Industry-Aligned Curriculum & Continuous Upgradation
- CBCS(Choice Based Credit System) /Dynamic course curriculum revised periodically in consultation with industry stakeholders.
- Integration of core electrical engineering subjects with modern domains such as:
Smart Grids & Power Systems
Renewable Energy Technologies (Solar, Wind)
Electric Vehicles (EVs)
Automation, Robotics, and IoT
Project-Based Learning
- Emphasis on real-world problem solving through project assignments.
- Students engage in industry-oriented projects, including:
- Energy auditing
- Smart home automation systems
- Renewable energy system design
Skill-Centric Training Programs
Regular practical training sessions and workshops on:
- Electrical Design & Simulation Tools
- PLC & SCADA Systems
- Embedded Systems (Arduino, Raspberry Pi)
- Electrical Machine Testing & Maintenance
- Wiring, Installation & Safety Practices
- Soft skills development including communication, teamwork, and employability skills
Advanced Laboratories & Innovation Initiatives
- Establishment of specialized labs such as:
- Power Electronics Lab
- Robotics Lab
- Control Systems & Automation Lab
- Renewable Energy Lab
- Electric Vehicle Lab
- Hands-on exposure to modern equipment and simulation tools.
- Encouragement of student innovation, prototypes, and startup ideas.
Promotion of interdisciplinary projects integrating electrical engineering with AI, IoT, and mechanical systems.
Mentor-Mentee Engagement System
Structured mentoring program for academic guidance, career planning, and personal development.
Regular one-on-one sessions between faculty mentors and students.
Green Engineering & Sustainability Practices
- Integration of energy-efficient and eco-friendly solutions in academic projects.
- Focus on renewable energy systems, energy conservation, and sustainable infrastructure.
- Encouragement of projects like:
- Solar power generation systems
- Energy-efficient lighting and appliances
- Promotion of environmental awareness and sustainable engineering practices.