.png&w=1920&q=75)
M-VOC in Smart Power System at Bharatiya Skill Development University
Jaipur, Rajasthan
.png&w=1920&q=75)
About the Specialization
What is Smart Power System at Bharatiya Skill Development University Jaipur?
This M.Voc in Power Systems program at Bhartiya Skill and Education University focuses on advanced concepts and practical skills required for modern power infrastructure. It delves into the design, operation, and control of smart grids, renewable energy integration, and efficient power management solutions. Given India''''s rapidly expanding energy sector and focus on sustainable development, this program is highly relevant, preparing professionals for the evolving power industry landscape.
Who Should Apply?
This program is ideal for engineering graduates, particularly those with a background in Electrical or Electronics engineering, seeking entry into the power sector. It also caters to working professionals in utilities or manufacturing who aim to upskill in smart grid technologies, renewable energy, and power system automation. Career changers looking to transition into the burgeoning smart energy industry within India will find this program beneficial.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding careers as Power System Engineers, Smart Grid Specialists, Renewable Energy Consultants, or Automation Engineers in India. Entry-level salaries typically range from INR 4-7 LPA, with experienced professionals earning INR 10-25 LPA. Growth trajectories include roles in R&D, project management, and policy-making within PSUs, private energy companies, and consultancies. The curriculum aligns with industry demands for certified energy managers.
Student Success Practices
Foundation Stage
Master Foundational Power System Concepts- (Semester 1-2)
Dedicate significant time to thoroughly understand core subjects like Advanced Power System Analysis, Protection, Transients, and Stability. Utilize textbooks, online courses (e.g., NPTEL lectures on Power Systems), and simulation software (e.g., MATLAB/Simulink, ETAP, PSCAD) to reinforce theoretical knowledge with practical examples.
Tools & Resources
NPTEL courses on Power Systems, MATLAB/Simulink tutorials, ETAP simulation software, Standard textbooks by K. R. Padiyar, C. L. Wadhwa
Career Connection
A strong grasp of fundamentals is crucial for passing technical interviews for roles in power generation, transmission, and distribution companies, laying the groundwork for specialized roles.
Develop Hands-on Lab Skills- (Semester 1-2)
Actively engage in Power System Lab and Vocational Skill Lab sessions. Focus on understanding experimental setups, data acquisition, and interpretation. Seek opportunities to work on additional mini-projects beyond the curriculum to gain practical experience with relays, circuit breakers, and basic control systems.
Tools & Resources
University labs, Arduino/Raspberry Pi for simple control projects, Online circuit simulation tools
Career Connection
Practical skills are highly valued by employers for roles involving field operations, equipment maintenance, and system commissioning.
Cultivate Problem-Solving Aptitude- (Semester 1-2)
Regularly solve numerical problems from textbooks and previous year''''s question papers. Participate in group study sessions to discuss complex problems and different approaches. Aim to develop an analytical mindset crucial for diagnosing issues in real-world power systems.
Tools & Resources
Textbooks, Problem sets, Peer study groups
Career Connection
Enhances critical thinking, a vital skill for troubleshooting, system optimization, and design engineering roles.
Intermediate Stage
Specialise in Smart Grid and Renewable Energy Technologies- (Semester 3)
Focus deeply on subjects like Smart Grid Technology and Renewable Energy Systems. Explore advanced topics through online certifications (e.g., from NPTEL, Coursera on Smart Grids), industry workshops, and seminars. Read research papers on recent advancements in these fields.
Tools & Resources
NPTEL courses on Smart Grid, Coursera/edX courses, IEEE journals, PVsyst for solar energy system design
Career Connection
Positions such as Smart Grid Engineer, Renewable Energy Analyst, or System Integration Specialist are in high demand in India''''s energy transition.
Seek Industry Internships and Projects- (Semester 3)
Actively pursue internships during semester breaks with power utilities, smart grid solution providers, or renewable energy companies. Engage in industry-sponsored projects to apply theoretical knowledge to real-world challenges, gaining invaluable practical exposure and networking opportunities.
Tools & Resources
University placement cell, LinkedIn, Industry contacts, Project guides
Career Connection
Internships often lead to pre-placement offers and provide a significant advantage in securing full-time employment, offering insights into corporate culture and specific job roles.
Develop Data Analytics and Automation Skills- (Semester 3)
Given the focus on smart systems, acquire proficiency in data analysis tools (Python, R) and industrial automation platforms (PLC, SCADA). Work on mini-projects involving data acquisition from sensors, processing, and control system implementation.
Tools & Resources
Python with Pandas, NumPy, MATLAB, PLC/SCADA simulation software (e.g., Rockwell Studio 5000, Siemens TIA Portal)
Career Connection
These skills are critical for roles in energy management, grid modernization, and industrial automation within the power sector, addressing the growing need for data-driven decision-making.
Advanced Stage
Excel in Dissertation/Research Work- (Semester 4)
Choose a dissertation topic aligned with current industry trends in smart power systems, renewable energy, or power quality. Conduct thorough research, utilize advanced simulation tools, and aim for a high-quality thesis. Consider publishing a paper in a relevant conference or journal.
Tools & Resources
Research databases (IEEE Xplore, Scopus), Advanced simulation software (e.g., PSSE, DIgSILENT PowerFactory), LaTeX for thesis writing
Career Connection
A strong dissertation showcases research aptitude and specialized knowledge, enhancing prospects for R&D roles, higher studies (Ph.D.), or specialized engineering positions.
Prepare for Placements and Technical Interviews- (Semester 4)
Actively participate in campus placement drives. Refine your resume, practice technical interview questions related to power systems, smart grids, and relevant software. Attend mock interviews and aptitude test preparatory sessions organized by the university or external training agencies.
Tools & Resources
Placement cell, Online aptitude test platforms, Technical interview guides for electrical engineering, Mock interview sessions
Career Connection
Directly impacts success in securing employment with leading power sector companies, both public and private, in India.
Network with Industry Professionals and Alumni- (Semester 4)
Attend industry conferences, workshops, and alumni meets to build a professional network. Engage with experts, seek mentorship, and understand current industry challenges and future directions. This can open doors to opportunities not advertised through conventional channels.
Tools & Resources
LinkedIn, Professional associations (e.g., IEEE Student Chapter, IEI), University alumni network
Career Connection
Networking is crucial for long-term career growth, mentorship, and discovering niche job opportunities in the Indian and global power sectors.
Program Structure and Curriculum
Eligibility:
- B. Voc. Degree/Any other Bachelor Degree with Minimum 50% marks
Duration: 2 years / 4 semesters
Credits: 108 Credits
Assessment: Internal: 30%, External: 70%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PSTP 101 | Power System Protection and Switchgear | Core Theory | 4 | Protective Relaying Principles, Faults in Power Systems, Circuit Breakers and their Types, Overcurrent and Earth Fault Protection, Transformer and Generator Protection, Busbar and Transmission Line Protection |
| PSTP 102 | Power System Transients | Core Theory | 4 | Transient Phenomena in Power Systems, Travelling Waves on Transmission Lines, Lightning Surges and Overvoltages, Switching Transients and Mitigation, Insulation Coordination in Power Apparatus, Digital Simulation of Transients (EMTP/PSCAD) |
| PSTP 103 | Advance Power System Stability | Core Theory | 4 | Power System Stability Concepts, Swing Equation and Equal Area Criterion, Transient Stability Analysis, Small Signal (Dynamic) Stability, Voltage Stability and Collapse, Stability Enhancement Techniques |
| PSTP 104 | Power System Operation & Control | Core Theory | 4 | Economic Load Dispatch, Unit Commitment Principles, Automatic Generation Control (AGC), Reactive Power and Voltage Control, SCADA Systems for Power Grids, Power System State Estimation |
| PSTP 105 | Power System Lab - I | Lab | 2 | Relay Testing and Calibration, Circuit Breaker Operating Characteristics, Power System Stability Experiments, Load Flow Studies using Software, Power System Fault Analysis, Protective Scheme Design and Implementation |
| PSTP 106 | Vocational Skill Lab – I | Vocational Lab | 2 | Electrical Safety Practices, Basic Electrical Wiring and Installations, Measurement of Electrical Quantities, Identification of Power System Components, Tool Handling and Workshop Practices, Introduction to Electrical Drawings |
| PSTP 107 | Project Work – I | Project | 4 | Project Idea Generation and Selection, Literature Survey and Problem Definition, Methodology and Design Approach, Simulation and Basic Prototyping, Data Analysis and Interpretation, Technical Report Writing |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PSTP 201 | Power System Dynamics | Core Theory | 4 | Synchronous Generator Dynamics, Excitation Systems and Voltage Regulation, Prime Mover and Governor Dynamics, Power System Oscillations, Dynamic Stability Analysis, Wide Area Monitoring and Control |
| PSTP 202 | High Voltage Engineering | Core Theory | 4 | Breakdown Phenomena in Dielectrics, Generation of High AC/DC Voltages, Measurement of High Voltages and Currents, High Voltage Testing of Electrical Apparatus, Lightning and Switching Overvoltages, Non-Destructive Testing of Insulating Materials |
| PSTP 203 | Advanced Electrical Machines | Core Theory | 4 | Special Purpose Electrical Machines, Permanent Magnet Synchronous Machines, Switched Reluctance Motors, Linear Induction Motors and Applications, Servo Motors and Control Systems, Machine Design and Optimization |
| PSTP 204 | Renewable Energy Systems | Core Theory | 4 | Solar Photovoltaic Systems, Wind Energy Conversion Systems, Hydropower and Geothermal Energy, Biomass and Biofuel Technologies, Hybrid Renewable Energy Systems, Grid Integration of Renewable Energy Sources |
| PSTP 205 | Power System Lab - II | Lab | 2 | High Voltage Generation and Measurement, Insulation Testing of Cables and Transformers, Performance of Renewable Energy Systems, Control of Electrical Machines, Grid Synchronization of Generators, Simulation of Power System Dynamics |
| PSTP 206 | Vocational Skill Lab – II | Vocational Lab | 2 | Power Electronics Applications in Power Systems, PLC Programming for Industrial Control, SCADA System Implementation, Sensor Interfacing and Data Acquisition, Control System Tuning and Optimization, Circuit Simulation using PSIM/OrCAD |
| PSTP 207 | Project Work – II | Project | 4 | Advanced Project Design and Planning, Detailed Data Analysis and Interpretation, Prototype Development and Testing, Validation of Simulation Results, Technical Presentation Skills, Research Paper Writing Introduction |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PSTP 301 | HVDC & FACTS | Core Theory | 4 | HVDC Transmission System Configurations, Converters for HVDC Systems, Control of HVDC Links, FACTS Controllers (SVC, STATCOM, UPFC), Applications of FACTS Devices, Harmonics in Power Systems and Mitigation |
| PSTP 302 | Power System Planning | Core Theory | 4 | Load Forecasting Techniques, Generation Expansion Planning, Transmission System Planning, Distribution System Planning, Reliability Assessment of Power Systems, Regulatory Aspects of Power Planning |
| PSTP 303 | Smart Grid Technology | Core Theory | 4 | Smart Grid Architecture and Concepts, Advanced Metering Infrastructure (AMI), Phasor Measurement Units (PMU), Demand Response and Management, Distributed Generation and Microgrids, Cyber Security in Smart Grids |
| PSTP 304 | Digital Signal Processing | Core Theory | 4 | Discrete-Time Signals and Systems, Z-Transform and its Properties, Digital Filter Design (FIR and IIR), Discrete Fourier Transform (DFT) and FFT, Adaptive Filters and Applications, DSP Applications in Power System Protection |
| PSTP 305 | Power System Lab - III | Lab | 2 | HVDC and FACTS Controller Simulations, Smart Grid Components Testing, DSP Implementation for Power Signals, Communication Protocols in Smart Grid, Data Acquisition Systems for Power Monitoring, Microgrid Control and Operation |
| PSTP 306 | Vocational Skill Lab – III | Vocational Lab | 2 | Microcontroller Programming for Embedded Systems, IoT for Energy Monitoring and Control, Data Analytics Tools for Grid Data, Cloud Computing Applications in Smart Grid, Cybersecurity Aspects for Industrial Control Systems, Simulation of SCADA and HMI Systems |
| PSTP 307 | Project Work – III | Project | 4 | Industry-Sponsored Project Execution, Advanced Research Methodology, Experimental Setup and Data Collection, System Integration and Testing, Preparation for Patenting/Publication, Professional Ethics in Engineering Research |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PSTP 401 | Industrial Automation & Control | Core Theory | 4 | Programmable Logic Controllers (PLCs), Supervisory Control and Data Acquisition (SCADA), Distributed Control Systems (DCS), Industrial Communication Protocols, Process Control Strategies, Robotics in Industrial Applications |
| PSTP 402 | Energy Management & Audit | Core Theory | 4 | Principles of Energy Conservation, Methodologies of Energy Audit, Energy Efficiency in Systems, Demand Side Management, ISO 50001 Energy Management Standard, Carbon Credits and Renewable Energy Certificates |
| PSTP 403 | Power Quality Improvement | Core Theory | 4 | Power Quality Issues (Sags, Swells, Harmonics), Measurement and Analysis of Power Quality, Power Quality Standards, Harmonic Filtering Techniques, Shunt and Series Compensators, Custom Power Devices |
| PSTP 404 | Dissertation | Project/Research | 12 | Research Proposal Development, Extensive Literature Review, Methodology and Experimental Design, Data Collection, Analysis, and Interpretation, Thesis Writing and Documentation, Viva Voce and Presentation |
