Electronic Engineer

What Is Electronic Engineer , Career As Electronic Engineer , How to Become A Electronic Engineer - TheCareerHub
  • Growth
  • Salary
    RS 10000-16000

Who is Electronic Engineer?

It is a popular branch of engineering that is associated with the development, design and testing of electronic components, circuits and devices as well as the maintenance and repair of electronic systems such as smartphones, wristwatches, tablets, smart LED televisions, processors and other similar devices. Electricians and electronic engineers are dynamic experts that are well-versed in the most recent communication technologies, new protocols, coding schemes, and industry best practices. Electronics engineering degrees are highly regarded and, when paired with proper knowledge and skill set, may provide a person with a long and fruitful professional career.

Electronics engineering is a large area with several subfields, such as Embedded Systems, VLSI, Power Electronics, Instrumentation, Hardware Networking, and Robotics, which are all covered in this course. To clarify the fuzzy distinctions between electronics engineering and electrical engineering, it might be said that the former (electronics) is a subset of the latter (electrical engineering) (electrical). Unlike electronics engineering, which is concerned with the study of small-scale systems and their integrated circuits, electrical engineering is concerned with large-scale systems and their concepts, such as power transmission and load.

Applicants will have no trouble finding electronics engineering jobs in a variety of fields such as telecommunications, electronics consultancies, electronic equipment manufacturers, aerospace manufacturers, and healthcare because it is a fairly multidisciplinary field that is witnessing increasing growth as a result of the advancement of digital technology.

Typical day at work

What does Electronic Engineer do?

Electrical engineers design, develop, test, and oversee the production of electrical equipment such as electric motors, radar and navigation systems, communication systems, and power generation equipment. Electrical engineers are also responsible for the design of vehicle and aircraft electrical systems.

Electronics engineers create and develop electronic equipment such as portable music players and Global Positioning System (GPS) devices, as well as broadcast and communications systems. Many also work in computer hardware-related fields. Federal government electronics engineers design, develop, and test electronic devices used in a variety of applications such as aviation, computing, transportation, and manufacturing. They work on government electronic equipment and systems like satellites, aircraft, radar and sonar systems, and communication systems.

Electrical engineers and electronics engineers frequently do comparable tasks. To complete engineering tasks, both need engineering and design software and equipment. Both sorts of engineers must collaborate with other engineers to achieve their goals.

The role of an electronics engineer is diverse and dynamic depending on the educational background, experience, skill sets and area of specialization. Generally,  it comprises of the following tasks:

  • Improvise details of an electronic equipment design systematically
  • Supervise technicians, craftsman, etc.
  • Write specifications and technical reports
  • Prepare budgets and discuss proposals with clients
  • Use engineering techniques, science and mathematics to design, produce, install and maintain telecommunications systems
  • Evaluate the various systems to recommend design modifications if any
Abilities & aptitude needed

What are the skills, abilities & aptitude needed to become Electronic Engineer?

Electronics and communications engineers with strong technical and interpersonal abilities flourish in their chosen fields. Concentrate on the following abilities throughout your education and employment to ensure your success as an electronics engineer:

Technical Expertise Electronics and communication engineers must have a deep understanding of technical principles, such as circuit design and electronic device functioning. Additionally, you should be proficient in standard programming languages such as C++ and Java. Capability to function in a team environment Electronics and communication engineers frequently work in teams, which means they must be able to collaborate well. They understand how to communicate with others and urge them to share their opinions. They develop an understanding of the strengths and limitations of the individuals with whom they interact daily and how to use these characteristics to generate the best project outcomes.

Creativity Because the electronics sector is innovation-driven, electronics and communication engineers must be innovative to assist their companies in succeeding. Innovative brains find solutions that extend the life of electrical items, make them more user-friendly, and enable them to run more efficiently and sustainably. Communication, both written and spoken While effective cooperation requires effective communication, a professional electronics and communication engineer should also be able to interact with those outside their team. This often entails communicating complex ideas to customers and colleagues outside the engineering department using more accessible language.

Detail-oriented As an electronics and communication engineer, you must have an uncanny ability to pay attention to detail. They must guarantee that calculations are accurate and that any design problems are found and rectified before the equipment enters the market. The greatest engineers pay close attention to detail to assure the correctness of their work and that of others.

Employing detail-oriented engineers may assist firms in maintaining their reputation for excellence. Management of time Electronics and communication engineers operate under tight deadlines, which means that effective time management skills are required. They must prioritise time-sensitive duties and work efficiently to finish projects precisely, on schedule, and of high quality. Because electronics and communication engineers operate in teams, they must also ensure that their work schedules coincide with those of their coworkers.


Which course I can pursue?

Best Colleges

Which are the best colleges to attend to become Electronic Engineer?


Which industries are open for Electronic Engineer?

Depending on one’s educational background, experience, and skillsets, aspirants may apply for the following electronics engineering jobs:


Ready to become Electronic Engineer?

Take the world’s best assessment test !

Take a free demo

Are there internships available for Electronic Engineer?

In any given field, along with theoretical knowledge, it is always an added advantage to get an on-ground experience that enhances the aspirant’s understanding of the domain. It is highly encouraged to take up an internship and gain exposure to the latest tools, methodologies and technology and become fluent with industrial standards. Aspirants may seek internships while studying and even after graduation. Many education boards have made it mandatory to take up at least one internship during the course of their degree program in order to better prepare the candidates for competence in the real world. 

Career Outlook

What does the future look like for Electronic Engineer?

Engineering in the field of electronics is a popular choice for those who are interested in technology, gadgets, and machines, as well as those who value employment variety, job stability, and a competitive wage. There is no sector on the planet where the application of electronics cannot be discovered, thus the job prognosis for electronics engineers is bright in the long run. Jobs for electronics engineers, on the other hand, are likely to rise at a moderate pace in the coming years.

A variety of industries, including the following, may provide job opportunities: other engineering industries, such as aerospace, energy, chemical, and marine other engineering organisations, such as helping to implement and maintain computer systems, telecommunications systems, and other technical equipment utility companies research establishments, both academic and commercial the public sector The majority of engineering occupations lead to management roles in which they supervise other employees and/or oversee bigger projects and financial resources. Obtaining professional status as an incorporated (IEng) or chartered (CEng) engineer is becoming more crucial for advancement in the field. As a professionally certified engineer, you may advance to the position of senior management or take on other responsibilities in the sector, such as marketing, recruiting, sales, and training, among other positions.

Explore related career