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M-TECH in Power Electronics at B.M.S. College of Engineering
Bengaluru, Karnataka
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About the Specialization
What is Power Electronics at B.M.S. College of Engineering Bengaluru?
This M.Tech Power Electronics program at BMS College of Engineering, Bengaluru, focuses on advanced power conversion techniques, device technologies, and control strategies for efficient energy management. It is highly relevant to India''''s burgeoning sectors like renewable energy, electric vehicles, and smart grids, addressing the critical demand for sustainable energy solutions and emphasizing cutting-edge research and practical applications for energy sustainability.
Who Should Apply?
This program is ideal for electrical and electronics engineering graduates seeking to specialize in power conversion, electric drives, and renewable energy integration. It also suits working professionals from power utilities, manufacturing, or R&D looking to upskill in advanced power electronics concepts and their industrial applications, contributing to India''''s rapid technological advancements and energy independence.
Why Choose This Course?
Graduates of this program can expect diverse career paths in India as power electronics design engineers, R&D specialists, energy system consultants, or electric vehicle engineers. Starting salaries typically range from INR 4-8 LPA for freshers, with experienced professionals earning significantly more. The program prepares students for pivotal roles in companies focusing on clean energy, industrial automation, and modern power infrastructure development.
Student Success Practices
Foundation Stage
Strengthen Core Power Electronics Fundamentals- (Semester 1-2)
Dedicate time to master the fundamental theories of power semiconductor devices, advanced converter topologies, and control systems. Utilize recommended textbooks, NPTEL courses, and actively participate in lectures to build a robust theoretical base.
Tools & Resources
NPTEL courses on Power Electronics, Textbooks by M.H. Rashid, P.S. Bimbhra, Academic reference journals
Career Connection
A strong theoretical foundation is indispensable for excelling in technical interviews and for innovation in power electronics design and R&D roles.
Develop Hands-on Lab and Simulation Proficiency- (Semester 1-2)
Actively engage in all laboratory sessions, gaining practical experience with power electronic circuits, device characterization, and control implementation using microcontrollers/DSPs. Utilize simulation tools extensively to validate theoretical concepts.
Tools & Resources
College labs with power electronics kits, PSIM, MATLAB Simulink, PSpice, Texas Instruments/Microchip development kits
Career Connection
Practical skills are highly valued by industries for roles in design, testing, and system integration, leading to faster assimilation into professional engineering teams.
Cultivate Peer Learning and Technical Communication- (Semester 1-2)
Form study groups to discuss complex topics, solve numerical problems, and prepare for exams collectively. Actively participate in departmental seminars and mini-projects to articulate concepts clearly and improve presentation skills.
Tools & Resources
Study groups, departmental workshops, Online forums like IEEE Xplore, ResearchGate for technical papers, Microsoft Teams/Google Meet for virtual collaboration
Career Connection
Enhances problem-solving, teamwork, and communication abilities, which are crucial for success in collaborative industrial and research environments.
Intermediate Stage
Strategic Elective Specialization and Mini-Projects- (Semester 3)
Carefully choose program electives that align with specific career interests within power electronics (e.g., Electric Vehicles, Renewable Energy, Grid Systems). Undertake mini-projects or term papers within these specialized areas to deepen expertise.
Tools & Resources
IEEE Transactions on Power Electronics, Industry white papers and reports, Specialized project development kits
Career Connection
Builds a focused technical portfolio, making graduates highly attractive to companies actively recruiting for niche roles in rapidly growing sectors like EV manufacturing or renewable energy development.
Industry Internship for Real-world Exposure- (Semester 3)
Actively seek and complete an industry internship in a reputable company related to power electronics. Focus on understanding real-world engineering challenges, contributing meaningfully to projects, and establishing professional networks with industry experts.
Tools & Resources
College placement cell, LinkedIn, Industry associations like IEEMA, Company career portals (e.g., ABB, Siemens India)
Career Connection
Provides invaluable practical experience, often leading to pre-placement offers, and gives a significant competitive edge in the highly selective Indian job market for core engineering roles.
Engage in Technical Competitions and Workshops- (Semester 3)
Participate in national-level technical competitions, hackathons, and design challenges focused on power electronics or related fields. Attend specialized workshops to learn new technologies and apply theoretical knowledge to practical problem-solving.
Tools & Resources
College technical clubs, IEEE student chapters, Competitions like E-Yantra, Smart India Hackathon, Industry-sponsored workshops
Career Connection
Develops critical thinking, innovative problem-solving, and leadership skills, which are highly valued by employers for roles requiring creativity and strategic execution.
Advanced Stage
Excellence in Thesis/Project Work and Publication- (Semester 4)
Dedicate extensive effort to the M.Tech thesis, aiming for high-quality research and robust experimental validation. Seek opportunities to publish findings in peer-reviewed conferences or journals, enhancing academic and professional visibility.
Tools & Resources
Research supervisors and mentors, Academic writing tools, LaTeX, IEEE Xplore, Scopus, Web of Science for journal submissions
Career Connection
A strong thesis and publication record are crucial for securing R&D positions, academic roles, or pursuing further doctoral research (Ph.D.) both in India and globally.
Comprehensive Placement Preparation and Interview Mastery- (Semester 4)
Thoroughly prepare for placements by practicing technical interview questions covering power electronics, control systems, electric drives, and basic programming. Focus on clearly articulating project work, internship experiences, and technical skills.
Tools & Resources
Mock interview sessions, Online platforms like GeeksforGeeks, InterviewBit, Company-specific aptitude and technical test materials
Career Connection
Maximizes the chances of securing coveted placements in leading core power electronics companies and technology firms, ensuring a strong and successful career launch.
Continuous Professional Development and Lifelong Learning- (Semester 4 and beyond)
Cultivate a mindset of continuous learning by staying updated with emerging technologies and industry trends. Pursue relevant certifications (e.g., in advanced EV technology, energy management) and actively participate in professional organizations.
Tools & Resources
Coursera, edX, NPTEL advanced courses, LinkedIn Learning, Udemy for skill development, IEEE membership for technical updates
Career Connection
Ensures long-term career relevance, adaptability to technological shifts, and opens doors to leadership, specialized expert roles, and entrepreneurial opportunities within the Indian power sector.
Program Structure and Curriculum
Eligibility:
- No eligibility criteria specified
Duration: 4 semesters / 2 years
Credits: 84 Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MPE21PECC101 | Advanced Power Semiconductor Devices | Core | 4 | Thyristors (SCR, GTO), Power MOSFETs and IGBTs, Emerging SiC and GaN devices, Device characteristics and applications, Device protection circuits |
| MPE21PECC102 | Advanced Power Converters | Core | 4 | AC-DC Converters (Rectifiers), DC-DC Converters (Choppers), DC-AC Inverters (PWM techniques), Multilevel Inverters (Diode-clamped, Flying-capacitor, H-bridge), Resonant Converters |
| MPE21PECC103 | Applied Control Systems | Core | 4 | State Space Analysis, Digital Control Systems, Non-linear Control Techniques, Adaptive Control Principles, Fuzzy Logic Control |
| MPE21PECE1XX | Program Elective – 1 (Choice of one) | Elective | 3 | MPE21PECE104 Digital Control of Power Electronic Systems, MPE21PECE105 Power Electronics for Renewable Energy Systems, MPE21PECE106 Power Quality |
| MPE21PECE104 | Digital Control of Power Electronic Systems | Elective (Example from PE-1) | 3 | Digital Control Principles, Sampling and Discretization, Digital Controllers Design, DSP/Microcontroller based control, FPGA based control of PE |
| MPE21RES107 | Research Methodology and IPR | Audit Course | 0 | Research Problem and Formulation, Data Collection and Analysis, Statistical Methods, Technical Report Writing, Intellectual Property Rights (IPR), Patents and Copyrights |
| MPE21PEL108 | Advanced Power Electronics Lab | Lab | 2 | Power Device Characterization, Converter Simulation using PSIM/MATLAB, PWM Generation Techniques, Closed Loop Control of Converters, Hardware Implementation of Power Circuits |
| MPE21PEL109 | Applied Control Systems Lab | Lab | 2 | PID Controller Design and Tuning, State Space Control Implementation, PLC/SCADA Programming for Control, MATLAB/Simulink for Control System Design, Real-time Control Experiments |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MPE21PECC201 | Modeling and Simulation of Power Electronic Systems | Core | 4 | Modeling of Power Converters, Power Device Modeling, Control Loop Modeling, Simulation Tools (PSIM, MATLAB/Simulink), Numerical Methods for Simulation |
| MPE21PECC202 | Electric Drive Systems | Core | 4 | DC Motor Drives, AC Motor Drives (Induction and Synchronous), Vector Control (Field Oriented Control), Direct Torque Control (DTC), Switched Reluctance Motor Drives |
| MPE21PECC203 | Distributed Generation and Smart Grid | Core | 4 | Distributed Generation Sources, Microgrids (AC and DC), Smart Grid Technologies, Communication Infrastructure for Smart Grid, Energy Management Systems |
| MPE21PECE2XX | Program Elective – 2 (Choice of one) | Elective | 3 | MPE21PECE204 EMI/EMC in Power Electronic Systems, MPE21PECE205 Battery Management Systems, MPE21PECE206 FACTS and HVDC |
| MPE21PECE2YY | Program Elective – 3 (Choice of one) | Elective | 3 | MPE21PECE207 Digital Signal Processing for Power Systems, MPE21PECE208 Advanced Embedded Systems for Power Electronics, MPE21PECE209 Electric and Hybrid Electric Vehicles |
| MPE21PW210 | Technical Paper Writing and Presentation | Audit Course | 0 | Research Paper Structure, Literature Review Techniques, Manuscript Preparation and Submission, Referencing Styles and Tools, Effective Technical Presentation Skills |
| MPE21PEL211 | Modeling and Simulation Lab | Lab | 2 | PSIM/MATLAB for Converter Simulation, Power Device and Component Simulation, Control System Simulation for PE, Filter Design and Analysis, Motor Drive System Simulation |
| MPE21PEL212 | Power Electronic Converters Lab | Lab | 2 | DC-DC Converter Experiments, Inverter Control using PWM, Active Rectifier Implementation, Motor Speed Control using Converters, Power Quality Improvement Experiments |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MPE21PEOE301 | Open Elective – 1 (Example: Industrial Internet of Things) | Open Elective | 3 | IoT Architecture and Protocols, Sensors and Actuators for Industry, Industrial Communication Networks, Cloud Computing for IoT, Data Analytics in Industrial IoT, Security and Privacy in IIoT |
| MPE21PEC302 | Internship | Internship | 4 | Industry Exposure and Experience, Practical Skill Development, Project Implementation in Industry, Professional Networking, Technical Report Writing |
| MPE21PEP303 | Project Work Phase – I | Project | 12 | Problem Formulation and Definition, Extensive Literature Survey, Design of Methodology and Experimentation, Preliminary Results and Analysis, Project Planning and Scheduling |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MPE21PEC401 | Project Work Phase – II | Project | 22 | System Development and Implementation, Testing and Validation of Results, Detailed Data Analysis and Interpretation, Thesis Writing and Documentation, Comprehensive Technical Presentation |
| MPE21PES402 | Technical Seminar | Seminar | 2 | Advanced Research Topic Selection, Critical Literature Review, Synthesis of Technical Information, Effective Oral Presentation Skills, Question and Answer Session Management |
