About Electric Vehicle Course:
The electric vehicle course is a learning programme designed for students and corporates aspire to work or working in automotive, auto-component, design and manufacturing sector and aim to develop the required skills to build and sustain future automobiles. This program enables the engineering professionals working in manufacturing, design, analysis, support and allied areas in automotive-related fields to gain knowledge and expertise in Vehicle dynamics, Architecture, Motor Design, Ergonomics, Battery Technology to help in designing, building, testing and sustaining future automotive systems using Electric Vehicle technologies. The programme tends to equip students and professionals with multidisciplinary expertise and increase the practical exposure with the tools and functioning of the Electric vehicle via online lectures. This programs aims to make participants more employable, prepare participants to match up with the industry 4.0 revolution and bridge the gap between conventional methods of learning and application-based method of learning.
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Are you new to EV? This EV course is the first pre-requisite to your in depth journey into the advanced EV Industry. Work on real-world case studies and projects through the Electric Vehicle Course in just 5 Weeks and pave your way for indepth knowledge!
- Electric Vehicle Course in association with NEAT AICTE & ASDC
- Learn how to convert an ICE car into an Electric Car (Retrofittment)
- Know the Techniques of Batteries design, Electric Vehicle subsystems, charging infrastructure, etc.
- Learn Physics and Cemistry required for Basic EV Understanding from IIT Faculties & Industry Experts
- 5 Days Hands on Training at DIYguru & L&T Edutech COEs to perform EV Lab exercises (Optional)
Course Syllabus:
Module 1: Understanding the EV Ecosystem
- EV Types and Concepts: Comprehensive overview of various EV designs and their functionalities.
- Global and Indian Ecosystem: Insights into how different regions are adapting to and promoting EV usage.
- EV and UN Sustainable Goals: Discussion on how EVs contribute to global sustainability efforts.
- Market Overview and Government Initiatives: Detailed look at market dynamics and the influence of public policies.
- Challenges and Growth Analysis: Exploring the hurdles and growth potential within the EV industry.
- Charging Infrastructure: Status and future prospects of EV charging networks in India and globally.
- Battery Manufacturing Ecosystem: Deep dive into the production and innovation in battery technology in India.
Module 2: Transition in Automotive Technologies
- Mobility Industry Shifts and Trends: Current shifts and future trends affecting the automotive industry.
- Challenges in Traditional Automotive Industry: Analysis of the challenges faced by conventional automotive sectors transitioning to EV.
- Components in EV Technology: Detailed study of EV-specific components like powertrains, transmissions, chassis, and suspension systems.
- Technology Transfers: From internal combustion engines to electric motors and from fuel systems to advanced battery solutions.
Module 3: EV Design and Technology
- EV Layouts, Control, and Classification: Understanding different EV configurations and their control mechanisms.
- EV Architecture and Design: Insights into the design considerations unique to EVs.
- Battery and Hybrid Technologies: Exploration of various battery technologies and hybrid systems.
- Introduction to Motors and Energy Management: Basic to advanced concepts in EV motors and energy management systems.
- Charging Systems and EV Efficiency: Overview of charging systems and strategies to enhance EV range and efficiency.
Module 4: Advanced Battery Technology
- Introduction to Battery Technology and Components: Foundations of battery technology and its critical components.
- Battery Chemistry and Energy Density: Detailed analysis of the chemistry behind batteries and their energy properties.
- Battery Management and Health Systems: Techniques for managing battery health and optimizing performance.
- Thermal Management and Safety Protocols: Ensuring safety and efficiency through effective thermal management.
- Battery Recycling and Next-Generation Systems: Future trends and sustainability practices in battery technology.
Who Should Enroll:
This course is perfect for anyone looking to deepen their understanding of the electric vehicle sector, including automotive professionals, engineers, policymakers, and entrepreneurs.
Learning Outcomes:
- Gain a holistic understanding of the EV industry and its key components.
- Develop insights into global market trends and policy impacts on the EV sector.
- Master the technical aspects of EVs, from basic components to advanced battery systems.
- Prepare for leadership roles in the transition towards sustainable mobility solutions.
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Electric Vehicle Course: Curriculum
- EV Types and Concepts
- Global and Indian ecosystem
- EV & UN Sustainable Goals
- Market Overview
- Govt Initiatives and Policies
- Global EV Scenario
- Growth and Challenge analysis of EV growth
- Charging Infrastructure in India
- Battery manufacturing and ecosystem in India
- EV Service and repair segment in India
- EV OEMs
- EV Policy Framework
- Mobility Industry Shifts and Trends
- Analyzing challenges in Automotive Industry
- Rise of E Mobility technology
- Components in EV Technology: Powertrain & Emissions.
- Components in EV Technology: Transmission & Fuel Systems
- Components in EV Technology: Chassis & suspension
- Technology transfer: Engine to Motor systems
- Technology transfer: Fuel systems to Batteries
- Exhaust to energy management
- EV Layouts and control
- EV Classification
- EV Architecture and Design
- Battery Electric Vehicles
- Hybrid Electric Vehicles
- Plug in Hybrid Electric Vehicles
- Fuel Cell Electric Vehicles
- Mechanical Storage Systems
- Chemical Storage Systems
- Battery Technology for EVs
- Introduction to Motors
- Introduction to energy management systems
- Introduction to Charging systems
- EV Range & Efficiency
- Introduction to Battery Technology
- Battery components
- Battery cell types
- Battery chemistry
- Battery energy density and properties
- Battery charging and discharging standards
- Need of battery management system
- State of Charge and health
- Thermal management in battery systems
- Battery construction pipeline
- Battery degradation
- Battery Recycling and safety
- Next generation battery systems
- Introduction to Power Electronics for EVs
- Basics of Power Electronics
- Semiconductor Devices
- Electronics Operations
- Switching Mechanism
- Loss of power
- Control and Modulation Techniques
- Heat and thermal control
- DC-DC Converter Systems
- AC-DC Rectification
- DC-AC Systems
- Voltage and current source systems
- Power Flow Systems
- EV Controllers
- Control Techniques
- Introduction to EV Motors
- Direct Current Operating Motors
- Alternating Current Operating Motors
- BLDC Motors
- PMSM Motors
- Switched Reluctance Motors
- EV Traction Motors
- Analyzing Motor performance
- Concept of regenerative braking
- Propulsion systems in EV Motors
- Motor Controller Systems
- Motor Thermal Systems
- Industry motor examples
- Understanding vehicle Electrification
- Vehicle Power Distribution
- Charging Circuit Understanding
- Understanding VCUs
- VCU Design
- High Power Systems
- Electrical Systems
- Electrical Standard
- Electrical Testing
- Telematics Systems
- Advanced Systems in electrical systems
- Electromagnetic Compatibility (EMC) and Interference
- Introduction of Charging Technology for EVs
- Classification of Charging Technologies
- On Board Charging Systems
- Infrastructure Network
- Home Charging Systems
- High Speed Charging Solutions
- Concept of Battery Swapping
- Concept of V2G Systems
- Grid Integration for EVs
- Charging Challenges and possible solutions
- Renewable Energy Integration
Upon successful completion of the course, students will be able to:Â
- Understanding power electronics for EVs.
- Knowledge of semiconductor devices and electronics operations.
- Proficiency in switching mechanisms and power control techniques.
- Insight into various EV motor types and their performance.
- Understanding vehicle electrification systems and power distribution.
- Knowledge of charging technologies and infrastructure.
- Proficiency in designing motor controller and thermal systems.
- Understanding telematics and advanced electrical systems in EVs.
- Insight into grid integration and renewable energy solutions.
- Awareness of industry standards and electromagnetic compatibility.
- Comprehensive understanding of EV types and concepts.
- In-depth knowledge of the global and Indian EV ecosystems.
- Awareness of EV’s role in achieving UN Sustainable Goals.
- Insight into the EV market and government initiatives.
- Understanding of the challenges and growth prospects in the EV sector.
- Knowledge of EV charging infrastructure in India.
- Understanding of battery manufacturing and ecosystems in India.
- Insight into EV service and repair segments.
- Understanding of EV Original Equipment Manufacturers (OEMs).
- Knowledge of EV policy frameworks.
- Comprehensive understanding of the transition from ICE to EV.
- Detailed knowledge of EV components and technology transfer.
- Understanding of EV layouts, classifications, and architecture.
- Insight into different types of EVs and storage systems.
- Detailed knowledge of battery technology, including chemistry, management systems, and safety.Â
Skill Sets
- Understanding EV architecture and design
- Battery technology and management
- EV powertrain and energy management
- Charging systems and infrastructure
- Hybrid and fuel cell electric vehicles
- Market analysis and growth strategies
- Government policies and regulatory frameworks
- Sustainability and environmental impact
- Engineering transition from ICE to EV
- Thermal management in battery systems
- Understanding power electronics and semiconductor devices
- Knowledge of switching mechanisms and power control techniques
- Proficiency in designing motor controller systems
- Analyzing motor performance and efficiency
- Understanding regenerative braking and propulsion systems
- Integration of telematics and advanced electrical systems
- Implementing thermal management in motors and power electronics
- Knowledge of vehicle electrification and power distribution
- Understanding charging technologies and infrastructure
Solving charging challenges and integrating renewable energy solutionsand numerical analysis
Industry Project:Â
Project 1 : Design and Development of a Battery Management System (BMS) for Electric Vehicles
Design and develop a comprehensive Battery Management System (BMS) to enhance the safety, efficiency, and longevity of batteries used in electric vehicles.
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Project 2 : Design and Development of an EV Motor Controller System:
Design and develop a comprehensive motor controller system to optimize the performance and efficiency of electric vehicle motors.
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