Enquire: 080 6947 4555
*Across Great Learning programs
Curriculum designed by Industry experts from top EV companies
Industry relevant project portfolio to set you apart
Access to 3300+ Hiring Companies
Faculty with years of extensive experience in the EV industry
Career assistance, Resume review, Mock interviews and Selection Tests
Access to interview opportunities with top EV companies
We offer end to end career assistance during as well as post completion of the program. Our mission is to empower our learners with everything they need to succeed in their careers
Leading organizations hire our alumni
Access to interview opportunities with top EV companies on clearing placement eligibility test
Attend Great Learning job fairs organised regularly
Work closely with a mentor from the EV industry, to prepare and practice for job interviews
Get guidance from experienced industry mentors to help you align job opportunities with your strengths
Punit
Senior Engineer
The program helped me get my dream job. I got an offer from Tata and also cleared final interview of multiple OEMs.
Venkata Sai
Buyer in E&E Sourcing
I cracked one of the great opportunities with a great future. I feel confident and have a new skill that I can cherish.
Mukesh Ravindran
Product Design Engineer
The program boosted my confidence in the subject knowledge and helped me find the exact job that I was looking for.
Venugopal
Executive Senior Manager - Manufacturing Engineering
Industry mentorship sessions improved my EV skills through mathematical models and system simulations. I recommend this program for upgrading ourselves for the next decade.
Greeshma
EV Intern
I study at my own pace with support from instructors for doubt resolution. This program has expanded my network and opened up new job opportunities.
Abhijith
The curriculum is practical and hands-on and the live mentorship sessions have been instrumental in my learning experience. I feel very positive about my career prospects.
Kshiteissh
This course has enhanced my knowledge through content-rich videos by experienced faculty and interactive project-oriented live mentoring sessions by industry professionals.
*Testimonials from Program Learners
Srinivas Aravapalli
CEO at Bluebinaries with 30+ years of experience in product development in automotive industry
Ex-Mahindra & Mahindra
Rajeev Sharma
Leading industry expert with 30+ years of experience in product design and R&D with top automobile companies like Tata Motors, Hero Motocorp, Exide
Vishal Ahuja
Head - Data Science, AI/ML & Business Intelligence At Simple Energy, with 8 years of experience in leading EV program at Mahindra group.
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Gourav Dubey
Mechanical Design Manager at Ola Electric Mobility Pvt. Ltd. with 8+ years of experience in Automobile R&D
Dr. Vasan Prabhu Veeramani
Leading expert with 15+ years of academic and research experience in Motor Design and Power Electronics for EVs
Pratishwar Bhartiya
Power Electronics System Engineer at Jaguar Land Rover with 7+ years of experience working in the EV industry product design & development
Imran Mohammed
Assistant Professor at MJ College of Engineering & Technology with over 12+ years of teaching experience
B.E./B.Tech. students and fresh engineering graduates who want to launch their careers in the EV Industry
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
Min 60% in 10th. 12th and graduation
Build a comprehensive understanding of the technology behind electric vehicles, its various individual components and overall working mechanism
Learn a specialization – Electrical Motor and Battery Design or Vehicle Design and Modelling or Embedded Systems and Model Based Development
Design and simulate individual components such as batteries, power converters, motors, using industry relevant tools and techniques
Design, develop and test software and hardware components for electric vehicles, using programming and knowledge of embedded systems
Present yourself as an ideal candidate for various roles in leading EV and component supplier companies and automotive consulting firms
Use mechanical design engineering concepts to develop models for sheet metal design and plastic design using in-demand design tool
You will undergo a specialized learning path in either Electrical Motor and Battery Design or Vehicle Design and Modelling or Embedded Systems and Model Based Development as per your engineering background and work experience.
Specialize in EV design by learning how to design electric motors and battery pack for EV applications
Advanced Battery Modelling and Analysis, Advanced Power Converter Design and Chargers, Motor Control and Drive Systems, Electric Motor Design for EV Applications
Motor Design Engineer, Motor Controller Design Engineer, Battery Pack Design, BMS Design Engineer and many more
Specialize in mechanical design with skills in designing components for electric vehicles
Vehicle Dynamics, Vehicle Design and Structural Analysis, Advanced 3D Modelling and Design
Automotive Design Engineer, CAD Engineer, Design Engineer and many more
Specialize in embedded systems with expertise in embedded software development, testing and model based development
Embedded Programming Fundamentals, Embedded Systems for EV, Embedded Programming with Microcontroller, Communication Protocols for Automotives, Model Based Development
Embedded Software Developer, Embedded Engineer, Testing Engineer, Model Based Developer and many more
The curriculum, learning content and projects of this electric vehicle course are designed by seasoned industry experts working in core engineering roles in EV and automobile companies. The specialisations help you build extra skill sets in Electrical Motor and Battery Design or Vehicle Design and Modelling or Embedded Systems and Model-Based Development, thereby making you a future-ready Electric Vehicle Design professional.
This introductory module of this EV Design course will introduce learners to the fundamentals of electric vehicles, conventional automobiles and simulation tools.
Electric vehicles are becoming highly popular, but there are still many misconceptions about them. This section will dispel some of the most common myths about electric vehicles. The section will also compare conventional automobiles with electric vehicles in terms of cost, convenience, and environmental impact.
Explore a variety of simulation tools (MATLAB, Simulink, etc.) that are an essential part of the design and manufacturing process of electric vehicles. Using simulations, engineers can test and optimize electric vehicle designs before they are built, ensuring they meet all safety and performance requirements. Additionally, simulations can be used for testing different electric vehicle operating scenarios, such as extreme weather conditions or traffic congestion.
Embedded C is one of the most frequently used programming languages for developing Embedded systems. In this section, learners will get familiar with the basics of Embedded C programming, along with its programming structure.
The first module of this electric vehicle design course introduces learners to the foundational concepts of electric vehicles, like the infrastructure of EVs, system design and performance, vehicle dynamics and architecture.
This section explores the fundamentals of electric vehicles, including their infrastructure requirements and the technologies available to support them. The section will also cover the basics of electric vehicle infrastructure, including charging stations, power grid considerations, and public policy issues.
This module will equip learners with the knowledge and skills necessary to estimate an electric vehicle's battery and motor capacity. It covers the principles of electric vehicle dynamics, the different types of batteries, how to estimate their capacity, and how to determine the best motor for an electric vehicle.
Gain an understanding of an electric vehicle’s architecture, like its types, components, and challenges. Acquire knowledge of powertrain components, aerodynamics, reliability, and several other concepts.
This comprehensive section will cover all aspects of the design, operation, and performance of EV technology. Learners will explore various design principles and components, as well as the performance aspects, from range and efficiency to safety and reliability. They will gain an understanding of the latest industry trends and challenges in EV design.
The next module of this electric vehicle course with a certificate is a deep dive into electric motors and power converters, the vital components of electric vehicles. It elucidates the design, operation and control of various electric motor types and power converters. Topics include Pulse-Width Modulation (PWM), Motor Control Algorithms and drive systems.
This section will cover the design of electric motors used in electric vehicles. It includes analyzing and designing various types of electric motors used to convert electrical energy into mechanical propulsion efficiently. It will also familiarize learners with the design of power control systems to control the electric motor’s speed and torque.
Become familiar with the most commonly used motors for EVs while building an understanding about:
Learners will understand the design of power converters in EVs, including the primary topologies and control strategies used in EV power converters. Power converters are an integral part of EVs that convert the electrical energy from the batteries into the proper form to drive the motors.
Learn how to design and build your own motor controllers, which are the devices that control the speed and torque of an EV motor. The motor controller is a critical component of an EV, as it ensures that the electric motors operate safely and efficiently.
Followed by Electric Motors and Power Converters, the next module of this electric vehicle online course provides an overview of battery technology and battery management systems used in EVs. It encapsulates knowledge about the types of batteries, their working principles, characteristics and selection for EV applications. Furthermore, it comprehensively discusses the Battery Management System (BMS) design. The module is also enriched with details on safety considerations, battery failure mechanisms, and an overview of charging technologies and algorithms.
This section will cover concepts related to battery technology, such as battery chemistries, battery pack design and others. It gives learners an overview of battery technology, including an introduction to the types of batteries used in EVs and how they work.
This section will cover concepts related to mathematical modelling for battery packs using RC modelling approach. It will also help learners understand the differenece between LV & HV battery pack design.
Learners will learn how to design and optimize battery management systems for EVs, taking into account the trade-offs between performance, cost, weight, and volume.
This section exposes learners to the critical safety aspects surrounding the usage of batteries in EVs. It elucidates the typical failure mechanisms, how to anticipate them and design measures to mitigate such failures. It will further cover preventive strategies and guidelines to handle and maintain batteries to ensure longevity and safety in electric vehicles.
This module focuses on the intricacies of battery modelling and analysis. It explores the nuances of understanding battery performance metrics, multi-scale modelling approaches for batteries, model identification and parameter estimation techniques and a segment dedicated to fuel cells and ultra-capacitors.
This module of the EV course online delves into power converter design, involving analysis and modelling of circuits, addressing power losses, thermal issues, soft-switching techniques and magnetic core optimisation. It provides vital knowledge for the effective design of power converters for electric motors used for EV applications.
This module explores the crucial facet of motor control and drive systems in electric vehicles. It encompasses an in-depth understanding of motor control techniques and algorithms, performance optimisation using control strategies and the essential motor testing standards and procedures.
This module focuses on the nuanced design of electric motors tailored specifically for EV applications. It spans several crucial areas, from key design considerations, motor sizing and specification requirements to magnetic circuit analysis and calculations. The module is rounded off with a comprehensive understanding of electromagnetic field analysis using Finite Element Analysis (FEA).
This module of the electric vehicle online course is a deep dive into the realm of vehicle dynamics, a fundamental part of vehicle design. It comprehensively covers the three main aspects of vehicle dynamics: Longitudinal, Vertical and Lateral dynamics, applying these principles specifically to both 2-wheelers and 4-wheelers.
The second module turns towards vehicle design and structural analysis. It discusses the foundations of vehicle design and engineering design concepts and dives deep into material strength, strain, stress and boundary value problems. Further, it takes a closer look at plasticity, fracture, fatigue, vibrations, impact and acoustics, ending with a thorough study of material selection and weight optimisation.
The third module delves into the crucial area of 3D modelling and design in the context of electric vehicles. It covers everything from providing an overview of relevant design software to discussing advanced design techniques for components like motors and battery packs. It also touches upon specific aspects like sheet metal design and plastic design, ultimately wrapping up with the crucial stage of design validation and analysis.
This module of the electric vehicle certificate course provides a solid foundation in the world of embedded programming, a pivotal aspect of embedded systems and model-based development. It primarily focuses on C programming fundamentals, covering data types, conditionals, loops, functions, arrays, pointers and structures and culminates with essential aspects of Embedded C programming.
It starts with an introduction to embedded systems, followed by embedded hardware essentials. The module then moves onto the fundamental understanding of microcontrollers, peripherals, interfaces and microcontroller programming for automobile applications. It culminates with a discussion on embedded system design and validation.
The fourth module dives into the world of Communication Protocols for Automotives, which are vital in the realm of embedded systems for EVs. It kicks off with the basics of communication protocols and then delves into specific automotive communication systems like UART, SPI, CAN, I2C and Ethernet. Furthermore, the module discusses driver development, interfacing and protocol implementation, wrapping up with a segment dedicated to using CAN tools for communication data analysis and troubleshooting.
In this module of the EV design course online, we delve into model-based development, a revolutionary approach to system development in embedded systems. It introduces the fundamentals of model-based development and M-scripting, followed by a thorough understanding of model development using Simscape and Stateflow. The module then explores testing theory and coverage analysis, rounding off with a comprehensive look at verification and validation using MIL, SIL and HIL testing techniques.
This module will prepare you for career opportunities through Aptitude Skill Training and Development, Professional Resume Building and Mock Interviews to boost your confidence. This will nurture you to perform well in your professional interviews.
Earn a Postgraduate Certificate in the Electric Vehicle Design from Great Lakes Executive Learning. Its exhaustive curriculum will foster you into a highly-skilled professional and help you land a job at leading corporations.
Note: Curriculum review and changes are under the purview of the faculty committee and would be undertaken from time to time to ensure the program coverage is in line with industry requirements.
Note: Learners will get training on languages and tools that are relevant for their specialization only. Languages and Tools used are under the purview of the faculty committee and a thorough review would be undertaken from time to time to ensure the program coverage is in line with industry requirements.
Learn from a comprehensive curriculum taught by world-class faculty. Get guidance on your learning journey, and access dedicated career support.
DESIGNED FOR WORKING PROFESSIONALS & STUDENTS
STRUCTURED PROGRAM WITH GUIDANCE
UNLOCK CAREER OPPORTUNITIES
The learners have to bring their own laptops. But Great Learning will provide the necessary technology requirement during admission.
You will comprehensively understand EV technology, its components, and working mechanisms. You can also choose a specialization in Electric Motor and Battery Design, or Vehicle Design and Thermal Management, or Embedded Systems and Model-Based Development.
Yes, the program has a practical component, which includes hands-on projects and assignments that allow you to apply the knowledge and skills you've gained in real-world scenarios.
The program includes a Capstone Project where you'll work on real-time projects under the guidance of industry experts from the Electric Vehicle industry. Successful completion of the project will earn you a PG Certificate in Electric Vehicle Design from Great Lakes Executive Learning.
Yes, you can choose a specialization based on your educational background or previous work experience. Specializations in Electric Motor and Battery Design, Vehicle Design and Thermal Management, or Embedded Systems and Model-Based Development will make you an ideal candidate for various roles in the EV industry.
This comprehensive, demanding course follows a continual evaluation mechanism. Learners are assessed through quizzes, case studies, assignments, and project reports.
The course duration is 7 months, which includes several industry-relevant assignments and projects.
The career assistance program offered by Great Learning, GL Excelerate, will offer learners specialized and committed career support services. The list of them is as follows:
E-Portfolio: The course will help learners develop an excellent E-Portfolio to showcase their expertise and knowledge to potential employers.
Resume Building and Interview Preparation: The course will help students create impressive resumes that showcase their abilities and prior work experience. With the help of the interview preparation sessions, they will also learn how to ace interviews.
LinkedIn Profile Review Sessions: Learners can fine-tune their LinkedIn profiles under the guidance of experienced professionals to accurately reflect their skills and expertise, making them stand out to prospective employers.
Exclusive Job Board: Students will get access to Great Learning’s Job Board, where 12000+ firms approach them with industry-relevant job opportunities and provide an average salary hike of 50%.
Career Guidance and Mentorship: Learners will receive career advice and mentorship through diverse industry experts to build a lucrative career in EV technology.
Yes, within the PG Program in Electric Vehicle Design, you can earn a Postgraduate Certificate in Electric Vehicle Design from Great Lakes Executive Learning. This certificate recognizes your successful program completion, signifying your expertise in electric vehicle technology and design.
Industry professionals conduct live and interactive sessions throughout the course. But in addition, these sessions will also be recorded and posted on the LMS (Learning Management System) so that students who cannot attend a session in person or wish to study it later can do so by viewing the videos on LMS.
Learners will work on a wide variety of hands-on projects where they design:
A simple DC motor with a switch
Drivetrain architecture
High-power density inverter
Battery management system
They will also design an EV system from scratch as part of the capstone project at the end of the course.
The faculty members are highly experienced industry experts from globally renowned companies, including Ola Electric, Exide Industries Limited, Ather, BlueBinaries, and FEV
Learners will be exposed to a multitude of industry-relevant tools and languages during this course, including MATLAB, Simulink, Altium Designer, Ansys Maxwell, Embedded C Programming, and many more.
The learning outcomes of this course are as follows:
Learners will gain a thorough understanding of EV technology, its individual components, and its overall working mechanism.
They will be able to perform system-level simulations of an entire EV design using tools like MATLAB, Simulink, and others.
They will master industry-relevant tools and techniques to design and simulate individual components like batteries, power converters, and motors.
With an understanding of C programming and embedded systems, learners will be able to create, develop, and test software and hardware components for EVs.
Learners will be able to present themselves as ideal candidates for varied positions with top-notch EV and automotive firms.
The best Electric Vehicle course in India is Great Learning’s Post Graduate Program in Electric Vehicle Design. There are several critical factors in opting for this EV Design course, including:
This Electric Vehicle (EV) course is a Post Graduate Program that aims to equip aspirants with the relevant knowledge and skills through a comprehensive curriculum designed by best-in-class industry experts in order to kickstart a lucrative career in the EV industry.
Yes, there are specific prerequisites for the Electric Vehicle Design course:
Educational Background: Ideal candidates should have an engineering degree in electrical, electronics, mechanical, automobile, or related fields. Computer science graduates meeting specific criteria may also be eligible.
Minimum Academic Requirements: Candidates should have a minimum of 60% in 10th, 12th, graduation and post-graduation (if applicable).
These prerequisites ensure participants have the foundational knowledge and skills necessary to excel in the program.
This program is tailored for technology professionals, B.E./B.Tech. Students, fresh engineering graduates, and early to mid-career professionals who aspire to launch or transition their careers in the Electric Vehicle (EV) industry.
To apply for the program, you can fill out the online application form, go through a screening call, and, if selected, secure your seat by paying the admission fee.
Please note that admission to the program is subject to document verification.
To register for this course, the applicants must fulfil the eligibility criteria mentioned earlier. The typical admission process for the eligible candidates is as follows:
Step-1: Application Form
Applicants are required to fill out an online application form and provide some basic details.
Step-2: Screening
They will go through a screening call with the Admissions Director’s office.
Step-3: Joining the Program
If selected, applicants will receive an offer for the upcoming cohort. They can secure their seats by paying the admission fee.
A rolling admission process is used, and it closes once all available seats in the cohort have been filled. We advise candidates to apply as soon as possible to increase their chances of securing a seat.
Upon successful completion of the PG Program in Electric Vehicle Design, you will be well-prepared to access a wide range of job roles in the Electric Vehicle (EV) industry. Some of the job roles that you can pursue include:
Design Engineer
System Integration Engineer
MBD Engineer (Model-Based Development)
Testing Engineer
Power Electronics Engineer
Simulation Engineer
Embedded Software Engineer
EV Design Engineer (Sheet Metal/Plastic/Motor/BMS/Battery Pack)
Simulation Engineer
Automotive Consultant
Buyer / Component Sourcing Expert
Electric vehicle courses in India provide comprehensive training in EV technology and design, offering specializations like Electric Motor and Battery Design, or Vehicle Design and Thermal Management, or Embedded Systems and Model-Based Development. These courses prepare students for careers in the EV industry by equipping them with practical skills and knowledge.
Yes, the program offers dedicated career support, including access to job opportunities from leading EV companies, recruitment drives, mock interviews with industry experts, interview preparation workshops, and career guidance. Career support is applicable to final-year engineering students, fresh graduates and early to mid-career working professionals.
The program prepares you for a career in the EV industry by providing a comprehensive understanding of electric vehicle technology and hands-on experience in various aspects of EV design. You'll gain expertise in electric motors, batteries, power electronics, embedded systems, and vehicle design. Additionally, the program offers career assistance, including interview preparation, resume-building workshops, and access to job opportunities with top EV companies to help you secure a job in this growing industry.
Yes, the program includes dedicated career assistance, including aptitude skill training, resume-building workshops, and mock interviews, to help you prepare for and secure job opportunities in the EV industry.
Yes, you will have opportunities to network with instructors, industry experts, and fellow students, fostering valuable connections within the EV industry.
In this program, you will learn:
A comprehensive understanding of the technology behind electric vehicles, their various individual components, and overall working mechanisms.
Specializations in Electric Motor and Battery Design, Vehicle Design and Thermal Management, or Embedded Systems and Model-Based Development.
Designing and simulating individual components such as batteries, power converters, and motors using industry-relevant tools.
Designing, developing, and testing embedded software and hardware components for electric vehicles.
Mechanical design and CAD concepts to develop models for sheet metal design and plastic design using in-demand design tools.
Preparation for various roles in leading EV OEMs, component manufacturers, supplier companies, automotive consulting firms and engineering service providers.
Applicants should have scored 60% or above in their 10th, 12th, bachelor's and master’s (for postgraduate students) degrees to be eligible for this program. The program is open to candidates in their final semester, fresh graduates, and early to mid-career working professionals.
The PG Program in Electric Vehicle Design offers a comprehensive online certificate course in electric vehicle technology. This program equips participants with the essential knowledge and practical skills required for a successful career in the electric vehicle industry. It covers a range of topics, including Electric Motor and Battery Design, Vehicle Design and Thermal Management, and Embedded Systems and Model-Based Development. With a strong focus on hands-on learning through industry-oriented projects and weekly mentorship from industry experts, this certificate program prepares individuals to excel in various roles within the rapidly growing electric vehicle sector.
The PG Program in Electric Vehicle Design is well-suited for the following categories of individuals:
Engineering Graduates who are currently pursuing or have already completed a degree in engineering, particularly in fields such as electrical, electronics, mechanical, automobile, or related disciplines.
Fresh graduates who are enthusiastic about building a career in the rapidly evolving EV industry will find this program beneficial.
Working Professionals who are seeking to upskill and transition into the EV industry will benefit from this program.
Innovators and Visionaries who are passionate about contributing to the development of user-oriented, technology-driven vehicles that have the potential to transform the future of mobility.
An EV design course online equips individuals with the knowledge and skills required to excel in the dynamic field of electric vehicles. It combines theoretical learning with practical application and provides a platform for networking and career growth in the EV industry.
The PG Program in Electric Vehicle Design offers the following key features:
Comprehensive Curriculum: Gain expertise in electric vehicle technology through a 7-month curriculum designed by industry experts.
Flexible Online Learning: Access live classes, recorded lectures, and online lab sessions, allowing you to learn at your own pace and from anywhere.
Weekly Expert Mentorship: Receive guidance from industry professionals in weekly mentorship sessions to reinforce your understanding.
Professional Networking: Interact with peers from diverse backgrounds, fostering valuable professional connections.
Dedicated Program Support: Access personalized assistance from a Program Manager throughout your learning journey.
Hands-On Projects: Apply your knowledge through practical projects covering various aspects of electric vehicle design.
Specialization Options: Choose from three specializations tailored to your engineering background and career goals.
Access to Job Opportunities: Unlock career prospects with access to job opportunities from leading electric vehicle companies.
Capstone Project: Undertake a real-world research project to showcase your skills and knowledge.
Postgraduate Certificate: Earn a highly regarded Postgraduate Certificate in Electric Vehicle Design from Great Lakes Executive Learning.
Career Assistance: Benefit from resume building, interview preparation, and exclusive recruitment drives for job support.
An electric vehicle course, such as the PG Program in Electric Vehicle Design, is a specialized educational program designed to provide participants with in-depth knowledge and practical skills related to electric vehicles (EVs) and their design. These EV courses online are typically developed and curated by industry experts to meet the growing demand for Electric Vehicle (EV) professionals.
The Electric Vehicle (EV) industry in India is poised for remarkable growth and presents significant scope. With increasing environmental concerns and government initiatives promoting clean mobility, the EV sector is witnessing a surge in demand. Several automakers are investing in EV production and charging infrastructure. Additionally, incentives, subsidies, and advancements in technology make EVs an attractive choice for consumers. As India aims to transition to cleaner and more sustainable transportation, the EV industry is expected to thrive, offering substantial opportunities in manufacturing, R&D, infrastructure development, and related services, making it a promising sector for investment and career prospects.
Details about financial aid, scholarships, or any available discounts can be obtained directly from Great Lakes Executive Learning. Speak to a Program Advisor at 08037309048 or Email at pgpevdesign@greatlearning.in
We advise all candidates to have complete information before enrolling in the program. No refund requests will be accepted once the fee has been paid. However, there is a deferment policy where a candidate can choose to defer his enrollment to a future batch.
No. Through the LMS, learners have access to all the necessary learning materials online. At times, faculties will provide learners with a list of recommended books and other resources for their in-depth reading pleasure because these disciplines are broad and continually changing, so there is always more they can learn.
Learners can pay the course fee through Credit/Debit Cards or Bank Transfers.
Yes, we accept corporate sponsorships and can assist learners with the process.
[Learners can reach out to us at pgpevdesign@greatlearning.in or 080-3730-9048]
Yes, we have corporate financial tie-ups with Eduvanz, Propelld, and Liquiloans to provide student loans so that money doesn’t become a hindrance to learning.
The fee to pursue this EV course online is ₹2,25,000 + GST, which learners can pay through regular or interest-free EMIs. Additionally, fees of ₹13,000 (including GST) on lump sum payments are waived for learners.
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