B.TECH ELECTRICAL ENGINEERING |
Course Outcomes |
Semester: 3 |
Electric Circuit Analysis (PCC-EE-201G) |
PCC-EE-201G.1 |
Recall Basic electrical laws, terminology and mathematical tools. |
PCC-EE-201G.2 |
Understand the basic electric circuit. |
PCC-EE-201G.3 |
Explain steady state analysis, transient response of different circuits, two port network and graph theory. |
PCC-EE-201G.4 |
Analyze steady state and transient condition using Laplace transform, Electrical circuit parameters with or without using Laplace Transform |
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Electric Circuit Analysis Lab (PCC-EE-203G) |
PCC-EE-203G.1 |
Understand the basic component electric circuit. |
PCC-EE-203G.2 |
Understand MATLAB and transient response in electric circuit. |
PCC-EE-203G.3 |
Calculate and verify network theorems and two port network parameter, equivalent parameters of two port network and resonance frequency of RLC circuit. |
PCC-EE-203G.4 |
Synthesis a network of given network function and verify its response. |
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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 |
Interpret 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. |
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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. |
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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. |
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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. |
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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 and Bridges. |
PCC-EE-210G.3 |
Understand Transducers, and CRO. |
PCC-EE-210G.4 |
Apply Bridges and instruments to measure electric circuit parameters. |
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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 |
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Engineering Mechanics (ESC-202-G) |
ESC-202-G.1 |
Students will be able to describe the equilibrium of a particle in space using principle of laws of mechanics. |
ESC-202-G.2 |
Students will be able to explain the concept of geometrical properties such as moment of inertia. And analyze planar system to determine the forces in members of trusses, frames and problems related to friction. |
ESC-202-G.3 |
Students will be able to solve the problems of simple system with sliding friction and calculate linear and angular acceleration of moving body in general plane motion using the laws of science. |
ESC-202-G.4 |
Students will be able to appraise the knowledge of the principle of work energy equation, laws of motion in simple practical problem |
ESC-202-G.5 |
Students will be able to construct shear force and bending moment diagrams to design the beams. |
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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. |
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Semester: 4 |
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Digital Electronics (PCC-EE-202G) |
PCC-EE-202G.1 |
Recall basics 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 karnaugh map, quine mcluskey method,etc. |
PCC-EE-202G.4 |
Analyze the various combinational and sequential logic circuits. |
PCC-EE-202G.5 |
Evaluate Error detection and correction code. |
PCC-EE-202G.6 |
Design the various combinational and sequential logic circuits. |
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Digital Electronics Lab (PCC-EE-204G) |
PCC-EE-204G.1 |
Recall the all Logic Gates with Truth-Table. |
PCC-EE-204G.2 |
Understand the ADC and DAC. |
PCC-EE-204G.3 |
Apply the K-MAP Method to solve the Boolean Expression. |
PCC-EE-204G.4 |
Analyze the various Flip-Flops by their Truth-Table. |
PCC-EE-204G.5 |
Evaluate the Performance of Synchronous and Asynchronous Counters. |
PCC-EE-204G.6 |
Designing of various Combinational and Sequential Circuits. |
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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. |
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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. |
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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. |
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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. |
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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. |
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ElectromagneticFields (PCC-EE-216G) |
PCC-EE-216G.1 |
Remember Vector algebra, line, area, volume Integral. |
PCC-EE-216G.2 |
Understand vector theorems , different coordinate systems and transformation, |
PCC-EE-216G.3 |
Understand concept of electrostatic, magneto static laws, and boundary conditions. |
PCC-EE-216G.4 |
Understand Transmission line equations and wave propagation in different medium. |
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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. |
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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 |
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Biology-I (BSC-BIO-201G) |
BSC-BIO-201G.1 |
DEFINE Biology , Genetics , Biomolecules ,Genetic Emgineering , Biotechnology |
BSC-BIO-201G.2 |
DESCRIBE The Classification Of Cell, Protiens , Lipids , Carbohydrates , Biotechnology |
BSC-BIO-201G.3 |
DIFFRENTITATE Between Animal Cell & Plant Cell, Mitosis & Meiosis ,Dna & Rna , Trangenic Animals And Plants |
BSC-BIO-201G.4 |
CONCEPT Of Single Cell Organism , Mendels Law Of Inheritance , Watson And Crick Model Of Dna , Recombinant Dna Technology , Enzyme Technology |
BSC-BIO-201G.5 |
DRAW The Structures Of Prokaryotic And Eukaryotic Cell , Protiens , Lipids , Carbohydrates , Dna ,Rna, |
BSC-BIO-201G.6 |
PROPERTIES Of Microbes, Application Of Biotechnology, Genetic Engineering , Gene Cloning . |
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Semester: 5 |
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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. |
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Power Systems–I Lab (LC -EE-303) |
LC -EE-303.1 |
Understand the basic component of power system |
LC -EE-303.2 |
Understand functioning of various relays, Ferranti effect & ABCD parameter of transmission line model. |
LC -EE-303.3 |
Understand operation of oil testing set. |
LC -EE-303.4 |
Determine fault current on alternator at different fault condition, time current characteristics of relay. |
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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. |
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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. |
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Microprocessor& Microcontroller (PCC – EE-309G) |
PCC – EE-309G.1 |
Describe architecture and signals of microprocessor. |
PCC – EE-309G.2 |
Understand concepts of virtual memory, cache memory and instruction set of various microprocessors. |
PCC – EE-309G.3 |
Create an exposure to basic peripherals, its programming and interfacing techniques |
PCC – EE-309G.4 |
Compare between working of various microcontroller designs. |
PCC – EE-309G.5 |
Design interfacing circuits of peripherals devices with various microprocessors. |
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Microprocessor & Microcontroller Lab (LC -EE-311G) |
LC -EE-311G.1 |
Describe the concepts of various programs of microprocessors. |
LC -EE-311G.2 |
Compare programs of different microprocessors. |
LC -EE-311G.3 |
Applying knowledge of different instructions for different programs. |
LC -EE-311G.4 |
Analyze the logic used in programs. |
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Computer Aided Electrical Machine Design (PCC-EE-313G) |
PCC-EE-313G.1 |
Choose & select proper material for the design of an electrical machine. |
PCC-EE-313G.2 |
Explain General features, rating, Cooling Media, Enclosures and other parameter of Electrical Machines. |
PCC-EE-313G.3 |
Develop Computer Program and Performance Prediction |
PCC-EE-313G.4 |
Determine Output Coefficient, MMF, Gap Contraction Coefficient, Output equation, Leakage Flux |
PCC-EE-313G.5 |
Design process and steps of Transformer, D.C. Machine, Induction Motor, and Synchronous Machine |
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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 |
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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. |
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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. |
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Economics For Engineers (HSMC-01G) |
HSMC-01G.1 |
Describe Economics in context of Engineering. |
HSMC-01G.2 |
Understanding all aspects /scope of economics. |
HSMC-01G.3 |
Determine the phenomenon of demand and supply. |
HSMC-01G.4 |
Differentiate the all possible costs occurring in context of Engineering. |
HSMC-01G.5 |
Evaluating various consumer Equilibrium. |
HSMC-01G.6 |
Formulate various strategies to different markets/situations. |
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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. |
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Semester: 6 |
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Power Systems– II (PCC – EE-302G) |
PCC – EE-302G.1 |
UnderstandCircuit Breakers and Protective relays. |
PCC – EE-302G.2 |
Apply protection scheme for transformer, motor, alternator and transmission line, relays and circuit breakers |
PCC – EE-302G.3 |
Analyze symmetrical and unsymmetrical faults, relays and circuit breaker. |
PCC – EE-302G.4 |
Estimate fault parameters of transmission line and operating time in relay. |
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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. |
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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, cyclo-converters etc |
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Power Electronics Lab (LC -EE-308) |
LC -EE-308.1 |
Recall the fundamental concepts and characteristics of basic power electronics components like Diode, Transistor or BJT, UJT, SCR, GTO, IGBT etc. |
LC -EE-308.2 |
Understanding of basic concepts of various firing circuit and commutation circuit for Thyristors used in power electronics. |
LC -EE-308.3 |
Demonstrate construction and working operation of different power electronics devices such as operation of converters and inverters. |
LC -EE-308.4 |
Differentiate between different power electronics devices such as different rectifiers, choppers, inverters, dual convertersetc |
LC -EE-308.5 |
Evaluatethe result and waveforms of different experiments. |
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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. |
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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. |
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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. |
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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. |
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Organisational Behaviour (HSMC – 02G) |
HSMC – 02G.1 |
Define Organizational Behavior. |
HSMC – 02G.2 |
Recognize all aspects of management process. |
HSMC – 02G.3 |
Understand the phenomenon of learning. |
HSMC – 02G.4 |
Examine all sources of conflict. |
HSMC – 02G.5 |
Formulate various organizational structures. |
HSMC – 02G.6 |
Formulate good framework for organizational change. |
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Semester: 7 |
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Electric Drives and Control (EE-403-F) |
EE-403-F.1 |
Recall Electrical machines, transformer, power electronic devices |
EE-403-F.2 |
Compare Electric motors, operating modes, types of loads, DC drives and AC drives. |
EE-403-F.3 |
Apply method to control speed, starting and braking of DC and AC drives |
EE-403-F.4 |
Analyze Transients in DC and AC drives, Dynamics of electric drives |
EE-403-F.5 |
Select motor power rating, quadrant of operation of AC and DC drive. |
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Digital Signal Processing (ECE-409-F) |
ECE-409-F.1 |
Define the mathematical description and representation of continuous and discrete time signals. |
ECE-409-F.2 |
Understand the process of sampling and the effects of under sampling. |
ECE-409-F.3 |
Demonstrate the decimation and interpolation process and MDSP. |
ECE-409-F.4 |
Analyze discrete time systems using DTFT, ZT, DFT and FFT. |
ECE-409-F.5 |
Design and implement digital finite impulse response (FIR) and infinite impulse response (IIR) filters. |
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Power System Operation and Control (EE-405-F) |
EE-405-F.1 |
Recall basic concept of Voltage stability , Load frequency and Load Management |
EE-405-F.2 |
Explain Power System Stability , Optimal load frequency Control, dynamics of synchronous machine and Load frequency control of Single area system |
EE-405-F.3 |
Identify factors affecting transient stability, effect of clearing time on transient stability |
EE-405-F.4 |
Compare type 0 & 1 excitation system and different types of Power System Stability |
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Renewable Energy Resources and Technology (HUM-459-F) |
HUM-459-F.1 |
Find Renewal Energy Sources, Energy options for Indian Economy |
HUM-459-F.2 |
Explain Solar Energy, Wind Energy, Biomass Energy, Geothermal Energy, Ocean Energy . |
HUM-459-F.3 |
Identify Site selection criteria of Power Plants and Plant material used in Bio Gas Plant. |
HUM-459-F.4 |
Compare different types of Power Plants with their application. |
HUM-459-F.5 |
Design Fuel Cell, solar Power Plant , Wind Power Plant, MHD System |
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Electrical Power Quality (EE-444-F) |
EE-444-F.1 |
Learn about various measurement instruments for Power Quality measurement of Voltage, Current, Power, Power Factor & Frequency and other parameters. |
EE-444-F.2 |
Identify the different types Power Quality Issues and their Causes. |
EE-444-F.3 |
Applying different power Quality problem issues solving Techniques in real life problems. |
EE-444-F.4 |
Analyses the technologies for remedies of Power Quality problems, methods & calculations, the different types Power Quality Issues characteristics of Power System like Harmonics, Transients etc. |
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Computer Applications to Power System Analysis (EE-409-F) |
EE-409-F.1 |
Recall Transmission line parameters, load flow studies, faults. |
EE-409-F.2 |
Understand Transmission line, bus matrix, nature of faults, SCADA System, MATLAB. |
EE-409-F.3 |
Apply methods of load flow study, digital technique. |
EE-409-F.4 |
Analysis of fault, parameters, different state of power system |
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Electric Drives and Control Lab (EE-413-F) |
EE-413-F.1 |
Recall fundamentals of bridge, coverter |
EE-413-F.2 |
Explain single phase half and full bridge converter drive and AC controlled control drive. |
EE-413-F.3 |
Analyze speed control of FHP synchronous motor using three phase cyclo-converter and VSI |
EE-413-F.4 |
Judge current and voltage waveform through speed torque characteristics using different controlled devices on DC and induction motor. |
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Digital Signal Processing Lab (ECE-429-F) |
ECE-429-F.1 |
Identify the basic signals (Unit Step, unit impulse, Ramp, Exponential, Sine and Cosine). |
ECE-429-F.2 |
Understand the basic operation of signal processing using MATLAB |
ECE-429-F.3 |
Implement DSP algorithms in software using a computer language such as C with TMS320C6713 floating point Processor. |
ECE-429-F.4 |
Analyze frequency response characteristics of digital IIR and FIR filter. |
ECE-429-F.5 |
Evaluate the digital, modulation techniques like ASK, FSK & PSK. |
ECE-429-F.6 |
Develop the program for discrete convolution and discrete correlation. |
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Computer Applications to Power System Analysis Lab (EE-419-F) |
EE-419-F.1 |
Explain EMTP and MATLAB. |
EE-419-F.2 |
Apply Gauss shiedel and NR method for load flow study. |
EE-419-F.3 |
Analyze short circuit study, transmission losses and efficiency. |
EE-419-F.4 |
Evaluating stability using swing curve, formation of Y-bus, Z-bus. |
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General Fitness For the Profession (GFEE-401-F) |
GFEE-401-F.1 |
Identify the basic knowledge and academic performance. |
GFEE-401-F.2 |
Understand the basic concept of Extracurricular activities. |
GFEE-401-F.3 |
Examine contribution in NSS social welfare relief and other society. |
GFEE-401-F.4 |
Organize Educational tours/ visits/ membership for professional societies. |
GFEE-401-F.5 |
Evaluate briefly academic performance & achievements. |
GFEE-401-F.6 |
Prepare for the viva voce before the committee. |
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Practical Training-II (EE-401-F) |
EE-401-F.1 |
Identify various technologies and fields for practical training. |
EE-401-F.2 |
Understand the process to make reports and presentation. |
EE-401-F.3 |
Applying engineering knowledge to solve industrial problems. |
EE-401-F.4 |
Analyze ethical practices and tools used in different technologies |
EE-401-F.5 |
Evaluate the performance on parameters such as communication skills, technical knowledge. |
EE-401-F.6 |
Design and develop the skills to make software/hardware, related to industrial training. |
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Semester: 8 |
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Industrial Training/Institutional Project Work (EE- 402-F) |
EE- 402-F.1 |
Identify various technologies and fields for practical training. |
EE- 402-F.2 |
Understand the process to make reports and presentation. |
EE- 402-F.3 |
Applying engineering knowledge to solve industrial problems. |
EE- 402-F.4 |
Analyze ethical practices and tools used in different technologies |
EE- 402-F.5 |
Evaluate the performance on parameters such as communication skills, technical knowledge. |
EE- 402-F.6 |
Design and develop the skills to make software/hardware, related to industrial training. |