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M-TECH in Power Electronics And Electric Drives at Aditya Institute of Technology and Management
Srikakulam, Andhra Pradesh
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About the Specialization
What is Power Electronics and Electric Drives at Aditya Institute of Technology and Management Srikakulam?
This Power Electronics and Electric Drives (PEED) program at Aditya Institute of Technology and Management focuses on advanced concepts in power conversion, electric machine control, and their applications. It emphasizes designing, analyzing, and controlling modern power electronic converters and electric drive systems. Given India''''s rapid industrialization and push for electric mobility, this specialization is crucial for developing efficient and sustainable energy solutions, catering to the growing demand for skilled professionals in green technologies.
Who Should Apply?
This program is ideal for Bachelor of Technology (B.Tech) graduates in Electrical and Electronics Engineering or related disciplines seeking to specialize in power electronics and electric drive systems. It also suits working professionals who wish to enhance their skills in areas like electric vehicle technology, smart grids, and industrial automation. Candidates with a strong foundation in circuit theory, electrical machines, and basic electronics will find this program rewarding.
Why Choose This Course?
Graduates of this program can expect promising career paths in core electrical industries, R&D sectors, and emerging fields like electric vehicle manufacturing and renewable energy. Potential roles include Power Electronics Design Engineer, Drive System Specialist, Embedded Systems Engineer, or R&D Scientist. Entry-level salaries in India typically range from INR 4-7 LPA, with experienced professionals earning significantly more. The program prepares students for leadership roles in driving India''''s energy transition.
Student Success Practices
Foundation Stage
Master Core Concepts through Problem Solving- (Semester 1-2)
Dedicate significant time to understanding fundamental theories of modern power converters, electric machine modeling, and digital signal processing. Solve a variety of numerical problems and simulate circuits using tools like MATLAB/Simulink to solidify theoretical knowledge.
Tools & Resources
NPTEL courses on Power Electronics and Electric Drives, MATLAB/Simulink, Circuit simulation software (e.g., LTSpice), Textbooks by Rashid, Mohan
Career Connection
A strong theoretical base is essential for tackling complex design and analysis challenges in industry, leading to better performance in technical interviews.
Hands-on Lab Skill Development- (Semester 1-2)
Actively participate in all power electronics and drives lab sessions. Focus on understanding the experimental setup, data acquisition, and analyzing results. Beyond experiments, try to build simple prototypes (e.g., buck converter) on breadboards or PCBs to gain practical circuit building experience.
Tools & Resources
Lab manuals, Oscilloscopes, Function Generators, Power supplies, Component kits, Arduino/Raspberry Pi for basic control
Career Connection
Practical skills are highly valued by employers for roles in hardware design, testing, and R&D, making you a more effective engineer.
Engage in Peer Learning and Technical Discussions- (Semester 1-2)
Form study groups with classmates to discuss difficult concepts, solve problems collaboratively, and prepare for exams. Attend departmental seminars and workshops to broaden your understanding and interact with faculty and senior students.
Tools & Resources
Online forums, LinkedIn learning groups, Department notice boards for events, Peer study sessions
Career Connection
Enhances communication skills, fosters teamwork, and helps in building a professional network, all critical for career growth and collaborative projects.
Intermediate Stage
Initiate and Excel in Mini Project- (Semester 3)
Proactively identify a research problem or an industry-relevant design challenge early in the semester. Work closely with your faculty mentor, conduct thorough literature reviews, and aim for a practical implementation or a robust simulation study, preparing for the final project.
Tools & Resources
IEEE Xplore, Google Scholar, ResearchGate, Project management tools (e.g., Trello), Simulation software (e.g., PSIM, PSCAD)
Career Connection
Demonstrates initiative, problem-solving skills, and research aptitude, which are key for R&D roles and higher studies.
Network with Industry Professionals- (Semester 3)
Attend webinars, industry conferences, and workshops related to power electronics, electric drives, and electric vehicles. Utilize platforms like LinkedIn to connect with professionals and alumni in your desired career fields to gain insights and potential internship leads.
Tools & Resources
LinkedIn, Conference websites (e.g., IEEE, CIGRE), Industry associations (e.g., IEEMA)
Career Connection
Builds professional connections that can lead to internships, mentorship, and full-time job opportunities, especially in a competitive Indian job market.
Develop Specialized Software Skills- (Semester 3)
Beyond general simulation, delve deeper into industry-standard software specific to power electronics design (e.g., ANSYS Maxwell for motor design, Altium Designer for PCB layout). Participate in online courses or certifications to gain proficiency.
Tools & Resources
Coursera, edX, Udemy for specialized software courses, Official software documentation
Career Connection
Highly specialized software skills make you immediately valuable to companies working on advanced product development and design.
Advanced Stage
Drive a Comprehensive Thesis Project- (Semester 4)
Consolidate all learned skills into your final thesis. Ensure your project has a clear objective, rigorous methodology, and impactful results. Focus on publication-quality writing and meticulous experimental validation or simulation analysis.
Tools & Resources
Academic writing guides, Mendeley/Zotero for referencing, LaTeX for thesis formatting, Specialized lab equipment, High-performance computing resources
Career Connection
A well-executed and documented thesis is a strong testament to your capabilities, crucial for R&D roles, academic positions, or entrepreneurship.
Prepare for Placements and Interviews- (Semester 4)
Actively participate in campus placement drives. Refine your resume and cover letter, practice technical interview questions related to power electronics, control systems, and machines. Also, work on soft skills like communication and presentation.
Tools & Resources
College placement cell, Mock interview platforms, Company-specific interview preparation guides, Professional development workshops
Career Connection
Maximizes your chances of securing a desirable job offer upon graduation in leading Indian and multinational companies.
Explore Entrepreneurship or Further Research- (Semester 4)
For those inclined towards innovation, consider how your project work could translate into a startup idea. Alternatively, explore PhD opportunities in India or abroad, leveraging your M.Tech research work. Attend startup incubators'''' events or research seminars.
Tools & Resources
Startup India initiatives, University entrepreneurship cells, DST/DBT research funding calls, GRE/TOEFL/IELTS for international PhD applications
Career Connection
Opens avenues for becoming a job creator, an innovator, or a leading researcher, contributing significantly to India''''s technological advancement.
Program Structure and Curriculum
Eligibility:
- A candidate must have a B.Tech. degree in EEE / ECE / EIE / Instrumentation and Control Engineering / Electrical & Electronics Engineering / AMIE or equivalent. Admission is based on the rank secured in GATE/PGECET examination as per the rules of admissions by the Government.
Duration: 2 years / 4 semesters
Credits: 68 Credits
Assessment: Internal: 40%, External: 60%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| R22PELD101 | Modern Power Converters | Core | 3 | DC-DC Converters, PWM Inverters, Multilevel Inverters, Resonant Converters, Control of Converters |
| R22PELD102 | Modeling and Analysis of Electric Drives | Core | 3 | Dynamic Models of Electrical Machines, DC Motor Drive Dynamics, Induction Motor Modeling, Synchronous Motor Modeling, Stepper Motor Drives |
| R22PELD103 | Advanced Digital Signal Processing | Core | 3 | DSP Fundamentals, Discrete Fourier Transforms, Fast Fourier Transforms, FIR/IIR Filter Design, Adaptive Filtering |
| R22PELD104 | Programmable Logic Controllers and their Applications | Elective (Professional Elective-I) | 3 | PLC Architecture and Operation, Ladder Logic Programming, PLC Instruction Set, Industrial Control Applications, SCADA Systems |
| R22PELD105 | AI Techniques in Electrical Engineering | Elective (Professional Elective-II) | 3 | Introduction to Artificial Intelligence, Artificial Neural Networks, Fuzzy Logic Systems, Genetic Algorithms, Machine Learning for Power Systems |
| R22RMI107 | Research Methodology and IPR | Core (Audit Course) | 2 | Research Problem Identification, Research Design and Methods, Data Collection and Analysis, Report Writing and Presentation, Intellectual Property Rights Fundamentals |
| R22PELD107 | Power Electronics and Electric Drives Lab - I | Lab | 2 | DC-DC Converter Experiments, Inverter Circuit Implementation, Motor Speed Control Techniques, DSP-based Control for Converters, Sensor and Actuator Interfacing |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| R22PELD108 | Switched Mode Power Supplies | Core | 3 | SMPS Topologies, Flyback and Forward Converters, Resonant Converters Design, Control Techniques for SMPS, Design Considerations and Applications |
| R22PELD109 | Electric Vehicles and Energy Storage Systems | Core | 3 | Electric Vehicle Architectures, Traction Motors and Drives, Battery Technologies and Management, EV Charging Systems, Hybrid Electric Vehicles |
| R22PELD110 | Control of Electrical Drives | Core | 3 | DC Motor Control Strategies, AC Motor Control (Scalar and Vector), Sensorless Control Techniques, Adaptive Control Systems, Drive System Stability Analysis |
| R22PELD111 | Smart Grid Technologies | Elective (Professional Elective-III) | 3 | Smart Grid Architecture, Renewable Energy Integration, Demand-Side Management, Cyber Security for Grids, Microgrids and Distributed Generation |
| R22PELD112 | Embedded Systems for Electric Drives | Elective (Professional Elective-IV) | 3 | Microcontrollers and DSP Processors, Interfacing Techniques, Real-Time Operating Systems, Embedded Control Algorithms, Communication Protocols |
| R22ERP114 | English for Research Paper Writing | Core (Audit Course) | 2 | Research Paper Structure, Literature Review Techniques, Academic Writing Style, Referencing and Citation, Publication Ethics and Strategies |
| R22PELD114 | Power Electronics and Electric Drives Lab - II | Lab | 2 | Switched Mode Power Supply Experiments, EV Motor Drive Control Implementations, Power Quality Analysis, Advanced Simulation Tools (e.g., MATLAB/Simulink), Hardware-in-Loop Testing |
| R22SOC201 | Advanced Python Programming | Skill Oriented Course | 2 | Advanced Python Concepts, Data Structures and Algorithms, Object-Oriented Programming, Libraries for Scientific Computing, Scripting for Automation |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| R22PELD201 | Power Quality Improvement Techniques | Elective (Professional Elective-V) | 3 | Power Quality Issues and Standards, Harmonic Mitigation Techniques, Active Power Filters, Passive Power Filters, Custom Power Devices |
| R22PELD202 | Introduction to Electric Power Systems | Open Elective-I | 3 | Power Generation Methods, Transmission Line Parameters, Distribution System Analysis, Load Flow Analysis, Economic Operation of Power Systems |
| R22PELD203 | Mini Project with Seminar | Project | 2 | Project Planning and Execution, Literature Review and Problem Definition, Design and Implementation, Technical Report Writing, Seminar Presentation Skills |
| R22PELD204 | Project Work Part - A | Project | 16 | Advanced Research Methodology, System Design and Simulation, Experimental Setup and Validation, Data Analysis and Interpretation, Mid-Term Project Report |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| R22PELD205 | Project Work Part - B | Project | 20 | Comprehensive Project Development, Refinement and Optimization, Detailed Data Analysis, Thesis Writing and Documentation, Viva-Voce Examination |
