Electrical engineers design, develop, test and supervise the manufacturing of electrical equipment, such as electric motors, radar and navigation systems, and communications systems and power generation equipment, states the U.S. Bureau of Labor Statistics. Electrical engineering is a mixture of teaching and research activities relating to both electronics and electrical engineering. The Department has a healthy mix of young and experienced teachers, all of whom display a high level of enthusiasm and dedication. In addition to teaching and research, the faculties actively participate in the organization of technical workshops, camps and visits to the Institute in order to create an environment conducive to experiential learning. The research areas of current doctoral students include image processing, optical sensors, VLSI, power electronics and renewable energy sources. Each year, several of our B. Tech. and doctoral students carry out summer internships in renowned university institutes and industries. About 20% of these internships take place in foreign universities. The Department is very well supported by qualified personnel who contribute to the proper functioning of laboratories and other administrative activities. The future of electrical engineering has a broad spectrum analysis on nanotechnology, image processing, renewable energy sources, embedded systems, imaging, optoelectronics, fiber optics, etc. each new idea of electronics advances life. Future electrical engineering has major medical applications. Many treatments for diseases are done using electrical equipment. For example, to identify diabetes in a person, a watch can be worn by the person. This watch was designed so that it should check and report on sugar levels. The future of electrical engineering is endless research.