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Jagpreet
18 October, 2024
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“The ideal engineer is a composite… He is not a scientist, he is not a mathematician, he is not a sociologist or a writer, but he may use the knowledge and techniques of any or all of these disciplines in solving engineering problems.” — Nathan W. Dougherty, American civil engineer.
Real-time engineering professionals describe the field of engineering as nothing but a process of creative thinking and problem-solving in the hope that everything falls into the right place. Yes, engineering is the field that combines the skill set, knowledge, and training of various disciplines. If you have a dash of creativity in your bones and the pursuit of problem-solving skills that run through your blood relentlessly, welcome yourself to the world of engineering.
If you take a moment to observe your surroundings closely, you’ll notice that most of what you see has been designed or constructed by an engineer. The technology you use today was the idea of the engineer who turned the vision into reality. The engineering field has several disciplines and electronics and communication engineering is one such domain. Electronics and communication engineering is a branch of engineering which deals with the development and application of communication systems and electronic devices.
If you are an ECE aspirant, let’s dive into the world of electronics and communication engineering with this blog. Here, you will learn about the skills, career opportunities, course eligibility and how to apply for this programme.
The field of engineering is a vast discipline and has several different fields of study. ECE stands for Electronics and Communication Engineering. ECE is related to the study, design, development, testing, and application of communication systems and electronic devices. ECE merges two domains: electronics and communication. It deals with different systems that enable communication on micro and macro levels.
The field of electronics involves the development, design, and testing of electronic components. These components are used in various devices, ranging from smartphone transistors to medical equipment. It encompasses understanding the flow of signals and electrons, as well as the creation of circuits and their operation.
The second field, telecommunication, revolves around understanding how data is transmitted and received through different mediums. Radio waves, satellites, fibre optics, and SONAR waves, among other technologies, are studied in the field of telecommunications to achieve maximum reliability and efficiency in systems. Even wireless communication, such as the widely popular 5G, is a significant aspect of the telecommunications industry.
The field of electronics and communication engineering is a discipline that is driven by technology.
The modern world is witnessing the rampant advancement of technology every minute, unlocking more job opportunities for the ECE field.
This field offers diverse job roles, from telecom engineer to network administrator to system handler.
One of the main reasons this engineering field is in such high demand is its crucial role in fostering innovation across various industries, including healthcare, telecommunications, aerospace, automation, and more.
The ECE field witnesses constant innovation and ensures that engineering professionals are always at the forefront of transforming the future across multiple sectors.
So, pursuing a degree in ECE is a future-proof plan for professional success. The professionals in this field are technical experts with a creative mindset and a highly developed skill set that can be used across industries.
Related: B.Tech & B.E. Explained: Full Form, Specialisations, Colleges, Scope
One can pursue a degree in electronic and communication engineering at the bachelor’s or master’s level. This technology-driven programme helps build a very strong technical skill set, opening up several job prospects and increasing salary potential. Here are a few of the skills you shall gain during the course time:
Communication System
Expertise in VLSI design
Quick problem-solving skills
Knowledge of the programming languages
Understanding of network management
Leadership and teamwork skills
Project management
Enhanced Communication Skills
Deeper insight into microprocessor programming
Optimised circuit design knowledge
Signal processing skills
Also Read: Top 5 Benefits of MBA After Engineering
| Semester 1 | Semester 2 |
| Engineering Mathematics-I | Engineering Physics | Basic Electrical Engineering | English (language and communication) | Writing Skills-I) | Engineering Graphics & Design | Engineering Physics Lab | Engineering Mathematics-II | Introduction to Programming | Basic Electronics Engineering | Universal Human Value (UHV) | Workshop Practice | Programming Lab | Engineering Chemistry |
| Semester 3 | Semester 4 |
| Industrial Mathematics | Electronic devices and circuits | Electronic Measurement and Instrumentation| Circuit Theory and Network Analysis | Data Structures & Algorithms | Electronic devices and circuits Lab | Electronic Measurement and Instrumentation Lab | Data structure and algorithm Lab | Seminar | Principles and Practices of Management | Electromagnetic wave and Transmission line | Signal and System | Analogue and Linear Integrated Circuit | Digital system design| Signal and System Lab | Analogue and Linear Integrated Circuit Lab | Digital system design | Industrial Training |
*Please note that the syllabus will be different for every college.
Although eligibility for the ECE programme may differ between institutions and according to the course type, we have compiled a general eligibility list for this course.
You are eligible to be admitted at the bachelor’s level if
You have passed 12th grade or an equivalent degree from a recognised board/institution.
You have chosen non-medical subjects—physics, chemistry, and mathematics—during your 12th grade board.
The general aggregate required for the qualifying exam is between 50 and 60%, but this may vary greatly depending on a particular university.
Universities and colleges admit students based on their scores on national or state-level exams like JEE Mains or JEE Advanced.
Also Read: Dreaming B.Tech? Here are the Top 10 Entrance Exam You Should Know
You must have a B.Tech/B.E. degree in electronics and communication engineering or a related field from a recognised university.
A minimum aggregate of 45 to 60% is required at the undergraduate level.
Many universities take admission based on scores acquired in national exams like GATE or may conduct their entrance test.
The minimum eligibility for diploma or certificate courses is either a 10th or 12th-grade pass.
Particular institutions may also consider being an undergraduate as the minimum eligibility criteria.
A minimum aggregate of 50% is required for admission into diploma certificate programs in electronics and communication engineering fields.
Are you confused about choosing the right institution? Here’s an easy way to reach the conclusion:
Check first if the institution is recognised and accredited.
Run through special features offered by the programme at a particular institution.
Research teaching faculty are specialised and experienced, and the curriculum to be taught through the course is updated periodically.
Check for student support services like placement services, grievances, redressal systems, student assistance, alumni networks, etc.
If required, you can consult a career counsellor to help you in the process.
Log into the official website of the institution you are interested
Register yourself, create your profile, and generate your credentials
Fill out the admission form and submit all necessary details
Upload the necessary documents and any other required certificates
Pay the programme fees
Wait for the admission confirmation
Once confirmed, you will receive the official admission letter
*Please note that the admission process may vary as per level of course.
Are you interested in taking admission into an engineering course? Check the list of top engineering colleges in India.
Depending upon your interest area and skill set, you can work in various industries.
| Industries | Job Roles |
| Telecommunications Industry | RF Engineer | Network Engineer | Telecom Analyst |
| Information Technology Industry | Software Developer | Network Security Analyst | System Engineer |
| VLSI Design Industry | Chip Designer | Fabrication Engineer | VLSI Design Engineer |
| Robotics Industry | Robotics Engineer | Automation Specialist | Control System Analyst |
| Aerospace Industry | Radar Engineer | Communication Specialist | Avionics Engineer |
| Healthcare Industry | Biomedical Engineer | Signal Processing Engineer | Embedded System Developer |
Here is a list of various job roles one can take up after completing their degree in electronics and communication engineering and the average annual salaries in India.
| Job Roles | Average Annual Salary |
| Telecom Engineer | INR 4 LPA |
| Network Planning Engineer | INR 4.5 LPA |
| Software Analyst | INR 7.1 LPA |
| Support Engineer | INR 6.7 LPA |
| Control System Engineer | INR 9.4 LPA |
| Service Engineer | INR 4.2 LPA |
| Software Engineer | INR 8.6 LPA |
| Technical Director | INR 48.2 LPA |
Source: AmbitionBox
Electronic and communication engineering has been a popular discipline, for it offers various opportunities to students. This specific engineering discipline has the perfect brand of theoretical and practical curriculum. Electronic and Communication Engineering as a field of study exposes the students to the present technical trends of industries per building the appropriate skill set. The world is exponentially becoming technology-driven, which means that the job roles in the field of ECE will continue to rise in demand for their perfect creative mindset, technical skills, and expertise.
