Prof. Ananya Rao

Professor, Electrical & Electronics Engineering

πŸ“ Bengaluru, Karnataka

Experience

15+ years of teaching Electrical Machines, Power Systems, and Control Engineering to engineering students and mentoring industrial projects.

Qualifications

Ph.D. in Power Electronics, M.Tech in Electrical Engineering, B.Tech in EEE

Contact

ananya.rao@email.com

+91-97XXX54321

⚑ B.Tech in Electrical & Electronics Engineering

Electrical & Electronics Engineering (EEE) focuses on the study, design, and application of electrical systems, electronics, and electromagnetism, forming the backbone of power generation, automation, and control technologies.

πŸ“Œ Summary

The EEE curriculum covers core topics such as electrical circuits, machines, power electronics, control systems, renewable energy technologies, microprocessors, and high-voltage engineering. It prepares students for careers in power generation, automation, manufacturing, and electronics industries.

πŸ› οΈ Skills Taught
  • Designing and analyzing electrical circuits
  • Working with transformers, motors, and generators
  • Applying control system principles for automation
  • Using simulation tools like MATLAB/Simulink
  • Power system design, operation, and protection
  • Integration of renewable energy systems
  • Embedded systems and microcontroller programming
πŸ“š Teaching Methodologies
  • Lab experiments in electrical machines and power electronics
  • Case studies from power plants and manufacturing units
  • Industrial visits to substations and renewable energy sites
  • Project-based learning on automation and IoT applications
  • Simulation-based design using modern engineering tools
  • Workshops on PLCs, SCADA, and industrial automation
πŸ“ Assessment Techniques
  • Regular lab performance evaluations
  • Assignments on circuit design and simulation
  • Mid-term and final theory/practical exams
  • Project presentations on industrial case studies
  • Viva on machine operation and power system analysis
🌐 Real-World Applications

EEE graduates work in power generation and distribution, renewable energy integration, electric vehicle design, manufacturing automation, electronics production, and smart grid development.

πŸ”— Interdisciplinary Value

EEE integrates with mechanical engineering for automation, computer science for embedded systems, and civil engineering for infrastructure electrification.

🎯 Learning Outcomes

By the end of the course, students will be able to:

  • Analyze and design electrical and electronic circuits
  • Operate and maintain electrical machines
  • Develop automation solutions using control systems
  • Integrate renewable energy into existing grids
  • Apply power electronics in real-world applications
Verified
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