Skills you gain

100% practical & project oriented learning

  • Scilab & Xcos

    Projects are built using the Scilab-Xcos software. We will handheld you to learn Scilab-Xcos with 10 hours of video lecture & practice sessions.

  • Numerical Modeling

    To build the projects, one needs to understand the details of equations & math. The course covers the details of system-level considerations & calculations to build the numerical models.

  • Projects experience

    You will build 4+ projects & take up assessments to implement what you learn during the course. Projects will help you gain experience & highlight your skills on resume.

About the course

In electric cars, power electronics are responsible for converting and controlling electric power in the all the systems. Some of the major power electronic components include an inverter, converter, and on-board charger. Operations at high voltage or high current can be efficiently executed by utilizing power electronic devices, as they deliver a faster switching rate at higher efficiency. Complex power electronics are represented as the interconnection of conversion blocks in AC/DC, DC/AC, DC/DC, and AC/AC. This course covers the practical approach to understand the system, practically build the components & system using the Scilab - Xcos software.

Industry importance

The application of power electronics has skyrocketed in the last few years. For example, simple mobile charger to high voltage drive units in trains, drones, electric planes, home appliances, electric cars, industrial automation & million more applications use power electronics as a definite part of product design. Companies like, Denso Corporation, Robert Bosch GmbH, Infineon Technologies AG, Delphi Technologies, Continental AG, Hitachi Automotive Systems, Ltd., Delphi Technologies, Valeo, Mitsubishi Electric Corporation, Denso Corporation, Infineon Technologies, Hella, Panasonic Corporation, Tesla Inc., Toyota Industries Corporation, Hangzhou Tiecheng Information Technology & more are involved in the development of power electronics for EV applications. Your learning during this course will lay the foundation to explore career opportunities.

Applied industry projects

You will work on

Detailed course content

    1. Softwares download

    2. How to use Discussions option

    3. Course access duration

    4. Piracy & infringement warning

    1. Day 1 Introduction

    2. Day 2: Scilab introduction & Scilab Programing Part 1

    3. Day 2: Scilab introduction & Scilab Programing Part 2

    4. Day 2: Scilab introduction & Scilab Programing Part 3

    5. Day 3: Scilab Xcos introduction & Practice Part 1

    6. Day 3: Scilab Xcos introduction & Practice Part 2

    7. Day 3: Scilab Xcos introduction & Practice Part 3

    8. Day 3: Scilab Xcos introduction & Practice Part 4

    9. Day 4: Practice Scilab Xcos with real time problems Part 1

    10. Day 4: Practice Scilab Xcos with real time problems Part 2

    11. Day 4: Practice Scilab Xcos with real time problems Part 3

    12. Day 4: Practice Scilab Xcos with real time problems Part 4

    13. Day 5: Creating data visualization & analysis graphs in Scilab Part 1

    14. Day 5: Creating data visualization & analysis graphs in Scilab Part 2

    15. Day 5: Creating data visualization & analysis graphs in Scilab Part 3

    16. Day 5: Creating data visualization & analysis graphs in Scilab Part 4

    17. Day 5: Creating data visualization & analysis graphs in Scilab Part 5

    18. Day 5: Creating data visualization & analysis graphs in Scilab Part 6

    1. Aerodynamic forces modeling (3 cases)

    2. NEDC drive cycle

    3. Motor Data

    4. Data visualization using Scilab (Sales data)

    1. Day 1: Modeling of Vehicle Resistive forces Part 1

    2. Day 1: Modeling of Vehicle Resistive forces Part 2

    3. Day 1: Modeling of Vehicle Resistive forces Part 3

    4. Day 1: Modeling of Vehicle Resistive forces Part 4

    5. Day 1: Modeling of Vehicle Resistive forces Part 5

    6. Day 2: Modeling of Vehicle Resistive forces continued Part 1

    7. Day 2: Modeling of Vehicle Resistive forces continued Part 2

    8. Day 2: Modeling of Vehicle Resistive forces continued Part 3

    9. Day 2: Modeling of Vehicle Resistive forces continued Part 4

    10. Day 2: Modeling of Vehicle Resistive forces continued Part 5

    11. Day 2: Modeling of Vehicle Resistive forces continued Part 6

    12. Day 2: Modeling of Vehicle Resistive forces continued Part 7

    13. Day 3: Modeling of Vehicle Resistive forces continued Part 8

    14. Day 3: Modeling & analysis of control system Part 1

    15. Day 3: Modeling & analysis of control system Part 2

    16. Day 3: Modeling & analysis of control system Part 3

    17. Day 4: Modeling & analysis on control systems Quiz

    18. Day 4: Modeling & analysis of control system continued Part 1

    19. Day 4: Modeling & analysis of control system continued Part 2

    20. Day 5: Problem solving with Xcos challenge Part 1

    21. Day 5: Problem solving with Xcos challenge Part 2

    1. Drive Cycle Data

    2. Program to define vehicle parameters

    3. Grade Data

    4. Model Images

    1. Day 1: Introduction to Electrical Systems

    2. Day 2: Theory on AC-DC Converters Part 1

    3. Day 2: Theory on AC-DC Converters Part 2

    4. Day 2: Theory on AC-DC Converters Part 3

    5. Day 2: Modelling AC-DC Converters Part 1

    6. Day 3: Modelling AC-DC Converters Part 2

    7. Day 3: Modelling AC-DC Converters Part 3

    8. Day 3: Theory on Buck Converters Part 1

    9. Day 3: Theory on Buck Converters Part 2

    10. Day 4: Buck Converter Modeling Part 1

    11. Day 4: Buck Converter Modeling Part 2

    12. Day 4: Buck Converter Modeling Part 3

    13. Day 5: XCOS Modeling Challenge

About this course

  • ₹3,499.00
  • 85 lessons
  • 19 hours of video content

Course notes

Course name

EV Power Electronic Components Modeling 

Mode of delivery

Online (Recorded format) 

Course duration

20 hours

Course access duration

100 days from date of enrolment

Software used

Scilab Xcos

Course prerequisite

You do not meet any prerequisites. Scilab the Xcos software & the projects are taught from fundamental.

Computer & software 

The computer is mandatory to attend this course & link to download the Scilab software (free) will be shared In the course.

 

Scilab software is about 280 MB, the software runs smoother with 4 GB RAM &  i3 processor. Available for Windows, Mac & Linux

Applicable for

 

The course is open for engineers & working professionals from all departments of engineering.

 

Certification by & Host details

 

Decibels Lab Pvt Ltd 

 

Recognised as Start-up by Department for Promotion of Industry and Internal Trade Ministry of Commerce & Industry Government of India.

 

Certificate Number: DIPP45372

 

Session formats

Learners will get the access to pre-recorded course lectures In decibels LMS Immediately after the enrolment. 

Doubt clarification

 

Learners can ask doubts or queries via the live discussions chat box at each lesson in the LMS. If the query needs details addressing, our support team will schedule a Zoom meeting

Course enrolment

  • EV Power Electronic Components Modeling

    ₹3,499.00

    Buy Now

Certification

Learners will receive a digitally verifiable & Linkedin shareable certificate by the completion of the course, with a unique Certificate ID.

Decibels advantage

Reasons to choose Decibels as your learning partner

  • Course content

    Decibels has served over 11,000 learners across the world. Learners appreciate Decibels for “Quality of course content, practical methodology with software, industry-grade projects, Dedicated support & intuitive teaching approach”

  • Dedicated support

    We have a dedicated support team & course administrator to address your queries & doubts at anytime of your learning. “So you never get stuck in learning”. No other platform ensures the dedicated learning support with our course pricing.

  • Experts & projects

    Decibels lab is not just a training entity. We develop products & offer consulting services to many startup’s & OEMs. Courses created by our team is a derivative of projects we have delivered. We understand the industry expectations & created the content which will impact your career.