Simulation and Design of Power Converters for EV using MATLAB and Simulink

Simulation and Design of Power Converters for EV using MATLAB and Simulink

A comprehensive course on Power converter design for EV using Matlab and Simulink. This course is highly suited for beginners

  • Pre-requisites : For Electrical & Electronics Engineers
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A Quick Overview

This course helps learners to understand the operation and design of most commonly used power converters. The power converter simulations are also demonstrated using MATLAB Simulink and LTSpice. The course starts with an analytical approach for circuit design and finishes with practical application considerations.
This course teaches us,
  • Simulation & analysis of DC/DC Converters, DC/AC Inverters & AC/DC Rectifiers 
  • Guidelines for using Simulation & design tools to gain Industrial Knowledge on the learned concepts
  • Developing simulation models for non-isolated and isolated DC/DC converter circuits and their control
  • SPICE simulation of power converter circuits using Tina and LTSpice
  • Applications: Electric Vehicle Chargers, Electrical Vehicle Drivetrain, Solar Inverters, PC Power Supply, Data Centre Converters 

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Simulation and Design of Power Converters using MATLAB and Simulink

Download Syllabus

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COURSE SYLLABUS

1Introduction to Switched Mode Power Converters, Performance and Analysis of Buck DC/DC Converter

A brief introduction on the need of switch mode power converters and their everyday applications.

The performance and analysis of buck DC-DC converters. 


2Simulation of Boost DC/DC Converter

Using simulation tools from different software packages to simulate and perform high-level design of a boost DC-DC converter

3Boost DC/DC Converter, Gate Driver Design

The performance and analysis of boost DC-DC converters. 

Using simulation tools from different software packages to simulate and perform high-level and gate driver design of a boost converter.


4UP/Down DC/DC Converters

• The performance and analysis of various UP/Down DC-DC converters. • Implement design techniques using simulation tools on the studied Up/Down converters.


5Discontinuous Conduction Mode

• The performance, analysis, and simulation of various DC-DC converters operating in discontinuous conduction mode (DCM). 

6Modeling of DC-DC Converters

The development of small signal models for various DC-DC converters.

Build simulation blocks to validate the modeled systems.


7Feedback Control of DC-DC Converters

The design of feedback control system using analog circuits for DC-DC converters.

Simulate a fully designed closed loop DC-DC converter.


8Isolated DC-DC converters

• The performance, analysis, and simulation of various isolated DC-DC converters. AC-DC rectifiers performance and simulations

9AC-DC rectifiers performance and simulations

The performance, analysis, and simulation of various AC-DC rectifiers.

10DC-AC Inverters Performance and simulations

• The performance, analysis, and simulation of various DC-AC inverters.

11AC-DC Rectifiers Design, DC-AC Inverters Design

Studying the full design or commercial inverters and rectifiers.

12Modern Applications of Power Electronic Converters

• Studying some of the modern applications of power electronic converters in electric vehicles, renewable energy systems and data centers.


Project 1

Project 1

Highlights

The first project is an individual effort for every student. There are 20 projects for 40 students as follows

 

The project design report should include the following:

1- A Design report to show the reasoning behind your choices of inductance and capacitance levels in your design.

2- The full schematics of your converter including gate drivers, PWM chips, RC circuits, current sensors, voltage sensors, etc…

3- A complete simulation file including all the necessary waveforms and justifying all the chosen components sizing (you have to show the system ability to track the output voltage at different dynamic conditions).

4- The full specs for all the needed components in your circuit.

Note: Feel free to deviate from the provided specs as long as you are using the assigned converter. However, you can not copy the specs of another assigned converter.

 

 

 

 

 

 

 

 

 

 

 

 


WHO IS THIS COURSE FOR ?


  • Freshers, College Students & Working Professionals in Electrical Department can take up this course.
  • Working Professionals, especially mid-career employees who are looking for a job change can take up this course & gain knowledge from this, which can help them in switching careers.
  • Students who are interested to pursue a Master’s in Power Converters Engineering

SOFTWARE COVERED

MATLAB

MATLAB is a high-performance language for technical computing. It integrates computation, visualization, and programming in an easy-to-use environment where problems and solutions are expressed in familiar mathematical notation.

SIMULINK

Simulink, developed by MathWorks, is a graphical programming environment for modelling, simulating and analyzing multidomain dynamical systems.


Learn the best course content on simulation and design of power converters from the experts and kickstart your career!

This course is designed to help you learn how any power electronics devices can be simulated in MATLAB/ Simulink. The study of the broad concept includes an overview of rectifiers, DC-to-DC converters, and inverters. The course covers theoretical concepts on their working, in conjunction with examples to demonstrate how to stimulate them using MATLAB and Simulink.

This Simulink online course is carefully divided into multiple sections to allow the in-depth flow of understanding and focused learning. Starting with the introduction to MATLAB and Simulink for power electronics, the course covers various aspects, such as rectifier simulations using MATLAB and Simulink, DC-to-DC converter simulations using MATLAB and Simulink, and inverter simulations.

The core idea behind covering these topics to a great extent is to divulge the knowledge of the models and illustrate how you can design and simulate various power electronic devices using the MATLAB and Simulink methodology. The course is highly beneficial if you want to enhance your career in power electronics and electrical engineering.

The course duration is three months, and you can opt for a plan that meets your requirements, ranging from INR 7000 to INR 15000.

Who Should Take Simulation and Design of Power Converters for EV Course?

This online MATLAB and simulation course is designed to meet the learning requirements of a wide array of students. From a first-year student to a college graduate, this course can benefit you on many fronts. Here are some of the most suitable branches of students who can take up this course to advance in their career:

  • Students who hail from an engineering background and wish to progress down the line with greater learning and knowledge.
  • Engineers who are currently practising in any field and wish to gain a working knowledge of MATLAB and Simulink.
  • Candidates who are interested in gaining knowledge about various power electronics and concepts related to MATLAB and Simulink.
  • Students who want to pursue a Master’s degree in Engineering in the field of power and converters.

What Will You Learn?

As the best Simulink course with certification, this program is designed to offer wholesome learning. During this course, you can understand the basics of stimulation of electronic devices using MATLAB and Simulink. The course also includes intensive knowledge of simulation of buck and boost converters using MATLAB and Simulink. You will be able to design power electronics and understand how inverters, DC-to-DC converters, and rectifiers work. Based on the design specifications, you will also be able to implement specific PID controllers in Simulink and MATLAB.

The course is designed to offer specific learning in the area of single-phase and three-phase inverters and how best to determine the design and implementation of the performance of power electronics. In addition, the course modules also include an understanding of half-wave and full-wave rectifiers in MATLAB and Simulink.

The overall design of the course focuses on concepts of power engineering and electrical engineering and simulations.

Skills You Will Gain

  • There is a lot to be learned while undergoing this course, including theoretical and practical aspects of using MATLAB and Simulink.
  • It enhances knowledge and skill in the use of software solutions.
  • After completing this course, you will learn how to stimulate power electronics and determine the performance of power electronic devices.
  • The practical knowledge in this area will help you ace your job roles efficiently. 

Key Highlights of the Program

  • The three-month course is designed to offer both practical as well as theoretical knowledge.
  • On successful completion of the course, you shall be awarded a certificate. Meritorious students shall also be eligible for a merit certificate.
  • Highly suitable course for you if you want to advance your career in electrical engineering and power electronics.
  • Highly optimized to the learning needs of present-gen candidates with an analytical approach.

Career Opportunities after Taking the Course

As one of the best MATLAB and Simulink training courses, this program is designed to enable you to take up various challenges in an array of areas. Following are some of the best job positions for you after completing the course:

  • Research Associate
  • Developer
  • Software Engineer

There are several job positions in the engineering and electrical areas where you can find successful placement after completing this course.

FAQs on Simulation and Design of Power Converters for EV using MATLAB and Simulink

Q: Who is eligible to take this course? Is there any pre-requisite for joining it?

A: If you are a graduate or working professional hailing from the power and electronic industry who wants to work in the field of automotive, renewable energy, power supply, etc., then you can take this course.

Q: Does the course involve any project work?

A: Yes, apart from theoretical knowledge of converters and rectifiers, this course also provides guidance on simulation with the help of project work.

Q: Do students get to work on any software during this course?

A: Yes, you will work on several software and tools during the interim of the course, including MATLAB, Simulink, and LTSpice.

Q: Will I be able to get an e-verification after completing the course?

A: Yes, you will get an e-verified profile after completing the course, which you can share on relevant websites such as LinkedIn.

Q: Will I get any support if I have doubts?

A: Yes, you can approach a skilled expert through email support, group video support, forum support, and telephone support to get your doubts cleared.

Q: What will be the mode of delivery of the course?

A: The course will be delivered to you through online mode.

Q: What is the cheapest plan offered by Skill Lync for this course?

A: You can opt for the basic plan at INR 7000 for three months in this case.

 


Flexible Course Fees

Choose the plan that’s right for you

Basic

2 Months Access

$93.87

Per month for 3 months

  • Access Duration : 2 months
  • Mode of Delivery : Online
  • Project Portfolio : Available
  • Certification : Available
  • Email Support : Available
  • Forum Support : Available
Premium

Lifetime Access

$201.15

Per month for 3 months

  • Access Duration : Lifetime
  • Mode of Delivery : Online
  • Project Portfolio : Available
  • Certification : Available
  • Individual Video Support : 12/month
  • Group Video Support : 12/month
  • Email Support : Available
  • Forum Support : Available
  • Telephone Support : Available
  • Dedicated Support Engineer : Available

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Certification

  • Top 5% of the class will get a merit certificate
  • Course completion certificates will be provided to all students
  • Build a professional portfolio
  • Automatically link your technical projects
  • E-verified profile that can be shared on LinkedIn

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Frequently Asked Questions

1Who can take your course?

• Students and engineers who are aspiring to work in the power electronic industry along with its relevant fields (automotive, renewable energy, data center, power supply, etc.). • Students should have a basic background knowledge of circuit analysis.


2What is included in this course?

Overview of most common DC/DC converters, DC/AC inverters and AC/DC rectifiers. This course will also provide a guidance on using simulation and design tools to gain industrial knowledge on the learned concepts.


3What will I gain from this course?

Hands-on experience in simulating, analyzing and designing power electronics converters. Students will also be able to apply this knowledge on modern applications such as electric vehicles and solar systems.

4What software skills are taught and how well are these tools used in the industry?

Matlab/Simulink, PLECS, and SPICE based simulation tools such as PSpice, TINA, and LTSpice


5What is the real world application for the tools and techniques taught in this course?

The applications of these tools and techniques are endless. However, to mention a few:

Electric vehicle chargers, electric vehicle drive train, solar inverters, laptop chargers, PC power supply, data center converters, wind turbine converters, uninterrupted power supplies, etc.


6Which companies use these techniques and for what?

Tesla: For electric vehicle drivetrain, electric vehicle charging and electric vehicle accessory loads.

Texas instruments, Infineon, Diodes, Vicor, Analog Devices, Maxim integrated, and many more: For providing power supply solutions for a variety of customers.

Solar edge, EnPhase, and many more: For designing solar inverters and DC-DC converters for photovoltaic solutions.

There are many more companies that are using these tools and techniques provided in this course that can not be listed in a limited space. 


7How is this course going to help me in my path to MS or PhD?

There is a dire need now in North America especially for MS and PhD students with the right background in power electronic systems. As collaboration is growing between Academia and industry, this course is optimally positioned to give you the academic background that you need along with the hand-on experiences needed to excel in a graduate program.

 


8How is this course going to help me get a job?

This course will not only teach you the theoretical background of power electronic converters, but it will also develop your simulation and design skills for such systems. These are critical skills for today’s power electronic and hardware engineers. The numbers of power electronic engineering jobs are growing with the rise of electrified transportation along with the renewable energy sources sector and data center applications. 

 



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