Hybrid Electric Vehicle Design And Analysis

Fundamentals of Electrical System, Matlab and Simulink, System Modelling and Battery Management System, E-Scooter Design

What you'll learn

Fundamentals of Electrical Systems and Electrical Terminology

MATLAB Basics

Simulink Basics

System Modeling and Simulation using Simulink and Simscape

Introduction to Battery Technology for Electric Vehicle

E-Scooter Design

EV and ICE Vehicles

Requirements

BE/B. Tech Students and fresh engineering graduates who want to launch their careers in the EV industry. No skills or experience required for taking this course.

Description

This is the course where student can learn about Electric Vehicle, their performance, market values, their Structure knowledge, Basics of Electric Vehicle, their application, Matlab and Simulink Modelling, Learning of Battery Management system. The Hybrid Electric Vehicle field has a great demand in the Engineering sector where students can specialize in multiple fields such as Designing, CAE, CFD, FEA Design, etc. To be eligible for Hybrid Electric Vehicle Courses students should pursue a bachelor’s degree in relevant disciplines like BTech, EV Manufacturing, etc.This Course is offers a comprehensive understanding of the principles, technologies, and applications of electric mobility. This course is designed for students, professionals, engineers, and enthusiasts who seek to explore the rapidly evolving field of electric and hybrid electric vehicles (EVs and HEVs) and their pivotal role in sustainable transportation. Electric and hybrid electric vehicles represent a paradigm shift in the automotive industry, aiming to reduce carbon emissions, dependence on fossil fuels, and mitigate environmental impact. Through a series of engaging lectures, interactive assignments, quizzes, and discussions, participants will embark on a journey to explore the following key topics: By the end of the course, participants will have gained a holistic understanding of electric and hybrid electric vehicles, enabling them to contribute to the advancement of sustainable transportation solutions.

Overview

Section 1: Course Introduction

Lecture 1 Introduction to Electric vehicle and Benefits of the Course

Lecture 2 Program Overview and Objectives

Lecture 3 Table of Contents

Section 2: EV and ICE Vehicles

Lecture 4 Overview of EV and ICE Vehicles

Lecture 5 EV's Benefits

Lecture 6 EV's Future Development and Adoption

Section 3: Fundamentals of Electrical System and Electrical Architecture

Lecture 7 Introduction to the Course and Important Keywords

Lecture 8 Electric Power Grid

Lecture 9 Power Electronics

Lecture 10 Electrical System of an EV

Lecture 11 Electric Powertrains

Lecture 12 Battery System

Section 4: Matlab Basics

Lecture 13 Introduction to the MATLAB

Lecture 14 How to download and install Matlab and Simulink Software

Lecture 15 Matlab Theory Class 1

Lecture 16 Matlab Theory Class 1 Demonstration

Lecture 17 Matlab Theory Class 2

Lecture 18 Matlab Theory Class 2 Demonstration Part 1

Lecture 19 Matlab Theory Class 2 Demonstration Part 2

Lecture 20 Matlab Theory Class 3

Lecture 21 Matlab Theory Class 3 Demonstraion Part 1

Lecture 22 Matlab Theory Class 3 Demonstraion Part 2

Section 5: Simulink Basics

Lecture 23 Simulink Theory Class 1

Lecture 24 Simulink Theory Class 2

Lecture 25 Simulink Theory Class 3

Lecture 26 Simulink Theory Class 4

Lecture 27 Simulink Theory Class 5

Lecture 28 Simulink Theory Class 6

Lecture 29 Simulink Theory Class 7

Lecture 30 Simulink Theory Class 8

Lecture 31 Simulink Demonstration - Differential Equation Part 1

Lecture 32 Simulink Demonstration - Differential Equation Part 2

Lecture 33 Simulink Demonstration - Differential Equation Part 3

Lecture 34 Modeling a DC Machine

Lecture 35 Modeling a DC Machine Demo1

Lecture 36 Modeling a DC Machine Demo2

Section 6: Battery Technology for EV Application

Lecture 37 Introduction to Battery Technology Part 1

Lecture 38 Introduction to Battery Technology Part 2

Lecture 39 Overview of Electrochemistry of Battery

Lecture 40 Battery Management System (BMS)

Lecture 41 Charging and Discharging of Battery

Lecture 42 Thermal Management of Battery

Section 7: System Modeling and Simulation Using Simulink and Simscape

Lecture 43 Course Overview

Lecture 44 Simulink Phases

Lecture 45 Free Body Daigram (FBD)

Lecture 46 Simscape Library and Double Mass Spring Damper Demonstartion

Lecture 47 Simulink Simscape Model Part1

Lecture 48 Simulink Simscape Model Part2

Lecture 49 System Modeling Using Simulink and Simscape

Lecture 50 Theory of Double SMD Simulink and Simscape Model

Lecture 51 Demo of System Modeling using Simulink and Simscape

Lecture 52 Multi-Domain Modeling

Lecture 53 Demo of Multi-Domain Modeling using Simscape

Section 8: Electric Scooter Design

Lecture 54 Fundamentals of Electric Scooter Design

Lecture 55 Total Vehicle Power

Lecture 56 Sample Data for E-vehicle Design

Lecture 57 Demo of E-Vehicle Design

Section 9: Project

BE/B. Tech Students and fresh engineering graduates who want to launch their careers in the EV industry and working professionals who are looking to upskill and transition into a career in EV Industry ideal for candidates from engineering disciplines like electrical, electronics, mechanical and automobile engineering.