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Hybrid and Electric Vehicle (HEV & EV) Design Course in Noida

Designing hybrid and electric vehicles involves creating technologies that reduce fuel consumption, lower emissions, and improve overall vehicle efficiency. These vehicles combine traditional internal combustion engines (ICE) with electric propulsion systems or rely solely on electric motors for power. Below are key considerations and aspects of HEV and EV design.

Powertrain Architecture:

Hybrid Electric Vehicles (HEVs) :

  • Parallel Hybrid : Both the internal combustion engine (ICE) and electric motor can power the vehicle independently or together. The engine and motor are connected in parallel.
  • Series Hybrid : The ICE generates power only to charge the battery, while the electric motor drives the wheels. This setup is commonly found in vehicles like the Chevrolet Volt.
  • Series-Parallel Hybrid : This combines both systems, allowing either the electric motor or ICE to drive the wheels, offering greater flexibility.

  • Electric Vehicles (EVs):

  • Battery Electric Vehicles (BEVs) : These vehicles are powered entirely by electricity stored in onboard batteries, with no internal combustion engine. They rely on a single electric motor or multiple motors for propulsion.
  • Fuel Cell Electric Vehicles (FCEVs) : These use hydrogen fuel cells to generate electricity that powers electric motors. Examples include the Toyota Mirai and Hyundai Nexo.

  • Energy Storage-

  • Batteries : In both EVs and HEVs, batteries store electrical energy. Lithium-ion batteries are the most common type because of their higher energy density, longer lifespan, and lighter weight compared to older technologies like nickel-metal hydride (NiMH).
  • Battery Management System (BMS) : This system ensures the battery operates efficiently, monitoring temperature, charge/discharge cycles, and protecting the cells from damage. For HEVs, the BMS also coordinates the interaction between the battery, electric motor, and internal combustion engine.


  • S.No. Course Related to Hybrid & Electric Vehicle Design Downloads Duration
    01 Hybrid & Electric Vehicle Design Training (Full Time)) Online Hybrid & Electric Vehicle Design Training NOIDA 3 Months
    02 Hybrid & Electric Vehicle Design Training (Only Sunday) Advance Hybrid & Electric Vehicle Design Training Noida Delhi 6 Months
    03 Hybrid & Electric Vehicle Design Training (Full Day) Best Hybrid & Electric Vehicle Design Training- Noida Delhi NCR 15 Days
    04 Advance App Development Training (Correspondence) Best Hybrid & Electric Vehicle Design Training in Noida 6 Month

    Training Course Electric Motor Design

    • Induction Motors vs Permanent Magnet Motors and Motor Control Electronics
    • Regenerative Braking System
    • Thermal Management ( Cooling Systems, Battery Cooling )
    • Vehicle Weight Reduction ( Materials )
    • Charging and Infrastructure ( Charging Ports, Charging Speed )
    • Efficiency and Range ( Energy Efficiency, Range )
    • Aerodynamics and Design ( Aerodynamic Efficiency )
    • Software and Control Systems ( Vehicle Control Units (VCU), Over-the-Air Updates )
    • Safety and Standards ( Crash Safety, Regulations )
    • Environmental Impact and Life Cycle Considerations
    • Future Trends in HEV & EV Design ( Solid-State Batteries, Autonomous Driving, Vehicle-to-Grid (V2G) )

    Conclusion

    Designing hybrid and electric vehicles requires a multi-disciplinary approach, combining expertise in electrical engineering, mechanical engineering, materials science, and software development. The goal is to improve vehicle efficiency, reduce emissions, and offer consumers sustainable alternatives to traditional vehicles. The integration of cutting-edge technologies in powertrains, battery systems, and aerodynamics plays a critical role in the performance and adoption of HEVs and EVs Training course in Noida.

    Training Features
    • Hands-on experience with tools and strategies
    • Better understanding of how apps drives online visibility
    • Enhanced skills for optimiz programming for applications
    • Opportunities for career advancement in currect Industry
    • ON-Line and OFF-Line Training classes on Demo Projects
    • Provide Resources for Continued Learning
    • Provide mentorship opportunities
    • Make training expectations clear during onboarding
    • Craft relevant online courses
    • Career Opportunities: Resume building, Mock interviews, 1-1 mentorship and Career fair
    • 100% Job Support Intrustries Requirement
    • Professional and Experienced Faculty from the Trade