IIT Bombay
- Fees: ₹ 97200
- Exams: GATE
Degrees offered: M.E /M.Tech., Diploma, B.E /B.Tech, Ph.D, M.Sc.
Electronics Engineering is a branch of engineering focused on the design, development, testing, and maintenance of electronic systems and components. Innovations in consumer electronics, telecommunications, healthcare devices, and automotive electronics are made possible by the efforts of electronics engineers who work with a wide range of gadgets, from small integrated circuits to large-scale electronic systems.
The course blends theoretical knowledge with practical skills, guiding students in understanding how electronic systems work and can be enhanced through projects and lab work. Electronics engineers are at the forefront of developing more effective, dependable, and scalable solutions. Students learn to design and analyse circuits, work with software tools for simulation, and understand the principles behind modern communication systems.
Electronics Engineering graduates can opt for job profiles such as Design Engineer, Telecommunications Engineer, VLSI Design Engineer, and Electronics Test Engineer. The average salary of an Electronics Engineer in India is Rs. 6.5 LPA. Around 933 colleges in India offer Electronics Engineering courses. Bharat Heavy Electrical Limited, Texas Industries, CISCO, IBM, and AMD are some of the popular recruiters in this field.
Particulars | Values |
Branch Name | Electronics Engineering |
Degree | |
Duration | UG: 4 years PG: 1-2 years |
Eligibility | UG: 10+2 in the science stream PG: Bachelor’s degree in the same field |
Admission Process | Admission Examination/ Direct Admission |
Entrance Exam | UG: JEE, JEE Advanced PG: GATE |
Fees (for the entire duration) | Rs. 6,000- Rs. 17 Lakhs |
Job Profiles | Design Engineer, Telecommunications Engineer, VLSI Design Engineer, Electronics Test Engineer |
Average Salary | Rs. 6.5 LPA (for an Electronics Engineer) |
Recruiting Companies | Bharat Heavy Electricals Limited, Texas Industries, CISCO, IBM, AMD |
Electronics Engineering offers various fields that focus on different aspects of electronic systems and technologies. Students can choose their preferred specialisation and focus on a specific part of the field. It will help them align their education with their career paths. Some of the popular specialisations in the field of Electronics Engineering are mentioned below.
Embedded Systems | |
Signal Processing |
There are various private colleges in India offering Electronics Engineering courses at both undergraduate and postgraduate levels. Studying at a private college is comparatively more expensive than studying the same at a public institute. In the table below, we have listed the top private colleges in India offering Electronics Engineering courses in India.
Colleges | Fees |
Rs. 17.21 Lakhs | |
Rs. 11 Lakhs | |
Rs. 4 Lakhs | |
- | |
Rs. 2.60 Lakhs | |
Rs. 1.05 Lakhs | |
Rs. 55,600 | |
- | |
Rs. 14.91 Lakhs | |
Rs. 6.81 Lakhs |
Note: The fee structure provided above can be for any particular Electronics Engineering course (Diploma/ Degree/PGD).
Studying at a government institute is affordable compared to a private institute. These colleges are well known for their high academic standards throughout India. Many students wish to study at a government institute because of the good educational facilities. In the table below, we have listed the popular government Electronics Engineering colleges in India.
Colleges | Fees |
- | |
Rs. 6.36 Lakhs | |
- | |
- | |
Rs. 1.02 Lakhs | |
Rs. 2.18 Lakhs | |
- | |
Rs. 75,500 | |
Rs. 1.36 Lakhs | |
- |
Aspirants need to clear certain eligibility criteria to pursue post-graduation in Electronics Engineering. These admission conditions can be different for different institutes but candidates can check the basic criteria that apply to almost all colleges. Listed below are the eligibility requirements of postgraduate degrees that aspirants must meet to pursue Electronics Engineering:
Candidates who have completed their undergraduate in a relevant field are eligible to pursue a postgraduate degree in Electronics Engineering. Some universities require aspirants to clear certain relevant entrance examinations along with considering their merit test results. To pursue higher education in Electronics Engineering, students need to appear for the following examination.
Exam Name | Level | Conducting Body | Exam Schedule |
National | IISc Bangalore and seven IITs |
The scope of Electronics Engineering in India is expanding, driven by the country's growing focus on digitalisation, automation, and technological innovation. The demand for qualified electronics engineers is high, with a focus on industries including information technology, consumer electronics, automotive, and telecommunications. The emergence of businesses concentrating on robots, smart devices, and the Internet of Things (IoT) offers employment in this sector.
Globally, the scope of Electronics Engineering is equally promising, as it is a foundational element of modern technology and innovation. Electronics engineers will be essential to the development of smart grids, energy-efficient appliances, and renewable energy technologies as global issues like climate change drive the demand for sustainable and efficient energy solutions.
Minimum Fees | Maximum Fees | |||
---|---|---|---|---|
Private | Government | Private | Government | |
UG | ||||
PG | ||||
DOCTORAL | ||||
DIPLOMA |
The academic curriculum of Electronics Engineering differs by the institute. The subjects included in the curriculum of Electronics Engineering equip students with the necessary theoretical and practical knowledge. The curriculum provides a holistic growth potential to students that helps them to further excel in their careers. Mentioned below are the undergraduate and postgraduate course curriculums of Electronics Engineering.
The Electronics Engineering syllabus at the undergraduate level depends on the preferred institute. The academic curriculum of Electronics Engineering is a combination of theory and practical subjects. However, some of the core subjects remain the same for every syllabus. In the table below we have provided the syllabus for B.Tech in Electrical & Electronics Engineering provided by Guru Gobind Singh Indraprastha University:
First Semester | Second Semester |
Applied Mathematics – I | Applied Mathematics – II |
Applied Physics – I | Applied Physics – II |
Applied Chemistry – I | Applied Chemistry – II |
Manufacturing Process | Engineering Mechanics |
Introduction to Computers and Autocad | Electrical Science |
Impact of Science & Technology on Society | Introduction to Programming |
Third Semester | Fourth Semester |
Applied Mathematics – III | Electro - Mechanical Energy Conversion – II |
Analog Electronics-I | Analog Electronics – II |
Circuits & Systems | Power System – I |
Electrical Engineering Materials | Control Engineering – I |
ElectroMechanical Energy Conversion – I | Electromagnetic Field Theory |
Fifth Semester | Sixth Semester |
Digital Electronics | Microprocessor |
Object Oriented Programming using C++ | Power Electronics |
Communication Systems & Circuits | Digital Signal Processing |
Electrical Measurement & Instrumentation | Utilisation of Electrical Energy |
Database Management Systems | VLSI Design & its Applications |
Organisational Behaviour | - |
Seventh Semester | Eighth Semester |
Electrical Drives | Advanced Control Systems |
HVDC Transmission | Flexible A.C. Transmission Systems |
Electives | Electives |
The academic curriculum of PG courses in Electronics Engineering equips students with the necessary knowledge and skills required to excel in the field. The syllabus covers a range of topics. It also includes a thesis to equip students with the necessary research skills and knowledge. In the table below we have provided the syllabus of Jamia Millia Islamia for the Diploma in Electronics Engineering course.
First Semester | Second Semester |
Applied Physics | Applied Maths-II |
Applied Chemistry | Digital Electronics |
Applied Maths-I | Elements of Mechanical Engineering |
Electrical Engineering.-I | Electrical Engineering.-II |
Third Semester | Fourth Semester |
Electronic Devices & Circuits-I | Industrial Electronics |
Data Communication & Networking | Microprocessors & Applications |
Digital System Design | Electronic Devices & Circuits-II |
Principles of Communication | Computer Applications |
Careers in Electronics Engineering offer a wide range of opportunities across various industries, making it one of the most dynamic and in-demand fields. Electronics engineers contribute to improvements in the consumer electronics, telecommunications, healthcare, automotive, and aerospace sectors. In the table below, the students will find some popular careers in Electronics Engineering.
Job Profiles | Job Descriptions |
Design Engineers develop new electronic goods and components, including integrated circuits, microprocessors, and circuits. They focus on creating specifications for products, testing prototypes, and making sure that designs adhere to client requirements and industry standards. | |
Telecommunications Engineers design and maintain communication networks and systems. To provide effective data transmission and connectivity, they concentrate on technologies such as wireless communication, satellite systems, optical fibres, and internet infrastructure. | |
VLSI Design Engineer | VLSI Design Engineers integrate thousands of transistors into a single chip to create integrated circuits. They work on both the hardware and software sides of chip design, which is essential for creating microchips for computers, smartphones, and other electronic devices. |
Electronics Test Engineers put electronic systems and components through testing to make sure they adhere to performance and quality requirements. To increase product reliability, they create testing protocols, debug problems, and collaborate closely with design teams. |
Upcoming trends in Electronics Engineering are being shaped by rapid advancements in technology and increasing demand for smarter, more efficient devices. New prospects in electronics design and development are being driven by innovations like 5G networks, artificial intelligence (AI), and the Internet of Things (IoT). Mentioned below are some upcoming trends and topics in the field of Electronics Engineering.
Electronics engineering job profiles cover a wide range of positions with an emphasis on developing, testing, designing, and maintaining electronic devices and systems. These experts are employed in many different sectors, such as consumer electronics, healthcare, automotive, aerospace, and telecommunications. They are vital to the advancement of modern technology and provide effective communication and improved performance and dependability of electronic products.
The salary of Electronics Engineering graduates can vary depending on the specialisations and the job profile. The field provides various career opportunities to the students. While salaries may vary based on years of experience, job profile and based on the company, the average annual salaries of some of the popular job roles in Electronics Engineering are discussed below.
Job Profiles | Average Salary |
Design Engineer | Rs. 6.9 LPA |
Telecommunications Engineer | Rs. 5.7 LPA |
VLSI Design Engineer | Rs. 7.3 LPA |
Electronics Test Engineer | Rs. 5.9 LPA |
Source: Ambition Box
The salary figures mentioned anywhere in these articles are just for reference purposes. Please treat them as such. Actual salaries may vary depending on respective candidates, employer, job location, and numerous other factors.
To make a successful career in Electronics Engineering and technologies, graduates require a strong skill set. A thorough understanding of electronics technology and engineering principles, sharp analytical skills for handling problems, interpreting data, and familiarity with safety rules and risk management all are necessary. Some of the important skills required for Electronics Engineering are mentioned below.
Electronics engineering courses prepare students to design, build, and troubleshoot electrical devices and systems by fusing academic knowledge with practical abilities. Key subjects covered in core courses include signal processing, microprocessors, digital electronics, analogue electronics, and circuit theory. Students study communication systems, control systems, electromagnetic theory, semiconductor devices, and other topics that are essential for creating and evaluating different electronic circuits and parts.
Practical learning is emphasised through laboratory work, where students gain hands-on experience in circuit design, simulation, and testing using industry-standard tools and software. Opportunities for practical application are offered by projects, workshops, and internships, which give students the chance to work on creating prototypes, experimenting with new technologies, and resolving issues unique to their business.
Application Process: 31 Jan, 2025 - 24 Feb, 2025
Application Process: 23 Apr, 2025 - 02 May, 2025
Exam Date: 01 Feb, 2025 - 02 Feb, 2025
Exam Date: 11 Mar, 2025 - 28 Mar, 2025 (Tentative)
Exam Date: 15 May, 2025 - 24 May, 2025 (Tentative)
Answer :
Design Engineer, Telecommunications Engineer, VLSI Design Engineer, and Electronics Test Engineer are some of the job profiles after Electronics Engineering.
Answer :
Electronics Engineering is a branch of engineering that focuses on designing, developing, and testing electronic circuits, devices, and systems used in various applications, such as communications, computing, and automation. It combines principles of physics and mathematics to innovate and improve technologies that power everyday electronic devices and advanced industrial systems.
Answer :
Bharat Heavy Electricals Limited, Texas Industries, CISCO, IBM, and AMD are some of the top recruiters offering jobs after Electronics Engineering courses.
Answer :
The average salary of an Electronics Engineering graduate in India would be Rs. 6.5 LPA.
Answer :
Electronics engineering is a diverse field with prospects in consumer electronics, healthcare, consumer electronics, telecoms, and aerospace, among other areas. Electronics engineers are in high demand worldwide due to the quickening pace of technological innovation and the increasing need for creative electronic solutions.
Hey there,
With a GATE score of 26.00 in the 2024 exam, getting admission to COEP (College of Engineering Pune) for M.Tech in Power Electronics might be challenging as the cutoff scores for COEP are typically higher. However, cutoffs can vary each year based on several factors, including the number of applicants and their scores. It is recommended to check the previous years' cutoffs for COEP and apply through the GATE counseling process to see if you can secure a spot.
But you can get other colleges. If you want to get a list of all possible colleges in which you can get admission at your GATE score then,
I would recommend you to use GATE college predictor tool by Careers360 to get the list of possible colleges you can get with your score.
Here is the link to the tool:
https://engineering.careers360.com/gate-college-predictor?utm_source=qna&utm_medium=ini-gate_cp
Click on the above link, fill the required details and you will get the list of possible colleges at your rank.
I hope this answer helps you. If you have more queries then feel free to share your questions with us we will be happy to assist you.
Thank you and wishing you all the best for your bright future.
Hello aspirant
After completing your diploma course in electronic engineering, you will be able to get btech seat in ece if you will fulfill eligibility criteria for the course .
You will also have to appear for the entrance exam and qualify entrance exam.
Entrance exams - jee, MHT CET , KCET, GUJCET, GATE, KM EAMCET etc
Eligibility for b tech in Electronics andcommunication engineering - The candidate must have completed diploma in electronic and communication engineering with minimum 55% aggregate marks.
After completing diploma and qualifying entranxe exam the candidate will get admission directly in second year of b tech course.
OR
The candidate must have passed class xii with physics, chemistry and mathematics with minimum 50% marks.
There is 5% relaxation to sc, st and obc category.
English is mandatory subject.
After xii science the candidate will get admission to first year of btech .
In both the above eligibility criteria , before admission they may have group discussion or individual interview.
Age limit - The candidate must be between 17 to 21 years Age.
For details kindly go through the following link.
https://www.careers360.com/courses/b-tech-in-electronics-and-communication-engineering
Gate Electrical Engineering score of last year in power system power electronics programme was 744 for general category and 651for obc category in IIT Hyderabad.
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