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MASTER-OF-TECHNOLOGY in Power System Engineering Electrical at North-Eastern Regional Institute of Science and Technology
Papum Pare, Arunachal Pradesh
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About the Specialization
What is Power System Engineering (Electrical) at North-Eastern Regional Institute of Science and Technology Papum Pare?
This Power System Engineering program at North Eastern Regional Institute of Science and Technology focuses on equipping students with advanced knowledge and practical skills required for the modern power sector. With an emphasis on analysis, control, and protection of power systems, it addresses critical challenges in India''''s rapidly evolving energy landscape, including grid modernization and renewable energy integration. The program distinguishes itself through a robust curriculum covering dynamics, stability, and smart grid technologies, preparing graduates for a dynamic industry.
Who Should Apply?
This program is ideal for electrical engineering graduates with a B.E./B.Tech. degree seeking to specialize in power sector roles. It caters to fresh graduates aiming for R&D, operations, or design positions in utilities, as well as working professionals looking to upskill in areas like smart grids, renewable energy, and power system optimization. Candidates with a strong foundation in electrical engineering fundamentals and an aptitude for complex system analysis will thrive.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding careers in India''''s public and private power utilities, consultancies, and research organizations. Roles include Power System Engineer, Protection Engineer, Renewable Energy Specialist, and Smart Grid Analyst. Entry-level salaries typically range from INR 5-8 LPA, with significant growth potential up to INR 15-25 LPA for experienced professionals. The curriculum also prepares students for advanced research and doctoral studies.
Student Success Practices
Foundation Stage
Master Core Analytical and Control Skills- (Semester 1-2)
Systematically master advanced concepts in power system analysis, protection, and control from subjects like EEPS 1101, EEPS 1102, and EEPS 1103. Utilize problem-solving sessions and supplementary online courses to build a robust analytical foundation. Collaborate with peers to tackle complex design problems.
Tools & Resources
NPTEL courses on power systems, Standard textbooks by Kothari & Nagrath, Hadi Saadat, MATLAB/Simulink tutorials, Peer study groups
Career Connection
A strong grasp of these core subjects is fundamental for excelling in technical interviews and for building innovative solutions in future projects and job roles in the power sector.
Gain Hands-on Experience with Power System Software- (Semester 1-2)
Dedicate significant effort to the Power System Lab courses (EEPS 1104, EEPS 1209). Learn to effectively use industry-standard software such as ETAP, PSCAD, and specialized modules in MATLAB/Simulink for load flow, fault, and stability analysis. Document all experiments and analyze results critically.
Tools & Resources
ETAP software, PSCAD, MATLAB/Simulink, Institutional lab facilities
Career Connection
Practical expertise in simulation and analysis tools is highly sought after by employers for power system planning, operations, and research roles, significantly enhancing employability.
Explore Specialization through Electives and Seminars- (Semester 2)
Strategically choose electives based on career interests (e.g., Smart Grid, Renewable Energy, HVDC). For the ''''Seminar'''' (EEPS 1210), delve deep into a chosen elective topic, preparing a comprehensive review and presentation to strengthen understanding and communication skills.
Tools & Resources
Elective course materials, Research databases (IEEE Xplore, Scopus), Presentation software (PowerPoint, LaTeX Beamer), Faculty mentors
Career Connection
Early specialization and effective communication build a strong profile for focused career paths and demonstrate a commitment to a specific domain, aiding in targeted placements.
Intermediate Stage
Apply Advanced Concepts in Specialized Electives- (Semester 3)
In Semester 3, leverage the advanced electives (e.g., FACTS, Microgrid, Power Quality) to apply theoretical knowledge to contemporary power system challenges. Engage in mini-projects or case studies within these courses to gain practical application experience and deepen domain expertise.
Tools & Resources
Advanced textbooks and research papers, Specialized software for power electronics or microgrids, Industry case studies and technical reports
Career Connection
Application-oriented learning in advanced topics makes graduates industry-ready for specialized roles in emerging power technologies and complex engineering challenges.
Initiate and Structure Dissertation Research- (Semester 3)
For ''''Dissertation Phase-I'''' (EEPS 2108), identify a compelling research problem aligned with current industry needs. Conduct an exhaustive literature review, formulate clear research objectives, and develop a robust methodology. Regularly consult with your supervisor and seek early feedback.
Tools & Resources
Research journals and institutional library resources, EndNote/Zotero for referencing, Project management tools (e.g., Trello), Supervisor consultation
Career Connection
A well-structured and relevant dissertation topic enhances a candidate''''s profile for R&D positions, academic careers, and demonstrates strong problem-solving abilities.
Network with Industry Professionals and Academics- (Semester 3)
Attend webinars, conferences, and workshops related to Power System Engineering, both offline and online. Engage with guest speakers, faculty members, and senior students. Build a professional network that can offer insights, mentorship, and potential internship or job opportunities.
Tools & Resources
LinkedIn for professional networking, Industry associations (e.g., IEEE student chapters, IEI), University career services and alumni network, Conference proceedings
Career Connection
Networking opens doors to internships, placements, and mentorship, providing valuable insights into industry trends and accelerating career advancement.
Advanced Stage
Execute and Document Comprehensive Dissertation Work- (Semester 4)
In ''''Dissertation Phase-II'''' (EEPS 2201), rigorously execute the research plan, meticulously collect and analyze data, and interpret findings. Focus on producing high-quality written work for the thesis and preparing for the final viva-voce examination with confidence.
Tools & Resources
Data analysis software (MATLAB, Python, R), LaTeX/Word for thesis writing, Academic style guides, Practice viva sessions with faculty/peers
Career Connection
A robust, well-documented dissertation is a testament to research capability and problem-solving skills, highly valued by employers and for pursuing higher studies.
Target Industry Placements and Professional Development- (Semester 4)
Actively participate in campus placement drives. Prepare a tailored resume, practice technical and HR interviews, and identify companies aligned with your specialization. Consider appearing for professional certifications relevant to power systems to enhance marketability in the Indian job market.
Tools & Resources
University career counseling and placement cells, Mock interviews and group discussion practice, Company profiles of Indian PSUs and private power companies, NPTI (National Power Training Institute) certification courses
Career Connection
Strategic placement preparation ensures entry into preferred companies, while professional certifications provide a competitive edge and validate specialized skills in the Indian power sector.
Present Research and Seek Publication Opportunities- (undefined)
Prepare to present dissertation findings at institutional or external technical symposiums and conferences. If the research is significant, collaborate with your supervisor to prepare and submit a research paper to a reputed national or international conference or journal.
Tools & Resources
Conference call for papers, Journal submission guidelines, Peer review processes, Academic writing workshops, Institutional research support
Career Connection
Publishing research enhances academic standing, opens avenues for further research or doctoral studies, and demonstrates a commitment to innovation, beneficial for R&D roles.
Program Structure and Curriculum
Eligibility:
- B. Tech. / B. E. degree in Electrical Engineering with valid GATE score or B. Tech. / B. E. degree in Electrical Engineering with minimum 6.5 CGPA or 60% marks in aggregate from a recognized University / Institute. GATE qualified candidates will be given preference.
Duration: 2 years (4 Semesters)
Credits: 70 Credits
Assessment: Internal: 45%, External: 55%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEPS 1101 | Advanced Power System Analysis | Core | 4 | Graph theory in power systems, Load flow studies (Newton-Raphson, Fast Decoupled), Symmetrical Components and Unsymmetrical Faults, State Estimation in Power Systems, Contingency Analysis and Security Assessment |
| EEPS 1102 | Advanced Power System Protection | Core | 4 | Review of conventional protective relays, Digital protection principles and algorithms, Relay input sources and data acquisition, Hardware and software design for digital relays, Protection of AC generators, transformers, and transmission lines |
| EEPS 1103 | Advanced Control System | Core | 4 | State variable analysis and state space representation, Controllability and Observability of systems, State feedback control design, Observer design and Kalman filtering, Nonlinear systems analysis and optimal control |
| EEPS 1104 | Power System Lab - I | Lab | 2 | MATLAB/Simulink for power system modeling, Load flow analysis simulation, Fault analysis studies, Power system stability simulation, Transient analysis of power systems |
| EEPS 1105 | Power System Operation and Control | Elective | 4 | Economic load dispatch, Unit commitment and hydrothermal scheduling, Automatic generation control (AGC), Voltage and reactive power control, Power system security and emergency control |
| EEPS 1106 | Advanced Electrical Machines | Elective | 4 | Generalized machine theory, Permanent magnet synchronous motors (PMSM), Switched reluctance motors (SRM), Linear induction motors (LIM), Special machines applications and control |
| EEPS 1107 | HVDC Transmission Systems | Elective | 4 | HVDC system configurations and components, Converter analysis and operation, Control of HVDC systems, Multiterminal HVDC (MTDC) systems, AC-DC interaction and harmonics in HVDC |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEPS 1201 | Power System Dynamics and Stability | Core | 4 | Transient stability analysis, Small signal stability and oscillations, Voltage stability phenomena and control, Subsynchronous resonance, Wide-area measurements for stability analysis and control |
| EEPS 1202 | Power System Reliability | Core | 4 | Reliability concepts and indices, Generating system reliability evaluation, Transmission system reliability assessment, Distribution system reliability techniques, Security assessment and enhancement |
| EEPS 1203 | Power System Restructuring | Elective | 4 | Market models for electricity, Independent System Operator (ISO) functions, Transmission pricing methodologies, Ancillary services in restructured markets, Regulatory framework and power trading |
| EEPS 1204 | Smart Grid Technology | Elective | 4 | Smart grid architecture and components, Advanced Metering Infrastructure (AMI), Phasor Measurement Units (PMU), Demand Side Management (DSM), Electric vehicles and grid integration |
| EEPS 1205 | Renewable Energy Systems | Elective | 4 | Solar PV systems and concentrated solar power, Wind energy conversion systems, Biomass energy technologies, Geothermal and ocean energy systems, Hybrid renewable energy systems |
| EEPS 1206 | Advanced Digital Signal Processing | Elective | 4 | Discrete Fourier Transform and its applications, Filter design (IIR and FIR), Adaptive filters and algorithms, Wavelet analysis and multiresolution processing, Multirate signal processing |
| EEPS 1207 | High Voltage Engineering | Elective | 4 | Electrical breakdown in gases, liquids, and solids, Generation of high voltages (AC, DC, Impulse), Measurement of high voltages and currents, Overvoltage phenomena and insulation coordination, Testing of high voltage equipment |
| EEPS 1208 | Optimization Techniques in Engineering | Elective | 4 | Linear programming and Simplex method, Non-linear programming (unconstrained and constrained), Dynamic programming principles, Genetic algorithms and evolutionary computation, Particle swarm optimization and neural networks |
| EEPS 1209 | Power System Lab - II | Lab | 2 | Advanced power system simulation tools, Real-time control experiments, Smart grid applications and simulations, Protection relay testing and calibration, Data acquisition and analysis in power systems |
| EEPS 1210 | Seminar | Project | 2 | Technical presentation skills development, Literature review and critical analysis, Research methodology and topic selection, Report writing and academic integrity, Public speaking and audience engagement |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEPS 2101 | Advanced Power Electronics | Core | 4 | Power semiconductor devices (MOSFET, IGBT), DC-DC converters (buck, boost, isolated), DC-AC inverters (single-phase, three-phase), AC-DC converters (rectifiers), Harmonics, filters, and power quality in power electronics |
| EEPS 2102 | FACTS and Custom Power Devices | Elective | 4 | Static Synchronous Compensator (STATCOM), Static Var Compensator (SVC), Unified Power Flow Controller (UPFC), Dynamic Voltage Restorer (DVR), Active power filters and voltage source converters |
| EEPS 2103 | Microgrid and Distributed Generation | Elective | 4 | Microgrid architectures and components, Distributed generation technologies (PV, wind, fuel cells), Control strategies for microgrids (islanded, grid-connected), Protection challenges in microgrids, Energy management systems for microgrids |
| EEPS 2104 | Power Quality | Elective | 4 | Power quality issues (sags, swells, interruptions), Harmonic distortion and mitigation techniques, Voltage flicker and imbalance, Power quality monitoring and standards, Active and passive power filters |
| EEPS 2105 | Electric Drives | Elective | 4 | DC motor drives and control, AC motor drives (induction, synchronous), Vector control techniques, Sensorless control of electric drives, Multiphase drives and special drive applications |
| EEPS 2106 | Instrumentation and Control | Elective | 4 | Transducers and sensors, Signal conditioning and data acquisition systems, PID control theory and tuning, Process control applications, Distributed control systems |
| EEPS 2107 | Biomedical Instrumentation | Elective | 4 | Bioelectric potentials and electrodes, Electrocardiography (ECG) and Electroencephalography (EEG), Medical imaging systems (X-ray, MRI, CT), Therapeutic and prosthetic devices, Biotelemetry and patient monitoring systems |
| EEPS 2108 | Dissertation Phase-I | Project | 8 | Problem identification and scope definition, Extensive literature survey and review, Formulation of research objectives and methodology, Preliminary results and feasibility studies, Ethical considerations in research |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEPS 2201 | Dissertation Phase-II | Project | 16 | Data collection, experimentation, and simulation, Detailed analysis and interpretation of results, Thesis writing and documentation, Preparation for pre-submission seminar and viva-voce, Research publication strategies |
