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M-TECH in Name Power Electronics And Drives Seats 18 at Federal Institute of Science And Technology (FISAT)
Ernakulam, Kerala
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About the Specialization
What is {"name": "Power Electronics and Drives", "seats": 18} at Federal Institute of Science And Technology (FISAT) Ernakulam?
This Power Electronics and Drives (PED) program at Federal Institute of Science And Technology focuses on advanced concepts in power conversion, electric machine control, and their applications in modern industrial and energy systems. It addresses the growing demand for efficient power management and motor control technologies, which are crucial for India''''s push towards electrification and renewable energy integration. The program''''s interdisciplinary nature sets it apart, combining theoretical depth with practical relevance to industry needs.
Who Should Apply?
This program is ideal for fresh graduates in Electrical & Electronics Engineering seeking entry into core power industries, research and development roles, or further academic pursuits. It also caters to working professionals aiming to upskill in advanced power electronics, electric vehicle technology, or smart grid solutions. Individuals with a strong analytical aptitude and an interest in efficient energy conversion and machine control will find this specialization highly rewarding.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding career paths in sectors like renewable energy, electric vehicle manufacturing, industrial automation, and power utilities across India. Entry-level salaries typically range from INR 4-7 LPA, with experienced professionals earning INR 10-25+ LPA depending on expertise and company. Graduates are well-prepared for roles as R&D engineers, design engineers, control system specialists, or project managers, with significant growth trajectories in Indian and global firms.
Student Success Practices
Foundation Stage
Master Core Elective Fundamentals- (Semester 1-2)
Dedicate time in Semesters 1 and 2 to deeply understand the core Power Electronics, Drives, and Applied Mathematics concepts. Utilize online platforms like NPTEL courses on power electronics, control systems, and machine dynamics for supplementary learning. Form study groups to discuss complex topics and solve problems collaboratively.
Tools & Resources
NPTEL (Power Electronics, Electrical Machines), MIT OpenCourseware, MATLAB/Simulink tutorials, GeeksforGeeks for mathematical concepts
Career Connection
A strong foundation in these subjects is critical for excelling in advanced courses, project work, and cracking technical interviews for core engineering roles. It enables efficient problem-solving in real-world applications.
Hands-on Lab Skill Development- (Semester 1-2)
Actively participate in Power Electronics and Drives Lab sessions (Lab I and II). Aim to not just complete experiments but understand the underlying principles and troubleshooting. Explore simulation tools like PSPICE, PSIM, and MATLAB/Simulink beyond prescribed lab work to model and analyze circuits independently.
Tools & Resources
Lab equipment (oscilloscopes, power supplies, test benches), MATLAB/Simulink, PSIM/PSPICE software, Component datasheets
Career Connection
Practical skills are highly valued by industries. Proficiency in lab work and simulation tools prepares you for design, testing, and R&D roles in power electronics manufacturing and R&D companies.
Engage with Research and IPR- (Semester 1-2)
Utilize the ''''Research Methodology and IPR'''' course to identify potential research interests early on. Read relevant IEEE papers and explore intellectual property rights related to power electronics. Attend departmental seminars and workshops to learn about ongoing research, helping you choose a focused mini-project and eventual main project.
Tools & Resources
IEEE Xplore, Google Scholar, WIPO website for IPR, FIST departmental seminars
Career Connection
Understanding research methodologies and IPR fosters an innovative mindset, crucial for R&D careers and for developing novel solutions. It also helps in strong project work and academic publications.
Intermediate Stage
Specialized Elective Concentration- (Semester 3)
In Semester 3, strategically choose electives (Elective VI, VII) that align with your career interests, such as renewable energy, electric vehicles, or advanced control. Go beyond the syllabus, exploring industry trends and technologies related to your chosen niche. Consider certifications from NPTEL or Coursera in your specialized area.
Tools & Resources
NPTEL Advanced Certifications, Coursera/edX courses on specialized topics, Industry whitepapers, IEEE journals
Career Connection
Deep specialization makes you a highly desirable candidate for specific industry roles. It showcases expertise beyond the general curriculum and can lead to advanced positions in your chosen field.
Strategic Industrial Internship- (Semester 3)
Undertake the Industrial Internship in Semester 3 with a company directly involved in power electronics and drives. Focus on gaining hands-on experience in a real-world engineering environment. Actively seek mentors, network with professionals, and try to contribute meaningfully to ongoing projects.
Tools & Resources
FIST Placement Cell, LinkedIn for industry connections, Company websites for internship opportunities, Internshala
Career Connection
Internships are crucial for industry exposure, converting theoretical knowledge into practical skills, and building professional networks. Many internships lead to pre-placement offers, significantly boosting career prospects.
Project Part 1 - Strong Foundation- (Semester 3)
For Project Part 1 in Semester 3, meticulously perform literature surveys and clearly define your project problem. Focus on robust system design and methodology development. Present your preliminary findings effectively to your guides and peers, incorporating feedback for refinement.
Tools & Resources
Research papers (IEEE, Springer), Open-source simulation models, Design software (e.g., Altium Designer, Eagle), Project management tools
Career Connection
A well-executed Project Part 1 sets the stage for a strong final project, which is often a key differentiator in placements. It hones problem-solving, analytical, and technical presentation skills.
Advanced Stage
Exemplary Project Part 2 & Thesis- (Semester 4)
Dedicate significant effort to Project Part 2 in Semester 4. Aim for innovative solutions, meticulous implementation, thorough experimental analysis, and insightful data interpretation. Craft a high-quality thesis, focusing on clarity, structure, and academic rigor. Prepare rigorously for your project defense.
Tools & Resources
Advanced simulation tools, Hardware development kits, Testing instruments, LaTeX for thesis writing, Grammarly
Career Connection
An outstanding M.Tech project is a powerful resume booster, demonstrating your ability to conduct independent research and deliver complex engineering solutions. It can also lead to publications and further research opportunities.
Placement-Oriented Skill Refinement- (Semester 4)
During Semester 4, concurrently with your project, focus on placement preparation. Polish your resume, practice technical interview questions related to power electronics and drives, and participate in mock interviews. Enhance your soft skills, including communication and teamwork, which are vital for industry roles.
Tools & Resources
FIST Placement Cell services, Online interview platforms (GeeksforGeeks, LeetCode), Technical interview books, LinkedIn for company research
Career Connection
Targeted placement preparation ensures you are job-ready and confident during recruitment drives. Strong technical and soft skills increase your chances of securing desirable positions in reputable companies.
Professional Networking and Conferences- (Semester 4)
Actively network with alumni, industry professionals, and faculty. Attend national and international conferences (e.g., IEEE TENCON, PEDES) if possible, or participate virtually. Present your project work at college-level symposiums. This broadens your professional circle and exposes you to the latest industry advancements.
Tools & Resources
LinkedIn, IEEE student chapters, Conference websites, Alumni network platforms
Career Connection
Networking opens doors to unexpected opportunities, mentorship, and insights into industry trends. It is invaluable for career growth, job hunting, and staying competitive in the dynamic field of power electronics.
Program Structure and Curriculum
Eligibility:
- Candidates should possess a B.Tech/BE in Electrical & Electronics Engineering, Electronics & Communication Engineering or equivalent branch with a minimum of 60% marks from any recognized University or equivalent grade for admission to M.Tech programs of KTU. GATE score is preferred for scholarship eligibility.
Duration: 4 semesters / 2 years
Credits: 70 Credits
Assessment: Internal: 40%, External: 60%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 201MTEED001 | Applied Mathematics for Electrical Engineers | Core | 4 | Linear Algebra, Numerical Methods, Calculus of Variations, Transform Techniques, Random Processes |
| 201MTEED002 | Advanced Power Electronic Converters | Core | 4 | AC-DC Converters, DC-DC Converters, DC-AC Inverters, Multilevel Inverters, Resonant Converters |
| 201MTEED003 | Dynamics of Electrical Machines | Core | 4 | DC Machine Dynamics, Induction Machine Dynamics, Synchronous Machine Dynamics, Machine Modeling, Generalized Machine Theory |
| 201MTEEXXX | Elective I (e.g., Power Semiconductor Devices and Protection) | Elective | 3 | Power Diodes and Thyristors, MOSFETs and IGBTs, Gate Drive Circuits, Snubber Circuits, Protection Schemes |
| 201MTEEXXX | Elective II (e.g., Digital Control Systems) | Elective | 3 | Sampling and Quantization, Z-transform Analysis, Digital Controllers Design, State Space Analysis, Microprocessor Control |
| 201MTLPD001 | Power Electronics and Drives Lab I | Lab | 2 | Converter Experiments, Inverter Control, DC and AC Drives, Simulation Tools (MATLAB/Simulink), Hardware Implementation |
| 201MTRT001 | Research Methodology and IPR | Core | 2 | Research Problem Formulation, Literature Review, Research Design, Intellectual Property Rights, Scientific Writing |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 202MTEED010 | Advanced Control of Electrical Drives | Core | 4 | Field Oriented Control (FOC), Direct Torque Control (DTC), Sensorless Control, Space Vector Modulation, Adaptive Control Techniques |
| 202MTEED011 | Power System Harmonics and Mitigation | Core | 4 | Harmonic Sources and Effects, Harmonic Analysis, Passive Filters, Active Power Filters, IEEE Harmonic Standards |
| 202MTEEXXX | Elective III (e.g., Design of Power Electronic Systems) | Elective | 3 | Component Selection, Thermal Management, EMI/EMC Considerations, Gate Driver Design, Protection Circuits |
| 202MTEEXXX | Elective IV (e.g., Smart Grid Technology) | Elective | 3 | Smart Grid Architecture, Distributed Generation, Microgrids, Advanced Metering Infrastructure, Cyber Security in Smart Grid |
| 202MTEEXXX | Elective V (e.g., Electric Vehicles and Components) | Elective | 3 | EV Architectures, Battery Management Systems, Charging Infrastructure, Electric Motors for EVs, Power Electronics in EVs |
| 202MTLPD002 | Power Electronics and Drives Lab II | Lab | 2 | Advanced Drive Control, Harmonic Analysis Experiments, Grid Interfacing Converters, Power Quality Analysis, Real-time Control Implementation |
| 202MTSY001 | Mini Project | Project | 2 | Problem Definition, Design and Development, Prototyping, Testing and Validation, Technical Report Writing |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 203MTEEXXX | Elective VI (e.g., Renewable Energy Systems and Grid Integration) | Elective | 3 | Solar PV Systems, Wind Energy Systems, Energy Storage Technologies, Grid Interconnection Issues, Microgrid Control |
| 203MTEEXXX | Elective VII (e.g., Machine Learning for Power Systems) | Elective | 3 | AI in Power System Operations, Data Analytics for Grids, Optimization Techniques, Predictive Maintenance, Smart Grid Applications |
| 203MTSY002 | Industrial Internship | Internship | 2 | Industry Exposure, Practical Skill Development, Project Implementation, Professional Ethics, Technical Documentation |
| 203MTSY003 | Project Part 1 | Project | 6 | Literature Survey, Problem Identification, System Design, Methodology Development, Preliminary Results |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 204MTSY004 | Project Part 2 | Project | 12 | Advanced Research, System Implementation, Experimental Analysis, Data Interpretation, Thesis Writing and Defense |
