- Program Highlights
| The Professional Certification Program in Charging Technologies and Hydrogen Fuel Cell Systems for Electric Vehicles equips participants with specialized knowledge in the latest charging technologies and hydrogen fuel cell systems. Covering essentials from EV design principles to smart grid integration, this course prepares students to develop and manage sustainable, efficient power solutions for electric vehicles, including cutting-edge hydrogen fuel cell technologies and renewable energy applications. |
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- Admission Closes on 1st Nov
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- Career Opportunities
- EV Charging Infrastructure Design: Development and management of charging networks.
- Hydrogen Fuel Cell Technology Development: Designing and implementing hydrogen fuel cells in vehicles.
- Grid Integration for EVs: Incorporating EVs into power grids for energy balance.
- Renewable Energy Integration: Using renewable energy sources for EV charging.
- Wireless Charging Technology: Development of wireless and inductive charging solutions.
- Smart Charging Solutions: Implementing smart charging methods and strategies.
- Solar-Powered EV Charging Stations: Designing and managing solar-powered charging stations.
- Energy Management Systems (EMS): Optimizing energy distribution in EVs and grid systems.
- Battery Swapping Technology: Developing and managing battery swapping solutions.
- Compliance and Safety Standards: Ensuring charging infrastructure meets safety standards.
- Charging Infrastructure Engineer: Designs EV charging solutions and stations.
- Hydrogen Fuel Cell Engineer: Specializes in hydrogen fuel cell technology for EVs.
- Smart Grid Specialist: Integrates EVs with the power grid for efficient energy management.
- Wireless Charging Engineer: Develops wireless charging technology for EVs.
- Renewable Energy Specialist: Focuses on solar and renewable energy for EV applications.
- Compliance and Safety Officer: Ensures adherence to charging standards and safety regulations.
- Battery Swapping Technician: Manages battery swapping systems for EVs.
- Power Management Engineer: Designs and implements power management strategies.
- Solar PV Design Engineer: Designs photovoltaic systems for EV charging stations.
- V2G Systems Developer: Works on vehicle-to-grid technology to support grid resilience.
- Proficiency in MATLAB and SIMULINK: Skilled in simulation and modeling for fuel cells and grid systems.
- Hydrogen Fuel Cell Technology Expertise: Knowledge of hydrogen-based EV systems.
- Charging Standards Knowledge: Familiarity with CCS, CHAdeMO, and other standards.
- Smart Grid Integration Skills: Ability to work on EV-to-grid connections.
- Wireless Charging Development: Skills in inductive and wireless charging technologies.
- Solar System Design Skills: Expertise in PV system design and installation.
- Power Electronics Knowledge: Familiar with inverters, converters, and power management.
- Safety Compliance Knowledge: Understands electrical safety and cybersecurity standards.
- Project Management Skills: Able to manage complex EV charging and fuel cell projects.
- Data Analysis for Load Management: Skilled in analyzing grid loads and managing EV charging.
- Tata Power
- Mahindra Electric
- Ola Electric
- NTPC Limited
- BHEL
- Reliance Industries
- Indian Oil
- Corporation
- Bosch India
- Hero Electric
- L&T Technology Services
- Exicom Power Solutions
- Ather Energy
- Fortum India
- Amara Raja Batteries
- Adani Green Energy
- FOR ENTERPRISE
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- Program Outcomes
- Program Curriculum
Module 1: EV Engineering Essentials Part I and II
- Module Description:
- This foundational module covers the core elements of EV technology, including an introduction to EV components, key technologies, and the transition from internal combustion engines (ICE) to electric vehicles. Students explore essential EV design principles, focusing on subsystems, safety, and battery technology, including chemistries, energy density, and charging cycles. Topics include power electronics, motor systems, and vehicle electrification systems, such as wiring, voltage distribution, and both high- and low-voltage components. Charging technology, infrastructure, and standards like CCS and CHAdeMO are also discussed to give a comprehensive understanding of EV basics.
- Module Details:
- Starting with EV Technology: Overview of Electric Vehicles, Components, Key Technologies
- Understanding ICE to EV Transition: Key Differences, Benefits, Challenges
- Electric Vehicle Engineering: EV Design Principles, Key Subsystems, Safety Considerations
- Battery Technology for EV Systems: Battery Chemistries, Energy Density, Charging Cycles
- Power Electronics for EV Systems: Inverters, Converters, Power Management
- Motor Systems for Electric Vehicles: Types of Motors, Control Strategies, Efficiency Optimization
- Vehicle Electrification Systems: Vehicle Wiring, Voltage Distribution, High and Low Voltage Components
- Electric Vehicle Charging Technology: Charging Infrastructure, Standards (CCS, CHAdeMO), Fast Charging Solutions
Module 2: Smart Grid and Charging Infrastructure for Electric Vehicles
- Module Description:
- This module provides an in-depth understanding of EV charging technology, from basic principles to advanced grid integration. It covers charging standards and protocols, including CHAdeMO, CCS, GB/T, and Tesla Supercharger. Students explore grid impact, load management strategies, and the mechanics of wireless and inductive charging. Topics include battery swapping, ultra-fast charging, and the economics of setting up charging stations. The module concludes with an emphasis on compliance with safety and cybersecurity standards for EV charging infrastructure.
- Module Details:
- Introduction to Electric Vehicles and Charging Technology
- Charging Standards and Protocols: CHAdeMO, CCS, GB/T, Tesla Supercharger,Basic Electrical Principles
- Grid Integration and Load Management: Grid Impact and Challenges, Load Management Strategies
- Wireless and Inductive Charging: Principles of Wireless Charging, Inductive Charging Technology
- Wireless Charging: Battery Swapping Technology, Ultra-Fast Charging
- Business Models and Economics of Charging Stations
- Compliance and Standards: Electrical and Fire Safety Standards, Cybersecurity”
Module 3: Hydrogen Fuel Cell Technology for Electric Vehicles: Systems Design and Integration
- Module Description:
- Focused on hydrogen fuel cell technology, this module delves into hydrogen as a fuel alternative, comparing it with traditional hydrocarbons in terms of energy, flammability, and safety. Students learn the fundamentals of hydrogen fuel cells, including MATLAB-based modeling and vehicle system integration. This module also covers the design of hydrogen fuel cell engines and compares the capabilities of Fuel Cell Electric Vehicles (FCEVs) with Battery Electric Vehicles (BEVs), equipping students with knowledge to evaluate and implement hydrogen-based systems in EVs.
- Module Details:
- Significance of hydrogen-based technology
- Comparison of hydrogen to hydrocarbon fuels in terms of energy, flammability,and safety
- Fundamentals of Hydrogen Fuel Cell Technology
- MATLAB modeling of hydrogen fuel cell systems
- Integration of Hydrogen in Vehicle Systems
- Design of hydrogen fuel cell engines
- Comparison of Hydrogen Fuel Cell Electric Vehicles (FCEVs) vs. Battery Electric Vehicles (BEVs)”
Module 4: Solar Technology for Renewable Energy: Design, Integration, and Optimization
- Module Description:
- This module introduces solar energy systems, from photovoltaic (PV) design to optimization. Students learn about solar panel design, material science, and system sizing to maximize performance. Topics include solar inverters, energy storage, grid-connected vs. standalone systems, and installation procedures. This module also highlights renewable energy policies, financial incentives, regulatory requirements, and emerging trends, providing a broad view of how solar energy can be integrated into EV charging systems.
- Module Details:
- Introduction to Solar Energy and Photovoltaic (PV) Systems
- Solar Panel Design and Material Science
- System Sizing and Design for Optimal Performance
- Solar Power Inverters and Energy Storage Solutions
- Design considerations, benefits, and challenges of grid-connected and standalone solar power systems
- Site assessment, installation procedures, system maintenance, troubleshooting, and safety protocols
- Renewable energy policies, financial incentives, and regulatory requirements for solar installations
- Emerging Trends in Solar Technology and Future Outlook
- Skills Covered
Proficiency in MATLAB and SIMULINK
Hydrogen Fuel Cell Technology Expertise
Charging Standards Knowledge
Smart Grid Integration Skills
Wireless Charging Development
Solar System Design Skills
Power Electronics Knowledge
Safety Compliance Knowledge
Project Management Skills
Data Analysis for Load Management
- Projects
Vehicle-to-Grid (V2G) System Implementation
Fuel Cell-Powered Hybrid EV Model
Solar-Powered EV Charging Station Design
- Benefits
- Gain foundational knowledge in EV charging and fuel cell technologies.
- Hands-on experience with software tools and real-world projects.
- Career opportunities in the growing field of sustainable transportation.
- Exposure to renewable energy and its applications in automotive engineering.
- Build a strong resume with industry-relevant skills and knowledge.
- Specialization in emerging EV charging and hydrogen fuel cell technologies.
- Opportunities for career growth in renewable and sustainable transportation sectors.
- Practical skills in grid integration, compliance, and energy management.
- Exposure to cutting-edge renewable energy and EV infrastructure developments.
- Networking with industry experts and potential employers.
- Design efficient charging stations and grid integration for EVs.
- Develop hydrogen fuel cell systems for electric vehicle applications.
- Analyze and implement smart grid solutions for enhanced energy management.
- Apply renewable energy technology, such as solar, to EV charging solutions.
- Implement safety and cybersecurity measures in charging infrastructure.
- Model and simulate fuel cell systems using industry-standard tools.
- Evaluate business models and economic aspects of charging technology.
- Mode of Learning
Complete on-site
classroom program
Location: Mumbai
LIVE + Recorded + Onsite + Hardware + Workshop
LIVE + Weekend on-site sessions
Location: Pune, Delhi
LIVE + Recorded + Hardware + Workshop
Location: Global
- Tools Covered
Hardware Labs Access
Two-Wheeler Simulator & Test Bench
The 2 Wheeler Simulator & Testbench focuses on evaluating EV battery performance, including voltage, current, discharge profiles, and capacity testing under various load conditions. It also covers Battery Management System (BMS) testing and dynamic load analysis to optimize electric bike performance and safety.
LAB 1
Charging Station Simulator and Test Bench
The Charging Station Simulator and Test Bench covers experiments focusing on the efficiency, behavior, and safety features of EV charging systems. It includes the measurement of voltage, current, and power consumption during charging, and tests security features like RFID and OTP-based authentication. Key areas include energy efficiency analysis, protection unit testing, and charging behavior under different conditions
LAB 2
EV In-house manufacturing & Development KIT
The EV In-house Manufacturing & Development KIT provides all the essential tools and components for building and prototyping electric vehicles, supporting the entire development process from concept to production. It includes equipment for battery monitoring, motor control, system integration, and real-time data analysis, ensuring seamless development for EV projects
LAB 5
