Description

Overview

This Power Electronics for Electrical Engineering course will unlock your full potential and will show you how to excel in a career in Power Electronics for Electrical Engineering. So upskill now and reach your full potential. Everything you need to get started in Power Electronics for Electrical Engineering is available in this course.

Learning and progressing are the hallmarks of personal development. This Power Electronics for Electrical Engineering will quickly teach you the must-have skills needed to start in the relevant industry.

In This Power Electronics for Electrical Engineering Course, You Will:

Learn strategies to boost your workplace efficiency.

Hone your Power Electronics for Electrical Engineering skills to help you advance your career.

Acquire a comprehensive understanding of various Power Electronics for Electrical Engineering topics and tips from industry experts.

Learn in-demand Power Electronics for Electrical Engineering skills that are in high demand among UK employers, which will help you to kickstart your career.

This Power Electronics for Electrical Engineering course covers everything you must know to stand against the tough competition in the Power Electronics for Electrical Engineering field.

The future is truly yours to seize with this Power Electronics for Electrical Engineering. Enrol today and complete the course to achieve a Power Electronics for Electrical Engineering certificate that can change your professional career forever.

Additional Perks of Buying a Course From Institute of Mental Health

Study online - whenever and wherever you want.

One-to-one support from a dedicated tutor throughout your course.

Certificate immediately upon course completion

100% Money back guarantee

Exclusive discounts on your next course purchase from Institute of Mental Health

Enrolling in the Power Electronics for Electrical Engineering course can assist you in getting into your desired career quicker than you ever imagined. So without further ado, start now.

Process of Evaluation

After studying the Power Electronics for Electrical Engineering course, your skills and knowledge will be tested with a MCQ exam or assignment. You must get a score of 60% to pass the test and get your certificate.

Certificate of Achievement

Upon successfully completing the Power Electronics for Electrical Engineering course, you will get your CPD accredited digital certificate immediately. And you can also claim the hardcopy certificate completely free of charge. All you have to do is pay a shipping charge of just £3.99.

Who Is This Course for?

This Power Electronics for Electrical Engineering is suitable for anyone aspiring to start a career in Power Electronics for Electrical Engineering; even if you are new to this and have no prior knowledge on Power Electronics for Electrical Engineering, this course is going to be very easy for you to understand.

And if you are already working in the Power Electronics for Electrical Engineering field, this course will be a great source of knowledge for you to improve your existing skills and take them to the next level.

Taking this Power Electronics for Electrical Engineering course is a win-win for you in all aspects.

This course has been developed with maximum flexibility and accessibility, making it ideal for people who don't have the time to devote to traditional education.

Requirements

This Power Electronics for Electrical Engineering course has no prerequisite.

You don't need any educational qualification or experience to enrol in the Power Electronics for Electrical Engineering course.

Do note: you must be at least 16 years old to enrol.

Any internet-connected device, such as a computer, tablet, or smartphone, can access this online Power Electronics for Electrical Engineering course.

Moreover, this course allows you to learn at your own pace while developing transferable and marketable skills.

Course Curriculum

Unit 1- 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
Unit 2- 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
Unit 3- 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
Unit 4- Fundamentals of DC Choppers
	Module 1- Introduction to DC Choppers	00:02:00
	Module 2- Definition and Application of DC Choppers	00:05:00
	Module 3- Step down DC Chopper with R Load	00:12:00
	Module 4- Example on Step Dwon DC Chopper with R Load	00:08:00
	Module 5- Generation of Duty Cycle	00:09:00
	Module 6- Switching Techniques	00:03:00
	Module 7- Step Down DC Chopper with RLE Load Part 1	00:19:00
	Module 8- Step Down DC Chopper with RLE Load Part 2	00:15:00
	Module 9- Example 1 on Step Down DC Chopper with RLE Load	00:13:00
	Module 10- Example 2 on Step Down DC Chopper with RLE Load	00:02:00
	Module 11- Step Up DC Chopper with R or RL Load	00:09:00
	Module 12- Step Up DC Chopper with RE Load	00:15:00
	Module 13- Example on Step Up DC Chopper with RE Load	00:20:00
	Module 14- Buck Regulator Part 1	00:16:00
	Module 15- Buck Regulator Part 2	00:17:00
	Module 16- Example on Buck Regulator	00:03:00
	Module 17- Boost Regulator	00:23:00
	Module 18- Example on Boost Regulator	00:06:00
	Module 19- Buck Boost Converter	00:17:00
	Module 20- Example on Buck-Boost Converter	00:05:00
Unit 5- Fundamentals of Inverters
	Module 1- Introduction to Inverters	00:02:00
	Module 2- Definition of Inverters	00:04:00
	Module 3- Importance and Applications of Inverters	00:08:00
	Module 4- Single Phase Half Bridge R-Load	00:15:00
	Module 5- Single Phase Half Bridge RL- Load	00:08:00
	Module 6- Performance Parameters of an Inverter	00:05:00
	Module 7- Example on Single Phase Half Bridge	00:10:00
	Module 8- Single Phase Bridge Inverter R- Load	00:06:00
	Module 9- Single Phase Bridge Inverter RL- Load	00:07:00
	Module 10- Example on Single Phase Bridge Inverter	00:06:00
	Module 11- Three Phase Inverters and Obtaining the Line Voltages	00:15:00
	Module 12- Threee Phase Inverters and Obtaining The Phase Voltages	00:17:00
	Module 13- Example on Three Phase Inverters	00:16:00
	Module 14- Single Pulse Width Modulation	00:13:00
	Module 15- Multiple Pulse Width Modulation	00:13:00
	Module 16- Example on Multiple Pulse Width Modulation	00:04:00
	Module 17- Sinusoidal Pulse Width Modulation	00:16:00
	Module 18- Industrial Inverter	00:03:00

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Power Electronics for Electrical Engineering

By IOMH - Institute of Mental Health

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