| B.TECH ELECTRICAL ENGINEERING | |
| Course Outcomes | |
| Semester: 3 | |
| Electric Circuit Analysis (PCC-EE-201G) | |
| PCC-EE-201G.1 | Define the fundamental concepts of various Networks & Theorems. |
| PCC-EE-201G.2 | Understand the steady state & transient behaviour and representation of transfer function of various electric circuits and networks. |
| PCC-EE-201G.3 | Apply fourier series, fourier transform & laplace transform to solve various signals & networks. |
| PCC-EE-201G.4 | Analyze various network parameters & electric circuits for standard inputs. |
| Electric Circuit Analysis Lab (PCC-EE-203G) | |
| PCC-EE-203G.1 | Define the basic concepts of and simulation software. |
| PCC-EE-203G.2 | Understand the Transient Response of RL, RC, and RLC Circuits. |
| PCC-EE-203G.3 | Calculate various parameters of Electric Circuits & Network Theorems. |
| PCC-EE-203G.4 | Analyze and synthesize the network functions for various networks. |
| Analog Electronics (PCC-EE-205G) | |
| PCC-EE-205G.1 | Define the basic concepts and characteristics of various semiconductor devices their applications, operational amplifier and various wave shaping circuits. |
| PCC-EE-205G.2 | Derive the effect of negative feedback on different parameters of Amplifier and it’s topologies. |
| PCC-EE-205G.3 | Demonstrate the linear and non-linear applications of op-amp. |
| PCC-EE-205G.4 | Analyze the various configurations, biasing circuits and small signal models of BJT’S and FET’S. |
| Analog Electronics Lab (PCC-EE-207G) | |
| PCC-EE-207G.1 | Recall basic fundamental concept of various semiconductor devices. |
| PCC-EE-207G.2 | Understand the principle operation of different oscillator’s circuits. |
| PCC-EE-207G.3 | Calculate gain of transistor amplifiers at low and high frequencies. |
| PCC-EE-207G.4 | Differentiate the theoretical and practical behavior of various analog circuits. |
| PCC-EE-207G.5 | Evaluate different parameters of OP-AMP such as gain, bandwidth, feedback input and output impedances. |
| PCC-EE-207G.6 | Design linear and non-linear applications of op-amp. |
| Electrical Machines-I (PCC-EE-209G) | |
| PCC-EE-209G.1 | Recall magnetic fields, terminology, electromagnetism, construction of DC machine and transformer. |
| PCC-EE-209G.2 | Classify different types, working principle, torque production, armature reaction winding design and connections of DC machine and transformer. |
| PCC-EE-209G.3 | Apply the starting and speed control methods, Field theories, voltage regulation methods of DC machine and transformer. |
| PCC-EE-209G.4 | Analyze no load test, blocked rotor test, equivalent circuit parameters, O.C., S.C. test for DC machine and transformer. |
| PCC-EE-209G.5 | Evaluate torque, voltage regulation, losses, efficiency and generated voltage, winding factor and winding coefficient of DC machine and transformer. |
| Electrical Machines-I Lab (PCC-EE-211G) | |
| PCC-EE-211G.1 | Recall basic fundamental concept of transformer and dc machines. |
| PCC-EE-211G.2 | Explain starting of DC machines, parallel operation of Transformer. |
| PCC-EE-211G.3 | Analyze different parameters of Transformer, DC generator and motor. |
| PCC-EE-211G.4 | Judge Transformer, DC generator and motor and Determine regulation of Transformer, DC generator. |
| Measurement and Instrumentation (PCC-EE-210G) | |
| PCC-EE-210G.1 | Recall about Voltage, Current, Power, Power Factor Frequency, instrument standards, error in instruments and transducers. |
| PCC-EE-210G.2 | Understand AC&DC Instruments, Transducers, and CRO and Bridges. |
| PCC-EE-210G.3 | Apply Bridges and instruments to measure electric circuit parameters. |
| PCC-EE-210G.4 | Analyses the resistance, inductance, capacitance finding methods, error, Torque etc. in instruments. |
| Measurement and Instrumentation Lab (PCC-EE-212G) | |
| PCC-EE-212G.1 | Recall basic component of measurement. |
| PCC-EE-212G.2 | Understand construction, working and connection of different types of meter, transducers, strain gauge and star delta starter. |
| PCC-EE-212G.3 | Measure power & P.F. using different methods |
| PCC-EE-212G.4 | Measure resistance, inductance and capacitance using bridges and power & P.F. using different methods |
| Engineering Mechanics (ESC-202-G) | |
| ESC-202-G.1 | Describe the equilibrium of a particle in space using principle of laws of mechanics. |
| ESC-202-G.2 | Explain the concept of moment of inertia, centroid and centre of gravity properties of simple and composite geometrical figures. |
| ESC-202-G.3 | Solve the problems of simple system with sliding friction & calculate linear and angular acceleration of moving body in general plane motion using the laws of science. |
| ESC-202-G.4 | Apply shear force and bending moment concept for solving the different types of beams calculation. |
| ESC-202-G.5 | Appraise the knowledge of the principle of work energy equation, laws of motion in simple practical problems. |
| Environmental Studies (MC-GES-106-G) | |
| MC-GES-106-G.1 | Recall basics environmental social issues, scope, importances and various protection acts. |
| MC-GES-106-G.2 | Understand the renewable and non-renewable resources. |
| MC-GES-106-G.3 | Apply the bio-diversity for its conversation. |
| MC-GES-106-G.4 | Differentiate various eco systems. |
| Semester: 4 | |
| Digital Electronics (PCC-EE-202G) | |
| PCC-EE-202G.1 | Recall basic concepts of logic gates, Boolean algebra, and number systems. |
| PCC-EE-202G.2 | Understand the various digital codes and characteristics of memory. |
| PCC-EE-202G.3 | Applying the various methods to solve the logical expression like K-map, Quine Mcluskey method, etc. |
| PCC-EE-202G.4 | Classify various combinational, sequential logic circuits & Convertors. |
| Digital Electronics Lab (PCC-EE-204G) | |
| PCC-EE-204G.1 | Define all Logic Gates with Truth-Table, ADC and DAC. |
| PCC-EE-204G.2 | Understand the various Combinational and Sequential Circuits. |
| PCC-EE-204G.3 | Apply the K-MAP method to solve the Boolean Expression. |
| PCC-EE-204G.4 | Analyze the operation and working of Flip-Flops, Registers & Counters by their Truth-Table. |
| Electrical Machines-II (PCC-EE-206G) | |
| PCC-EE-206G.1 | Understand the working principle, torque production, . no load test, blocked rotor test, v-curve, slip test, armature reaction and armature winding of Induction and Synchronous machine |
| PCC-EE-206G.2 | Understand the starting and speed control methods, Field theories |
| PCC-EE-206G.3 | Analyze power angle curve, circle diagram equivalent circuit for induction and synchronous machine |
| PCC-EE-206G.4 | Evaluate voltage regulation methods of Synchronous machine. |
| Electrical Machines-II Lab (PCC-EE-208G) | |
| PCC-EE-208G.1 | Recall basic fundamental concept of induction and synch. machines. |
| PCC-EE-208G.2 | Understand starting of induction motor, V-curve for synchronous motor. |
| PCC-EE-208G.3 | Analyze different parameters of alternator. |
| PCC-EE-208G.4 | Analyze Load characteristics of three phase induction motor and regulation of alternator. |
| Transmission and Distribution (PCC-EE-210G) | |
| PCC-EE-210G.1 | Understand Distribution system, Transmission line with skin effect, ferranti and proximity effect and Cables |
| PCC-EE-210G.2 | Understand performance of transmission lines & insulators. |
| PCC-EE-210G.3 | Apply Grading of cables and HVDC links. |
| PCC-EE-210G.4 | Analyze line parameter, sag & stress, corona in transmission lines. |
| Transmission and Distribution Lab (PCC-EE-212G) | |
| PCC-EE-212G.1 | Understand Power system blocks in MATLAB , corona loss in transmission line, mechanical design of transmission line. |
| PCC-EE-212G.2 | Understand proximity, skin effect |
| PCC-EE-212G.3 | Analyze Line parameters, ABCD Parameters, performance of transmission line, Ferranti effect. |
| PCC-EE-212G.4 | Design long and short transmission line using MATLAB. |
| Signals and Systems (PCC-EE-214) | |
| PCC-EE-214.1 | Define the mathematical description and representation of continuous and discrete time signals. |
| PCC-EE-214.2 | Understand and compare the continuous and discrete time Fourier transforms with application of Fourier Transform. |
| PCC-EE-214.3 | Apply the Laplace transform and Z- transform for analyze of continuous-time and discrete-time signals and systems. |
| PCC-EE-214.4 | Analyze the 1st order and 2nd order system in time as well as frequency domain. |
| Electromagnetic Fields (PCC-EE-216G) | |
| PCC-EE-216G.1 | Remember Vector algebra, line, area, volume Integral. |
| PCC-EE-216G.2 | Understand vector theorems , Electrostatics & Magnetostatics. |
| PCC-EE-216G.3 | Apply electrostatic & magnetostatics laws to find flux density, potential, field intensity. |
| PCC-EE-216G.4 | Analyze wave propagation in different medium. |
| Mathematics-III (Probability and Statistics) (BSC-MATH-204G) | |
| BSC-MATH-204G.1 | Recall basics of differential & Integral calculus, probability & statistics. |
| BSC-MATH-204G.2 | Understand numerical techniques to find transcendental equations, numerical solutions of ordinary and partial differential equations, the problems of probability and the problems of measures of central tendency. |
| BSC-MATH-204G.3 | Apply various methods to mathematical problems such as interpolation, integration, the solution of linear, nonlinear equations, the solution of differential equations, probability & statistics to find various problems in Engineering. |
| BSC-MATH-204G.4 | Solve various problems related to Numerical Methods, probability& statistics. |
| Indian Constitution (MC105G) | |
| MC105G.1 | Learn basic terminology, meaning of constitution of India. |
| MC105G.2 | Learn about historical background of constitution of India. |
| MC105G.3 | Learn about human rights in constitution of India. |
| MC105G.4 | Learn various articles |
| Biology-I (BSC-BIO-201G) | |
| BSC-BIO-201G.1 | Recall the concepts of biology as an important scientific discipline. |
| BSC-BIO-201G.2 | Explain the laws and concepts of genetics. |
| BSC-BIO-201G.3 | Analyze the bio-molecules as the basis of life. |
| BSC-BIO-201G.4 | Assess the role of genetic engineering and biotechnology in various fields. |
| . | |
| Semester: 5 | |
| Power Systems–I (PCC-EE-301G) | |
| PCC-EE-301G.1 | Explain concepts of power systems , various power system components , basic protection schemes and circuit breakers ,concepts of HVDC power transmission & renewable energy generation |
| PCC-EE-301G.2 | Use the different types of method OF protection schemes, circuit breakers, Power ckts, ac and dc transmission & converters. |
| PCC-EE-301G.3 | Analyses fault currents for different types of faults , relay timing & I -V and P-V characteristics of PV panels |
| PCC-EE-301G.4 | Evaluate the fault current and relay timing. |
| Power Systems–I Lab (LC -EE-303G) | |
| LC -EE-303G.1 | Understand the basic component of power system |
| LC -EE-303G.2 | Understand functioning of various relays, Ferranti effect & ABCD parameter of transmission line model. |
| LC -EE-303G.3 | Understand operation of oil testing set. |
| LC -EE-303G.4 | Determine fault current on alternator at different fault condition, time current characteristics of relay. |
| Control System (PCC – EE305G) | |
| PCC – EE305G.1 | Define the feedback and non-feedback control architecture and discuss the importance of performance, robustness and stability in control design. |
| PCC – EE305G.2 | Understand the analysis techniques like block diagram reduction, Root locus, Bode and Nyquist plots, Routh stability criteria. |
| PCC – EE305G.3 | Determine the performance characteristics of first and second-order systems using standard test signals. |
| PCC – EE305G.4 | Analyze the system response and stability in both time-domain and frequency domain. |
| Control System Lab (LC-EE-307G) | |
| LC-EE-307G.1 | Define the control components like AC/DC servo motor, stepper motor & lead lag compensators, PID Controller. |
| LC-EE-307G.2 | Understand the behaviour of various types and order of control system. |
| LC-EE-307G.3 | Apply the MATLAB software to plot the frequency response of the various given functions. |
| LC-EE-307G.4 | Analyze the motion & water level control of a conveyor belt using an industrial PLC. |
| Microprocessor& Microcontroller (PCC – EE-309G) | |
| PCC – EE-309G.1 | Recall architecture and signal description of various Microprocessors. |
| PCC – EE-309G.2 | Understand concepts of virtual memory, cache memory and Instruction set of various microprocessors. |
| PCC – EE-309G.3 | Demonstrate the enhanced features of various microprocessors and mobile processors. |
| PCC – EE-309G.4 | Analyze various designing parameters of microprocessors and microcontrollers. |
| Microprocessor & Microcontroller Lab (LC -EE-311G) | |
| LC -EE-311G.1 | Define fundamental architectural and programming concepts of 8086. |
| LC -EE-311G.2 | Understand the instruction set and process used for 8086 programming. |
| LC -EE-311G.3 | Apply the interfacing and implementation of various peripheral chips using 8086 microprocessor. |
| LC -EE-311G.4 | Analyze and compare the logic used in programs output carried out by 8086 microprocessor theoretically and practically. |
| Computer Aided Electrical Machine Design (PCC-EE-313G) | |
| PCC-EE-313G.1 | To understand the features and limitations of electrical machine design. |
| PCC-EE-313G.2 | To understand about the computerization of the design procedure. |
| PCC-EE-313G.3 | To explain the complete detailed design of all static and rotating machine and their performance with problems. |
| PCC-EE-313G.4 | Analyze the design procedure and performance of various algorithms. |
| Computer Aided Electrical Machine Design Lab (LC-EE-315G) | |
| LC-EE-315G.1 | Understand concepts of machine design |
| LC-EE-315G.2 | Choose & select proper material for the design of an electrical machine, General features ,ratings of Electrical Machine |
| LC-EE-315G.3 | Explain principle and emf equation of Transformer, Induction Motor, Synchronous Motor DC Machine |
| LC-EE-315G.4 | Design of Transformer, D.C. Machine, Induction Motor, and Synchronous Machine with performance calculation |
| Electrical Drives (PEC-EE-03G) | |
| PEC-EE-03G.1 | Understand the application of power electronic devices in electrical drives. |
| PEC-EE-03G.2 | Understand DC motor and Induction Motor characteristics. |
| PEC-EE-03G.3 | Understand control of DC motor and Induction motor drives. |
| PEC-EE-03G.4 | Understand Multiquadrant operation and selection of motor power rating. |
| Electrical Engineering Materials (OEC-EE01G) | |
| OEC-EE01G.1 | Understand the conductivity of metal. |
| OEC-EE01G.2 | Understand Dielectric Properties. |
| OEC-EE01G.3 | Understand Magnetic Properties of materials. |
| OEC-EE01G.4 | Understand Semiconducting properties and Materials. |
| Economics For Engineers (HSMC-01G) | |
| HSMC-01G.1 | Define various concepts of micro economics related to the production units. |
| HSMC-01G.2 | Understand various aspects of economics which can affect the engineering profession in terms of demand and decision making related to it. |
| HSMC-01G.3 | Choose best engineering practice by cost consideration and profit estimation. |
| HSMC-01G.4 | Examine the economic environment and effects of government policies on the Indian economy which can be related to engineering services. |
| Practical Training-1 (PT-EE317G) | |
| PT-EE317G.1 | Identify various technologies and fields for practical training to enhance employability skills. |
| PT-EE317G.2 | Understand the ability to adapt with the latest changes in the technological world. |
| PT-EE317G.3 | Applying engineering knowledge and ethical practices to solve industrial problems and demonstrate presentation skills. |
| PT-EE317G.4 | Analyze the ability of learning skills to be job ready with real corporate exposure. |
| Semester: 6 | |
| Power Systems– II (PCC – EE-302G) | |
| PCC – EE-302G.1 | Recall Power system components, complex power, per unit system, matrix operations, active and reactive power application and needs. |
| PCC – EE-302G.2 | Understand, bus matrix formation, optimizations techniques and problem, swing equation Automatic voltage and generation controls, equal area criteria, Power system stability with their importance and need. |
| PCC – EE-302G.3 | Apply modeling, methods of load flow study, optimization, load frequency and voltage control methods, economic load dispatch, AGC, swing equation in stability application, Runge Kutta method. |
| PCC – EE-302G.4 | Compare different load flow methods, different state of power system, optimizations techniques, unit commitment solutions, system parameters, different stability analysis. |
| Power Systems– II Lab(LC-EE-304G) | |
| LC-EE-304G.1 | Understand the basic component of power system and MATLAB |
| LC-EE-304G.2 | Perform different test like stability, load flow study, etc. |
| LC-EE-304G.3 | Compare and analysis different methods of load flow study |
| LC-EE-304G.4 | Develop programs for y bus formation, z bus formation, stability analysis etc. |
| Power Electronics (PCC- EE-306G) | |
| PCC – EE-306G.1 | Recall the fundamental concepts of basic power electronics components like Diode, Transistor or BJT, UJT etc. |
| PCC – EE-306G.2 | Understanding of basic concepts of circuits used in power electronics. |
| PCC – EE-306G.3 | Demonstrate construction and working of different power electronics devices. |
| PCC – EE-306G.4 | Differentiate between different power electronics devices such as different rectifiers, choppers, inverters, dual converters.etc |
| Power Electronics Lab (LC-EE-308G) | |
| LC-EE-308G.1 | Recall the fundamental concepts and characteristics of basic power electronics components like Diode, Transistor or BJT, UJT, SCR, GTO, IGBT etc. |
| LC-EE-308G.2 | Understanding of basic concepts of various firing circuit and commutation circuit for Thyristors used in power electronics. |
| LC-EE-308G.3 | Demonstrate construction and working operation of different power electronics devices such as operation of converters and inverters. |
| LC-EE-308G.4 | Differentiate between different power electronics devices such as different rectifiers, choppers, inverters, dual convertersetc |
| LC-EE-308G.5 | Evaluatethe result and waveforms of different experiments. |
| Electronics Design Lab (LC -EE-310G) | |
| LC -EE-310G.1 | Recall basicsof various electronics devices. |
| LC -EE-310G.2 | Understand the practical issues related to practical implementation of applications. |
| LC -EE-310G.3 | Apply appropriate component.software to design PCB and hardware of various electronics systems. |
| LC -EE-310G.4 | Work as a team with other students to analyze the applications of various electronics systems. |
| Power System Protection (PEC-EE-06G) | |
| PEC-EE-06G.1 | Recall substation, general power system faults, and components, components of substation and transmission line components in power system. |
| PEC-EE-06G.2 | Understand working principle of different relays, different protection schemes, relays, circuit breakers, basic protection principles, etc. |
| PEC-EE-06G.3 | Apply different protection system/ schemes in power System, wide area measurement |
| PEC-EE-06G.4 | Compare and analyzing of different protection system/ schemes and relays, types of faults and fault current. |
| Power Quality and FACTS (PEC-EE-08G) | |
| PEC-EE-08G.1 | Understand operation and control of different converter circuit and basic concepts of reactive power compensation. |
| PEC-EE-08G.2 | Understand Principle of operation and control of FACTS devices , harmonic control |
| PEC-EE-08G.3 | Understand the basic concepts of Power quality and issues of power quality. |
| PEC-EE-08G.4 | Apply FACTS devices to control VAR gen., power oscillation damping& transient stability etc. by simulation. |
| Conventional and Renewable Energy Resources (OEC-EE-08G) | |
| OEC-EE-08G.1 | Understand Conventional and Non conventional sources of energy |
| OEC-EE-08G.2 | Understand Power generation Planning |
| OEC-EE-08G.3 | Understand operation and working of power plants, energy conservation & management |
| OEC-EE-08G.4 | Apply tariff methods and calculate cost of generation and depreciation by different factors. |
| Organisational Behaviour (HSMC – 02G) | |
| HSMC – 02G.1 | Define the management process with the scope and importance of management. |
| HSMC – 02G.2 | Understand all aspects of Organizational Behavior contended to various communication channels. |
| HSMC – 02G.3 | Demonstrate the phenomenon of learning, leadership and motivation. |
| HSMC – 02G.4 | Analyze the framework of all organizational structures and management conflicts intending to the various organizational changes. |
| Semester: 7 | |
| Renewable Energy and distributed generation ( OEC-EE-403G) | |
| OEC-EE-403G.1 | Recall renewable energy sources. |
| OEC-EE-403G.2 | Understand the working of distributed generation systems in autonomous/grid connected modes. |
| OEC-EE-403G.3 | Understanding of integrated operation of renewable energy sources, Interface with the Grid. |
| OEC-EE-403G.4 | Apply of Distributed Generation on Power Systems. |
| ADVANCED POWER TRANSMISSION(PEC-EE-415G) | |
| PEC-EE-415G .1 | Understand Knowledge of Extra high voltage AC & DC Transmission System. |
| PEC-EE-415G.2 | Understand FACTS controllers with application and principles of operation |
| PEC-EE-415G.3 | Apply different types of operation and controls of converters for improvement of power quality in HVDC transmission systems. |
| PEC-EE-415G.4 | Analyze mechanism of active and reactive power flow control of AC Transmission system. |
| UTILIZATION OF ELECTRIC POWER (PEC-EE-405G) | |
| PEC-EE-405G.1 | To understand the operating principles, characteristics and applications of electric drives. |
| PEC-EE-405G.2 | To study different types of electric heating and welding techniques. |
| PEC-EE-405G.3 | To understand the basics of illumination and lamps. |
| PEC-EE-405G.4 | To study various methods of braking and understand the basic principle of electric traction including speed–time curves of different traction services. |
| FUNDAMENTAL OF MANAGEMENT (PEC-EE-415G) | |
| PEC-EE-415G.1 | Define the fundamental concepts of management. |
| PEC-EE-415G.2 | Explain the management functions of the organization- human resource management, marketing management, production management and financial management. |
| PEC-EE-415G.3 | Examine knowledge of each of the functional areas of business – human resource management, marketing management, production management and financial management. |
| ENERGY CONSERVATION & MANAGEMENT (PEC-EE-414G) | |
| PEC-EE-414G.1 | Recall energy scenario of India and the world, energy audit, energy conservation, cogeneration, environmental pollution and consumption fundamental terms. |
| PEC-EE-414G.2 | Understand principles and need of energy conservation, audit, cogeneration, energy management. Energy consumption in different areas with energy management. |
| PEC-EE-414G.3 | Apply energy conservation, cogeneration, audit, cogeneration, and energy management methods in various areas of energy consumption. |
| PEC-EE-414G.4 | Analyses post strategies applications effects of Energy conservation and management with reports. |
| Semester: 8 | |
| APPLICATION OF POWER ELECTRONICS IN POWER SYSTEMS (PEC-EE-404G) | |
| PEC-EE-404G.1 | Understand operation and control of different converter circuits and basic concepts of reactive power compensation. |
| PEC-EE-404G.2 | Understand the Principle of operation and control of FACTS devices, harmonic control. |
| PEC-EE-404G.3 | Understand the basic concepts of Power quality and issues of power quality. |
| PEC-EE-404G.4 | Apply FACTS devices to control VAR gen., power oscillation damping transient stability etc. by simulation. |
| SOLAR THERMAL APPLICATIONS (OEC-EE-402G) | |
| OEC-EE-402G.1 | Understand the fundamental concepts about solar energy systems and devices are incorporated. |
| OEC-EE-402G.2 | Understand types of solar collectors , Thermal Energy Storage |
| OEC-EE-402G.3 | Apply different type of solar collectors, heaters, drying system |
| OEC-EE-402G.4 | Analyze Solar Radiation at the Earth’s Surface, Performance Analysis of a Conventional Air Heater, solar collector, and drying system. |
| ENERGY MANAGEMENT & AUDITING (PEC-EE-415G) | |
| PEC-EE-415G.1 | Recall efficiency, fundamental of motors, energy audit, energy and consumption fundamental terms. |
| PEC-EE-415G.2 | Understand principles and need of an audit, energy management, energy consumption in different areas, need of renewable energy. |
| PEC-EE-415G.3 | Apply energy audit, energy management methods in various areas of energy consumption and application of other renewable energy sources. |
| PEC-EE-415G.4 | Analyse post strategies applications effects of energy audit and management with reports. |
| Industrial Training /Institutional Project Work (PROJ-EE-424G) | |
| PROJ-EE-424G.1 | Identify various technologies and fields for practical training. |
| PROJ-EE-424G.2 | Understand the process to make reports and presentation. |
| PROJ-EE-424G.3 | Applying engineering knowledge to solve industrial problems.. |
| PROJ-EE-424G.4 | Analyze ethical practices and tools used in different technologies. |
| PROJ-EE-424G.5 | Design and develop the solution for complex engineering problems. |
| SEMINAR (SEM-EE-426G) | |
| SEM-EE-426G.1 | Identify various technologies and recent trends in engineering. |
| SEM-EE-426G.2 | Understand the basic concepts of extracurricular activities. |
| SEM-EE-426G.3 | Apply skills in preparing detailed report describing project. |
| SEM-EE-426G.4 | Effectively communicate by making an oral presentation before an evaluation Committee. |
|
M.TECH ELECTRICAL POWER SYSTEMS |
|
| Course Outcomes | |
| Semester: 1 | |
| Microprocessors & Microcontroller (MTEPS101) | |
| MTEPS101.1 | Recall the basic concepts of microprocessors, microcontrollers and different peripheral chips. |
| MTEPS101.2 | Understand the features, commands and architecture design of different microprocessors and microcontrollers. |
| MTEPS101.3 | Applying interfacing between microprocessors/microcontrollers and peripheral chips. |
| MTEPS101.4 | Applying interfacing between microprocessors/microcontrollers and peripheral chips. |
| 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) |
| 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 |
| 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] |
| 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. |
| 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 | |
| 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 |
| 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. |
| 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] |
| 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. |
| 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, |
| 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 | |
| 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. |
| 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 |
| 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. |
| 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 | |
| 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. |
