Electric Vehicle Crash Course

Electric Vehicle Crash Course, available at $64.99, has an average rating of 4.43, with 90 lectures, based on 417 reviews, and has 2528 subscribers.

You will learn about How to calculate required Average Motor Power How to calculate Gear Ratio How to calculate Battery & Vehicle Range How to obtain Rated Vehicle Speed How to obtain torque developed by motor How to obtain motor efficiency How to obtain rated vehicle speed How to calculate cost of electricity bill for single charge How to calculate running cost of vehicle for per km travel How to calculate battery replacement cost for per km How to estimate charging time from C-rating of battery About different Motors, Controller, Battery, Throttle and other Mechanical aspects. Starting Electric Vehicle Project and Building Prototype. Connection of Motor, Controller and other Accessories. Type of Electric Bicycle & PAS About Electric Vehicle Industries of India and Startups 5+ Practice Assignements New Module: Electric Vehicle Engineering Vehicles to learn all engineering aspects Vehicle Dynamics, Vehicle Performance Parameters , Driving Cycle, Force-speed characteristics Electric Motor, Torque-speed Characteristics, Suitability and Comparison Electric Motor Drive – Drive train -Power Train Energy Sources, Fuel Cell, Ultracapacitor, Flywheel, Battery Electric Vehicle Configuration based on Electric Motor and based on Energy Sources How to develop a mathematical model of the vehicle How to develop a MATLAB simulation model of the specific vehicle How to develop simulation model of specific electric motor How to connect developed vehicle model to the electric vehicle model with a passive loading scheme How to use this model for predicting the performance of the system Effect of Rolling Resistance on EV model This course is ideal for individuals who are Any Electric Vehicle Enthusiastic of all age or Anyone interested in starting Electric Vehicle Project or Engineering Students working on EV Projects or Become a Electric Vehicle Engineer or Want to join EV Industry It is particularly useful for Any Electric Vehicle Enthusiastic of all age or Anyone interested in starting Electric Vehicle Project or Engineering Students working on EV Projects or Become a Electric Vehicle Engineer or Want to join EV Industry.

Enroll now: Electric Vehicle Crash Course

Summary

Title: Electric Vehicle Crash Course

Price: $64.99

Average Rating: 4.43

Number of Lectures: 90

Number of Published Lectures: 90

Number of Curriculum Items: 95

Number of Published Curriculum Objects: 95

Original Price: $74.99

Quality Status: approved

Status: Live

What You Will Learn

How to calculate required Average Motor Power
How to calculate Gear Ratio
How to calculate Battery & Vehicle Range
How to obtain Rated Vehicle Speed
How to obtain torque developed by motor
How to obtain motor efficiency
How to obtain rated vehicle speed
How to calculate cost of electricity bill for single charge
How to calculate running cost of vehicle for per km travel
How to calculate battery replacement cost for per km
How to estimate charging time from C-rating of battery
About different Motors, Controller, Battery, Throttle and other Mechanical aspects.
Starting Electric Vehicle Project and Building Prototype.
Connection of Motor, Controller and other Accessories.
Type of Electric Bicycle & PAS
About Electric Vehicle Industries of India and Startups
5+ Practice Assignements
New Module: Electric Vehicle Engineering Vehicles to learn all engineering aspects
Vehicle Dynamics, Vehicle Performance Parameters , Driving Cycle, Force-speed characteristics
Electric Motor, Torque-speed Characteristics, Suitability and Comparison
Electric Motor Drive – Drive train -Power Train
Energy Sources, Fuel Cell, Ultracapacitor, Flywheel, Battery
Electric Vehicle Configuration based on Electric Motor and based on Energy Sources
How to develop a mathematical model of the vehicle
How to develop a MATLAB simulation model of the specific vehicle
How to develop simulation model of specific electric motor
How to connect developed vehicle model to the electric vehicle model with a passive loading scheme
How to use this model for predicting the performance of the system
Effect of Rolling Resistance on EV model

Who Should Attend

Any Electric Vehicle Enthusiastic of all age
Anyone interested in starting Electric Vehicle Project
Engineering Students working on EV Projects
Become a Electric Vehicle Engineer
Want to join EV Industry

Target Audiences

Any Electric Vehicle Enthusiastic of all age
Anyone interested in starting Electric Vehicle Project
Engineering Students working on EV Projects
Become a Electric Vehicle Engineer
Want to join EV Industry

This comprehensive course, “Electric Vehicle Crash Course,” is tailored to suit individuals of all ages and backgrounds, ranging from high school students to seasoned researchers. It serves as a go-to resource for mastering the in-demand skill set of Electric Vehicle technology. Whether you’re just starting out or looking to deepen your understanding, this course covers everything from the basics to advanced topics. Continuously updated with the latest resources and based on student feedback, it stands as the ultimate online resource for those considering a career in the Electric Vehicle industry, all while remaining accessible and affordable.

Module 1 – Electric Vehicle Project Guide (Chapter 1 -7): In this module, participants will delve into the essentials of launching an Electric Vehicle project from scratch. Covering crucial calculations such as power requirements, gear ratios, battery range, and more, this section lays the foundation for understanding the practical aspects of Electric Vehicle design. From estimating costs to building prototypes and exploring different Electric Bicycle types, participants will gain hands-on experience in initiating and executing Electric Vehicle projects.

Module 2 – Electric Vehicle Industry and Startups (Chapter 8):Participants will explore the landscape of the Electric Vehicle industry, focusing on key players and startups within the Indian context. Understanding the industry’s current state and emerging trends provides valuable insights for aspiring professionals and entrepreneurs alike.

Module 3 – Electric Vehicle Engineering (Chapter 9-13): This module delves into the engineering principles underlying Electric Vehicles, covering topics such as vehicle dynamics, motor characteristics, energy sources, and vehicle configurations. Through a comprehensive examination of Electric Vehicle components and systems, participants gain a deep understanding of the technical aspects driving innovation in this field.

Module 4 – Simulation and Analysis of Electric Vehicle System with MATLAB (Chapter 14-21): The final module equips participants with the tools and techniques necessary for simulating and analyzing Electric Vehicle systems using MATLAB. From developing mathematical models to solving differential equations and integrating vehicle and motor simulation models, participants learn how to predict and optimize system performance using advanced computational methods.

By the end of this course, participants will emerge as competent Electric Vehicle enthusiasts, equipped with the knowledge and skills needed to navigate the dynamic landscape of Electric Vehicle technology with confidence. Whether pursuing further studies or entering the industry directly, graduates of this course will be well-prepared to make meaningful contributions to the advancement of Electric Vehicle technology.

Course Curriculum

Chapter 1: Introduction

Lecture 1: Introduction

Lecture 2: New Module Add-on Feb 2024

Lecture 3: New: Simulation and Analysis of Electric Vehicle

Chapter 2: Basic System Parameters

Lecture 1: Basic Parameters of Electrical System

Lecture 2: Basic Parameters of Mechanical System

Chapter 3: EV Calculations:

Lecture 1: Average Power Calculations

Lecture 2: Motor Specifications & Calculations

Lecture 3: Battery Specifications & Calculations

Lecture 4: Gear Ratio Calculations

Lecture 5: Battery Range in Km per Charge

Lecture 6: Cost of Electricity Bill & Cost per km

Lecture 7: Battery lifecycle & replacement cost

Lecture 8: Battery Charging Time

Lecture 9: Calculate Real Cost of an Electric Vehicle

Lecture 10: TATA Teago EV Average Motor Power Calculation -Practice Idea 1

Chapter 4: PMDC Motor Kit

Lecture 1: PMDC Motor Kit

Lecture 2: PMDC Motor

Lecture 3: PMDC Motor Testing

Lecture 4: PMDC Controller

Lecture 5: Twist Throttle

Chapter 5: BLDC Hub Motor Kit

Lecture 1: BLDC Hub Motor

Lecture 2: BLDC Controller

Chapter 6: Types of Electric Bicycle

Lecture 1: Type of Electric Bicycles

Chapter 7: Other Important Things need to Know

Lecture 1: Pedal Assist System-PAS

Chapter 8: Electric Vehicle Industries of India? ? ?

Lecture 1: Benefits of Electrical Vehicle

Lecture 2: Automobile Industries

Lecture 3: Worldwide view on EV

Lecture 4: Government Initiative on EV

Lecture 5: Indian EV Industries

Lecture 6: New EV Startups

Lecture 7: Skills required for EV Industries.

Lecture 8: Conclusion on EV industry

Lecture 9: Industries Facing Shortage of Skilled EV Engineeres

Chapter 9: Introduction to Electric Vehicle Engineering

Lecture 1: Vehicle as a Product

Lecture 2: Mobile Phone Analogy to predict Future of EV Industry

Lecture 3: Introduction to Electric Vehicle Engineering

Lecture 4: Understand EV System with Simplified Block diagram

Chapter 10: Performance Parameter and Characteristics of Vehicle

Lecture 1: Basic Parameters of Vehicle

Lecture 2: Power Weight Ratio

Lecture 3: Driving Cycle

Lecture 4: Force-Speed Characteristics of Vehicle

Lecture 5: Operating point and Torque Speed Requirement

Lecture 6: Mathematical Modelling of Vehicle

Lecture 7: Behavior of Vehicle as a Load

Chapter 11: Electric Motor and Drive

Lecture 1: Basics of Electric Motor

Lecture 2: Torque-Speed Characteristics of Electric Motor

Lecture 3: Electric Motor Drive System

Lecture 4: Type of Motors & their suitability to EV application

Chapter 12: Energy Sources

Lecture 1: Introduction to Energy Source

Lecture 2: Fuel Cell

Lecture 3: Ultracapacitor

Lecture 4: Flywheel

Lecture 5: Battery

Lecture 6: Important Information about EV Batteries

Chapter 13: Electric Vehicle Configuration

Lecture 1: EV Configuration based on Electric motor drive

Lecture 2: EV Configuration Based on Energy Source

Chapter 14: Solving Differential Equations with MATLAB

Lecture 1: Introduction to Differential Equations and Its Solution

Lecture 2: Solving Differential Equation of RL Circuit with MATLAB Simulink

Lecture 3: Solving Differential Equation with MATLAB Simulation Practice 1

Lecture 4: Solving Differential Equation with MATLAB Simulation Practice 2

Lecture 5: Solving Differential Equation of Vehicle Model with MATLAB Simulink

Chapter 15: Simulation Model of Vehicle with MATLAB

Lecture 1: Develop Dynamic Vehicle Model with MATLAB

Lecture 2: Derive Speed-Torque Characteristics of Vehicle

Lecture 3: Store the Characteristics to the Look-up Table

Chapter 16: Simulation Model of Specific Vehicle

Lecture 1: Develop Simulation Model of Maruti Swift Desire

Lecture 2: Task: Develop Simulation Model of Specific Car

Lecture 3: Task: Develop Simulation Model of Specific Bike

Chapter 17: Simulation Model of Electric Motor

Lecture 1: Derive Mathematical Model of DC Motor

Lecture 2: Develop Simulation Model of DC Motor

Lecture 3: Derive constant Kt & Kb of DC Motor

Lecture 4: DC Motor Specifications (5hp to 75hp)

Chapter 18: Connect Electric Motor Model with Vehicle Model

Lecture 1: Understanding a problem

Lecture 2: Solution: Passive Loading Scheme

Lecture 3: Validation of Passive Loading Scheme

Lecture 4: Summary of Passive Loading Scheme

Lecture 5: Task: Connect your vehicle model with 75hp Motor

Chapter 19: 200kg Electric Vehicle Model Powered by 5hp DC Motor

Instructors

Dr. Jignesh Makwana
Associate Professor

Rating Distribution

1 stars: 7 votes
2 stars: 8 votes
3 stars: 76 votes
4 stars: 176 votes
5 stars: 150 votes

Frequently Asked Questions

How long do I have access to the course materials?

You can view and review the lecture materials indefinitely, like an on-demand channel.

Can I take my courses with me wherever I go?

Definitely! If you have an internet connection, courses on Udemy are available on any device at any time. If you don’t have an internet connection, some instructors also let their students download course lectures. That’s up to the instructor though, so make sure you get on their good side!

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