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Curriculum

Program Content

In this program students will study Green Skilling, Sustainability, and EV. The curriculum offers a thorough overview of these fields, including fundamental concepts, real-world applications, and practical hands-on experience. This initiative bridges traditional education with industry needs, cultivating a workforce prepared for the future with practical, industry-relevant skills. Through experiential learning, Skills4Future empowers students with EV technologies and mobile applications to strengthen their technical and diagnostic capabilities, while promoting eco-friendly practices aligned with sustainable development goals (SDGs). This prepares participants to excel in the rapidly growing EV and sustainability sectors, enhancing innovation and employability.

NSTI 240 hours Curriculum

Module Chapter
Introduction to Green Skills Introduction to Green Skills
Electric Vehicle Technology Introduction to EV Technology
2-Wheeler Motor Technology, Assembly & Troubleshooting
4-Wheeler Motor Technology, Assembly & Troubleshooting
EV Battery Systems Introduction to Battery Technology
Battery Pack Testing
EV Charging Stations EV Charging Station Setup and Safety
Charging Characteristics
Power Systems and Motors Hub Motor Structure
DC-DC Converter Structure and Efficiency

Learning Outcomes

Describe the importance of green skills in sustainable development, with a focus on their role in the electric vehicle (EV) industry.
Explain the working principles of EV technology and perform basic assembly and troubleshooting for 2-wheeler and 4-wheeler motor systems.
Understand EV battery technologies and conduct battery pack testing to assess performance and safety in lab settings.
Set up EV charging stations, apply safety protocols, and analyse charging characteristics through guided practical exercises.
Identify and interpret EV power system components, including hub motors and DC-DC converters, with hands-on exploration of structure and efficiency.
Apply practical skills in EV diagnostics and maintenance, integrating lab-based activities with real-world scenarios to reinforce technical understanding.

ITI 50 hours Curriculum

Module Chapter
Introduction to Green Skills Introduction to Green Skills
Sustainability and Artificial Intelligence Contributions
Electric Vehicle Technology Introduction to EV technology
2-Wheeler Motor Technology
Introduction to Battery technology
EV Battery Systems EV Charging Station Setup and Safety
EV Charging Stations Case Study: EV Adoption in Municipal Water Management
Health and Safety in Green Practices
Safety and Green Entrepreneurship in Trade Work Green Entrepreneurship in Trades
Introduction to Trade Specific Case Study on Application of Green Skills
Case study based green skilling Communication Skills
Placement Skills Career Counselling including Job roles
Resume and Cover Letter
LinkedIn
Interview Preparation

Learning Outcomes

Explain the principles of green skills and sustainability, including the role of Artificial Intelligence in promoting eco-friendly practices.
Describe core components of electric vehicle (EV) technology, with emphasis on 2-wheeler motor systems and their environmental impact.
Understand EV battery systems, including types, functionality, and safety considerations in real-world applications.
Demonstrate knowledge of EV charging infrastructure, setup protocols, and safety standards, supported by municipal case studies.
Apply green practices in trade work, integrating health, safety, and entrepreneurship within sustainable business models.
Analyse trade-specific case studies to identify practical applications of green skills across sectors and local contexts.

ITI 90 Hours Curriculum

Module Chapter
Electric Vehicle Technology Introduction to EV technology
EV Battery Systems 2-Wheeler Motor Technology, Assembly, and Troubleshooting
4-Wheeler Motor Technology, Assembly, and Troubleshooting
Introduction to Battery technology
Battery Pack Testing
EV Charging Stations EV Charging and Station Setup and Safety
Charging Characteristics
Hub Motor Structure
Power Systems and Motors DC-DC Converter structure and Efficiency
Introduction to Mobile Apps for Mechanical Work
EV Design, Maintenance and Troubleshooting Mobile-Based Measurement and Diagnostics
Mobile-Based Documentation and Record Keeping
Digital Troubleshooting via Mobile Devices

Learning Outcomes

Explain the fundamentals of electric vehicle (EV) technology, including motor types, components, and system architecture for both 2-wheelers and 4-wheelers.
Assemble and troubleshoot EV motors through guided lab sessions, applying diagnostic techniques to identify and resolve mechanical and electrical faults.
Understand EV battery systems, including cell chemistry, configuration, and safety protocols, and perform battery pack testing using standard lab procedures.
Set up and evaluate EV charging stations, analysing charging characteristics, safety requirements, and infrastructure needs through hands-on demonstrations.
Analyse power systems in EVs, including hub motor structures and DC-DC converter efficiency, using lab-based measurements and performance metrics.
Utilize mobile-based tools for EV maintenance, including apps for diagnostics, documentation, and digital troubleshooting, to simulate real-world service workflows.