About Electronic Science and Engineering

Electronics Science and Engineering is a branch of physics, technology, and engineering that investigates electrons' controlled flow and emission in a vacuum and matter. It uses active devices such as rectification and amplification to influence electron flow rather than passive effects like resistance, inductance, and capacitance. This distinguishes it from electrical engineering.

Students cover the principles of Analogue Electronics, Communications, Electromagnetic, Digital System Design, Mathematics, and Optoelectronics in this Electronics Science and Technology curriculum. This course aims to provide students with the necessary information and hands-on experience to help them become more efficient with technology and take on important initiatives. These individuals operate in various fields, including communication, information technology, and quality product manufacture.

Automobiles, banking, finance, manufacturing, marketing, defence, education, and entertainment are just a few industries they work in. Electronics Science courses include B.Sc. in Electronics Science, B.Sc. (Hons) in Electronics Science, M.Sc. in Electronics Science, M.Phil. in Electronics Science, and PhD in Electronics Science.

What is Electronic Science and Engineering?

In both training and research, the Department of Electronic Science and Engineering emphasises understanding of the physics of electronic materials based on a quantum theory incorporating electrons and photons. The department's research aims to produce unique processing technology and novel functional materials and devices by merging and integrating artificial nanostructures on the atomic and molecular scale. Some of the subjects taught in the electronic science and engineering course are Physics, Engineering Graphics, Mathematics, Computer Science, Electrical Engineering, Communication Workshop, Environmental Studies, OOP with C and C++, Signals and System, Electronic Devices and Circuits (EDC) and Network Theory.

Eligibility and Career in Electronic Science and Engineering

Candidates must have completed class 10+2 (science stream) from an Indian board approved by the government. Applicants must have a 50 per cent aggregate in class 10+2 to be considered. Candidates who fall into reserved categories, such as SC/ST, are given a 5% discount. Physics, Chemistry, Maths, and an additional topic of the candidate's choice must be included in the qualifying test. Students must pass entrance examinations such as JEE Main (Joint Entrance Examinations) and JEE Advanced to gain admission to top Indian universities such as IIT (Indian Institute of Technology) and NIT (National Institute of Technology).

A profession in electronics is beneficial in every manner since it teaches you how to address any problem that arises. The electronics business is rapidly evolving, and there are several employment prospects in the electrical and IT industries. Electronics is a branch of physics concerned with developing and implementing technologies that result in more efficient and effective electronic equipment. Because the electronics business is booming, the employment prospects in this field are highly promising. As a result, talented electronics engineers will be in high demand in the next years.

These individuals work in the fields of electronics, transportation, wireless communication, manufacturing, and automobiles. Graduates of electronic science and engineering work with various electronic components, ranging from more typical analogue components to digital electronics components like microprocessors and microcontrollers and programmable logic devices. They plan, build, and construct control systems and manage projects in terms of cost and time and resource optimisation. Electronics, microelectronics, signal processing, instrumentation, and computers are all skills they'll require.

Planning, designing applications, and altering parts and systems to increase technical performance are important aspects of their jobs. Students can carve out a successful career path for themselves in the manufacturing business, the information technology sector, and technology and communication firms. There is also the possibility of continuing your studies after graduation.