MATLAB/Simulink for Power Electronics Simulations

Learn Simulink by modeling power electronics devices (rectifiers, dc-to-dc converters & inverters) in MATLAB/Simulink

4.54 (661 reviews)

Udemy

platform

English

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Engineering

What you will learn

How to simulate power electronics devices in MATLAB/Simulink

Simulation of half-wave and full-wave rectifiers in MATLAB/Simulink

Simulation of buck, boost, and buck/boost converters in MATLAB/Simulink

Simulation of single-phase and three-phase inverters in MATLAB/Simulink

How rectifiers, dc-to-dc converters, and inverters work

How to determine the performance of power electronics devices

How to design power electronics devices to meet certain design specifications

MATLAB/Simulink models provided so you can follow along and use for your own designs

How to implement a PID controller in MATLAB/Simulink

Power Engineering and Electrical Engineering Simulations in MATLAB/Simulink

Why take this course?

This course is designed to allow you to simulate any power electronics device in MATLAB/Simulink, including rectifiers, dc-to-dc converters, and inverters. This course not only gives a review of the theory of how rectifiers, dc-to-dc converters, and inverters work, but also gives several examples on how to simulate these devices using MATLAB/Simulink. The MATLAB/Simulink models for the power electronics devices created during the lectures are available for download with each lecture. The course is divided into the following sections:

1. Introduction to MATLAB/Simulink for Power Electronics: in section 2, we will begin by reviewing the theory behind the semiconductor devices that are used in power electronics, such as diodes, power BJTs, power MOSFETs, IGBTs, and Thyristors. We will then take a look at the libraries available in Simulink to represent these devices in our models. After that, we will take a look at how we can model voltage sources, current sources, and passive components (resistors, capacitors, and inductors), as well as how we can put them together in a model using Simulink and how we can take measurements in the model to ensure proper simulation.

2. Rectifier Simulations in MATLAB/Simulink: we will begin section 3 by reviewing the theory behind the operation and topologies of power electronics rectifiers. We will then see how we can simulate both single-phase and three-phase rectifiers using Simulink.

3. DC-to-DC Converter Simulations in MATLAB/Simulink: we will begin section 4 by reviewing the theory behind the operation and topologies of power electronics dc-to-dc converters. We will then see how we can simulate buck, boost, and buck/boost converters.

4. Inverter Simulations in MATLAB/Simulink: we will begin section 5 by reviewing the theory behind the operation and topologies of inverters. We will then see how we can simulate single-phase and three-phase inverters.

As mentioned above, in each section, we will go over several models to illustrate how we can design and simulate power electronics devices in MATLAB/Simulink. The models are also available for download so that you can follow along, as well as use these models and modify them to create your own designs.

By learning how to simulate power electronics devices in MATLAB/Simulink, you will be able to further your career in electrical engineering and power electronics.

Remember that Udemy offers a 30-day money-back guarantee. I am also always available for questions while you go through the course to ensure everything is clear.

See you in the course!

Reviews

Richard

June 10, 2023

Very informative course on the fundamentals of Power Electronics, and great demonstrations in MATLAB Simulink!

Kumar

March 9, 2023

Step by step approach and demonstration by the Professor is highly helpful in understanding the concepts.

Yogesh

December 12, 2022

i have learned lots of technical information about power electronics and simulation techniques used in Simulink.

Akarsh

November 16, 2022

Amazing course. Perfect for beginners. I like how you start from basics in every module and buildup to relatively complex stuff. Happy that I've got a grip of Simulink. You could've added the effects of inductance and possibly designing a close to real world converters & inverters. Thanks for this wonderful course

Antonio

August 9, 2022

Great course, the lectures were very clear and useful not only to learn how to model the basic topologies, but also to simulate by myself other power converter topologies. I would suggest to enlarge the course a little bit more by adding a practical application of one of the converters studied (for example application to batteries or photovoltaics).

Mert

August 7, 2022

ı mean when you use PID you can say that controlling system is out of this course but you used it so therefore maybe you could show how you tuned it and what parameters are important at least you could say something about it

Julio

July 12, 2022

One of the best courses I've ever taken in Udemy. The instructor is also knowledgeable. This course is strongly recommended if you want to dive in this topic.

Dhrubojyoti

July 2, 2022

The lecture is good but a more details will be good like why IGBT in that zone, why not Mosfet. What happen when Thyristors working in High frequency Zone. Thank you

Bishwanath

December 27, 2021

The course is somewhat easy. It's maybe because I already knew all the contents. I was just interested in Simulink part and even though I completed the course, the simulink part is really easy too. Didn't learn that much. But it was a great revision for my semester's class.

Hheroglu

November 5, 2021

The presentation of the course is very good. I think the course can be extended by adding controlled rectifiers (with thyristors maybe) and AC choppers, as well. Adding sections about sinusoidal PWM may also be helpfull.

SRENATH

September 26, 2021

A simple concept can be explained in the most complicated manner and a complicated concept can be explained in the most easiest way possible. Ricardo chose the second option. The lectures are short and to the point. The lecturer has maintained the simplicity of explanation throughout the course along with MATLAB simulations which helped to visualize the concepts. This is a perfect course for anyone who would like to understand in depth operation of converters and inverters. I have already been studying these topics and concepts extensively during my Bachelors and Master studies. But I would say that this course is really helpful to strengthen your concepts. Thank you Ricardo. Hope to follow your other courses too.

Krunal

September 20, 2021

For Rectifier, I am also expected things thyristor/IGBT controlled single and three phase rectifier. But in this course, their is discussed only diode rectifier. Also In rectifier, there wasn't cover inductor load type. For DC-DC converter, their is discussed about continuous conduction mode only, not covered discontinuous mode of converter. For inverter, their is discussed only 30 degree's waveform. Others like 60 degree, 90 degree's waveform are not discussed.

Felipe

July 18, 2021

The course is very basic. For exemple, It did not consider PWM modulation or filter in the inverter simulation (only square wave). For me, it was not worth the payment.

Alark

June 14, 2021

It was a thorough course which can help you simulate power electronics converters and inverters with proficiency to apply it to your final year projects. It also nicely summarizes the basic theory of PE. I would recommend this course for EE students. Thanks Ricardo !!

John

May 10, 2021

The lectures are all explained thoroughly. I do wish that there will be a separate course about control systems for power electronics in the future.

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