M.Tech. Power Systems Engineering is a postgraduate electrical engineering program offering advanced specialization in power systems. The program covers related specialities such as System Analysis of Power, Planning of Stability Evaluations, Forecasting and Reliability, Power Electronics and Drives, High Voltage DC Transmission, Industrial Electronics and Controls, Wind and Solar Energy Electric Conversion System etc.
Top Institutes offering M.Tech. Power Systems Engineering course are:
M.Tech. Power Systems Engineering is a 2- year full- time course. The average fee charged in India for pursuing this Course ranges between INR 2 to 5 Lacs, varying according to difference in institutes offering the course.
As a minimum criterion of eligibility, aspiring candidates need to be graduates in any science- related discipline from a recognized institute, preferably in Power System Engineering as the discipline. Additionally, candidates need to qualify the GATE as the final stage in the admission process.
The average annual salary offered in India to such postgraduates ranges between INR 3 to 6 Lacs, depending on the candidate’s expertise, skillsets and reputation of the graduating institute.
Successful postgraduates of M.Tech. Power Systems Engineering course are hired in positions such as Energy Manager, Electrical Engineer, Test Engineer, Power System Engineer, Manufacturing Engineer etc.
Top Colleges for Master of Technology [M.Tech] (Power System Engineering)
- Master of Technology [M.Tech] (Power System Engineering) in Rajasthan
- Master of Technology [M.Tech] (Power System Engineering) in Karnataka
- Master of Technology [M.Tech] (Power System Engineering) in Orissa
- Master of Technology [M.Tech] (Power System Engineering) in Kerala
- Master of Technology [M.Tech] (Power System Engineering) in Punjab
M.Tech. Power Systems Engineering: Course Highlights
Tabulated below are some of the major highlights of the course.
|Name of the Course||M-Tech in Power Systems Engineering|
|Duration||2 Years, Full Time|
|Examination Type||Semester System|
|Eligibility||Graduation Degree in Science with a minimum aggregate score of 45-50%|
|Admission Process||Based on Counselling Sessions After Clearing Entrance Tests (Gate) Or Direct Admission in Some Cases|
|Average Course Fee||INR 2 to 5 Lacs|
|Average Starting Salary||INR 3 to 6 Lacs|
M.Tech. Power Systems Engineering: What is it About?
M.Tech. Power Systems Engineering course curriculum covers both theoretical and practical aspects of power systems such as dynamics, power system analysis, operations, control, planning, reliability and protection, and also security, power quality and power system transients.
The course trains students in understanding and operation of micro- processors and micro controllers which form a crucial part of the evolving power system technology. M.Tech. Power Systems Engineering course familiarizes students with processes of analysing, developing, designing and evaluating high-end power systems for managing a variety of challenging projects and research work.
M.Tech. Power Systems Engineering: Course Duration
The course is a 2- year full-time course consisting of 4 semesters. The first 2 semesters are common between all students pursuing the course, while the end semesters are for specializing in major and minor subjects.
M.Tech. Power Systems Engineering: Who Should Opt?
Eligible candidates with a keen interest in manufacturing and designing of power systems may go for this course. Also suited for the course are students interested in research work in the discipline.
M.Tech. Power Systems Engineering: Top Institutes
Compiled here is a list of the top institutes in India offering the course along with their respective locations and fees charged by each.
|Name of the Institute||City||Average Annual Fees in INR|
|Lovely Professional University||Jalandhar||2.4 Lacs|
|University of Petroleum and Energy Studies||Dehradun||4.2 Lacs|
|Sir Padampat Singhania University||Udaipur||2 Lacs|
|Global Technical Campus||Jaipur||3 Lacs|
|K.R. Mangalam University||Gurgaon||2.7 Lacs|
|Sharda University||Greater Noida||2.7 Lacs|
|Lovely Professional University||Chandigarh||2.4 Lacs|
M.Tech. Power Systems Engineering: Eligibility
Candidates wishing to pursue M.Tech. Power Systems Engineering course need to have completed graduation from a recognized institute with a minimum aggregate score of 45% - 50%, preferably with Power System Engineering as the subject of specialization at the level of graduation.
Candidates waiting for their final year exam results are welcome too.
M.Tech. Power Systems Engineering: Admission Process
Eligible candidates are required to qualify for the relevant entrance examination followed by a round of group discussion. Subsequently, qualifying candidates would need to go through additional rounds of personal interview as the final stage in the process of selection. The main entrance exams held in India for admission to the course is GATE (Graduate Aptitude Test in Engineering).
However, a few colleges also have their own entrance examinations and admission procedures in place for selecting and admitting candidates.
M. Tech in Power Systems Engineering: Syllabus and Course Description
A semester- wise breakup of the course is given here:
|Semester 1||Semester 2|
|Power System Analysis and Operation||Power System Dynamics & Control|
|Electric Power Quality||Power System Protection|
|Elective I||HVDC And Flexible Ac Transmission Systems|
|Elective Ii||Elective IV|
|Elective Iii||Elective V|
|Power System Lab - I||Power System Lab - II|
|Energy Systems Lab||Seminar - II|
|Seminar - I||-|
|Semester 3||Semester 4|
|Subjects||Thesis Part II|
|Thesis Part I||Research Review Paper II|
|Research Review Paper I||-|
|Renewable and Distributed Energy Sources|
|Energy, Ecology and Environment|
|High Voltage Engineering|
|Advanced Power Electronics|
|Energy Storage Systems|
|EHV/UHV Power Transmission Engineering|
|Statistical Signal Processing|
|Grid Integration of Renewable Energy Systems|
|Smart Grid Technology|
|Advanced High Voltage Engg.|
|Distribution System Engineering|
|Networks and Systems Security|
|Advanced Digital Signal Processing|
|Advanced Techniques in Operations Research|
M.Tech. Power Systems Engineering: Internship Options
At the end of every year in summers, students pursuing the course are needed to go for summer internship programs as a basic necessity to be fulfilled for successful completion of the course and reception of degrees. The internship needs to last a minimum of 2 months and needs to be done from a reputed organization in the relevant department. Stipends offered for the internship differ according to the concerned organizations’ policies. A few of them are paid and a few are unpaid.
M.Tech. Power Systems Engineering: Career Options
Upon successful completion of the course, postgraduates interested in further studies in the discipline may go for pursuing Ph. D in the subject, and those interested in academic application of their training may go for a teaching career in universities/ colleges. Also, interested candidates may even go for pursuing a dual degree in the course.
Top Recruiting Industries:
Listed below are some of the most popular industries that hire successful postgraduate of the course.
- Defence Sector
- Heavy Electrical Industry
- Automobile Industry
- Space Technology
- Power Sector
Related M.Tech. Power Systems Engineering courses
Read about more M.Tech. courses
Listed here are some of the popular job positions offered to successful postgraduates of the discipline with the corresponding job descriptions and salaries offered.
|Job Position||Job Description||Average Annual Salary in INR|
|Energy Manager||Responsible for helping monitor and reduce energy usage of the organisation.||6 to 6.5 Lacs|
|Electrical Engineer||Responsible for evaluating electrical systems, products, components, and applications by designing and conducting research programs; applying knowledge of electricity and materials, approving systems’ and components' capabilities by designing testing methods, testing properties.||3.5 to 4 Lacs|
|Test Engineer||Responsible for fully testing the product or system to ensure it functions properly and meets the intended business needs. Job responsibilities include testing all aspects of the product/system such as function/component, system, performance, regression and service.||4.5 to 5 Lacs|
|Power System Engineer||Responsible for performing complex power system analyses, such as protective coordination, fault studies, load flows, service reliability, load forecasts, power quality, voltage stability, system expansion studies, and market operations. Also responsible for preparing and reviewing standards, equipment specifications, design procedures, and test procedures, developing and preparing engineering designs, drawings, circuit maps, control diagrams, charts, databases, plans, and other documents for transmission and distribution systems, generation and substation facilities, market operation and settlement systems etc. They also provide technical expertise in materials, design, welding, equipment standards, relay coordination, technology and other areas related to the utility industry.||5 to 5.5 Lacs|
|Manufacturing Engineer||Responsible for evaluating manufacturing processes by designing and conducting research programs, applying knowledge of product design, fabrication, assembly, tooling, and materials, co- ordinating with equipment vendors, soliciting observations from operators.||4.9 to 5.4 Lacs|
|Verification Engineer||Responsible for usually working as part of a team, demonstrating strong communication skills, proficiency in analytical reasoning, and proficiency in troubleshooting solutions to complex problems.||4.5 to 5.2 Lacs|
|Analyst||Responsible for supporting clients and projects in the commercial advisory services- transmission team, contribute to and helping manage the development of innovative, accurate, timely, and high quality products and services, typically working on multiple projects and with all levels of staff.||4 to 4.88 Lacs|