ME in Power Electronics is a 2-year post-graduate program that involves an in-depth study of power electronic devices, their application, design, and principles involved in their operation. The course also compares some of the conventional power electronic devices with modern devices. The eligibility for the course is that a candidate must have a Bachelor's degree in Power Electronics or any related discipline. The candidate must have passed his/her undergraduate degree with at least 55% marks.
Colleges provide admission based on GATE or Tancet score. The admission procedure varies from one university to another. ME Power Electronics top colleges that offer this course are Anna University, Agni College of Technology, BITS, etc. The average fee of the course varies from 60,000 to 3,00,00. ME Power Electronics course can work as Assistant engineers, Power Electronics designers, Junior engineers in various government and private organizations. The average salary stands around INR 2-3 LPA for freshers.
Table of Contents
- ME Power Electronics Course Details
- About the ME in Power Electronics
2.1 Why Study? - ME Power Electronics Admission Process
3.1 Eligibility
3.2 Admissions 2024
3.3 Entrance Exams - Types of Course
4.1 Full Time - ME Power Electronics Syllabus
- Top Colleges in India
- ME Power Electronics Abroad
- ME Power Electronics Jobs
8.1 Top Recruiters - ME Power Electronics Scope
- FAQs
ME Power Electronics Course Details
Tabulated below is the course detail of ME in Power Electronics.
Type | Post Graduate |
Duration | 2 years |
Examination Type | Semester-wise |
Eligibility | Minimum score of 55% (Relaxable for reserved category students) marks at UG level. |
Admission process | Entrance exam based/Merit-based |
Fee | INR 55,000 to 4 Lacs |
Average Salary | INR 2-3 LPA |
Top Recruiting companies | Automobile companies, Aviation company, Power industry, Railways |
Job Position | Assistant engineer, Technician, Power Electronics designer, researcher, Technical content developer |
About ME Power Electronics
- ME in Power Electronics course is a 2-year post-graduate program. Candidates who have completed their Bachelor's degree in EEE or Electrical Engineering can pursue this specialization after their Bachelor's.
- This course is helpful for candidates who have a knack for power electronics design and their applications.
- This course will teach candidates an in-depth knowledge of power electronics devices along with the study of state-of-the-art technologies with conventional technologies.
- These courses include power semiconductor devices, digital signal processors, control theory, and so on. As power electronics devices are used in power systems, the course will teach candidates the various technologies and disciplines involved in the same.
Why Study ME in Power Electronics?
ME in Power Electronics is a course dedicated to the study of semiconductor switching devices for the conversion and control of electrical power. ME in power electronics is a specialization of Electrical Engineering. There are various reasons to opt for this course.
- As Power Electronics devices are being used in the power system to control the flow of electric power, Electrical engineers can learn new techniques or devices used in electrical power transfer.
- Power Electronics engineers can work in the Aerospace Industry, commercial or Industrial applications, and Telecommunications, thus, there is a plethora of job opportunities for power electronics engineers.
ME Power Electronics: Admission Process
The admission procedure for the ME in Power Electronics course varies from one college to another. The admission is done either based on TANCET/GATE/BITS-HD etc. Candidates must ensure that they meet the eligibility criteria for these exams.
ME Power Electronics: Eligibility
The eligibility to pursue the ME Power Electronics course is
- Candidates must have at least 55% marks in an Undergraduate degree.
- Candidates with either Electrical Engineering or Electrical and Electronics Engineering (EEE) can apply for this course. Candidates with other branches can check the eligibility criteria for the respective college and apply accordingly.
- Most of colleges/ universities admit candidates after qualifying exams such as GATE/TANCET or BITS-HD. Thus, candidates must qualify for these exams with a good score so that they can take up this particular course.
ME Power Electronics: Admissions
The admission procedure to pursue ME in Power Electronics is as follows:
- Candidates are admitted for the course with a valid GATE score. Thus, candidates with either their previous valid GATE score can apply for admission or apply for GATE.
- General candidates require at least 60% marks in their undergraduate degree or 55% for SC/ST candidates.
- Candidates that do not have valid GATE scores, will have to sit for the entrance exam conducted by the respective university. However, priority is given to candidates with a valid GATE score. The remaining vacant seats are given to candidates with non-GATE scores.
- Candidates before applying for the course must qualify for the eligibility criteria of the respective course.
- Entrance Exams that are open for registration are GATE.
ME Power Electronics: Entrance Exams
Tabulated below are the entrance exams for admissions to ME in Power Electronics.
Exam Name | Exam Dates |
---|---|
GATE | Check Here |
SRMJEE | Check Here |
WBJEE | Check Here |
AP PGECET | Check Here |
TS PGECET | Check Here |
Types of Courses
The ME in power electronics is a 2-year course offered to candidates full-time or in distance education mode. Candidates willing to opt for the different modes, have to ensure that they qualify the eligibility criteria.
Full Time
The full-time ME Power Electronics course is a 2-year course divided into four semesters. The course consists of project work in the last semester. The project is to be opted by every candidate for a successful completion of the course. Candidates must have completed their Bachelor's degree in the relevant discipline with at least 60% marks. Candidates also need to qualify for entrance exams such as GATE or exams conducted by the universities/colleges.
ME Power Electronics: Syllabus
The course syllabus includes the study of various power electronic devices, its application in various industries, and design and operation principles. The course also includes an end-semester project work which every candidate must opt for, to be awarded the post-graduate degree.
Semester I | Semester II |
---|---|
Applied Mathematics | Solid State DC Drives |
Analysis of Electrical Machines | Solid State AC Drives |
Analysis of Power Converters | Special Electrical Machines |
Analysis of Inverters | Microcontroller and DSP based system design |
Electromagnetic Field Computation | Elective 2 |
Elective 1 | Practical |
Practical | - |
Semester III | Semester IV |
Elective 2 | Elective 4 |
Elective 3 | Project Phase 2 |
Project phase 1 | Viva-voce |
Theory of Power electronics | - |
Rectifier circuits | - |
Practical | - |
ME Power Electronics colleges in India
Top colleges in India providing the ME Power Electronics:degree are tabulated below:
College | Average Annual Fees(INR) |
---|---|
Aarupadai Veedu Institute of Technology (AVIT) | 60,000 |
Agni College of Technology | 50,000 |
Anna University | 55,000 |
BITS | 4,45,000 |
Christian College of Engineering and Technology | 60,000 |
Alagappa Chettiar College of Engineering and Technology (ACCET) | 9,440 |
ME Power Electronics Abroad
- Candidates willing to study power electronics abroad have to opt for MS in Power Engineering. Listed below are the other prerequisites that candidates need to have before applying for the course.
- Education Requirements: Candidates need to have a Bachelor's degree in Electrical Engineering or EEE. The passing percentage varies from one college to another. Thus, candidates need to check the eligibility criteria on the university website.
- VISA Requirements: Indian students need to apply for a student visa to pursue a Master’s degree abroad.
- Language Requirements: Indians applying for universities abroad need to have qualified language proficiency tests such as IELTS or TOEFL. Some universities also require a GRE score (especially in the United States).
- Other Requirements: Other documents that Indian students require are their transcripts, Statement of purpose (SOP), Letter of Recommendation (LOR), resume, and the standardized test results.
Course Name | Average Annual Fee |
---|---|
University of Nottingham, UK | --- |
KTH, Sweden | --- |
University of Manchester, UK | --- |
ETH Zurich, Switzerland | INR 11,00,000 |
TU Delft, Netherlands | --- |
TU Munich, Germany | --- |
The University of Texas at Austin, USA | INR 73,00,000 |
Aalborg University, Denmark | INR 43,00,000 |
University of Wisconsin, Madison USA | INR 73,00,000 |
North Carolina State University, USA | INR 65,00,000 |
ME Power Electronics: Jobs
There are many job opportunities for Engineers with a Master's degree in Power Electronics. Candidates can work as Assistant Engineer, Junior Engineer, or Scientists in Government organizations. Power Electronics also can work as a Power Electronics Designer, Grade II Technician, Test engineer, or Power Electronics researcher, in various government or private institutions.
The average salary of a Power Electronics Engineer is 5.0 LPA and varies with experience. The salary can reach up to 10.00 LPA or more. The salary varies as per location, employer, and experience of the candidate.
Job Profile | Job description | Average Salary for Freshers |
---|---|---|
Power electronics design Engineer | Work of a power electronics design engineer involves design and simulation of various power electronics devices such as Thyristors, BJT, IGBT etc. | INR 3-3.35 Lacs |
Technician | The job of technician involves the application of power electronics principles and related skills in order to ensure the smooth functioning of the power conversion process. | INR 2.6-2.95 Lacs |
Assistant Engineer | The job involves working on a power electronics design or project under the supervision and guidance of a senior engineer. | INR 2.66-3.10 Lacs |
Executive Engineer | An executive engineer acts as a supervisor and leader so as to ensure the proper execution of the assigned task by the team members. | INR 2.94-3.24 Lacs |
Technical Content Developer | The job involves preparation of authentic content related to the domain of electronics and power devices for blogs or student study modules. | INR 2.23-2.83 Lacs |
Junior Engineer | The job role of a Junior Engineer is the development and maintenance of various equipment. The work environment of a Junior Engineer is mostly field work. | INR 2.00-3.00 Lacs |
Top Recruiters
Tabulated Below is the top recruiters of Power Electronic Engineers
The Boeing Company | |
---|---|
Apple | General electrical |
Schneider Electricals | Qualcomm |
BMW Group | Shell Oil Company |
Bajaj Electricals | Philips India |
TCS | Hyundai Electronics |
LG | Havells India |
Railways | Emerson |
Mitsubishi Electric | Eon Electric |
ME Power Electronics Scope
It is estimated by 2030 almost 75% of electrical power will be generated using power electronics. As Power Electronic devices are used in some of the major industries like electrical power systems, telecommunications, aviation, railways, aerospace, etc., the job opportunities for power electronics engineers are likely to increase in the future.
Power Electronics engineers need a varied set of skills to stand out from other candidates. power electronics need to have a working knowledge of digital systems, analog circuits, control systems, electromagnets, power systems, Basic Electrical and Electronics, Physics. Besides, candidates also need to have hands-on knowledge of practical tools such as MATLAB, Simulink, CAD, etc.
ME Power Electronics FAQs
Ques. Describe the role of Power Electronics in Embedded System
Ans. The role of power electronics in embedded systems depends on the application that the embedded system is being used for. Some embedded systems might require power electronics while others might not. Power Electronics with embedded systems might be used to control electrical or electronics loads.
Ques. Can we use Arduino in Power Electronics?
Ans. There are various power electronics projects that use Arduino. Arduino can be used to control switching power electronic devices, or can also be used to trigger switching power electronic devices such as MOSFET, IGBT, GTO by generating Gate pulses.
Ques. Is there a difference between electronics and Power Electronics?
Ans. A major difference between power electronics and electronics is that the latter is used for low power devices. Electronics are concerned or used with devices such as resistors, capacitors, op-amps, etc. Power Electronic devices on the other hand use high power as well magnetism. A high power is a result of high current flowing through the devices, which leads to the study of magnetic field and electric field is being studied rigorously.
Ques. Are power electronics courses better in India or abroad?
Ans. Courses in India as well as abroad are exemplary. The course includes an equal amount of theoretical as well as practical exposure. It is necessary for the candidates to give them hands-on experience with the power electronic devices. The one major advantage of courses abroad is an opportunity to intern with top electrical or electronics companies. Interning with the companies gives the candidates industry experience, which is advantageous while applying for a job.
Ques. What are some of the best books for Power electronics?
Ans. Some of the best books for Power Electronics are Power electronics by PS Bhimbra, Handbook of Power Electronics by MH Rashid, Power Electronics by MD Singh, etc. Candidates can also take reference from websites such as Electrical4u, toturialpoint.com, circuitstoday.com and so on.
Ques. Is ME in Power Electronics better or Mtech?
Ans. Both the degree levels are equally necessary and important for candidates willing to pursue the particular specialization. Both the courses are 2-years long, and have many job opportunities. An Mtech or a ME Power Electronics can work for some of the top government and private companies. ME however, is considered more recognized and respected by some.
Ques. How to apply for the Power Electronics course in IITs or NIT?
Ans. Candidates willing to pursue a Bachelors course in Power Electronics have to qualify JEE Mains with a good score. However, for a Master’s program candidates need to apply for the GATE exam and qualify the same with a good score. GATE and JEE Mains is necessary to apply for a Masters or a Bachelors course in Power electronics or related disciplines.
Ques. Are NPTEL videos enough to clear entrance exams like GATE or LPUNEST etc.?
Ans. Even though NPTEL videos are enough to complete a power electronics course, it is however mandatory for candidates to take reference from other websites or courses. Also, GATE consists of paper EE which candidates need to apply for to pursue Master’s in Power Electronics. Thus, candidates need to study the entire syllabus of GATE-EE, not just Power Electronics.
Ques. How to get a job as a power electronics engineer or any related field?
Ans. Candidates need to apply for a Power Electronics job through campus-placements or off-campus. There are many job opportunities released by top companies like ABB, GE, Qualcomm etc., Candidates can apply for the post on the respective website. Some companies also require candidates to have relevant industry-work experience. Thus candidates need to apply for the job role accordingly.
Ques. How far in the future is the scope of power electronics? What could be the employment rate?
Ans. At least 80 percent of electric power is predicted to be generated using power electronic devices. Today power electronic devices in power system grids, to control electrical flow by managing electrical machines. Power Electronic devices have increased the efficiency of power systems, by replacing Ac with DC systems, less losses, and increased efficiency. With a myriad of advantages power electronic engineers are expected to have many job opportunities in the future. Not only electric power electronic devices are also actively used in telecommunications, aviation, aerospace, railways etc.
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