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Manavta
06 November, 2024
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You switch on the light and turn on your place’s Wi-Fi. Next, you use your device and start binge-watching Netflix on it. That seems like a perfect leisure activity. But do you realise that switching on the light, using that Wi-Fi, and streaming Netflix on your device are all engineering inventions? Everything around you, the devices you use, and the technology you access each day are engineers’ inventions. That is how impactful the engineering field is, not just for development but also for every other human.
One engineering field that made our lives easier is electronics engineering, a branch that focuses on developing and applying electronic devices and systems. So, basically, the phone devices that you use, the radio that you have at your place, or the television that you watch your favourite shows on each day are the inventions of electronic engineering. This field has played a pivotal role in the modern technological world and has shaped the way for new inventions every day.
With the blog below, we shall examine electronics engineering, its specialisation, and its future prospects.
Electronics engineering is the domain that focuses on developing and designing different electronic devices and circuits. Devices like resistors, capacitors, and inductors are used to create electronic equipment like radios, televisions, mobile phones, etc. Electronic engineering, which concentrates on the development of electronic devices, encompasses all these inventions. It is further divided into several other fields, like digital electronics, analogue electronics, embedded systems, power electronics, consumer electronics, etc.
Electronics engineering is often known as the subfield of electrical engineering. It is similar to any branch of another four-year engineering degree. The degree offers a promising future and several job roles across various industries with good pay scales. It deals with the study of physics, chemistry, mathematics, and other core subjects of electrical engineering, which a student further chooses as electives to specialise in.
You will learn the following:
Effective communication skills
Basic knowledge of core subjects to solve engineering problems
Prepare computerised reports and presentations using its tools and computer application software
Basics of information technology
Prepare and interpret engineering drawings
Use cutting tools, equipment and tooling for the fabrication of jobs by following safe practices at the workplace
Follow safe practices at the workplace
Use appropriate instruments to measure various engineering parameters
Electronic instruments and measurement
Core concepts of electrical engineering
Use appropriate procedures for preventing environmental pollution and energy conservation
Environmental studies
Assemble, test, and perform routine maintenance
Soldering, testing, and measurement techniques at workplaces
Knowledge of electronic devices and circuits
Basic principles of communication engineering
Basic principles of digital electronics and design of combinational and sequential circuits
In-depth knowledge of digital electronics
Write basic programming languages
Also Read: Your Guide to Become a Quality Engineer: Skills, Education and Career Path
Electronics engineering offers various specialisations to learners. One can specialise in any of the following areas, which delve into specific theoretical and practical concepts. Let’s check out the different specialisations offered in electronics engineering.
Electronic Signal Processing
Telecommunication Engineering
Aviation Telecommunication Engineering
Control Engineering
Instrumentation Engineering
Computer Engineering
Following are the core concepts that you will study if you opt for a degree in electronics engineering:
Applied Sciences
Engineering/Technological Courses
Industrial Training Workshop
Workshops
Programming Languages
Communication Systems
Electronic Devices
Network Studies
Student-Centred Activities
Here is a generalised syllabus for what you will learn throughout the four years of your engineering degree in electronics.
| Semester 1 | Semester 2 |
| Applied Mathematics | Electrical Engineering |
| Applied Physics | Electric Electronic Components And Devices |
| Engineering Drawing | Basics Of Information Technology |
| General Workshop Practice | General Workshop Practice |
| Engineering Mechanics and Materials | Universal Human Values |
| Semester 3 | Semester 4 |
| Digital Electronic | Electrical Machines and Electromagnetic Theory |
| Environmental Studies | Communication Skills |
| Applied Chemistry | Network Filters And Transmission Line |
| Electronic Workshops | Instrument Instruments and Measurements |
| Energy Conservation | Principles of Communication Engineering |
| Semester 5 | Semester 6 |
| Industry Management | Micro Engineering |
| Entrepreneurship Development | Wireless Mobile Communication System |
| Micro Processors | Electives |
| Consumer Electronic | Electives |
| Programming Languages | Microcontrollers and Embedded Systems |
| Minor Project Work | Electronic Devices And Circuits |
| Semester 7 | Semester 8 |
| Consumer Electronic | Circuit Theory And Networks |
| Optical Fibre Management | Material Science |
| Basics Of Information Technology | Numerical Methods And Programming |
| Industrial Management | Data Structure Lab |
| Digital Electronics | Electronic Measurement And Instrument |
| Internship | Analog, Electronic Circuit Lab |
Also Read: Top 10 Engineering Universities in India
Electronics engineering is one of the most prominent and promising fields, offering excellent career growth and job prospects. After completing an electronics engineering degree, graduates can pursue a variety of job roles. Below are some of the positions available to electronics engineering graduates:
| Job Roles | Average Annual Salary |
| Electronics Engineer | INR 3.9 Lakhs |
| Embedded Systems Engineer | INR 6.4 Lakhs |
| Telecommunications Engineer | INR 4.9 Lakhs |
| Automation Engineer | INR 6.5 Lakhs |
| Power Electronics Engineer | INR 6.4 Lakhs |
| RF (Radio Frequency) Engineer | INR 4.2 Lakhs |
Related: All About Electronics and Communication Engineering: Full Form, Career Opportunities and Scope
Engineering has been a popular discipline for ages, and with the advent of technology, the field has expanded into an endless domain. Electronics engineering, in particular, is a field with immense potential and directions yet to be explored. It is poised to become one of the most sought-after engineering domains in the near future. Here are some future trends in electronics engineering:
Rise in Demand and Job: The demand for electronic engineers and professionals is expected to increase in the coming years, with a surge in business expansion and expenditure in this field.
AI Amalgamation: AI’s popularity will influence various sectors, and electronics engineering will integrate AI into its practices and innovations.
Sustainable and Eco-friendly: The field will adopt more sustainable practices to promote eco-friendly development and a greener future.
Faster and Better Technology: With advancements, faster and more efficient technologies will be introduced, transforming the way we interact with the world around us.
More Diversity and Dynamic Growth: Electronics engineering will continue to diversify and evolve, expanding into new aspects and pushing the boundaries of innovation.
Engineering is one of the most pursued careers in India and worldwide, offering numerous opportunities in job growth, professional development, high salaries, and demand for new technological advancements. The future of electronics engineering looks promising, with expectations of remarkable growth and demand. If you are fascinated by the electronic devices surrounding you, consider pursuing a career in electronics engineering and dive into a field filled with continuous innovation and discovery.
