Introduction

The Department of Electrical Engineering offers four-year Bachelor of Technology (B.Tech) and three-year Diploma (Poly.) It focuses on the study and application of electricity, electronics, and electromagnetism.The curriculum typically covers a wide range of topics including circuit theory, electronics, digital systems, power systems, control systems, electromagnetics, signal processing, and communication systems.Department of Electrical engineering have well-equipped laboratories for practical experiments and research in areas such as electronics, power systems, control systems, and telecommunications.Faculty and students in the department engage in research in various specialized areas including renewable energy, electric vehicles, robotics, smart grids, semiconductor devices, and nanotechnology. Department of electrical engineering have strong connections with industry partners, which may include internships, research collaborations, and recruitment opportunities for students.Students and faculty participate in professional societies such as the Institute of Electrical and Electronics Engineers (IEEE), where they can network, attend conferences, and stay updated on the latest advancements in the field.Graduates from electrical engineering departments pursue careers in diverse industries including telecommunications, power generation and distribution, electronics manufacturing, aerospace, automotive, and information technology.Given the broad scope of electrical engineering, collaboration with other departments such as computer science, mechanical engineering, and physics is common, especially in areas like robotics, mechatronics, and biomedical engineering.

The Department of Electrical Engineering offers four-year Bachelor of Technology (B.Tech) and three-year Diploma (Poly.) It focuses on the study and application of electricity, electronics, and electromagnetism.The curriculum typically covers a wide range of topics including circuit theory, electronics, digital systems, power systems, control systems, electromagnetics, signal processing, and communication systems.Department of Electrical engineering have well-equipped laboratories for practical experiments and research in areas such as electronics, power systems, control systems, and telecommunications.Faculty and students in the department engage in research in various specialized areas including renewable energy, electric vehicles, robotics, smart grids, semiconductor devices, and nanotechnology. Department of electrical engineering have strong connections with industry partners, which may include internships, research collaborations, and recruitment opportunities for students.Students and faculty participate in professional societies such as the Institute of Electrical and Electronics Engineers (IEEE), where they can network, attend conferences, and stay updated on the latest advancements in the field.Graduates from electrical engineering departments pursue careers in diverse industries including telecommunications, power generation and distribution, electronics manufacturing, aerospace, automotive, and information technology.Given the broad scope of electrical engineering, collaboration with other departments such as computer science, mechanical engineering, and physics is common, especially in areas like robotics, mechatronics, and biomedical engineering.

Vision

To be a pioneering hub of innovation and excellence in Electrical Engineering, shaping future leaders equipped to tackle global challenges

Mission

• Empower students with cutting-edge knowledge and skill in Electrical & Electronics Engineering through dynamic curriculum and experiential learning.
• Foster a collaborative environment that encourages research, innovation, and entrepreneurship.
• Cultivate ethical values, leadership qualities, and a commitment to societal impact among students and faculty.
• Forge strong industry partnerships to enhance real-world relevance and opportunity for students and faculty.
• Promote diversity, inclusivity, and sustainability in all aspect of our academic and research endeavours.

PROGRAM EDUCATIONAL OBJECTIVES (PEOs)

PEO1-Find employment in Core Electrical Engineering and service sectors.

PEO2-Get elevated to technical lead position and lead the organization competitively.

PEO3-Enter into higher studies leading to post-graduate and research degrees.

PEO4-4. Become consultant and provide solutions to the practical problems of core organization. And also become an entrepreneur and be part of electrical and electronics product and service industries.

PROGRAMME SPECIFIC OUTCOMES (PSOs)

On completion of Electrical Engineering program, the student will have the following Program Specific Outcomes.

PSO1- Foundation of Electrical Engineering: Ability to understand the principles and working of electrical components, circuits, systems and control that are forming a part of power generation, transmission, distribution, utilization, conservation and energy saving. Students can assess the power management, auditing, crisis and energy saving aspects.

PSO2- Foundations of Power System Development: Ability to understand the structure anddevelopment methodologies of electrical systems using knowledge on circuits, electronicsfor automation and control. Possess professional skills and knowledge of electrical systemmodeling and design of small and large systems. Familiarity and practical competence witha broad range of practice through experimentation on electrical circuits, electronic circuitsand programming platforms.

PSO3- Foundation of Mathematical Concepts, Computing and Research Ability: Ability to apply mathematical methodologies to solve problems related with electrical engineering using appropriate engineering tools and algorithms.Ability to use knowledge in various domains to identify research gaps and hence to provide solution which leads to new ideas and innovations.

PROGRAMME OUTCOMES (POs)

After going through the four years of study, our Electrical Engineering Graduates will exhibit ability to:

PO1- Engineering knowledge :Apply knowledge of mathematics, basic science and engineering science.

PO2- Problem analysis:Identify, formulate and solve engineering problems.

PO3- Design/development of solutions: Design an electrical system or process to improve its performance, satisfying its constraints.

PO4- Conduct investigations of complex problems:Conduct experiments in electrical and electronics systems and interpret the data.

PO5- Modern tool usage:Apply various tools and techniques to improve the efficiency of the system.

PO6- The Engineer and society: Conduct them to uphold the professional and social obligations.

PO7- Environment and sustainability: Design the system with environment consciousness and sustainable development.

PO8- Ethics: Interacting industry, business, and society in a professional and ethical manner.

PO9- Individual and team work:Function in a multidisciplinary team.

PO10- Communication:Proficiency in oral and written Communication.

PO11- Project management and finance: Implement Cost effective and improved system.

PO12- Life-long learning:Continue professional development and learning as a life-long activity.