| M.TECH ELECTRICAL POWER SYSTEMS |
| Course Outcomes |
| Semester: 1 |
| Microprocessors & Microcontroller (MTEPS101) |
| MTEPS101.1 |
Describe the basic concept of microprocessor, microcontroller and peripheral chips. |
| MTEPS101.2 |
Compare the design and working of microprocessor and microcontroller. |
| MTEPS101.3 |
Applying interfacing between microprocessor or microcontroller and peripheral chips. |
| MTEPS101.4 |
Differentiate architecture, pin diagram and working of microprocessor and microcontroller. |
| MTEPS101.5 |
Evaluating the performance microprocessors and microcontroller. |
| MTEPS101.6 |
Develop system using microprocessors or microcontroller memory chips and peripheral chips. |
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| HVDC Transmission (MTEPS102) |
| MTEPS102.1 |
Recall substation, general power electronics components, harmonics, transients, components of substation and transmission line components in HVDC and HVAC system. (REMEMBRING) |
| MTEPS102.2 |
Understand working principle, converters, rectifier, filters, firing angle, DC links, voltage disturbances, protection system in HVDC System. (UNDERSTANDING) |
| MTEPS102.3 |
Apply converters, rectifier, harmonics and transients filters, firing angle, DC links, voltage disturbances, protection system in HVDC System. (APPLYING) |
| MTEPS102.4 |
Compare HVDC and HVAC system with its components, Converters. Control Schemes, power handling capabilities and other factors (ANALYSING) |
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| Power System Operation and Control (MTEPS103) |
| MTEPS103.1 |
Understand Unit commitment, load frequency control and generation with limited energy supply |
| MTEPS103.2 |
Solve unit commitment problem by different method and fuel scheduling by linear programming |
| MTEPS103.3 |
Analyze steady state and dynamic response of 1-area, 2-area and multi area system and estimate generation cost. |
| MTEPS103.4 |
Compare interchange evaluation methods |
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| Reactive Power Compensation & Management (MTEPS104) |
| MTEPS104.1 |
Recall Reactive Power Characteristics, Types of Compensation and Reactive Power Management [L1-Remembering] |
| MTEPS104.2 |
Explain load compensation and its importance to society and industry [L2- Understanding] |
| MTEPS104.3 |
Identify disturbances- steady –state variations – effects of under voltages – frequency – Harmonics, [L3- Applying] |
| MTEPS104.4 |
Examine Load patterns – basic methods load shaping – power tariffs- KVAR based tariffs penalties for voltage flickers and Harmonic voltage levels [L4- Analyzing] |
| MTEPS104.5 |
Estimate layout of traction systems, reactive power control, Reactive power planning , electromagnetic interferences [L5-Evaluating] |
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| Electrical Distribution System (MTEPS105) |
| MTEPS105.1 |
Recall economic factors, substation, feeders, basic components of substation and feeders etc. |
| MTEPS105.2 |
Understand the construction, design, modeling, protection systems of distribution system. |
| MTEPS105.3 |
Apply construction, design, modeling, protection systems, loss calculation techniques of distribution system. |
| MTEPS105.4 |
Analyze different factors, parameters, location, and coordination of different devices of distribution system. |
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| Power Systems Lab (MTEPS106) |
| MTEPS106.1 |
Determine sub transient reactance of salient pole machine and Produce characteristics of different relays. |
| MTEPS106.2 |
Analyze Different types of fault and testing of transformer oil |
| MTEPS106.3 |
Evaluate Ferranti effect and Transmission line parameters. |
| Semester: 2 |
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| Power System Dynamics and Stability (MTEPS201) |
| MTEPS201.1 |
Recall Synchronous machine |
| MTEPS201.2 |
Express modeling of synchronous machine, Excitation system and its types. |
| MTEPS201.3 |
Determine stability by different approach |
| MTEPS201.4 |
Analyze effect of governor action and exciter on power system stability |
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| FACTS Controllers (MTEPS202) |
| MTEPS202.1 |
Recall power electronics devices like IGBT, SCR, MOSFET, GTO etc. |
| MTEPS202.2 |
Understand FACTS devices and converters |
| MTEPS202.3 |
Apply FACTS devices to control VAR gen. , power oscillation damping& transient stability etc. |
| MTEPS202.4 |
Analyze FACTS devices on the basis of converter, controller and transformer connections. |
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| Real Time Control of Power Systems (MTEPS203) |
| MTEPS203.1 |
Recall basic concept of Voltage stability , Need for real time and computer control of power systems [L1-Remembering] |
| MTEPS203.2 |
Explain Supervisory control and Data Acquisition systems , Security concept, Security Analysis [L2- Understanding] |
| MTEPS203.3 |
Identify Different types of State Estimations, Theory of WLS state estimation, Bad data Observability [L3- Applying] |
| MTEPS203.4 |
Examine Bad data detection, identification and elimination, fault diagnosis and state estimation. [L4- Analyzing] |
| MTEPS203.5 |
Estimate Voltage stability analysis , voltage stability analysis `P-V’ curves and `Q-V’ curves [L5-Evaluating] |
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| Advanced Power System Protection (MTEPS204) |
| MTEPS204.1 |
Recall substation, general power electronics components, components of substation and transmission line components in power system. |
| MTEPS204.2 |
Understand working principle of different relays, different protection system in power System. |
| MTEPS204.3 |
Apply different protection system/ schemes in power System |
| MTEPS204.4 |
Compare and analyzing of differentprotection system/ schemes and relays. |
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| Insulation Technology (MTEPS205) |
| MTEPS205.1 |
Recallbasic insulation terminology, physical and electrical properties of solids, liquids, gases and vacuum. |
| MTEPS205.2 |
Understandeffects of different parameters on insulation. Breakdown process of mediums. |
| MTEPS205.3 |
Identify different material for insulation, their specific uses and their different parameters. |
| MTEPS205.4 |
Classify behavior of different insulating materials, their properties, and breakdown mechanism, |
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| Simulation Lab (MTEPS206) |
| MTEPS206.1 |
Solve unit commitment and hydro-thermal scheduling problem |
| MTEPS206.2 |
Analyze load flow study, transient stability and fault by different methods. |
| MTEPS206.3 |
Formulate Y-Bus and Z-Bus. |
| Semester: 3 |
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| Digital Control Systems (MTEPS301) |
| MTEPS301.1 |
Define Basic sampling theorem and converter. |
| MTEPS301.2 |
Understand Z-Transform and its properties, state space methods. |
| MTEPS301.3 |
Apply Microprocessors and DSP control |
| MTEPS301.4 |
Analyze stability, Transient response, steady state response and state observers. |
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| Demand Side Energy Management (MTEPS302) |
| MTEPS302.1 |
Learn about energy forecasting, energy economics, energy pricing and incentives of energy conservation |
| MTEPS302.2 |
Acquaintance with conservation of energy and its management, energy planning and energy economics |
| MTEPS302.3 |
Apply energy analysis techniques, methods and energy conservation planning & practices. |
| MTEPS302.4 |
Categorize energy efficient machinery system, energy losses and their management |
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| Seminar (MTEPS303) |
| MTEPS303.1 |
Identify relevant information, defining and explain topics under discussion. |
| MTEPS303.2 |
Understand problem solving skills and apply theoretical knowledge. |
| MTEPS303.3 |
Demonstrate the ability to learn and write both informal (scientific note taking) and formal (research paper) writing. |
| MTEPS303.4 |
Calculate information, use and apply relevant theories. |
| MTEPS303.5 |
Judge when to speak and how much to say, speak clearly and audible in a manner appropriate to the subject. |
| MTEPS303.6 |
Develop ideas through creating work. |
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| Dissertation-Phase I (MTEPS304) |
| MTEPS304.1 |
Identify the complex engineering problems. |
| MTEPS304.2 |
Understand different methodologies for documentation as report. |
| MTEPS304.3 |
Demonstrate systematic understanding and sound technical knowledge of their topic of project. |
| MTEPS304.4 |
Examine the key stages to analize / develop the project. |
| MTEPS304.5 |
Select the suitable method which leads to appropriate results. |
| MTEPS304.6 |
Design engineering solutions to various problems used to benefit society. |
| Semester: 4 |
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| DissertationFinal Phase (MTEPS401) |
| MTEPS401.1 |
Identify the research topic/area in the field of Electronics and Communication Engineering to carry out independent research. |
| MTEPS401.2 |
Understand the process to carry out research in written format and report your result and conclusion with reference to existing literature. |
| MTEPS401.3 |
Demonstrate appropriate reference and writing skills to report writing. |
| MTEPS401.4 |
Analyze and synthesize research finding to the agreed area of research. |
| MTEPS401.5 |
Evaluate the methods and knowledge to solve the specific research problem. |
| MTEPS401.6 |
Develop result on the basis of evaluation and analysis undertake. |
