the right course for you! This course contains over 10 hours of engineering related video tutorials. You will learn:

How Two and Four Stroke Engines Work

How Boilers Work

How Electrical Transformers Work

How Valves Work (Ball, Gate, Globe etc.)

How Primary Clarifiers Work

How Power Generation Machinery Works (Renewable and NonRenewable Energy)

How HVAC machinery works.

How Oil and Gas machinery works.

And a lot more!
If you are working in the following industries, you will get a big benefit from this course:

HVAC

Oil and Gas

Chemical Engineering

Power Engineering

Mechanical Engineering

Automotive Engineering

Power Generation
Why this course?
Because saVRee and saVRee lite have trained over 20,000 students on Udemy with an average paid course rating of 4.5/5.0.
Interactive 3D models are used extensively to show you machinery components and how they can be put together to form machines that complete useful work. 3D models are also used to show you how various power stations work.
The course is packed with 2D images, 2D animations, Downloadable Infographics, Downloadable Quiz Booklets and 3D animations.
Don't waste more time reading this course description, checkout the curriculum, then signup for this course!
All purchases come with a 30 day no risk money back guarantee!
Hope to see you on the course!
Fundamental Question on Electrical Engineering
Multiple Choice Questions on DC and AC Circuit, DC Networks, Network Theorems and Electromagnetism
Created by Harish Kumar Maheshwari  Academic Consultant / Electronics Engineer
Students: 5843, Price: $19.99
Students: 5843, Price: Paid
Dear Learners
Are you Preparing for Interview in Electrical Engineering? Don’t be stressed, take our Electrical Engineering based quiz and prepare yourself for your Interview.
With this Electrical Engineering based Quiz, we are going to build your confidence by providing tips and trick to solve Electrical Engineering based questions. In Electrical Engineering based Multiple Choice Questions Quiz, there will be a series of practice tests where you can test your Basic Knowledge in Electrical Engineering.
Who should Practice these Electrical Engineering Questions?

Anyone wishing to sharpen their knowledge in Electrical Engineering

Anyone preparing for interview in Electrical Engineering
In these Multiple Choice Questions based Quiz we Covers Following Topics

DC Circuit

AC Circuits

DC Networks

Network Theorems
Our life would be unthinkable without the use of electrical energy. The growing utilisation of the latter is a decisive prerequisite for a rapid development of industry and agriculture.
Generally, you need to refer a variety of books and Websites in order to cover the ocean of topics in Electrical Engineering . To make it easy for you guys, I have collected a few Electrical Engineering Based questions from different topics, when you solve these Questions then definitely your confidence will Increase.
Without any delay, the applicants participate in the Electrical Engineering MCQ Test and understand the various questions and answers.
Best of luck for Quiz
Electrical Engineering Simulations with Etap
Guide in designing, and simulating power circuits, motor and transformer related circuitry using etap.
Created by Hossein Tootoonchy  Invest in yourself, Join 35000 students in the community.
Students: 3236, Price: $99.99
Students: 3236, Price: Paid
This course offers Coursovie Training Certificate in addition to Udemy Certificate. Coursovie Certificate is FREE and requires registration on Coursovie Website.
ETAP is the most powerful software in the area of Electrical Power systems. Using this software you can design and analyse your power system from the source of power all the way to the loads connected to it.
ETAP offers a suite of fully integrated electrical engineering software solutions including arc flash, load flow, short circuit, transient stability, relay coordination, cable ampacity, optimal power flow, and more.
Having the ability to work with this software will play a keyrole for fresh out of school Electrical engineers, as well as those who need to expand their knowledge of power calculations in being awarded internships into top electrical power based companies.
This course is structured into 9 chapters with multiple practical examples after the theory is elaborated. We have created a great course that enables the researchers, engineers, and students to learn ETAP in less than a Week !
Ultimate Power Electronics for Electrical Power Engineering
Learn everything about power electronics for electrical engineering as rectifiers, AC and DC choppers and inverters.
Created by Ahmed Mahdy / Khadija Academy  Electrical Power Engineer
Students: 3058, Price: $24.99
Students: 3058, Price: Paid
"Ultimate Power Electronics Course Bundle"
The only course bundle out there with everything you need to know about rectifiers, AC choppers, DC choppers, and inverters
First Course "Complete Rectifiers Course for Electrical Engineering" Worth $197
Throughout the course you will learn:

Definition of power electronics circuit and its application.

Different types of switches as uncontrolled switches, semicontrolled and fully controlled switch as diodes, thyristors, IGBT, Mosfet,.....

Types and applications for different switching devices.

Definition of the rectifier.

Different singlephase rectifier circuits and their configurations.

Half wave and full wave rectifier singlephase circuits in case of uncontrolled and in case of half and full controlled bridges.
All of these topics are in a step by step lessons with many solved examples.
Second Course "Complete AC Choppers Course for Electrical Engineering" Worth $197
Throughout the course you will learn:

AC chopper circuits with R load.

AC chopper circuits with L load, RL parallel, and series load.

AC chopper with capacitive load.

Integral cycle control of AC chopper with example.

AC chopper in transformer tap changing.

AC chopper loaded by an AC motor with back e.m.f.

Applications and disadvantages of AC choppers.
All of these topics are in a step by step lessons with many solved examples.
Third Course "Complete DC Choppers Course for Electrical Engineering" Worth $197
Throughout the course you will learn:

Definition of DC choppers and applications of DC choppers.

Generation of the duty cycle.

Types of circuits used to step up or step down the DC voltage.

Analyze the stepdown DC chopper with R and RLE load,

Analyze the stepup DC chopper with R, RL, and RE loads.

Analyze a buck regulator, boost regulator, and buckboost regulator circuits.

Equations to get the minimum values of inductance and capacitance required for those circuits.
All of these topics are in a step by step lessons with many solved examples.
Fourth Course "Complete Inverters Course for Electrical Engineering" Worth $197
Throughout the course you will learn:

Definition of the inverter.

Importance and applications of inverters.

Singlephase halfbridge Rload.

Singlephase halfbridge RLload.

Performance parameters of an inverter.

Singlephase bridge inverter Rload.

Singlephase bridge inverter RLload.

Threephase inverters and obtaining the line voltages and phase voltages.

Single pulse width modulation.

Multiple pulse width modulation.

Sinusoidal pulse width modulation.
All of these topics are in a step by step lessons with many solved examples.
If you've been looking for ONE COURSE BUNDLE with indepth insight into the basics of power electronics, take this bundle.
Electrical Power Engineering Principles
Learn all the basic theories and principles of electrical engineering
Created by Stephen Brooks  Chartered Electrical Engineer
Students: 2956, Price: $19.99
Students: 2956, Price: Paid
Stephen Brooks is a Chartered Electrical engineer who has worked in the electrical power utility industry for over 30 years as a design engineer, commissioning engineer and construction project manager.
This module has been written to teach nonengineers the basics of electrical power engineering, and will also act as a useful revision tool for electrical graduate engineers or those engineers new to the industry.
The course uses detailed illustrations & simple explanations to convey the topics involved.
Future modules will develop these basic engineering ideas further and use them to show how an electrical power utility system is designed, constructed, tested and operated.
Ultimate Electric Circuits Bundle for Electrical Engineering
Learn the fundamentals of electric circuits from scratch with dozens of examples for electrical engineering students
Created by Ahmed Mahdy / Khadija Academy  Electrical Power Engineer
Students: 2481, Price: $24.99
Students: 2481, Price: Paid
"Ultimate Electric Circuits Course Bundle"
This is the only course out there with everything you need to know about the basics of electric circuits
"Basic Concepts and Basic Laws of Electric Circuits" Worth $197
What are we going to learn from this course?

Fundamentals of electric DC circuits

SI units or international Units

Definition of the electric charge

Definition of the electric current

Definition of the electric voltage

Definition of the electric power

Definition of electric energy

Difference between dependent and independent sources

Applications of DC Circuits

Know the principle of TV picture tube or CRT

Know about the electricity bills calculations

Basic laws of Electricity

Understand Ohm's law

Difference between an Open Circuit and Short Circuit

Difference between Fixed and Variable Resistance

Definition of Conductance

Know the difference between series and parallel connection

Definition of the Nodes, Branches, and loops in the electric circuit

Definition of Kirchhoff's laws

Definition of Kirchhoff current law

Definition of Kirchhoff voltage law

The series resistor and voltage division

Know parallel resistor and current division

WyeDelta transformations and viceversa

Understand Applications as Lightning Systems
All of these topics are in a step by step lessons with many solved examples.
Second Course "Methods of Analysis and Basic Theorems of Electric Circuits" Worth $197
What are we going to learn from this course?

Understand Nodal analysis no voltage source

Understand Nodal analysis with voltage sources

Understand the supernode

Understand Mesh analysis no current Source

Understand Mesh analysis with current Sources

Understand the super mesh.

Compare between Nodal and Mesh analysis

Understand applications as DC transistor circuits

Understand the meaning of the linearity property

Use the Superposition theorem

Understand Thevenin's theorem

Understand Norton's theorem

Maximum power transfer

Understand the source transformation

Understand application as resistance measurement
All of these topics are in a step by step lessons with many solved examples.
Third Course "Operational Amplifiers, Capacitors, and Inductors in Electric Circuits" Worth $197
What are we going to learn from this course?

Understand the various types of operational amplifiers

Understand ideal opamp, inverting amplifier, noninverting amplifier

Understand summing opamp circuit

Understand difference opamp circuit

Understand cascaded opamp circuit

Know the applications of opamp like DigitaltoAnalog converter

Know the applications of opamp like instrumentation amplifiers

Know what is a capacitor

Understand how to simplify series capacitors

Understand how to simplify parallel capacitors

Know what is an inductor

Understand practical capacitors and practical inductors

Understand how to simplify series inductors

Understand how to simplify parallel inductors

Know how to get energy stored in the capacitor

Know how to get energy stored in the inductor

Know the applications of capacitors and inductor as the integrator

Know the applications of capacitors and inductors as differentiators.
All of these topics are in a step by step lessons with many solved examples.
If you've been looking for ONE COURSE BUNDLE with indepth insight into the basics of electric circuits, take this bundle.
Ultimate Electrical Substations, HV and Generation Bundle
This electrical engineering bundle consisting of electrical substation course, high voltage course and generation course
Created by Ahmed Mahdy / Khadija Academy  Electrical Power Engineer
Students: 2349, Price: $24.99
Students: 2349, Price: Paid
"Ultimate Electrical Substations, Generation and High Voltage Course Bundle for Electrical Engineering"
The only course bundle out there with everything you need to know about electrical substations, generation of electricity, and high voltage generation
If you've been looking for ONE COURSE BUNDLE with indepth insight into the basics of electrical substations, electrical generators, and high voltage generation, take this bundle.
First Course "Complete Electrical Substations For Electrical Power Engineering"
What are you going to learn?

Function, classification, and voltage of electrical substations.

Main components like power transformers, conductors, insulators, switch gears, current transformer, capacitor voltage transformer, and voltage transformer.

Different types of circuit breakers, relays, and their classification according to time, construction, and function.

Learn the difference between circuit breaker and fuse, in addition to their applications.

Understand the definition of IP or ingress protection.

Grounding system including the effect of current on the human body and components of the grounding system,

Types of electric hazards and classification of the earthing systems.

Measuring the earthing resistance by Megger and the threepoint method.

Design of an earthing system using ETAP program.

Ring main unit and its importance in the electrical power system.

Types of switches used in the electrical power systems and substations.

Overhead transmission lines, underground cables, and the difference between them.

Busbars in power system, its importance, its different schemes, and how to select them.

Lightning arrester and wave trap which are used in substations.

Air and gasinsulated substations.

Overview of the design of an electrical substation and single line diagram of 66/11 kV substation.
Second Course "High Voltage Generation For Electrical Engineering"
What are you going to learn in this course?

Types of high voltages occurring in an electrical system.

Methods used to generate high voltage AC at power frequency.

How to generate high voltage AC at high frequency for simulating switching actions on our electrical equipment.

Definition of impulse waveform in the electrical system.

Methods of generating high voltage impulses to test our equipment.

Different methods used to generate very high DC voltage in electrical systems in addition to voltage doubler circuits and multiplier circuits.
Third Course "Complete Generation Course For Electrical Engineering"

How electricity is generated.

Different types of electrical generators

Types of induction and synchronous generators used.

Types of electrical power plants such as hydroelectric, wind, solar, geothermal, nuclear, and fossil fuel power plants.

Comparison between different generating power plants according to running costs, fixed costs, typical ramp, and run time.

Principle of operation of each generating power plant.

Load demand and how the generating station chosen according to their dispatchability.
Ultimate Electrical Design Engineering Course Bundle
Learn Everything About Electrical Distribution Design Using Autocad, Dialux, ETAP, and Light Current Systems
Created by Ahmed Mahdy / Khadija Academy  Electrical Power Engineer
Students: 2194, Price: $24.99
Students: 2194, Price: Paid
"Ultimate Electrical Design Course Bundle"
The only course which will help you to learn everything about distribution systems design including lighting design using Autocad and Dialux programs, wiring of electrical components, selection of breakers and fuses, design of single line diagram and riser of building, selection of generators, design of earthing systems, light current systems and more
First Course "Basics of Autocad" Worth $97
Throughout the course you will learn:

Starting Autocad and changing background

Drawing line, circle, and rectangle in Autocad

Drawing polygon, polyline, and arc in Autocad

Drawing multiple lines in Autocad and adding text in Autocad

Extending lines, Fshortcuts, and selection in Autocad

Diminisions in Autocad

Multispiral line and MLD in Autocad

Block, explode, move and scale commands in Autocad

Rotate, mirror, and fillet commands in Autocad

Area calculation and adding a layer in Autocad

Drawing a fluorescent lamp in Autocad
Second Course "Complete Electrical Design Drawing using Autocad Dialux and Excel" Worth $197
Throughout the course you will learn:

Basics of Dialux program

Understanding the steps of electrical design

Design of the lighting systems using Dialux and Autocad programs

Wiring of luminaries, sockets, and switches in Autocad

Design of panel schedule for lighting and power circuits

Selection of circuit breakers and cables

Design of single line diagram of industrial and residential buildings
Third Course "Voltage Drop, Short Circuits Analysis, and Earthing Systems Design Course" Worth $197
Throughout the course you will learn:

Calculation of voltage drop and short circuit by manual calculations

Calculation of voltage drop and short circuit by ETAP

Sizing of an electrical generator

Effect of current on the human body

Types of electric hazards

Classification of earthing systems

Components of earthing systems

Design and Resistance of electrical earthing electrodes

Design and Resistance of electrical earthing conductors

Measurement of electrical earthing resistance

Design of earthing systems by manual calculations and by ETAP program
Fourth Course "Complete Light Current Course For Electrical Power Engineering" Worth $197
Learn about the fire alarm, MATV, telephone, data, CCTV, and sound systems for electrical power engineering.
What are you going to learn in this course?
In Fire Alarm System

Components of the fire alarm system.

Sensors and detectors as smoke, heat, multidetector,..etc used in a fire alarm system.

Outputs of the fire alarm system as a bell, strobe light, or horn.

Types of modules used in the fire alarm system.

Types of fire alarm control panels as conventional, analog addressable, addressable, and wireless.

Types of cables used in the fire alarm system.
In CCTV System

Camera selection in CCTV system.

Types of the camera according to fixed or movable, resolution, and focal length.

Management of CCTV system by using quadrature, multiplexer, matrix switch, and DVR.

Different cables used in the CCTV system.
In Telephone System

Types of telephone systems.

Components of the traditional telephone system.

Cables, outlets, and different frames used in the telephone system.
In Data system

The function of the data system.

Data system outlet and different types of cables used.

Patch panel, rack, and switches used in the data system.
In the MATV system

Components of MATV system.

Types of antennas used and frequency.

MATV switches, launch amplifier, combiner, and more components.

Cables used in the MATV system.
In the Sound system

Components of the sound system.

Types of speakers used.

Selection and function of the power amplifier.

The function of the attenuator, rack, and matrix switch in the sound system.
Fifth Course "Complete ETAP Course for Electrical Engineering" Worth $297
Throughout the course, we will cover tons of topics in the ETAP program, one of the most important programs for electrical power engineers.
You will learn in this course:

Drawing SLD in the ETAP program

Adding components and ratings in the ETAP program

How to do load flow analysis in ETAP

How to do short circuit analysis in ETAP

How to do the voltage drop calculations in ETAP

How to do arc flash studies in ETAP

How to do transient stability analysis in ETAP

Definition of harmonics

How to do harmonic analysis in ETAP

How to design earthing systems in ETAP

How to simulate PV system in ETAP
If you've been looking for ONE COURSE with indepth insight about electrical design, take this course.
Electrical Engineering: Power Electronics Masterclass
Further your knowledge in power engineering by learning to design rectifiers, dctodc converters, and inverters
Created by Ricardo Romero, PE  Professional Engineer  Owner at Romero Engineering Company
Students: 2138, Price: $139.99
Students: 2138, Price: Paid
This course is designed to provide a complete overview of one of the main areas of electrical engineering and power engineering: power electronics. The three main types of power electronics devices (i.e., rectifiers, dctodc converters, and inverters) are discussed in detail in the lectures. For each device, the ideal circuit is discussed along with different circuit topologies to provide a wide range of practical uses.
By learning how rectifiers, dctodc converters, and inverters are designed, you will learn the fundamentals for designing your own power electronics devices, such as battery chargers, switchedmode power supplies, solar inverters, and variable frequency drives, among others.
Throughout the course, practical numerical problems are solved to aid your understanding of power electronics. Additionally, the course includes 5 quizzes with a total of 15 questions. Three articles are also provided so you can learn by reading as well as videos.
Remember that Udemy offers a 30day moneyback guarantee. I am also always available for questions while you go through the course to ensure everything is clear.
See you in the course!
Electric Circuits for Electrical Engineering and Electronics
Start your career in electrical & electronics engineering by learning everything about electric circuits and electronics
Created by Ricardo Romero, PE  Professional Engineer  Owner at Romero Engineering Company
Students: 1894, Price: $139.99
Students: 1894, Price: Paid
This course is designed to provide a complete overview of electric circuit analysis used in electrical engineering and electronics engineering. Electric circuit analysis is the most fundamental concept for electrical engineering, electronics engineering, and computer engineering. It is for that reason that electric circuit analysis is usually the first course taught in electrical, electronics, and computer engineering programs at universities, as basically anything related to electrical, electronics, or computer engineering stems from electric circuit analysis.
In this course you will learn everything about electric circuits and electronics, from the basics such as what an electric circuit is and the fundamentals of electrical quantities like voltage, current, and power, all the way to complex techniques for analyzing electric and electronics circuits. The course is roughly divided into the following sections:
1. Fundamentals of Electric Circuits and Electronics: in sections 2 and 3 of the course, we will discuss what an electric circuit is at the most basic level, followed by explanations of electrical quantities and sources of electricity. This is the foundation for electrical engineering and electronics engineering.
2. Basic DC Electric Circuit Analysis: in sections 4, 5, and 6 we will discuss the analysis of direct current (DC) circuits, starting from basic analysis techniques such as Kirchhoff's voltage law and Kirchhoff's current law (KVL and KCL), voltage division, current division, nodal analysis, and loop analysis. We will also be discussing how complex resistive circuits can be simplified into equivalent circuits for easier analysis of electric circuits and electronics.
3. Advanced DC Electric Circuit Analysis: in section 7, we will discuss advanced analysis techniques for electric circuits and electronics such as the superposition theorem, Thevenin's theorem, and Norton's theorem.
4. EnergyStoring Devices in Electric Circuits and Electronics: in sections 8, and 9, we will discuss passive components in circuits that are able to store energy: capacitors and inductors. We will cover the fundamentals of capacitors and inductors, how they store energy, and how to simplify complex circuits containing combinations of capacitors and inductors into simpler circuits for easier analysis of electric circuits and electronics.
5. Transients in Electric Circuits and Electronics: in section 10, we will discuss the analysis of firstorder electric circuits during transients. This is where things start getting a bit more advanced, but we will solve several examples to illustrate how circuits behave during transients, as opposed to the steadstate circuits previously discussed.
In each section, several examples are solved to illustrate how to analyze practical circuits.
By learning all the fundamentals about electric circuit analysis and electronics, you will be able to continue studying other topics in electrical engineering, electronics engineering, and computer engineering, such as analog electronics, digital electronics, circuit design, electric machines, power systems, and more.
Remember that Udemy offers a 30day moneyback guarantee. I am also always available for questions while you go through the course to ensure everything is clear.
See you in the course!
Ultimate Electrical Machines for Electrical Engineering
Learn everything about electric machines as DC,synchronous and induction machine, also transformer and magnetic circuit.
Created by Ahmed Mahdy / Khadija Academy  Electrical Power Engineer
Students: 1767, Price: $24.99
Students: 1767, Price: Paid
"Ultimate Electrical Machines Course Bundle"
The only course bundle out there with everything you need to know about DC machines, induction machines, transformers, magnetic circuits, synchronous machines, and generators
First Course "Complete DC Machines Course for Electrical Engineering" Worth $197
Throughout the course you will learn:

Importance and construction of DC machines.

Armature winding and emf equation.

Separately excited DC machine.

Shunt and series DC machines.

Types and applications of compound DC motors.

Torquespeed characteristics and speed control of separately excited DC motor.

Torquespeed characteristics of series DC motor.

Starting of DC machine.

Armature reaction in DC machines.

Losses in DC machines.

Dozens of solved examples on all types of DC machines.
All of these topics are in a step by step lessons with many solved examples.
Second Course "Complete Magnetic Circuits and Transformers Course for Electrical Engineering" Worth $197
Throughout the course you will learn:

Importance of the magnetic circuit and its application like a transformer.

Difference between linear and nonlinear materials.

Important definitions of magnetic circuits, flux linkage, and reluctance.

The analogy between the magnetic and electric circuits, the similarity between them like resistance, reluctance, conductivity, permeability, EMF, MMF, current, flux, magnetic flux density, and current density.

Induced EMF, fringing effect, and ampere righthand rule or screw rule.

Importance of transformers and why it is considered as the Backbone of the Power System.

Iron Core is responsible for the magnetic flux action.

Magnetic Circuit which is Represented by the iron core.

Windings of transformer, types, categories, and construction.

Insulating Material between the windings and iron core + Transformer Oil and its great importance.

Conservator of the transformer which contains oil and its function.

Breather is used as a filter in a Transformer.

Bushings which is important for human safety and protection from instant death.

Tap Changer which is used to control the voltage according to the load variations.

Cooling Tubes for transformer oil cooling and heat dissipation.

Buchholz Relay in transformer for gas detection.

Explosion Vents for protection of the transformer in case of internal faults.

Different Methods of Cooling of Transformers and their corresponding power Rating.

Different types of transformers as Power and Distribution Transformers.

Difference between Single Phase Core and Shell Type Transformers.

Difference between Three Phase Core and Shell Type Transformers.

Comparison between the Shell Type and Core Type Transformers.

Theory of Operation of Transformer.

Effect of Loading on the Transformer.

Transformer Regulation and Efficiency.

Different Losses occurring in Transformer.

Transformer Rating.

Voltage relation in the transformer.

Approximate and Exact Equivalent Circuits of the transformer.

Concept of Referring in Transformer.
All of these topics are in a step by step lessons with many solved examples.
Third Course "Complete Synchronous Machines Course for Electrical Engineering" Worth $197
Throughout the course you will learn:

Construction and principle of operation of synchronous generator.

Principle of operation of synchronous motor.

Equivalent circuit and phasor diagram of nonsalient synchronous machine.

Equivalent circuit and phasor diagram of salient synchronous machine.

Parallel operation of two generators.

Synchronization of the machine with the grid.

Dozens of solved examples on synchronous machines salient and nonsalient.
All of these topics are in a step by step lessons with many solved examples.
Fourth Course "Complete Induction Machines Course for Electrical Engineering" Worth $197
Throughout the course you will learn:

Construction and theory of operation of induction machines.

Equivalent circuit and power flow in the induction motor.

Torquespeed characteristics of induction motor.

Methods of speed control of induction motor.

Methods of starting induction motor.

Principle of operation of doubly fed induction generator.

Selfexcited induction generator.

Dozens of solved examples on induction machines.
All of these topics are in a step by step lessons with many solved examples.
If you've been looking for ONE COURSE BUNDLE with indepth insight into the basics of electrical machines, take this bundle.
Complete Electricity for Electronics, Electrical Engineering
Fundamentals of Electricity & Electric Circuits for Electronics  Circuit Design  Electrical Engineering
Created by Kashif A.  Bestselling Instructor
Students: 957, Price: $119.99
Students: 957, Price: Paid
Start understanding and Solving basic Electric Circuits easily and confidently!
If you are looking for a course that will help with your understanding of Electric Circuits and basic Electrical Engineering concepts, this course is for you.
Electric Circuit are the fundamental building blocks of all Electrical and Electronic Systems, and you definitely need a solid understanding of these concepts to advance in anything Electrical in nature. This full course is the best way to jump right in and start understanding/solving Electric Circuits confidently, like never before.
What makes me qualified to teach you Electric Circuits?
I graduated from one of the top5 Electrical Engineering programs in the US, and I have 10+ years of teaching Electrical Engineering courses as a University Professor, and I have put together this Electric Circuits class.
I am a bestselling instructor of toprated courses that get great reviews such as:
An incredible learning experience. The instructor is very clear and easily understood.  Walter Simmons
Teaching by an expert teacher.  Abdulkadir Cabuğa
Excellent! I couldn't ask for a better tutorial on whiteboard animations. The course is very thorough, and provides enough practice activities to apply the skills.  Shamuel
My Promise to You:
I'll be here for you every step of the way. If you have any questions about the course content or anything related to Electric Circuits, you can always post a question in the course or send me a direct message.
This course will cover everything you need to know about Electric Circuits:

The SI Units and Electric Quantities

Electric Circuits and Circuit Analysis

Passive Sign Convention

Power And Energy

Independent and Dependent Sources

Ohm's Law

Kirchoff's Current & Voltage Laws

Power Calculations

Nodes, Branches, Loops and Meshes

Series and Parallel Connections

Solving Circuits with Dependent Sources

Solving Linear Equations for Electric Circuits

So much more!
BONUS: As a bonus, you'll receive supplemental video lessons about solving Simultaneous Algebraic Equations, Matrices, etc.
By the end of this course, your confidence in dealing with Electric Circuits will soar. You'll have a thorough understanding of how to solve basic Electric Circuits.
Go ahead and click the enroll button, and I'll see you in lesson 1!
Cheers,
Kashif
AC Electric Circuit Analysis for Electrical Engineering
Further your career in electrical & electronics engineering by learning about AC electric circuits and electronics
Created by Ricardo Romero, PE  Professional Engineer  Owner at Romero Engineering Company
Students: 602, Price: $94.99
Students: 602, Price: Paid
This course is designed to provide a complete overview of AC electric circuit analysis used in electrical engineering and electronics engineering.
In this course you will learn everything about AC electric circuits and electronics, from the basics such as what sinusoids are, all the way to key characteristics of AC circuits such as impedance, admittance, power factor, and complex power. The course is divided into the following sections:
1. AC SteadyState Electric Circuit Analysis: we will begin in section 2 of the course by defining sinusoids and their components, since these are key concepts to understand for further analysis of AC circuits. We will then discuss the voltagecurrent relationship in resistors, capacitors, and inductors. We will finish the section by defining two important characteristics of AC circuits: impedance and admittance.
2. Power in AC Circuits: having defined the fundamentals of AC circuits, we will then move into power calculations in AC circuits, since this is the starting point for further studies in AC circuits. We will define instantaneous power, rootmeansquare (RMS) quantities, power factor, and complex power. Several examples will be solved to illustrate how to analyze AC circuits.
In each section, several examples are solved to illustrate how to analyze practical circuits.
By learning all the fundamentals about AC electric circuit analysis, you will be able to continue studying other topics in electrical engineering, electronics engineering, and computer engineering, such as analog electronics, circuit design, electric machines, power systems, and more.
Remember that Udemy offers a 30day moneyback guarantee. I am also always available for questions while you go through the course to ensure everything is clear.
See you in the course!
Electrical Engineering – Understanding Alternating Current
Fundamentals of Electrical Engineering  AC, Reactance, Impedance, Power, Power Factor, and Power Factor Correction.
Created by john Kelly  Lecturer in Electrical Engineering
Students: 447, Price: $29.99
Students: 447, Price: Paid
Hi there, my name is John Kelly. I am Lecturer in Electrical Engineering.
Are you looking to gain an understanding of alternating current? Perhaps you are looking to pursue a career in Electrical Engineering, or your studying to become an Electrician. Whether your pursuing a career or strengthening your knowledge, this course is for you.
This course is for beginners. You do not need any previous knowledge of Alternating Current. We will start right at the beginning and work our way through step by step.
There are exercise files available to download so that you can practice your newly acquired skills as you progress through the course.
By the end of the course you will be confident working with values such as reactance and impedance. You will be able to recognise how power is used in AC circuits, the effects of power factor, and power factor correction.
So join me on this course and together we will explore the fundamental knowledge that is vital in understanding how Electricity, and Electrical systems behave.
This course will be useful if you are studying for an Electrical Science exam, or to be an Electrician, an Engineer, or wish to go on to study at a higher level.
Complete Etap course for Power Electrical Engineering
The easiest way to become a Pro Designer in Electrical Power Systems using Etap from scratch!
Created by NewWay Academy  Electrical engineers
Students: 444, Price: $94.99
Students: 444, Price: Paid
Hi Our Friend!
 Looking to enhance your career in Electrical Power Distribution track ?
** If your answer is a big YES You're definitely in the right place.
Why this course is Powerful and Unique ?

This course will give a person with no prior experience the basic tools necessary to create a Complete single line diagram from scratch.

ETAP is an analytical engineering software which is helpful for an electrical engineer to simulate and analyze the steady state and dynamic power system. It is used by various sectors such as Generation, Transmission, Distribution, Industrial, Transportation and Low voltage.

The course will begin with the software overview, basics of oneline diagram creation, data entry, and quickly expands the users’ knowledge to include methods to automatically perform multiple ‘what if’ studies using multiple scenarios.

Load Flow Analysis.

add PV array with wind generator and see the PQ flow through the system

understand the interconnected power system.

Be able to design a complete Earthing grid and test it.

Transformer MVA Sizing

Short Circuit Analysis.

Protection & Coordination Analysis

Arc Flash Analysis Using IEEE:15842002 Standard

Motor Starting Analysis
At this course :
 These tracks would be like a piece of cake to you.
 We'll take you from the Scratch to a HIGHER level of Designing .
 We'll design with each other a complete electrical distribution system.
O help is always available to you if you get stuck or have a question as I believe we can learn from each other
This is a course that will continue to grow and grow ..
## So don't hesitate and click " Buy Now " button so you can begin on the right path!
Who is the target audience?

Anyone who is interested in Understanding VSD.

Electrical Engineering Students.

Anyone who wants to be familiar with Industrial Automation and Industrial Machines.

Anyone understands VSD but can't practice on Actual VFD.
Symmetrical Power System Faults For Electrical Engineering
Course for electrical power engineering student who wants to know about symmetrical faults in electric power system.
Created by Ahmed Mahdy / Khadija Academy  Electrical Power Engineer
Students: 230, Price: $24.99
Students: 230, Price: Paid
Welcome to our course for 'Symmetrical Power System Faults For Electrical Engineering', this is the first course in the protection series, that specifically designed for electrical engineering or electrical power engineering students.
Throughout the course, we will learn about symmetrical power system faults with many solved examples.
You will learn in this course:

Meaning of a fault in the electrical system

Meaning of overloading in the electrical system

Types of faults in the electrical system

Classification of faults in the electrical system

Difference between symmetrical and unsymmetrical faults

Difference between earth and phase faults

Classification of faults according to time and number of phases

Equations and phasor diagram of a healthy system

Equations and phasor diagram of a threephase fault

Equations and phasor diagram of a single line to ground fault

Equations and phasor diagram of a line to line fault

Equations and phasor diagram of a double line to ground fault

Effect of opencircuit fault on electrical power system

Current and voltage waveforms in case of an electrical fault

Representation of electrical components, reactance diagram, and perunit system

The solution of several examples on per unit system

Different reactances in the electrical machine during fault

Thevenin method and steps of analyzing symmetrical faults

The solution of many examples on symmetrical faults
If you have any questions, don't hesitate to contact me at any time.
See you in our course :)
Introduction to Transformers (Electrical Engineering)
Learn about electrical transformer theory, design, construction and protection. Ideal for Electrical Engineering!
Created by saVRee 3D  saVRee.com. High quality online engineering courses.
Students: 152, Price: $24.99
Students: 152, Price: Paid
Unless you are living 'off the grid', you are using electricity from an electrical system that uses a transformer. Power stations use electrical transformers to increase voltage. Substations use electrical transformers to decrease voltage. Even your smartphone and laptop use transformers to charge their batteries. But what are transformers? How do they work? And why do we need them? This course will help you answer all of these questions and many more!
In this course, you will learn:

How electrical transformers work.

How to identify different types of electrical transformer.

The name and function of all of a transformer's main components.

How Buchholz relays work.

How silica gel breathers work.

The purpose of a conservator tank.

What ONAN means.

Why we need transformers in the electrical grid.

Where transformers are installed in the electrical grid.

And much more!
The course is designed to take you from zero to hero concerning electrical transformer knowledge. Even if you already have some background electrical engineering knowledge, this course will serve as an efficient refresher. Whatever your level of understanding, or engineering background (electrical engineering, mechanical engineering, HVAC, chemical engineering, oil & gas industry, power engineering etc.), we can guarantee you will have never taken an engineering course like this one (unless you have taken one of our other courses...).
Why this course?
Because saVRee and saVRee lite have trained over 5,000 students on Udemy with an average paid course rating of 4.7/5.0!
Interactive 3D models are used extensively to show you each type of electrical transformer and all of their main components. We strongly recommend you checkout the free preview videos before signingup because we know you won't be disappointed.
The course is packed with 2D images, 2D animations and 3D animations.
Written content has been read aloud so that you can 'learn on the go' without needing to watch the screen constantly.
Don't waste more time reading this course description, checkout the free preview videos and the curriculum, then make an informed decision.
All purchases come with a 30 day noquestionsasked refund policy.
Hope to see you on the course!
Complex Numbers for Electrical Engineering Students
What Every Engineering Student "Must Know" about Complex Numbers  Calculations, Operations, Formulas and Solving Rules
Created by Sasha Jakovljevic  University Lecturer of Electrical Engineering Courses
Students: 94, Price: $19.99
Students: 94, Price: Paid
Kick start your Electrical Engineering abilities and overcome the most common roadblock to success in solving electrical circuits!
Complex Numbers course will provide you with necessary, yet often overlooked mathematical background, so much needed for every Electrical Engineering student. A basis that will help you with number of courses (no pun intended) you'll need to pass to get your Engineering degree. Understand the real hidden prerequisite behind phasors and A/C circuits analysis.
Get ready to zoom through your ee problems with confidence and nonchalantly solve for Voltage and Current phasors, equivalent Impedance and Reactive power compensation, to name a few...
I will reveal to you the critical concepts related to complex numbers: we will start from basics and introduce two representation forms, learn how to convert complex numbers, conjugate them, negate them, rotate them, flip them and perform necessary operations with them. From addition and subtraction to multiplication and division, no matter what their form is. Finally, I will teach you the application of complex numbers in Electrical Engineering through phasors, impedance and complex power.
The course is your track to obtaining mathematical skills you knew you won't be able to get away from, the moment your teacher mentioned A/C circuits! This course will take you from struggling with complexities to successfully applying complex numbers. It will help you become intimately familiar with fundamental tool in solving complex Alternating Current circuits.
So what else is in it for you?
You’ll get solutions to over 50 different problems, ever increasing in their difficulty so you are not left in the dust. This approach will take you from beginner to expert!
You’ll gain instant access to all 3 main sections of the course! In future, you will also have access to 2 extra sections that will be developed specifically for beginners to catchup and advanced students to roundup their knowledge. In addition, after every lesson, an additional lesson will be provided containing exercise problems and questions  and of course answers and solutions to all of those.
The course is setup to quickly take you step by step, through the process of dealing with complex numbers in many different ways. It will equip you with the knowledge to handle and perform complex calculations and obtain solutions independently. You will be stunned as to how easy the complex numbers really are!
Don’t believe me? I offer you a full money back guarantee within the first 30 days of purchasing the course.
Here’s what you get with the course:
You’ll get access to the 3 main sections of the course that will teach you the fundamentals of complex numbers from the ground up. The course is supported with over 45 minutes of clear content that I walk you through each step of the way.
All at your fingertips instantly.

The course starts with the basics. You will get an in depth understanding of the fundamentals of complex numbers. Fundamentals are the most important part of building expert knowledge and skills. You will learn everything from what is number axis all the way up to different representation forms of complex numbers and conversions.

Next you’ll learn how to perform operations with complex numbers and how to apply multiplication to actually divide two complex numbers. You will be learning to handle imaginary unit "j" in every way: multiplication, division, squaring, cubing, finding reciprocal value and using it to rotate other complex numbers.

Once you’ve learned complex number operations, you are going to learn how to conjugate and negate complex numbers as well as how to apply those in formulas to solve your circuits.

Then you are going to learn how to use your complex numbers knowledge in real Electrical Engineering problems. Being able to apply complex numbers in calculation of phasor Voltages and Currents is a very important aspect when it comes to solving A/C circuits.

At this point you’ll be ready to start solving more complex problems involving finding equivalent Impedance. We will spend a great deal of time learning how to deal with series and parallel connection of Impedances through our knowledge of complex numbers.

Next you’re going to learn how to apply complex numbers to Complex Power and I will make connection with the real and imaginary components of Complex Power: Active and Reactive Power, as well as magnitude that is called Apparent Power.

Lastly you will gain access to the bonus resource  a "cheatsheet" of formulas to help you in future prepare your Electrical Engineering exams.
Over this course's chapters you will learn:

How to interpret axes and complex plain

Representation fundamentals

Polar and rectangular representations

How to use imaginary unit "j"

Conversion between different representation forms

Operations with complex numbers

Dividing complex numbers using multiplication

Conjugation and negation

Application to phasor Voltages and Currents

Finding equivalent Impedances

What is Complex Power in A/C circuits

Complex number role in Electrical Engineering
What else will you get?
 Personal contact with me, the course instructor
 Lifetime access to course materials including ALL future additions, updates and improvements
 Understanding of how to masterfully compute complex number problems
 Downloadable resources to help you along the way
 Personally verified and edited captions in English (no inaccurate, automaticallygenerated captions)
This all comes under one convenient easy to use platform. Plus you will get fast, friendly, responsive support on the Udemy Q&A section of the course or direct message.
I will be here for you every step of the way!
So what are you waiting for? Sign up now and change your engineering world today!
Basic electrical engineering
Basic electrical engineering
Created by Amjith S  Assistant Professor of MIT
Students: 86, Price: $19.99
Students: 86, Price: Paid
No single discovery has affected our lives, our culture and our survival more than electricity. Electricity is everywhere; it lights our way, cooks our food and can even brush your teeth. For an example, imagine where the medical field would be without electricity and in that sense how many lives have been saved due to electrical devices like defibrillators, pacemakers, etc. From talkies to eight tracks to screaming “I want my MTV”, even hashtagging, none of it would be possible #WithoutElectricity.
So what is electricity and where does it come from? More importantly, why is carpet, socks and a doorknob a bad combination? In its simplest terms, electricity is the movement of charge, which is considered by convention to be, from positive to negative. No matter how the charge is created, chemically (like in batteries) or physically (friction from socks and carpet), the movement of the discharge is electricity.
This flow of electrical charge is referred to as electric current. There are two types of current, direct current (DC) and alternating current (AC). DC is current that flows in one direction with a constant voltage polarity while AC is current that changes direction periodically along with its voltage polarity. Thomas Edison and Alessandro Volta were pioneers in DC current and wrote much of electricity’s history. But as societies grew the use of DC over long transmission distances became too inefficient. Nikola Tesla changed all that with the invention of alternating current electrical systems. With AC it is possible to produce the high voltages needed for long transmissions. Therefore today, most portable devices use DC power while power plants produce AC.
SIEMENS DIGSI 4 Training Part 2, Electrical Engineering
Covering topics in depth, Control, Automation & Protection Engineering Software
Created by Muhammad Kashif  ENGINEER
Students: 14, Price: $89.99
Students: 14, Price: Paid
Hello,
Welcome to 2nd part of Digsi Software (Control, Automation & Protection Engineering) training. In this training i have covered following topics.

Accessing the Web site and going through Digsi 4 and 5 software and devices

We will open website and explore together.


Downloading the Digsi 4 software and Devices from website

Show you how to download Digsi 4 software from website


Installing a specific device driver from website

What is Firmware

Why it is important to update the firmware of device

What precautions to take during firmware update

what to do if firmware crashed

Why it is important to update firmware version of Line Differential Relays

How to Download Firmware of device

How to run and installed firmware in device

Introduction to Sigra Software
The PC operating program DIGSI 4 is the user interface to the SIPROTEC devices. It is designed with a modern, intuitive user interface. With DIGSI 4, SIPROTEC devices are configured and evaluated – it is the tailored program for industrial and energy distribution systems. For the system engineering of DIGSI 4 parameterized devices the IEC 61850 system configurator is used. The IEC 61850 system configurator is the manufacturerneutral solution for the interoperable engineering of IEC 61850 products and systems. The tool supports the SCL (substation configuration description language) configuration files from the IEC 618506 through import or export of all formats (ICD/IID/CID/SCD/SSD/SED). Thus, IEC 61850 devices can be added and a complete IEC 61850 station is available for the substation automation Technology. Must have course for Electrical Engineers.
Thanks