In addition to that, the duration of Doctorate Programme in Electronics partially depends on the university you’re pursuing the degree at. The span of time you would be students ranges between 3 and 5 years. Research in electronics is the core activity of students under the direction of their supervisor, with the purpose of carrying out research which is new and an addition to the domain. The research is summarized in a dissertation which is assessed by the panel of examiners before receiving a degree.
Ordinarily, the coursework covers advanced topics that include analog and digital electronics, VLSI design, embedded systems, digital signal processing, communications, microwave electronics, and micro-electronics. But additionally they go through the research methodology and technical writing. They can obtain their individual perspective by optating them as electives where they can specialize in a specific sub-field for instance, optoelectronics, nano electronics or MEMS.
Feature | Description |
---|---|
Duration | Typically 3-5 years (full-time), may vary |
Eligibility | Master's degree in Electronics, Electrical Engineering, or related field |
Research Focus | Advanced research in electronics, covering areas like circuits, devices, systems, and applications |
Specializations | VLSI Design, Embedded Systems, Communication Systems, Photonics, etc. |
Thesis | Original research culminating in a dissertation defended before a panel of experts |
Step | Description |
---|---|
Eligibility Check | Verify if you meet the program's eligibility criteria. |
Identify Potential Universities | Research and shortlist universities based on your interests. |
Application Preparation | Gather required documents and complete the application form. |
Entrance Exam Preparation | Enroll in preparatory courses or self-study for entrance exams. |
Entrance Exam Participation | Take the required entrance exams and aim for a satisfactory score. |
Interview Preparation | Research the program and faculty, and prepare insightful questions. |
Interview Attendance | Present yourself professionally and showcase your research potential. |
Admission Decision | Wait for the university's notification regarding admission. |
Acceptance and Registration | Accept the offer letter and complete registration formalities. |
1. The degree must be a master's in Electronics/Electronics and Communication Engineering or related fields with the minimum score of 60% marks or equivalent CGPA Besides this, engineers with a BTech/BE degree can also apply for the job.
2. Qualifying entrance tests like GATE/NET or similar national tests with a valid score are one of the ways to measure and verify the competence. Some institutes could try their own mix of a test and an interview.
3. For the aspirants who have BTech degree, a minimum CGPA of 7.5 or GPA of 70% is preferred by most of the companies. Moreover, the students may have to get over the threshold hurdle of a college entrance examination as well.
4. Academic performance reflected by achievement of sustainable results without any gaps or arrears. It would be plus if some individual experience in electronics research was present.
5. A publication in journals and conferences with a reputation can serve a purpose in your candidature.
6. This category of candidates who have been awarded fellowships from CSIR/UGC-JRF or have automatically qualified by appearing in any national/state-level exam are given priority over others.
7. The selection may be done according the certain institutes rules like maximum age limit, recommendation letters, Statement of Purpose and etc, which the candidates must follow.
8. State Reservation quota maybe conformed as with the university/institute's regulations for the different castes.
9. Making it through an interview against the chance of being chosen by the particular institute according to their merit list.
GATE (Graduate Aptitude Test in Engineering): Administered by the IITs and IISc centers, candidates are tested on subjects, from Electronics and Communication Engineering.
UGC NET (National Eligibility Test): Converses by NTA, candidates are evaluated not only on electronics-related subjects for potential lectureship or research fellowship.
CSIR NET (Council of Scientific and Industrial Research National Eligibility Test): Evaluation of candidates on electronics or allied subjects for lectureship and research fellowship eligibility assessment.
JEST (Joint Entrance Screening Test): Held for admission into physics Ph.D. programs, provides assessment of the prospective candidates on the fields such as electronics and the other related topics.
SET (State Eligibility Test): State universities administered the test of electrical engineering and allied subjects for the purpose of establishing the right to teach.
Course | Description |
---|---|
Advanced Semiconductor Physics | This course covers the advanced concepts of semiconductor physics, including band structure, carrier transport, and device physics. |
Analog and Digital Electronics | This course covers the principles of analog and digital electronics, including amplifiers, filters, oscillators, logic gates, and microprocessors. |
Communication Systems | Principles of communication systems, including modulation, demodulation, error correction, and network protocols. |
Control Systems | Including feedback control, stability analysis, and optimal control. |
Embedded Systems | Including hardware design, software development, and real-time operating systems. |
VLSI Design | Principles of VLSI design, including layout, synthesis, and verification. |
Optical Electronics | Including lasers, fiber optics, and optoelectronic devices. |
Microwave Engineering | Principles of microwave engineering, including waveguides, antennas, and microwave circuits. |
Power Electronics | Covers the principles of power electronics, including power converters, inverters, and motors. |
Research Methodology | Principles of research methodology, including experimental design, data analysis, and scientific writing. |
Tabulated below is the collection of the Top 10 Private Ph.D. (Electronics) Colleges in India with Fee Structure, including their key features.
Name of the institute | Location | Fees |
---|---|---|
Quantum University | Roorkee, Uttarakhand | INR 147,000 |
GITAM School of Science | Hyderabad, Telangana | INR 180,000 |
Kalpataru Institute of Technology | Tiptur, Karnataka | INR 127,720 |
Sri Krishna Arts and Science College | Coimbatore, Tamil Nadu | INR 28,000 |
GITAM School of Science | Visakhapatnam, Andhra Pradesh | INR 180,000 |
Gandhi Institute of Technology and Management | Visakhapatnam, Andhra Pradesh | INR 2,075,700 |
Yeshwant Mahavidyalaya | Nanded, Maharashtra | INR 34,838 |
School of Science, Jain University | Bangalore, Karnataka | INR 245,000 |
Dr Harivansh Rai Bachchan Mahavidyalaya | Unnao, Uttar Pradesh | INR 350,200 |
Hindusthan College of Arts and Science | Coimbatore, Tamil Nadu | INR 110,000 |
Tabulated below is the collection of the Top 10 Government Ph.D. (Electronics) Colleges in India with Fee Structure, including their key features.
Name of the institute | Location | Fees |
---|---|---|
Devi Ahilya Vishwavidyalaya | Indore, Madhya Pradesh | INR 104,500 |
Sardar Patel University | Vallabh Vidyanagar, Gujarat | INR 68,140 |
Erode Arts College and Science College | Erode, Tamil Nadu | INR 3,312 |
PSG College of Arts and Science | Coimbatore, Tamil Nadu | INR 66,850 |
Andhra University, College of Science & Technology | Visakhapatnam, Andhra Pradesh | -- |
University VOC College of Engineering, Anna University | Thoothukudi, Tamil Nadu | INR 43,810 |
Rajkiya Engineering College | Kannauj, Uttar Pradesh | INR 60,500 |
Brijlal Biyani Science College | Amravati, Maharashtra | INR 19,292 |
Sri Krishnadevaraya University | Anantapur, Andhra Pradesh | INR 125,000 |
Guru Ghasidas Vishwavidyalaya | Bilaspur, Chhattisgarh | INR 51,850 |
The average CTC (Cost to Company) for a Ph.D. graduate in Electronics in India is INR 15-25 lakhs per annum. However, the CTC can vary depending on the type of employer, the candidate's experience, and the location of the job.
Top 10 Colleges for Ph.D. (Electronics) Placements in India
College Name | Location | Average CTC |
---|---|---|
Indian Institute of Technology Madras | Chennai, Tamil Nadu | INR 25-35 lakhs |
Indian Institute of Technology Delhi | New Delhi | INR 20-30 lakhs |
Indian Institute of Technology Bombay | Mumbai, Maharashtra | INR 18-28 lakhs |
Indian Institute of Technology Kanpur | Kanpur, Uttar Pradesh | INR 16-26 lakhs |
Indian Institute of Technology Kharagpur | Kharagpur, West Bengal | INR 14-24 lakhs |
Indian Institute of Technology Roorkee | Roorkee, Uttarakhand | INR 12-20 lakhs |
Indian Institute of Technology Guwahati | Guwahati, Assam | INR 10-18 lakhs |
Indian Institute of Technology Hyderabad | Hyderabad, Telangana | INR 8-16 lakhs |
Indian Institute of Technology Gandhinagar | Gandhinagar, Gujarat | INR 6-14 lakhs |
Ph.D. in Electronics holders are also employed by various government agencies, including the Ministry of Electronics and Information Technology (MEIT), the Defence Research and Development Organisation (DRDO).
Specialization | Average Salary (INR) |
---|---|
Semiconductor Physics | 15,00,000 - 18,00,000 |
Analog and Digital Electronics | 12,00,000 - 15,00,000 |
Communication Systems | 10,00,000 - 12,00,000 |
Control Systems | 9,00,000 - 11,00,000 |
Embedded Systems | 8,00,000 - 10,00,000 |
VLSI Design | 14,00,000 - 17,00,000 |
Optical Electronics | 13,00,000 - 16,00,000 |
Microwave Engineering | 11,00,000 - 14,00,000 |
Power Electronics | 10,00,000 - 13,00,000 |