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About the Department

The vibrant EEE department was started in the year 2002 and at present the department has one PG course. The department has been accredited by NAAC and NBA. The Department of Electrical and Electronics Engineering is an esteemed division within the engineering domain, specializing in the study and application of electrical and electronics principles. The department prides itself on offering a comprehensive curriculum tailored to equip students with the necessary knowledge and skills to excel in this dynamic field.

Features of the Department of Electrical and Electronics Engineering:

  • Comprehensive Curriculum: The department provides a comprehensive curriculum encompassing a broad range of subjects related to electrical and electronics engineering. This includes core courses in areas such as circuit theory, digital electronics, power systems, control systems, signal processing, electromagnetics, communication systems, and computer architecture. The curriculum is designed to provide students with a strong foundation in both theoretical concepts and practical applications.
  • Experienced Faculty: The department boasts a highly competent faculty team comprising experienced professionals who are dedicated to imparting their expertise to students. The faculty members are well-versed in their respective fields and actively contribute to research and industry collaborations, ensuring that students receive up-to-date knowledge and insights.
  • State-of-the-Art Facilities: The department is equipped with state-of-the-art facilities, including well-equipped laboratories and research centre. These facilities enable students to gain hands-on experience and conduct experiments in areas such as electronics, power systems, control systems, Renewable Energy, and electric vehicle technology. The department also provides access to advanced software and simulation tools for practical learning.
  • Research and Innovation: The department encourages research and innovation in various areas of electrical and electronics engineering. Faculty members and students collaborate on research projects, exploring emerging technologies and contributing to advancements in the field. This fosters a culture of intellectual curiosity and prepares students for further studies or careers in research and development.
  • Industry Collaborations: The department maintains strong ties with industries and organizations in the electrical and electronics engineering sector. These collaborations facilitate internships, industry visits, and guest lectures, providing students with valuable exposure to real-world applications and industry practices. Such interactions also enhance students’ employability and foster networking opportunities.
  • Professional Development: The department organizes workshops, seminars, and expert lectures to enhance students’ professional development. These events cover topics such as emerging technologies, industry trends, and career guidance. Additionally, the department encourages students to participate in professional societies and competitions, allowing them to showcase their skills and network with professionals in the field.
  • Career Opportunities: A degree in electrical and electronics engineering opens up diverse career opportunities. Graduates from the department can pursue careers in industries such as power generation and distribution, telecommunications, electronics manufacturing, computer hardware, automotive systems, aerospace, and research and development. The department’s strong industry connections and career support services facilitate job placements and internships for graduating students.
  • Continuing Education and Postgraduate Programs: The department offers opportunities for continuing education and postgraduate studies, such as Master’s and Ph.D. programs. These advanced programs allow students to specialize in specific areas of electrical and electronics engineering and delve deeper into advanced concepts and research.
  • Student Support and Extracurricular Activities: The department is dedicated to providing support and fostering a conducive learning environment for students. Academic advisors are available to guide and mentor students throughout their academic journey. Additionally, the department encourages students to participate in extracurricular activities, such as student clubs and organizations related to electrical and electronics engineering. These activities promote teamwork, leadership skills, and the exploration of practical applications beyond the classroom.
  • Collaboration with Other Departments: Electrical and electronics engineering is an interdisciplinary field that often collaborates with other engineering disciplines and departments. The department actively engages in cross-disciplinary projects and research initiatives, fostering collaboration with departments such as computer science, mechanical engineering, and biomedical engineering. This interdisciplinary approach enhances students’ learning experiences and broadens their understanding of the field.
  • Alumni Network: The department maintains a strong alumni network consisting of successful professionals in the Electrical industry. Alumni events and mentorship programs enable current students to benefit from the knowledge and experiences of graduates, creating a supportive community for career guidance and professional growth.

Scope of Electrical and Electronics Engineering

  • Power Systems: Power generation, transmission, and distribution systems form a significant part of EEE. Engineers in this field design and manage power grids, substations, transformers, and other components related to electrical power generation and distribution.
  • Electronics and Integrated Circuits: This field focuses on the design, development, and manufacturing of electronic circuits and devices. It includes areas like integrated circuit design, semiconductor devices, electronic components, and digital systems.
  • Control Systems: Control systems deal with regulating and controlling the behavior of dynamic systems. Engineers in this field design and analyze systems like robotics, industrial automation, aircraft controls, and process control systems.
  • Computer Engineering: The intersection of electrical engineering and computer science forms the field of computer engineering. It involves the design and development of computer hardware and software systems, including microprocessors, computer architecture, embedded systems, and digital signal processing.
  • Renewable Energy Systems: With the growing focus on sustainable energy, EEE plays a vital role in the design and implementation of renewable energy systems. This includes solar power, wind energy, hydroelectric power, and energy storage systems.
  • Biomedical Engineering: EEE is involved in the development and application of medical devices and technologies. Biomedical engineers work on areas such as medical imaging systems, diagnostic equipment, prosthetics, and bioinstrumentation.
  • VLSI Design: Very Large Scale Integration (VLSI) design deals with the design and manufacturing of integrated circuits (ICs) with a large number of transistors on a single chip. It involves the design of complex digital systems and the optimization of chip performance.
  • Signal Processing: Signal processing involves the analysis, manipulation, and interpretation of signals. EEE professionals in this field work on applications such as audio and video processing, image and speech recognition, data compression, and digital filtering.
  • Instrumentation and Measurement: This field focuses on the design and development of instruments and measurement systems used in various industries. Engineers in this area work on sensors, data acquisition systems, instrumentation for testing and calibration, and metrology.
  • Electromagnetics: Electromagnetics deals with the study and application of electromagnetic fields. EEE professionals in this field work on electromagnetic wave propagation, antennas, electromagnetic compatibility, and electromagnetic interference analysis.
  • Power Electronics: Power electronics involves the design and development of electronic devices and systems that control and convert electrical power. This includes areas such as power converters, motor drives, renewable energy systems, and electric vehicle technologies.
  • Robotics and Automation: EEE plays a crucial role in the design and development of robotic systems and automation technologies. Engineers work on areas such as robotic control systems, machine vision, artificial intelligence, and autonomous systems.
  • Nanotechnology: Nanotechnology involves the manipulation and control of materials and devices at the nanoscale. EEE professionals in this field work on applications such as nanoelectronics, nanophotonics, nanomaterials, and nanofabrication techniques.
  • Engineering Management: EEE professionals often take on managerial roles, overseeing projects, teams, and operations related to electrical and electronics engineering. This involves project management, resource allocation, quality control, and strategic planning.
  • Embedded Systems: Embedded systems are computer systems designed to perform specific functions within larger systems. EEE professionals work on designing and programming embedded systems used in various applications, such as consumer electronics, automotive systems, medical devices, and industrial control.
  • Power Quality and Energy Management: This field focuses on ensuring the quality and efficiency of electrical power systems. Engineers work on power quality analysis, energy management systems, load forecasting, and energy conservation techniques.
  • System Integration and Testing: EEE professionals involved in system integration and testing ensure that different components and subsystems of complex electrical and electronics systems work together seamlessly. They develop test plans, perform system-level testing, and ensure the reliability and performance of integrated systems.
  • Engineering Ethics and Sustainability: With the growing emphasis on ethical practices and sustainability in engineering, EEE professionals are involved in addressing societal and environmental challenges. This includes promoting ethical conduct, adhering to safety standards, and incorporating sustainable practices in design and implementation.
  • Cybersecurity: As technology becomes more interconnected, the need for cybersecurity in electrical and electronics systems increases. EEE professionals work on securing networks, protecting data, and implementing encryption techniques to ensure the integrity and confidentiality of electronic systems.
  • Research and Development: Research and development (R&D) in EEE involve exploring new technologies, conducting experiments, and pushing the boundaries of knowledge in various sub-disciplines. Researchers work on advancements in materials, devices, algorithms, and systems to drive innovation.
  • Robotics and Mechatronics: Robotics and mechatronics involve the design and development of intelligent robotic systems that combine mechanical components with electrical and electronic control systems. Engineers in this field work on the integration of sensors, actuators, control systems, and artificial intelligence algorithms to create advanced robotic systems.
  • System Optimization and Simulation: EEE professionals involved in system optimization and simulation focus on analyzing and improving the performance of complex electrical and electronics systems. They use mathematical models, simulation tools, and optimization techniques to enhance system efficiency, reliability, and cost-effectiveness.
  • Electric Vehicles and Transportation Systems: With the growing interest in electric vehicles (EVs) and sustainable transportation, EEE professionals work on the design and development of EV systems, including batteries, power electronics, electric motor drives, and charging infrastructure. They also contribute to the development of intelligent transportation systems and vehicle-to-grid integration.
  • Internet of Things (IoT): The IoT refers to the network of interconnected devices and systems that collect and exchange data. EEE professionals play a vital role in developing IoT applications, designing wireless sensor networks, optimizing energy efficiency in IoT devices and ensuring secure communication and data management in IoT systems.
  • Machine Learning and Artificial Intelligence: EEE professionals leverage machine learning and artificial intelligence techniques to develop intelligent systems capable of learning and making autonomous decisions. Applications include pattern recognition, data analysis, robotics, speech and image processing, and predictive modeling.
  • Augmented Reality (AR) and Virtual Reality (VR): EEE professionals work on the development of AR and VR technologies, which create immersive and interactive experiences by blending virtual and real-world environments. They design hardware systems, develop software algorithms, and optimize user interfaces for AR/VR applications in areas such as gaming, training, education, and simulation.
  • Sustainable Energy Systems: EEE professionals contribute to the development of sustainable energy systems by designing and optimizing renewable energy sources, energy storage systems, smart grid technologies and energy management systems. They focus on improving energy efficiency, reducing environmental impact and promoting the use of clean energy sources.

Top Electrical and Electronics Engineering Companies and Career Opportunities

Government Companies in India:

Bharat Heavy Electricals Limited (BHEL)

National Thermal Power Corporation (NTPC)

Power Grid Corporation of India Limited (PGCIL)

Hindustan Aeronautics Limited (HAL)

Bharat Electronics Limited (BEL)

Oil and Natural Gas Corporation (ONGC)

Nuclear Power Corporation of India Limited (NPCIL)

Indian Space Research Organisation (ISRO)

Indian Oil Corporation Limited (IOCL)

Steel Authority of India Limited (SAIL)

Tamilnadu Electricity Board (TNEB)

Public Works Department (PWD)

Private Companies in India:

Larsen & Toubro (L&T)

Siemens India

ABB India

Schneider Electric India

Honeywell India

Bosch India

Reliance Industries Limited

Mahindra Electric Mobility Limited

Ather Energy

Havells India Limited

Crompton Greaves Consumer Electricals Limited

Orient Electric Limited

Exide Industries Limited

TD Power Systems     

Tata Power

Kirloskar Electric Company Limited

Emerson Electric India

Delta Electronics India

HPL Electric & Power Limited

V-Guard Industries Limited

Luminous Power Technologies 

International Companies:

General Electric (GE)

Siemens

ABB Group

Schneider Electric

Philips

Hitachi

Samsung Electronics

Panasonic Corporation

Mitsubishi Electric

Emerson Electric Co.

Intel Corporation

Texas Instruments

IBM

Apple Inc. 

Programms Offered

  • B.E. –  Electrical & Electronics Engineering
  • M.E. – Power Systems Engineering
  • PhD.
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