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Electric Vehicles Engineer Course

The Electric Vehicles Engineer Course is designed to build comprehensive expertise in the design, operation, and integration of electric vehicle systems. It covers EV powertrains, battery technology, electric motors, power electronics, charging infrastructure, and vehicle control systems. Through practical learning and industry-oriented examples, learners gain hands-on understanding of modern EV technologies. This course prepares participants for engineering and technical roles in the fast-growing electric mobility and sustainable transportation sector.

  • 900 Hours (2 hours/day x 6 days/week x 6 weeks) OR at your own pace
  • Hindi, English
  • Learn & Get Certified
  • Basic & Intermediate
  • Hands-On Training
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Online Course Fees
3500
2500 (incl. GST)
  •  
29% off
Offline Course Fees
26000
24000 (incl. GST)
  •  
8% off
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About this course

Electric Vehicles Engineer Course is a comprehensive, industry-focused course designed to develop expertise in the design, development, integration, and maintenance of electric vehicle (EV) systems. The course covers EV architectures, electric motors and drives, battery and energy management systems, power electronics, charging technologies, vehicle control systems, safety standards, and diagnostics. With a strong blend of theory and hands-on training, learners gain practical skills to work on EV design, testing, performance optimization, and service operations. This course prepares candidates for engineering and technical roles in EV manufacturing, R&D, testing, infrastructure development, and mobility startups driving the future of sustainable transportation.This course provides essential knowledge and practical training to build industry-relevant skills.

  • Online Course Fees: ₹3500, ₹2500 (incl. GST) (Excluding tools & equipment cost)
  • Offline Course Fees: ₹26000, ₹24000 (incl. GST) (Excluding tools & equipment cost)
  • Certification: TCoE
  • Duration: 900 Hours (2 hours/day x 6 days/week x 6 weeks) OR at your own pace

What you'll learn

After this course you will learn:

  • Foundations of Electric Vehicle Technology: Understand EV architecture, types of electric drivetrains, motor technologies, battery chemistries, and powertrain integration.
  • EV Power Electronics & Control Systems: Learn how inverters, DC-DC converters, onboard chargers, BMS, motor controllers, and VCU work together to operate an EV smoothly.
  • Battery Pack Engineering & Thermal Management: Study battery pack design, cell balancing, cooling techniques (air/liquid), safety systems, and performance optimization.
  • EV Motor Design & Performance Analysis: Gain detailed knowledge of BLDC, PMSM, and induction motors—covering torque-speed characteristics, efficiency mapping, and motor control strategies.
  • Charging Infrastructure & Energy Management: Understand slow/fast/rapid charging, CCS/CHAdeMO/Type-2 standards, charging station design, and grid integration concepts.
  • EV Simulation, Modelling & Design Tools: Work with tools such as MATLAB/Simulink, ANSYS, and vehicle simulation software for designing, prototyping, and testing EV components.
  • Diagnostics, Testing & Troubleshooting: Learn advanced diagnostic techniques for batteries, motors, controllers, and electrical systems using industry-grade tools and protocols.
  • Safety Standards, Compliance & Future Technologies: Study AIS, ISO, UN-ECE safety standards, EV testing norms, and upcoming trends like solid-state batteries, autonomous EVs, and smart mobility systems.

Course Content

Why take this course?

This course equips you with comprehensive knowledge and practical skills to design, analyze, and support electric vehicle systems. You will learn about EV powertrains, battery technology, motors, power electronics, charging infrastructure, and vehicle control systems. With the global shift toward clean and sustainable mobility, skilled EV engineers are in strong demand across manufacturing, R&D, testing, and service sectors. This course prepares you for high-growth engineering careers while enabling you to contribute to the development of efficient, eco-friendly transportation solutions.

  • This module introduces learners to the fundamentals of electric vehicles (EVs), focusing on 3-wheeler EVs.
  • It covers the working principles, key components, and types of electric vehicles, highlighting their advantages over conventional vehicles.
  • Additionally, the module provides an overview of the global and Indian EV market, trends, adoption drivers, and future opportunities, helping students understand the growing importance and potential of electric mobility.
  • This module familiarizes learners with the essential equipment and tools required for assembling, maintaining, and troubleshooting 3-wheeler electric vehicles.
  • It covers hand tools, multimeters, battery testers, torque wrenches, diagnostic devices, and workshop safety equipment.
  • Students will gain practical knowledge of handling, operating, and maintaining these tools, laying the foundation for hands-on work with electric vehicle systems.
  • This module introduces learners to the basics of electrochemical cells and their role in electric vehicles, with a focus on 3-wheelers.
  • It covers battery types, cell construction, capacity, voltage, and energy density, along with principles of battery design, including series and parallel configurations.
  • Students will also learn about battery management systems (BMS) and safety considerations, enabling them to understand, select, and design efficient battery packs for E-3 wheeler applications.
  • This module introduces learners to the types of motors used in electric 3-wheelers, including DC, BLDC, and induction motors, along with their working principles and applications.
  • It also covers motor controllers, explaining how they regulate speed, torque, and direction of the vehicle.
  • Students will learn about integration of motors with controllers, efficiency considerations, and safety aspects, enabling them to understand and manage the drive system of an electric 3-wheeler effectively.
  • This module focuses on designing the complete electric system of a 3-wheeler vehicle.
  • It covers the integration of batteries, motors, motor controllers, wiring, and auxiliary components to create a functional and efficient electric drive system.
  • Students will learn principles of power distribution, system sizing, energy management, and safety considerations, enabling them to design a reliable and optimized electric system for E-3 wheeler applications.
  • This module guides learners through the step-by-step assembly of a 3-wheeler electric vehicle.
  • It covers mounting the chassis, integrating the battery pack, installing the motor and motor controller, and connecting electrical and auxiliary systems.
  • Emphasis is placed on proper alignment, secure connections, safety practices, and quality checks, enabling students to assemble a fully functional electric 3-wheeler ready for testing and operation.
  • This module focuses on evaluating the performance and reliability of an electric 3-wheeler after assembly.
  • Learners will explore techniques for testing electrical systems, battery performance, motor functionality, and overall vehicle operation.
  • The module also covers troubleshooting common issues, identifying faults, and performing repairs safely and efficiently.
  • By the end, students will be able to ensure their E-3 wheeler is fully functional, optimized, and ready for real-world use.

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See what our students have to say

With over a decade of experience, our mission is to produce future-ready skilled resources.

This course completely changed how I see electric mobility. Before, I had only a vague idea about batteries and motors — now I can confidently diagnose issues in EV 3-wheelers, and I feel ready to work in the field.
Karanpal
This course completely changed how I see electric mobility. Before, I had only a vague idea about batteries and motors — now I can confidently diagnose issues in EV 3-wheelers, and I feel ready to work in the field.
Eshwari
I joined this course with zero background in electric vehicles. The instructors broke down every concept — from powertrain layouts to charging infrastructure — in ways I could understand. Highly recommend for anyone wanting to switch careers into EV tech.
Ayesha
What I liked most was the troubleshooting section. The live fault diagnosis labs helped me build confidence. When I finished, I could already see the difference: I carry out diagnostics faster, more accurately, and safely.
Manish K.

Battery Management System (BMS) in EV 3-Wheelers

The Battery Management System (BMS) is the brain of an electric 3-wheeler’s power system. It continuously monitors and controls the battery’s performance — ensuring each cell operates safely and efficiently. In this topic, you’ll learn how the BMS tracks parameters like voltage, temperature, current, and state of charge (SOC) to prevent overcharging or deep discharge.

You’ll also explore how intelligent BMS design improves vehicle range, battery lifespan, and safety, along with fault detection and communication with the motor controller. This topic bridges both hardware and software aspects, preparing you to understand, service, and even optimize the energy heart of an EV 3-wheeler.

Job Opportunities

Here are some interesting job opportunities after completing the Embedded Software Engineer course:

  1. EV Service & Maintenance Technician
    Work with electric 3-wheeler fleets or service centers to maintain, repair, and troubleshoot key systems like batteries, motors, and controllers.

  2. EV Assembly Line Technician
    Join manufacturing units to assist in the assembly, wiring, and quality testing of electric 3-wheelers and their components.

  3. Battery Testing & Maintenance Engineer
    Specialize in battery performance evaluation, charging cycle optimization, and BMS calibration for passenger and cargo EVs.

  4. Motor & Controller Calibration Engineer
    Work on tuning and testing electric motors and controllers for better energy efficiency and smoother performance.

  5. EV Product Development Assistant
    Support engineers in designing and improving 3-wheeler models, integrating new technologies like regenerative braking or IoT-based monitoring.

  6. Quality Assurance & Testing Executive
    Ensure every EV meets performance, durability, and safety standards before hitting the road.

Frequently asked questions

This course provides in-depth knowledge of electric 3-wheelers — including their design, working, battery systems, motor controllers, and maintenance practices. It’s perfect for anyone looking to start or advance a career in the EV sector.

Students, diploma holders, engineers, mechanics, or EV enthusiasts — anyone interested in understanding or working with electric 3-wheelers can join. No prior EV experience is required!

You’ll learn to inspect, service, and troubleshoot 3-wheeler EV systems — including batteries, motors, and controllers — through real-world case studies and practical demonstrations.

Yes! The EV industry is expanding rapidly, and trained professionals are in high demand. This course prepares you for roles like EV Technician, Service Engineer, Design Assistant, or Fleet Maintenance Supervisor.

The course duration and format can vary, but it typically includes a blend of interactive lectures, video demonstrations, and hands-on sessions — available in both online and offline formats.

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