Ultimate Power Electronics and Electrical Protection Bundle

The largest and most comprehensive bundle on power electronics and electrical protection for electrical engineering

4.64 (723 reviews)
Udemy
platform
English
language
Engineering
category
5,561
students
51 hours
content
Mar 2024
last update
$94.99
regular price

What you will learn

Understand definition of power electronics

Realize different applications of power electronics

Know different types of converters

Know different categories of power electronic devices

Understand different losses associated with power electronics

Difference between ideal and practical switch

Understand different factors when selecting the power electronic device

Understand how diode works

Understand the diode V-I Characteristics

Learn about different types of diodes

Learn how a thyristor works

Understand thyristor V-I characteristics

Understand different operating states of thyristor

Know the latching and holding current of thyristor

Understand different types of thyristor

Learn how fully controlled switch works

Understand different types of fully controlled switches

Understand why GTO is the king of power electronics

Understand how rectifier works

Learn Different Types of Rectifiers for Single Phase

Learn about Half Wave Rectifier R load for both controlled and uncontrolled

Learn about Half Wave Rectifier R-L load for both controlled and uncontrolled

Learn about Half Wave Rectifier R-L load for both controlled and uncontrolled with Free wheeling Diode

Understand the Usage of Freewheeling Diode

Understand the Principle of Firing angle

Understand the Biphase Rectifier

Understand the fully , half controlled and uncontrolled Bridge Rectifier

Understand the Performance Parameters for Rectifier Circuit

Learn about the Power Factor

Learn about the Firing Circuit UJT

Understand the Protection of Power Electronic devices Against Over-current,Over-Voltage and Transient state.

Understand the Series and Parallel Diodes

Learn the Isolation of Firing Circuit using Pulse Transformer

Learn the Isolation of Firing Circuit using OptoCoupler

Understand the definition of AC chopper

Analyze the AC chopper R load circuit

Learn the AC chopper L load circuit

Analyze the AC chopper R-L series load circuit

Understand the AC chopper R-L parallel load circuit

Analyze the AC chopper Capacitive load circuit

Understand the integral cycle control

Learn how to use AC chopper in transformer tap changing

Learn the applications and disadvantages of AC choppers

Analyze the AC chopper loaded by AC Motor

Definition of DC choppers

Applications of DC choppers

Understand step down DC chopper with R-load.

Generation of duty cycle

Step down DC chopper with R-L-E load

Step up DC chopper R or R-L load

Step up DC chopper with RE load

Buck regulator

Boost regulator

Buck-boost regulator

Definition of inverter

Importance and applications of inverters

Analysis of single phase half bridge R-load

Analysis of single phase half bridge RL-load.

Performance parameters of an inverter

Analysis of single phase bridge R-load

Analysis of single phase bridge RL-load.

Understand the three phase inverters and obtaining the line voltages and phase voltages.

Single pulse width modulation

Multiple pulse width modulation

Industrial inverters

Sinusoidal pulse width modulation

simulation using MATLAB of single-phase half wave controlled rectifier

simulation using MATLAB of single-phase bridge controlled rectifier

simulation using MATLAB of single-phase AC chopper with R and RL load

simulation using MATLAB of DC-DC converter as a buck regulator

simulation using MATLAB of boost regulator

simulation using MATLAB of buck-boost regulator

simulation using MATLAB of single-phase half-bridge inverter

simulation using MATLAB of single-phase bridge inverter

simulation using MATLAB of three Phase Inverter

Overview on the PLC hardware configuration

Overview on types of inputs and outputs in PLC

Advantages of using PLC over classic control

Overview on different PLC programming languages

Discuss the important symbols in PLC

Definition of PLC scan cycle

Usage of markers in PLC

Understand types of timers and counters in PLC and how to use them

Do tasks in batch simulator

Do tasks in silo simulator

Do tasks in door simulator

Do tasks in I/O simulator

Different components of the electrical protection system

Zones of protection of electrical systems

Trip circuit of electrical system

Primary and backup protection

Characteristics of measuring the relay performance

Fault clearing time and time lag in electrical protection

Different types of relays

Directional power relay and its applications

Definition of overcurrent protection

Settings and applications of overcurrent protection

Distance protection in electrical systems

Construction and operation of a distance relay

Plain impedance relay

Operating characteristics and R-X diagram of an impedance relay

Stepped distance protection

Transmission line protection and directional impedance relay

Modified impedance-type distance relay

Reactance-type distance relay

Mho or admittance distance relay

Principle of operation and selection of low voltage circuit breakers

Principle of operation of earth leakage circuit breaker or residual current CB

Selection of medium voltage circuit breakers

Types of low voltage and high voltage fuses

Types of differential protection

Current balance differential protection

Voltage balanced differential protection

Percentage differential current relay

Description

"Ultimate Power Electronics and Electrical Protection for Electrical Engineering"

This magnificent 51-hour course will help you have a kick start in power electronics including rectifiers, AC choppers, DC choppers, and inverters. In addition to the basics of electrical protection such as overcurrent protection, differential protection, distance protection, circuit breakers, and fuses.


Throughout the power electronics course, you will learn:

  • The applications of power electronics and the definition of a power electronic circuit.

  • Different types of switches such as diodes, thyristors, GTO, BJT, IGBT, Mosfet, etc.

  • The different AC/DC converters (rectifiers) such as half-wave and full-wave rectifier single-phase circuits in uncontrolled, half, and fully controlled bridges. In addition to the different three-phase rectifier circuits.

  • AC chopper circuits or AC/AC converters in the case of R load, L load, RL parallel, RL series load, and capacitive loads. In addition to the integral cycle control of an AC chopper.

  • DC choppers or DC/DC converters such as the step-down DC chopper with R and R-L-E load, and the step-up DC chopper with R, RL, and RE loads. Moreover, the buck, boost, and buck-boost regulator circuits.

  • Inverter or DC/AC converters including single-phase half-bridge R-load, single-phase half-bridge RL-load, single-phase bridge inverter R-load, single-phase bridge inverter RL-load, and the three-phase inverters. Furthermore, the single, multiple, and sinusoidal pulse width modulations.


You will learn also the simulation using the MATLAB Simulink program:


  • Single-phase half-wave controlled and bridge-controlled rectifiers.

  • Single-phase AC chopper with R and RL load

  • DC-DC converters such as buck, boost, and buck-boost regulators.

  • Single-phase half-bridge, bridge inverters, and three-phase inverters.



Throughout the electrical protection course, you will learn:


  • The different components of the electrical protection system, zones of protection, the trip circuit of the electrical system, the primary and backup protection, and the fault clearing time.

  • The different types of relays such as directional power relays, overcurrent relays, distance relays, plain impedance relays, directional impedance relays, modified impedance-type distance relays, reactance-type distance relays, Mho or admittance distance relays, and more.

  • The principle of operation and selection of low-voltage circuit breakers

  • The principle of operation of earth leakage circuit breaker or residual current CB

  • The selection of medium voltage circuit breakers

  • The types of low voltage and high voltage fuses


In addition to the LogixPro course:


This is the only course out there that can teach you the basics of PLC programming with fun and awesome simulations.

Logixpro program is an interesting and useful simulator for the simulation of different procedures such as moving belts, garage openings, and closing, a mixer that consists of a tank in addition to some pipes of different liquids, and many more!

This program helps learn ladder programming and PLC with an easy and interactive simulation method.



Bonus Gift:


​You will also get the slides for the Ultimate Power Electronics and Protection bundle for those who are interested in them or having them as a revision for themselves


  • More than 250 Pages of Rectifiers and Basics of Power Electronics Slides

  • 45 Pages of AC Choppers Slides

  • 78 Pages of DC Choppers Slides

  • 90 Pages of Inverters Slides

  • 153 Pages of Electrical Protection Slides



Take this bundle if you've been looking for ONE COURSE BUNDLE with in-depth insight into power electronics, electrical protection, ETAP, and PLC basics.

Content

Uncontrolled Rectifiers

Introduction to Power Electronics
Uncontrolled Switches
Overview on Rectifiers
Rectifier Definition
Half-wave uncontrolled rectifier R Load
Half-wave uncontrolled rectifier R-L Load
Derivation of the Discontinuous Current in R-L Load
Freewheeling Diode (Commutation Diode)
Half-wave Uncontrolled R-L Load with FWD
Half-wave R-L Load Continuous Current Mode With FWD
Bridge Full-wave uncontrolled rectifier

Half and Fully Controlled Rectifiers

Semi-Controlled Switches Part 1
Semi-Controlled Switches Part 2
Semi-Controlled Switches Part 3
Firing Angle
Half-wave controlled rectifier R Load
Half-wave controlled rectifier R-L Load
Half-wave controlled rectifier R-L Load with FWD
Example 1
Example 2
Example 3
Example 4
Example 5
Biphase Half-wave controlled rectifier
Example 6
Bridge Full-wave controlled rectifier
Example 7
Half controlled Bridge rectifier with FWD
Half Controlled Bridge with No FWD
Example 8
Example 9
Performance Parameters
Power Factor

Fully Controlled Switches

Fully Controlled Switches Part 1
Fully Controlled Switches Part 2
Fully Controlled Switches Part 3

Firing Circuits

Over Current Protection
Over Voltage Protection
Transient Protection
Series Diodes
Parallel Diodes
Firing Circuit UJT
Why is Isolation of Firing Circuit Important ?
Isolation Using Pulse Transformer
Isolation Using OptoCoupler
Refresh your Knowledge

Fundamentals Of AC Choppers

Introduction to AC Choppers
Definition Of AC Choppers
Switching Techniques In AC Choppers
Applications On AC Choppers
Types Of AC Choppers
AC Chopper With R Load
Example 1 On AC Chopper With R Load
Example 2 On AC Chopper With R Load
AC Chopper using L load Part 1
AC Chopper using L load Part 2
Example On AC Chopper With L Load
AC Chopper R-L Series Load
Example on R-L Series Load
AC Chopper With R-L Parallel Load
Example on R-L Parallel Load
AC Chopper Loaded By Pure Capacitive Load
Example AC Chopper Loaded By Pure Capacitive Load
AC Chopper Loaded By Heavy Rectifier
AC Chopper loaded by AC Motor With Sinusoidal Back Emf
Example On AC Chopper Loaded By An AC Motor With Sinusoidal Back Emf
Integral Cycle Control
Example On Integral Cycle Control

Fundamentals Of DC Choppers

Introduction To DC Choppers
Definition And Applications Of DC Choppers
Step Down DC Chopper With R Load
Example On Step Down DC Chopper With R Load
Generation Of Duty Cycle
Switching Techniques
Step Down DC Chopper With RLE Load Part 1
Step Down DC Chopper With RLE Load Part 2
Example 1 On Step Down DC Chopper With RLE Load
Example 2 On Step Down DC Chopper With RLE Load
Step Up DC Chopper With R Or RL Load
Step Up DC Chopper With RE Load
Example On Step Up DC Chopper With RE Load
Buck Regulator Part 1
Buck Regulator Part 2
Example On Buck Regulator
Boost Regulator
Example On Boost Regulator
Buck-Boost Regulator
Example On Buck-Boost Regulator

Fundamentals Of Inverters

Introduction to Inverters
Definition of Inverter
Importance and Applications of Inverters
Single Phase Half Bridge R-Load
Single Phase Half Bridge RL-Load
Performance Parameters Of An Inverter
Example On Single Phase Half Bridge
Single Phase Bridge Inverter R-Load
Single Phase Bridge Inverter RL-Load
Example on Single Phase Bridge Inverter
Three Phase Inverters And Obtaining The Line Voltages
Three Phase Inverters And Obtaining The Phase Voltages
Example on Three Phase Inverters
Single Pulse Width Modulation
Multiple Pulse Width Modulation
Example On Multiple Pulse Width Modulation
Sinusoidal Pulse Width Modulation
Industrial Inverter
Bonus Lecture

Screenshots

Ultimate Power Electronics and Electrical Protection Bundle - Screenshot_01Ultimate Power Electronics and Electrical Protection Bundle - Screenshot_02Ultimate Power Electronics and Electrical Protection Bundle - Screenshot_03Ultimate Power Electronics and Electrical Protection Bundle - Screenshot_04

Reviews

Karim
May 14, 2023
It is too academic, The instructor focuses on the academic part (the one we studied in college) with all its complexities and trying to simplify it down in alot of explanation, it will be a much more productive to have the practical approach (The one we use in our work), the course will be much simpler, shorter and to the point
Massimiliano
July 2, 2022
very slow parts are mixed with difficult parts where the equations are illustrated without explaining where the data comes from. In other slides, however, he spends half an hour simplifying 2 * pi / 2 to pi.
Alam
January 10, 2022
I really like the explanation. it's simple and easy to understand. But, i think the slides it self could be better. but overall the video are good
Abdullah
December 14, 2021
good course. the instructor explains well. The slides are not included in the lectures. It was difficult for me to follow the topics without having the slides.
petros
September 13, 2021
i would prefer less writting with the mouse. Also, some youtube videos i found explained better the thyristor
Prapakaran
April 8, 2021
Very Basic and Very old material. Expected more practicle example and insight in power electronics design
Gavin
March 14, 2021
Yes, I think this course is a good match for me. In light of my creative endeavor to work with energy sources, this course would provide the much needed study.
Chetan
January 19, 2021
I'm trying to seek in depth knowledge about this course, so far it gives a good picture but let's see if can dive deep into them to understand better.
Shravan
December 20, 2020
The experience is good but i feel improvement is needed and tutor's english is littlebit different in accent , sometimes it is difficult to understand what he is speaking.
Volker
October 31, 2020
Very good so far. Only complaint I have is the click noises every time the pen is used, which is very irritating.
Mohammed
March 11, 2020
The calmness with which mahdy sir explains shows the love and passion he has for teaching the students.Thank u sir
Sabareesh
February 29, 2020
I can’t understand the slang what he is upto, just he is explaining what’s return in the notes.please don’t make the people fool.? Money wasted
Ingmar
August 27, 2017
Good explanations, should a bit slower and more examples are necessary. Looking forward for the next part of the course.
Timthy
August 13, 2017
I thought that this was a very thorough course on the components of power electronics. It covered all of the different types of the major power electronic components (Diode, Thyristor and Transistor). There was a good balance between the function of the components as well as the math. I especially liked the visuals of the current and voltage curves. I definitely recommend this course to anyone who is trying to get a better understanding of power electronics.
Avery
June 26, 2017
So far topics are good and meaningful. Too much reliance on reading text book going through formulas.

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1118012
udemy ID
2/17/2017
course created date
11/21/2019
course indexed date
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course submited by