Launch Your EV Engineering Career:
Mastering Advanced EV Design:
Master Advanced EV Design with Hands-On Projects and Industry-Leading Tools
Program Overview
Our comprehensive guide, “Mastering Advanced EV Design: A Comprehensive Guide to Electric Vehicle Innovation,” is your key to unlocking the future of EV technology
Learn how to design and simulate single and three-phase rectifiers, DC-DC converters, inverters, and more using MATLAB and Simulink. Dive into the intricacies of battery management systems, including SOC and SOH estimation, cell balancing, and thermal management.
Job Assistance
We'll help you find the right opportunities and connect with employers.
Weekly Live Sessions
Stay up-to-date with industry trends and best practices.
HR Support
Get expert help with resume building and mock interviews to ace your applications.
Cash Back
Earn ₹1499 upon project completion and LinkedIn post!
Capstone Projects
Build a portfolio of real-world projects to impress potential employers.
Free Hackathon Entry
Showcase your skills and network with pros (worth ₹1499)!
LinkedIn Endorsement
Boost your profile and get noticed by recruiters.
WHAT WE DO
Core concepts of Advanced EV Design with Capstone Projects
Enroll Today! Join the course and take your first step towards mastering Advanced EV Design. Limited seats available, so don’t miss out!
Course Overview (50-60 hours)
This comprehensive course spans 50-60 hours and is divided into six weeks, each focusing on different aspects of advanced EV design. You'll learn everything from MATLAB and Simulink fundamentals to battery management systems (BMS), motor control, vehicle modeling, and more. Each week is packed with practical projects to reinforce your learning.
Projects Included
Single/Three Phase Rectifier & AC Voltage Controller
Inverter& Converter Design
Grid Tie Inverter Design
Multi-Level Inverter Design
Active Power Filter Design
Battery Charger Design
Battery Pack Design
Cell Balancing Circuits
Battery SOC and SOH Estimation
Forces & Power Calculation for EVs
Motor Control for EVs
Sensor Circuit Design for EV Applications
Tools You'll Master
MATLAB: Learn to write scripts and functions to automate calculations and design tasks.
Simulink: Gain proficiency in building and simulating models for various EV components and systems.
Simscape: Develop skills in using Simscape for physical modeling and simulation of complex systems.
Skills You'll Gain
Proficiency in MATLAB and Simulink
Advanced EV Design Techniques
Battery Management Expertise
Motor Control Proficiency
Vehicle Modeling and Simulation
Power Electronics
Certification
Upon completing the course, you will receive a certification that showcases your expertise in advanced EV design. This certification will not only validate your skills but also enhance your credentials, making you a valuable asset in the electric vehicle industry.
Mastering Advanced EV Design: A Comprehensive Guide to Electric Vehicle Innovation Applications
Explore the world of motor control with detailed projects on DC motors, BLDC motors, induction motors, and PMSM motors. Understand the principles of power electronics and design power inverters and power factor correction circuits.
Why This Course?
1. Industry-Standard Tools: Our course utilizes industry-standard tools such as MATLAB, Simulink, and Simscape. Mastering these tools will make you proficient in designing and simulating EV systems, giving you a competitive edge in the job market.
2. Electric Vehicle Design and Control: Gain expertise in EV design and control. Learn about power calculations, power electronics, motor control, thermal management, and vehicle modeling. Develop and simulate control systems for various types of electric motors, including DC motors, BLDC motors, induction motors, and PMSM motors. Understand the principles of power electronics and design power inverters and power factor correction circuits.
3. Expert Instruction: Learn from experts in the field who bring their extensive experience and knowledge to the course. Our instructors are dedicated to providing you with the best learning experience, ensuring you understand the complexities of advanced EV design.
4. Career Advancement: The EV industry is rapidly growing, and there’s a high demand for skilled professionals. Completing this course and obtaining certification will enhance your credentials, making you a valuable asset to potential employers and opening doors to exciting career opportunities.
Course Highlights:
Introduction to MATLAB Simulink for Electrical Engineering
Single/Three Phase Rectifier Design using MATLAB
Single/Three Phase AC Voltage Controller Design using MATLAB
DC-DC Converter Design using MATLAB
Inverter Design using MATLAB
Grid Tie Inverter Design using MATLAB
Matrix Converter Design using MATLAB
Multi-Level Inverter Design using MATLAB Simulink
Active Power Filter Design using MATLAB Simulink
Battery Charger Design using MATLAB Simulink
Introduction to Battery Management Systems (BMS)
Create Battery Module Object in MATLAB
Design Battery Pack using MATLAB Simulink and Simscape
Thermal Influences on Battery Modules
Model of Battery Pack with Cell Balancing Circuit
Passive Cell Balancing using Simulation Blocks
Battery Pack with Cell Aging
Battery Pack for Grid Applications
Hybrid Cell Battery Pack Model
Battery Monitoring using Simulink Simscape Blocks
Battery Charging and Discharging
SOC Estimation in Battery Management Systems
SOC Estimation using Kalman Filtering
Active Cell Balancing using Simulation
SOH Estimation using Kalman Filter Block in MATLAB and Simulink
Lithium-ion Battery Cell Chemistries
NiMH Battery Model
Protection and Thermal Management
Thermal Analysis of New & Aged Battery
Battery Physical Model using MATLAB
Electric Vehicle Introduction
MATLAB Simulink Introduction
Forces & Power Calculation on EV
Introduction to Autonomous Vehicles
Power Electronics for Automotive Industry
Rectifier Design
Power Factor Correction Design
Power Inverter Design for EV Applications
Introduction to eMotors for EV Applications
DC Motor Speed Control using Simulink
BLDC Motor Control using Simulink
FOC Control of 3-Phase Induction Motor using Simulink
PMSM Motor Control using MATLAB Simulink
SRM Motor Control using MATLAB Simulink
Introduction to Battery Modelling using MATLAB Simulink
Battery Management System
SOC Estimation and Protection
Battery Thermal Management System
Simscape Introduction
Simscape Fundamentals
Vehicle Modelling Introduction
Power Train Modelling
Vehicle Drive and Control
Sensor Circuit Design for EV Applications
MCU for EV Applications
Speed, Voltage, Current Integration with MCU
Gate Drive Design for EV Applications
Arduino Based Induction Motor Control
Autonomous Vehicle Basics
EV Model Vehicle Fabrication
Tools Covered
FEATURES
EV Experts Dedicated to Your Success
In our quest to empower the next generation of electric vehicle (EV) designers, our team comprises dedicated EV experts who bring their wealth of knowledge and industry experience to ensure your success. Here’s why our EV experts stand out:
Proficiency in MATLAB and Simulink:
ecome adept at using these powerful tools for designing and simulating EV systems.
Advanced EV Design Techniques:
Learn cutting-edge design techniques for rectifiers, converters, inverters, and more.
Battery Management Expertise:
Gain in-depth knowledge of battery management systems, including SOC and SOH estimation, thermal management, and protection.
Motor Control Proficiency: Develop skills in
designing and simulating control systems for various types of electric motors.
Vehicle Modeling and Simulation:
Master the art of modeling and simulating the dynamics of electric vehicles.
Power Electronics:
Understand and design power electronic circuits essential for EV applications.
Hands-on
16+ Projects Capstone Project: Advanced GAN Application
Design and simulate single and three-phase rectifiers to convert AC to DC power.
Tools: MATLAB, Simulink
Domain: Electrical Engineering, Power Electronics
Career Relevance: Essential for roles in power systems engineering, EV charging systems, and renewable energy applications.
Description: Develop and simulate AC voltage controllers for single and three-phase systems to control the voltage applied to AC loads.
Tools: MATLAB, Simulink
Domain: Electrical Engineering, Power Electronics
Career Relevance: Key for careers in industrial automation, power quality improvement, and electrical system design
Description: Design and simulate various types of DC-DC converters, such as buck, boost, and buck-boost converters.
Tools: MATLAB, Simulink
Domain: Electrical Engineering, Power Electronics
Career Relevance: Crucial for positions in power electronics, EV powertrain design, and energy storage systems.
Description: Focus on the design and simulation of grid-tied inverters for efficient power conversion and integration with the power grid.
Tools: MATLAB, Simulink
Domain: Electrical Engineering, Renewable Energy
Career Relevance: Essential for careers in solar energy systems, smart grid technologies, and renewable energy integration.
Description: Learn the design and simulation techniques for single-phase and three-phase inverters
Tools: MATLAB, Simulink
Domain: Electrical Engineering, Power Electronics
Career Relevance: Important for roles in EV powertrain engineering, renewable energy systems, and uninterruptible power supplies (UPS).
Description: Explore the design and simulation of multi-level inverters for advanced applications, reducing harmonic distortion, and improving efficiency.
Tools: MATLAB, Simulink
Domain: Electrical Engineering, Power Electronics
Career Relevance: Valuable for roles in advanced power electronics, high-power applications, and EV powertrain design.
Description: Design and simulate active power filters to improve power quality by mitigating harmonics and compensating reactive power.Tools: MATLAB, Simulink
Domain: Electrical Engineering, Power Electronics
Career Relevance: Key for careers in power quality engineering, industrial automation, and renewable energy systems.
Description: Develop and simulate battery chargers for various applications, focusing on efficient and safe charging methods.
Tools: MATLAB, Simulink
Domain: Electrical Engineering, Power Electronics
Career Relevance: Crucial for roles in EV charging infrastructure, battery management systems, and renewable energy storage.
Description: Design and simulate battery packs using MATLAB Simulink and Simscape, optimizing cell configuration and performance.
Tools: MATLAB, Simulink, Simscape
Domain: Electrical Engineering, Battery Technology
Career Relevance: Essential for careers in battery pack design, EV powertrain engineering, and energy storage systems.
Description: Incorporate thermal influences in the design of battery modules, ensuring safe and efficient operation.
Tools: MATLAB, Simulink, Simscape
Domain: Battery Technology, Thermal Management
Career Relevance: Key for roles in battery thermal management, EV powertrain engineering, and energy storage system design.
Description: Develop and simulate cell balancing circuits for battery packs, including passive and active balancing techniques.
Tools: MATLAB, Simulink
Domain: Battery Technology, Power Electronics
Career Relevance: Important for careers in battery management systems, EV powertrain engineering, and renewable energy storage.
Description: Implement state-of-charge (SOC) and state-of-health (SOH) estimation techniques in battery management systems.
Tools: MATLAB, Simulink
Domain: Battery Technology, Data Science
Career Relevance: Essential for roles in battery management systems, EV powertrain engineering, and energy storage system monitoring.
Description: Design and simulate protection and thermal management systems for batteries to ensure safety and longevity.
Tools: MATLAB, Simulink
Domain: Battery Technology, Thermal Management
Career Relevance: Key for careers in battery management systems, EV powertrain engineering, and energy storage system design.
Description: Develop equivalent circuit models for different types of batteries, simulating their behavior and performance parameters.
Tools: MATLAB, Simulink
Domain:Battery Technology, Electrical Engineering
Career Relevance: Important for roles in battery pack design, EV powertrain engineering, and energy storage systems.
Description: Calculate forces and power requirements for electric vehicles, understanding the dynamics of traction, braking, and energy consumption.
Tools: MATLAB
Domain: Mechanical Engineering, Vehicle Dynamics
Career Relevance: Crucial for positions in EV powertrain design, vehicle dynamics engineering, and automotive engineering.
Description: Design and simulate power electronic circuits essential for EV applications, optimizing performance and efficiency.
Tools: MATLAB, Simulink Domain: Electrical Engineering, Power Electronics
Career Relevance: Valuable for careers in EV powertrain engineering, renewable energy systems, and industrial automation.
Description: Develop and simulate control systems for various types of electric motors, including DC, BLDC, induction, and PMSM motors.
Tools: MATLAB, Simulink
Domain: Electrical Engineering, Motor Control
Career Relevance: Key for roles in EV powertrain engineering, industrial automation, and renewable energy systems.
Description: Design and simulate thermal management systems for EV batteries to ensure safe and efficient operation.
Tools: MATLAB, Simulink
Domain: Battery Technology, Thermal Management
Career Relevance: Essential for careers in battery thermal management, EV powertrain engineering, and energy storage system design.
Description: Model and simulate the dynamics of electric vehicles, including powertrain and chassis, to analyze performance.
Tools: MATLAB, Simulink, Simscape
Domain: Mechanical Engineering, Vehicle Dynamics
Career Relevance: Crucial for positions in EV powertrain design, vehicle dynamics engineering, and automotive engineering.
Description: Design and simulate sensor circuits for monitoring various parameters in EVs, integrating sensors with MCUs.
Tools: MATLAB, Simulink,
Domain: Electrical Engineering, Sensor Technology
Career Relevance: Important for roles in EV powertrain engineering, sensor design, and automotive electronics.
Hands-on projects that provide practical experience and enhance your understanding of advanced EV design concepts. Work on real-world scenarios and develop your skills in designing and simulating various components of electric vehicles.
Know your Mentor
Malaiyappan.M
Malaiyappan Maruthamuthu is a director at Pantech elearning Private Limited, specializes in technical training, project solutions, and software services for embedded systems and EV. Malaiyappan Maruthamuthu has been with the company since its incorporation in 2005
Job Assistance ?
Curious about how to get started or which path suits you best? Let’s delve deeper into your interests and craft a personalized learning journey that aligns with your career goals in EV Design.
How does our Program work?
Enroll in our Advanced EV Design Program
From basics to advanced topics.
Attend Live classes + Pursue self-paced learning
Learn from expert in EV field
Complete the projects assigned by Industry Experts
Apply what you learn to real-world problems.
Secure a Digital Portfolio in “Github”
GitHub is a fantastic way to showcase your projects and skills.
Attend Mock Interviews with our HR team & Technical Round with Industry Experts
Preparing for mock interviews is a fantastic way to build confidence and ensure you’re ready for the real thing.
Receive Placement Guidance
let’s get you set up with some tailored guidance to help you land that dream job in the tech field.
Don't miss out on this opportunity to revolutionize your career in electric vehicle design. With limited seats available, now is the time to secure your spot and embark on a transformative learning journey.
Enroll Today and Drive the Future of Transportation!
Comprehensive Curriculum: Covering everything from MATLAB and Simulink fundamentals to advanced battery management, motor control, and vehicle modeling.
Hands-On Projects: Apply your knowledge through practical projects that simulate real-world scenarios.
Industry-Standard Tools: Gain proficiency in MATLAB, Simulink, and Simscape – the tools that drive the EV industry.
Expert Guidance: Learn from industry experts dedicated to your success.
Graduates can pursue roles like:
- EV Powertrain Engineer
- Battery Management System (BMS) Engineer
- Power Electronics Engineer
- Thermal Management
- Electric Vehicle (EV) Systems Engineer
- Vehicle Dynamics Engineer
- Sensor and Control Systems Engineer
- EV Charging Infrastructure Engineer
Self-Paced Learning: Access 24/7 course materials, video lectures, and code repositories.
Community & Mentorship: Join forums and live Q&A sessions.
Affordable Pricing: Premium training with lifetime access.
Course Price : ₹ 30,000
Our Learners Work at
Curious where our graduates make their mark? Our students go on to excel in leading tech companies, innovative startups, and prestigious research institutions. Their advanced skills and hands-on experience make them highly sought-after professionals in the industry.
FAQ
What is included in the ₹9,999 limited time offer course?
The course includes:
Job Assistance: Guidance in finding the right job opportunities and connections with employers.
Weekly Live Sessions: Stay updated with industry trends and best practices.
HR Support: Expert help with resume building and mock interviews.
Cash Back: Earn ₹1499 upon project completion and posting your project on LinkedIn.
Capstone Projects: Build a portfolio of real-world projects.
Free Hackathon Entry: Participate in hackathons worth ₹1499 and showcase your skills.
LinkedIn Endorsement: Boost your profile and get noticed by recruiters.
How does the job assistance work?
Our team helps you identify suitable job openings, refine your applications, and prepare for interviews. We leverage our industry connections to recommend you to potential employers.
What will I learn in the weekly live sessions?
The weekly live sessions cover current industry trends, technical skills, best practices, and provide an opportunity for Q&A with industry experts.
How do I earn the ₹1499 cashback?
You can earn the cashback by completing your course projects and sharing them on LinkedIn, showcasing your work to potential employers and peers.
What kind of HR support is provided?
The HR support includes personalized resume reviews, mock interviews to build your confidence, and tips on improving your interview performance.
What are capstone projects, and why are they important?
Capstone projects are comprehensive assignments that simulate real-world challenges. Completing these projects helps you build a strong portfolio that demonstrates your practical skills to employers.
How can I benefit from free hackathon entry?
Participating in hackathons allows you to apply your skills in a competitive environment, collaborate with peers, and network with industry professionals. Winning or performing well in hackathons can also be a valuable addition to your resume.
How will the LinkedIn endorsement help my profile?
A LinkedIn endorsement from our course enhances your profile’s credibility and visibility. It shows recruiters that you have been recognized for your skills by a professional training program.
How do I enroll in the course?
You can enroll by visiting our course page, selecting the limited time offer, and completing the registration process. Payment can be made online through secure gateways.
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