Power Electronics for Electrical Engineering

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Gain the skills and credentials to kickstart a successful career and learn from the experts with this step-by-step training course. This Power Electronics for Electrical Engineering has been specially designed to help learners gain a good command of Power Electronics for Electrical Engineering, providing them with a solid foundation of knowledge to become a qualified professional.

Through this Power Electronics for Electrical Engineering, you will gain both practical and theoretical understanding of Power Electronics for Electrical Engineering that will increase your employability in this field, help you stand out from the competition and boost your earning potential in no time.

Not only that, but this training includes up-to-date knowledge and techniques that will ensure you have the most in-demand skills to rise to the top of the industry. This qualification is fully accredited, broken down into several manageable modules, ideal for aspiring professionals.

Get a deep understanding of the Power Electronics for Electrical Engineering just in hours not years
Familiar yourself with the recent development and updates of the relevant industry
Know how to use your theoretical and practical knowledge to adapt in any working environment
Get help from our expert tutors anytime you need
Access to course contents that are designed and prepared by industry professionals
Study at your convenient time and from wherever you want

Affordable premium-quality E-learning content, you can learn at your own pace.
You will receive a completion certificate upon completing the course.
Internationally recognized Accredited Qualification will boost up your resume.
You will learn the researched and proven approach adopted by successful people to transform their careers.
You will be able to incorporate various practical techniques successfully and understand your customers better.

Curriculum

Section 01: Introduction to Power Electronics Components

Module 1- Introduction to Power Electronics

00:13:00
Module 2- Uncontrolled Switches

00:17:00
Module 3- What is the Benefit of Diode

00:06:00
Module 4- Semi-Controlled Switches Part 1

00:09:00
Module 5- Semi-Controlled Switches Part 2

00:14:00
Module 6- Semi-Controlled Switches Part 3

00:05:00
Module 7- What is the Benefit of Thyristor

00:05:00
Module 8- Fully Controlled Switches Part 1

00:17:00
Module 9- Fully Controlled Switches Part 2

00:10:00
Module 10- Fully Controlled Switches Part 3

00:12:00

Section 02: Fundamentals of Rectifier Circuits

Module 1- Overview on Rectifiers

00:02:00
Module 2- Rectifier Definition

00:01:00
Module 3- Half Wave Uncontrolled Rectifier with R Load

00:21:00
Module 4- Example on Half Wave Uncontrolled Rectifier with R Load Part 1

00:06:00
Module 5- Example on Half Wave Uncontrolled Rectifier with R Load Part 2

00:07:00
Module 6- Half Wave Uncontrolled Rectifier with RL Load

00:10:00
Module 7- Derivation of the Discontinuous Current in R-L Load

00:08:00
Module 8- Freewheeling Diode (Commutation Diode)

00:03:00
Module 9- Half Wave R-L Load with FWD

00:09:00
Module 10- Difference Between Continuous and Discontinuous Mode in RL Load

00:07:00
Module 11- Half Wave RL Load with FWD Continuous Mode

00:06:00
Module 12- Example on Half Wave Rectifier with FWD

00:07:00
Module 13- Bridge Full Wave Uncontrolled Rectifier Part 1

00:07:00
Module 14- Bridge Full Wave Uncontrolled Rectifier Part 2

00:05:00
Module 15- Quick Revision on Bridge Full Wave Uncontrolled Rectifier

00:06:00
Module 16- Firing Angle

00:02:00
Module 17- Half Wave Controlled Rectifier R Load

00:05:00
Module 18- Half Wave Controlled Rectifier R-L Load

00:04:00
Module 19- Half Controlled R-L Load with FWD

00:06:00
Module 20- Example 1

00:07:00
Module 21- Example 2

00:08:00
Module 22- Example 3

00:13:00
Module 23- Example 4

00:09:00
Module 24- Example 5

00:05:00
Module 25- Fully Controlled Bridge Rectifier Part 1

00:06:00
Module 26- Fully Controlled Bridge Rectifier Part 2

00:06:00
Module 27- Quick Revision on Bridge Full Wave Controlled Rectifier

00:02:00
Module 28- Example 6

00:08:00
Module 29- Half Controlled Bridge Rectifier

00:08:00
Module 30- Half Controlled Bridge Rectifier with FWD

00:05:00
Module 31- Example 7

00:06:00
Module 32- Example 8

00:07:00
Module 33- Performance Parameters

00:04:00
Module 34- Power Factor

00:04:00

Section 03: Fundamentals of AC Choppers

Module 1- Introduction to AC Choppers

00:02:00
Module 2- Definition of AC Choppers

00:05:00
Module 3- Switching Techniques in AC Choppers

00:06:00
Module 4- Applications on AC Choppers

00:03:00
Module 5- Types of AC Choppers

00:02:00
Module 6- AC Chopper with R Load

00:14:00
Module 7- Example 1 on AC Chopper with R Load

00:06:00
Module 8- Example 2 on AC Chopper with R Load

00:04:00
Module 9- AC Chopper with L Load Part 1

00:13:00
Module 10- AC Chopper with L Load Part 2

00:06:00
Module 11- Example on AC Chopper with L Load

00:08:00
Module 12- AC Chopper with RL Series Load

00:20:00
Module 13- Example on AC Chopper with RL Series Load

00:07:00
Module 14- AC Chopper with RL Parallel Load

00:25:00
Module 15- Example on AC Chopper with RL Parallel Load

00:06:00
Module 16- AC Chopper with Pure Capacitive Load

00:14:00
Module 17- Example on AC Chopper with Pure Capacitive Load

00:04:00
Module 18- AC Chopper Loaded by Heavy Rectifier

00:06:00
Module 19- AC Chopper Loaded by an AC Motor with Sinusoidal Back Emf

00:12:00
Module 20- Example on AC Chopper Loaded by an AC Motor with Sinusoidal Back Emf

00:08:00
Module 21- Integral Cycle Control

00:11:00
Module 22- Example on Integral Cycle Control

00:04:00