S7 EEE
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Student Roll No.
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Student Name
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EE09 701 Power System Analysis
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Excellent
Very Good
Good
Average
Poor
Students will be able to represent power system in terms of single line diagrams and matrix representations.
Learn analysis of power systems using various methods.
Understand the economic dispatch process of generators and modelling of speed governing systems.
Understanding the various faults that occur in the power system and their analysis.
To impart the concept of power system stability and the analysis methods for the same.
Excellent
Very Good
Good
Average
Poor
Students will be able to represent power system in terms of single line diagrams and matrix representations.
Learn analysis of power systems using various methods.
Understand the economic dispatch process of generators and modelling of speed governing systems.
Understanding the various faults that occur in the power system and their analysis.
To impart the concept of power system stability and the analysis methods for the same.
EE14 702 Modern Control Theory
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Excellent
Very Good
Good
Average
Poor
Students will be able to develop the state space models of LTI systems.
Students will be able to design linear and nonlinear systems using state space techniques.
Students will be able to analyze the stability by Liapunov methods.
Students will have an understanding of the controllability and observability of systems.
Students will be able to apply the knowledge in the controllability and observability of systems using their state equations.
Excellent
Very Good
Good
Average
Poor
Students will be able to develop the state space models of LTI systems.
Students will be able to design linear and nonlinear systems using state space techniques.
Students will be able to analyze the stability by Liapunov methods.
Students will have an understanding of the controllability and observability of systems.
Students will be able to apply the knowledge in the controllability and observability of systems using their state equations.
EE14 703 Electric Drives
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Excellent
Very Good
Good
Average
Poor
The students will be able to select a drive for a particular application.
The students will have an understanding of converter topologies used in modern electrical motor drives.
Students will familiarize with the various speed control techniques employed for controlling drives with ac and dc motors.
Understand how to use Microprocessors in the control of Electric Drives.
Apply the knowledge of reference frame theory for AC machines to model the induction and synchronous machines.
Excellent
Very Good
Good
Average
Poor
The students will be able to select a drive for a particular application.
The students will have an understanding of converter topologies used in modern electrical motor drives.
Students will familiarize with the various speed control techniques employed for controlling drives with ac and dc motors.
Understand how to use Microprocessors in the control of Electric Drives.
Apply the knowledge of reference frame theory for AC machines to model the induction and synchronous machines.
EE14 704(A) Switched Mode Power Converters
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Excellent
Very Good
Good
Average
Poor
To understand the shortcomings of linear power supplies and hence the advantages of SMPC
To have a comprehensive view of the various types of converters viz. dcdc, dcac, resonant converters ZVS ,ZCS etc
To design and simulate various dcdc converters buck, boost, buck â€“boost, single phase and 3 phase inverters etc
Students will be able to differentiate between various switching schemes used and To analyze and draw conclusions regarding the ripple content or harmonic content while using various switching schemes
Excellent
Very Good
Good
Average
Poor
To understand the shortcomings of linear power supplies and hence the advantages of SMPC
To have a comprehensive view of the various types of converters viz. dcdc, dcac, resonant converters ZVS ,ZCS etc
To design and simulate various dcdc converters buck, boost, buck â€“boost, single phase and 3 phase inverters etc
Students will be able to differentiate between various switching schemes used and To analyze and draw conclusions regarding the ripple content or harmonic content while using various switching schemes
EE14 704(B) Electrical Machine Design
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Excellent
Very Good
Good
Average
Poor
Students will be able to define different types of materials used in design, magnetic circuit, and thermal aspects of machine design.
Students will be able to comprehend the design technique of static and dynamic machine.
Student will be able to suggest different machines for specific application.
Student will be able to design machine for specific application.
Excellent
Very Good
Good
Average
Poor
Students will be able to define different types of materials used in design, magnetic circuit, and thermal aspects of machine design.
Students will be able to comprehend the design technique of static and dynamic machine.
Student will be able to suggest different machines for specific application.
Student will be able to design machine for specific application.
EE14 705(A) Soft Computing Techniques
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Excellent
Very Good
Good
Average
Poor
Identify and describe the various architectures of neural networks based on the biological neural network.
Have a comprehensive view on various learning methods based on artificial neural networks.
Apply the fuzzy logic theory based on human intutions for the various problems baed on fuzzy rule base & approximate reasoning.
Analyze and draw conclusions from the theory of Genetic Algorithms evolved from natural selection process of human beings.
To Identify and describe the data clustering algorithms, machine learning and knowledge acquisition techniques.
Excellent
Very Good
Good
Average
Poor
Identify and describe the various architectures of neural networks based on the biological neural network.
Have a comprehensive view on various learning methods based on artificial neural networks.
Apply the fuzzy logic theory based on human intutions for the various problems baed on fuzzy rule base & approximate reasoning.
Analyze and draw conclusions from the theory of Genetic Algorithms evolved from natural selection process of human beings.
To Identify and describe the data clustering algorithms, machine learning and knowledge acquisition techniques.
EE14 705(B) High Voltage Engineering
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Excellent
Very Good
Good
Average
Poor
Ability to design circuit for generating high voltage DC ,AC and impulse waves
Ability to design circuit for measuring high voltage DC ,AC and impulse waves
Ability to design circuit for measuring high voltage DC ,AC and impulse waves
Ability to test circuit breakers and generators
Excellent
Very Good
Good
Average
Poor
Ability to design circuit for generating high voltage DC ,AC and impulse waves
Ability to design circuit for measuring high voltage DC ,AC and impulse waves
Ability to design circuit for measuring high voltage DC ,AC and impulse waves
Ability to test circuit breakers and generators
EE14 706(P) Power Electronics Lab
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Excellent
Very Good
Good
Average
Poor
Students will be able to design any power electronic circuits and analyze its operations.
Students will be able to simulate different power electronic circuits which has a lot of applications in future in the designing field.
Students will be able to analyze the characteristics of any power electronic circuits
Excellent
Very Good
Good
Average
Poor
Students will be able to design any power electronic circuits and analyze its operations.
Students will be able to simulate different power electronic circuits which has a lot of applications in future in the designing field.
Students will be able to analyze the characteristics of any power electronic circuits
EE14 707(P) System Simulation & Control
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Excellent
Very Good
Good
Average
Poor
Students can strengthen their control system concepts and power system concepts using hardware and simulation experiments.
Students will be able to do project works related to microprocessors and microcontrollers and its interfacing.
Students will be able to do simulation experiments based on MATLAB/MIPOWER.
Students will be able to implement controllers like P, PI, PID etc. using Matlab systems required in industries.
Excellent
Very Good
Good
Average
Poor
Students can strengthen their control system concepts and power system concepts using hardware and simulation experiments.
Students will be able to do project works related to microprocessors and microcontrollers and its interfacing.
Students will be able to do simulation experiments based on MATLAB/MIPOWER.
Students will be able to implement controllers like P, PI, PID etc. using Matlab systems required in industries.
EE14 708(P) Project
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Excellent
Very Good
Good
Average
Poor
To estimate the ability of the student in transforming the theoretical knowledge studied so far into a working model of an electrical/electronic system
To improve the ability of the student to design, implement and identify the problems associated with different circuits
To acquire the necessary confidence to carry out project works in future
For enabling the students to gain the knowledge of exposure needed in the organizations like KSEB, KEL, BHEL etc.
Excellent
Very Good
Good
Average
Poor
To estimate the ability of the student in transforming the theoretical knowledge studied so far into a working model of an electrical/electronic system
To improve the ability of the student to design, implement and identify the problems associated with different circuits
To acquire the necessary confidence to carry out project works in future
For enabling the students to gain the knowledge of exposure needed in the organizations like KSEB, KEL, BHEL etc.
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