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FOR BEGINNERS AND EXPERIENCED LEARNERS

Battery Electric Vehicle Training Program

Drive your career forward with our Battery Electric Vehicle training and lead the transition to sustainable transportation
3.7
2.7K+ Learners enrolled
100+
Hours of lectures
4
Projects
Advanced
Self Paced
Real World Projects
3 Certifications
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Prerequisites:
No Prerequisites required
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Battery Electric Vehicle Training Program
Ideal for: Individuals focused on leading the transition to sustainable transportation
Recorded Videos
Life Time - LMS - Access
4999
Enroll Now
EMI starting at ₹500/m
Additional perks
3 Certifications
Course Curriculum
Fundamentals of BEV & Vehicle Dynamics Calculations
Module 1
20 Hours
Projects
What you’ll learn
  • Introduction to electric vehicles (EVs) and their historical evolution.
  • Understanding the environmental importance of EVs.
  • Overview of essential components and energy storage systems, with a focus on batteries.
  • Benefits and challenges of EV adoption in the automotive industry.
  • Introduction to vehicle dynamics and basic calculations.
EV Models and Its Motors
Module 2
5 Hours
Projects
What you’ll learn
  • Overview of various electric vehicle (EV) types: HEVs, PHEVs, BEVs, and FCEVs.
  • Understanding EV system architecture.
  • Different types of EV motors and their applications
  • Exploring the design principles behind EV models.
Vehicle Dynamics and Forces
Module 3
20 Hours
1 Projects
What you’ll learn
  • Vehicle design fundamentals.
  • Aerodynamic force and its impact on vehicle performance.
  • Rolling resistance force, gradient force, and linear acceleration force.
  • Understanding vehicle dynamics for efficient design.
MATLAB Design for the Forces
Module 4
20 Hours
2 Projects
What you’ll learn
  • Introduction to MATLAB for vehicle design analysis.
  • Aerodynamic force modeling.
  • Rolling resistance force modeling.
  • Gradient force modeling.
  • Tractive force modeling.
Tyre Construction and Calculations
Module 5
20 Hours
2 Projects
What you’ll learn
  • Tyre selection and considerations for different vehicle applications.
  • Tyre radius calculation and its importance in vehicle dynamics.
  • Motor-battery sizing, torque, RPM, and power calculations.
  • Understanding tyre-related parameters for electric vehicle efficiency.
Battery Technology
Module 6
20 Hours
2 Projects
What you’ll learn
  • Importance of batteries in electric vehicles and renewable energy.
  • Battery architecture and working mechanisms.
  • Overview of different types of energy storage systems.
  • Understanding battery performance metrics.
  • Exploring the future of battery technology.
Battery Construction & Invention
Module 7
5 Hours
1 Projects
What you’ll learn
  • Battery requirements and testing parameters.
  • Types of batteries used in EVs with a focus on Li-ion batteries.
  • Comparative analysis of battery types for EV applications.
  • Visual representations through web diagrams for enhanced comprehension.
Battery Pack Design
Module 8
10 Hours
1 Projects
What you’ll learn
  • Cell selection criteria for battery packs.
  • Battery pack assembly and safety considerations.
  • Performance optimization through cell arrangement.
  • Calculations for battery range and capacity.
Battery Management System (BMS)
Module 9
10 Hours
1 Projects
What you’ll learn
  • Functionality and architecture of BMS.
  • Key components and sensors used in BMS.
  • Selection criteria for BMS in EV applications.
  • Understanding cell balancing techniques.
BEV Powertrain Design
Module 10
10 Hours
1 Projects
What you’ll learn
  • Introduction to electric powertrains and components.
  • Architecture of powertrain systems.
  • Design considerations for power electronics and onboard chargers.
  • MATLAB simulations for electric vehicle systems.
EV Motors
Module 10
10 Hours
1 Projects
What you’ll learn
  • Understanding electric motors: types, applications, and construction.
  • Working principles and speed control methods of electric motors.
  • Torque calculation and its importance in motor design.
Download Syllabus
Projects
EV Traction Power Simulation
Conduct a dynamic analysis of an electric vehicle's traction power using MATLAB, simulating its performance.
Advanced Battery Pack Design
Design a cutting-edge battery pack for electric vehicles, incorporating NPMS cylindrical cells and addressing capacity, safety, and thermal management concerns.
Cell Balancing Techniques in MATLAB
Explore and implement four different cell balancing techniques for lithium-ion battery packs using MATLAB.
3-Phase Inverter Development
Develop a specialized three-phase inverter using MATLAB for efficient conversion of DC power from the battery to AC power, tailored for electric vehicle applications.
BEV Powertrain Design
Design and simulate powertrain components using MATLAB.
MATLAB Design
MATLAB analysis for vehicle force optimization.
Download Syllabus
Our Mentors
Ashish Modi
Ashish Modi
Co-Founder & Instructor
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Teaches
DSA
Shaurya Sinha
Shaurya Sinha
Co-Founder & Instructor
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Teaches
Web Development
Kevin Shah
Kevin Shah
Data Scientist
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Teaches
Data Science
Rahul Harlalka
Rahul Harlalka
Senior Analyst
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Teaches
Data Science
Sahil Rahman
Sahil Rahman
Data Science Instructor | Software Engineer
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Teaches
Data Science
Kartik Gupta
Kartik Gupta
SDE | Mentor
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Teaches
Web Development
Rohan Kinnal
Rohan Kinnal
SDE | Mentor
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Teaches
Web Development
Harsh Akshit
Harsh Akshit
Cloud & Security Evangelist
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Teaches
Cyber Security
Aditya Gusain
Aditya Gusain
Software Developer | Mentor
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Teaches
Full Stack Web Development
Samarth Singh
Samarth Singh
Instructor
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Teaches
DSA
Khusboo Tayal
Khusboo Tayal
Data Science Analyst
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Teaches
Data Sceince
Kunika Malhotra
Kunika Malhotra
Software Engineer
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Teaches
MERN Stack
Nikhil Bartwal
Nikhil Bartwal
Data Scientist
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Teaches
Data Science
Anshika Gupta
Anshika Gupta
Instructor
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Teaches
Web Development
Aradhana Kund
Aradhana Kund
Instructor | Developer
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Teaches
Web Development
Frequently asked questions

Are there any prerequisites for enrolling in this course?

No, there aren't any prerequisites. Our BEV course is designed to accommodate individuals from various backgrounds having keen interest to learn. Many successful learners have transitioned into their careers without specific prior requirements.

Will I have access to the course material after completing it

Yes, you will have lifetime access to the course material, allowing you to revisit it whenever needed to reinforce your learning.

How can I get my doubts resolved during the Cyber Security course?

You'll have access to experienced mentors throughout your learning journey, although there are no live classes. We offer comprehensive pre-recorded classes with structured modules, ensuring you have access to high-quality instruction at your convenience. You can reach out to mentors via discussion forums for any questions or clarifications you may have.

What if I struggle to keep up with the course content?

We understand that everyone learns at their own pace. Our pre-recorded BEV course allow you to learn at your convenience without the pressure of keeping up with live classes. If you require additional assistance or guidance, you can reach out to our mentors, who are dedicated to supporting you throughout your learning journey.

What about the projects in the Cyber Security course?

You'll have the opportunity to work on 4 projects covering various aspects of the program. These projects are designed to provide hands-on experience and practical skills in real-world scenarios. You'll receive detailed project instructions and guidance from mentors to ensure a comprehensive learning experience.

Is the BEV course comprehensive from basics?

Absolutely! Our BEV program covers a wide range of topics, taking you from foundational concepts to advanced techniques. The pre-recorded classes are structured to provide a comprehensive understanding of principles, tools, and practices. While the course prepares you for a career in the domain, continuous learning and staying updated with industry trends are essential for long-term success in the field.