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Quick Facts
| Medium Of Instructions | Mode Of Learning | Mode Of Delivery |
|---|---|---|
| English | Self Study, Virtual Classroom | Video and Text Based |
Course Overview
In the Post Graduate Program in Electric Vehicle Design certification course participants will learn about EV foundations, electric motors, power electronics, battery technology, thermal management, and embedded systems. This course will provide you with knowledge of electric vehicles through a mix of live and recorded sessions. Hands-on projects and assignments using industry-specific tools will provide practical experience. With the help of top mentors and dedicated career support candidates will get a chance to secure job opportunities with leading EV companies.
Post Graduate Program in Electric Vehicle Design certification by Great Learning is a 8-month online programme designed to equip professionals with the knowledge and skills needed to excel in the rapidly growing Electric Vehicle (EV) industry. With the EV market projected to reach USD 15 billion by 2027, this programme offers a comprehensive curriculum developed in collaboration with industry experts.
Post Graduate Program in Electric Vehicle Design training offers three specializations customized to participants with engineering backgrounds. The course is ideal for fresh graduates and working professionals looking to build a successful career in the dynamic world of Electric Vehicle Design.
The Highlights
- Flexible Learning
- Hands-On Experience
- Case Studies
- Offered by Great Learning
- Online Bootcamp
Programme Offerings
- online learning
- Specializations
- hands-on projects
- Industry experts
- career support
- Post Graduate Certificate
- Capstone Project
- Mentorship
Courses and Certificate Fees
| Certificate Availability | Certificate Providing Authority |
|---|---|
| yes | Great Lakes Gurgaon |
The Post Graduate Program in Electric Vehicle Design certification fees can be paid through net banking, or credit/debit card. There will be a 0% EMI interest also for student loans and additional GST will be applicable at the time of final payment.
Post Graduate Program in Electric Vehicle Design Fee
Mode of Enrolment | Fee |
Total Fee | Rs.2,00,000+GST |
Eligibility Criteria
Educational Qualification
To be eligible for the programme, applicants must have obtained at least 60% marks in their 10th and 12th standard examinations, as well as hold a bachelor's degree. This programme is well-suited for individuals who have completed their graduation in engineering fields such as electrical, electronics, mechanical, automobile, industrial, and production engineering.
What you will learn
By the end of the Post Graduate Program in Electric Vehicle Design certification syllabus, candidates will get a comprehensive understanding of Electric Vehicles (EVs) and their various components. He will also be able to perform system-level simulations of entire EVs using tools like MATLAB and Simulink. Candidates will learn design and simulation skills for individual EV components, such as batteries, power converters, and motors.
Who it is for
Post Graduate Program in Electric Vehicle Design classes are designed for individuals who are in the following fields:
Admission Details
To apply for the Post Graduate Program in Electric Vehicle Design online course, you need to follow the following:
Step 1. Go to the course page: https://www.mygreatlearning.com/pg-program-electric-vehicle-design-online-course
Step 2. Click on the "Apply Now" button.
Step 3: Complete the application form.
Step 4: If your application is shortlisted, you will be contacted for an interview.
Step 5: If you are selected, you will receive an offer letter to enrol in the course.
Application Details
To apply for the course, you need to fill out an application form with your basic information like name, phone number, and email. You also need to mention your work experience, the time period you work there, and your job title.
In the next section, you should provide details about your undergraduate education. Choose your degree type and give information about your college/university name, graduation year, and grades. This is important to check if you meet the minimum eligibility criteria, which requires a minimum of 50% in any undergraduate programme. Once you provide all the information, you can submit the form.
The Syllabus
- Electric Vehicles vs Conventional Automobiles
- Introduction to Simulation tools (including MAAB Guidelines)
- Introduction to Embedded C
- Fundamentals of Electric Vehicle and Supporting Infrastructure
- System Design and Performance
- Electric Vehicle Architecture
- Energy and electrochemistry
- Fundamentals of Electric Vehicle and Supporting Infrastructure
- Vehicle Dynamics, Battery and Motor Capacity Estimation
- Electric Vehicle Architecture
- EV Components, System Design and Performance
- Battery Cell Technology and Battery Pack Construction
- Mathematical Modelling for Battery Pack Design
- Fundamentals of Battery Management System
- Safety Aspects of Batteries and Failure Mechanisms
Advanced Battery Modelling and Analysis
- Battery Modeling Techniques
- Battery Management System Design
- Key Components of a Battery Management System
- Thermal Management for Batteries
Advanced Power Converter Design and Chargers
- Traction Inverter Design
- BLDC & PMSM Interconnection Procedure
- Magnetic Core Selection and Optimization
- High-frequency Power Converters
- EMI Mitigation Techniques and Filtering
- PWM Schemes for Chargers
- Control Strategies for AC-DC and DC-DC Converters
Motor Control and Drive Systems
- Advanced Motor Control Techniques and Schemes
- Methods for Motor Control: Reinforcement, ANN, Fuzzy, Sensorless
- Motor Performance Optimization using Control Strategies
Electric Motor Design for EV Applications
- FEM Overview and Applications in Motor Design
- Motor Geometry Modeling
- Electromagnetic Analysis
- Static and Transient Electromagnetic Simulations
- Analysis of Magnetic Field Distribution and Flux Lines
- Loss Analysis and Efficiency Calculation
- Designing PMSMs for Electric Vehicle Propulsion
Vehicle Dynamics
- Longitudinal Dynamics
- Vertical Dynamics
- Lateral Dynamics for 2 Wheelers and 4 Wheelers
Vehicle Design and Structural Analysis
- Vehicle Design Foundations
- Engineering Design Concepts
- Material Strength, Strain, Stress and Boundary Value Problems
- Plasticity, Fracture and Fatigue
- Vibrations, Impact and Acoustics
- Material Selection and Weight Optimization
Advanced 3D Modeling and Design
- Overview of Design Software
- Sheet Metal Design
- Motor Design and Modelling using Advanced Design Techniques
- Plastic Design
- Battery Pack Design using Advanced Design Techniques
- Design Validation and Analysis
Embedded Programming Fundamentals
- Control Statements, Decision-Making and Functions
- Arrays, Pointers, Structures
- User-Defined Data Types and Storage Classes
- Memory Management and Preprocessors
Embedded Systems for Electric Vehicles
- Software Developement Life Cycle
- Fundamentals of Embedded System Development and Testing
- Fundamentals of Model Based Development and Testing
- Introduction to 4/8/16/32 bit microcontrollers
- Fundamentals of Digital Electronics
- Microprocessor Architecture
- Fundamentals of Electronics, Devices and Circuits
Embedded Programming with Microcontroller
- Introduction to STM32 Microprocessor Family
- STM32 Microcontroller Peripherals
- Programming with STM32 Microcontroller
Communication Protocols for Automotives
- Fundamentals of Comunication Protocols
- Automotive Communication Systems - UART, SPI, CAN, I2C, Ethernet, Bluetooth and others
- Driver Development, Interfacing and Protocol Implementation
- Fundamentals of Autosar Architecture
Model Based Development
- Model Based Development for Automotive Industry & Model Based Development in MATLAB
- Requirement Analysis in Model Based Development
- Model Simulation & Model Advisor Report
- Code Generation Settings, Auto-code Generation
- Verfication and Validation using Model in Loop, Software in Loop, Processor in Loop and Hardware in Loop
- Test Report Analysis (Coverage Analysis & Other Techniques)
- MAAB Guidelines : Fixed point Vs Floating point representation
Aptitude Skill Training and Development, Resume Review Workshops, Interview Preparation
Instructors
Great Lakes Gurgaon Frequently Asked Questions (FAQ's)
The course duration is 8 months, which will allow learners to gain in-depth knowledge and hands-on experience in Electric Vehicle design.
Yes, the course is entirely online.
The course offers three specialized learning paths based on engineering backgrounds: Electric Motor and Battery Design, Vehicle Design and Thermal Management, and Embedded Systems and Model-Based Development.
Yes, the course is suitable for both fresh graduates and early to mid-career working professionals.
Yes, learners are provided with dedicated career support, interview preparation, and access to job opportunities with leading EV companies.
Yes, the programme offers flexibility, allowing learners to study at their own pace with the help of online sessions.