The Electrical Engineering (EE) is one of the core branches of Galgotias College of Engineering & Technology, which has an excellent infrastructure to promote congenial academic environment to impart quality education. The department of Electrical Engineering has well equipped laboratories and a team of well qualified and dedicated faculty members and technical staff.
The objective of Electrical Engineering department is to equip the students with technical skills in the field of Electrical Engineering which is concerned with Generation, Transmission, Distribution, Utilization and Control of Electrical Energy. The department is fully committed to provide theoretical and practical knowledge to the students of electrical engineering as per modern industries requirement. The department conducts workshops and guest lectures from reputed industries to enhance practical knowledge of the students. Also, every year the department organizes an industrial tour to give industrial exposure to the students of electrical engineering.
The Electrical Engineering (EE) is one of the core branches of Galgotias College of Engineering & Technology, which has an excellent infrastructure to promote congenial academic environment to impart quality education. The department of Electrical Engineering has well equipped laboratories and a team of well qualified and dedicated faculty members and technical staff.
The objective of Electrical Engineering department is to equip the students with technical skills in the field of Electrical Engineering which is concerned with Generation, Transmission, Distribution, Utilization and Control of Electrical Energy. The department is fully committed to provide theoretical and practical knowledge to the students of electrical engineering as per modern industries requirement. The department conducts workshops and guest lectures from reputed industries to enhance practical knowledge of the students. Also, every year the department organizes an industrial tour to give industrial exposure to the students of electrical engineering.
PROGRAM EDUCATIONAL OBJECTIVES
Graduates shall be able to:
- Exhibit technical competence in Electrical Engineering and allied fields and attain feasible solutions best suited to the industry needs.
- Adapt to latest global technologies and optimally utilize resources to develop and create solutions for engineering problems.
- Perform as skilled professionals and entrepreneurs through good communication skills and ethics.
| Program Outcome |
Engineering graduate will be able to: |
| PO1 |
Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems. |
| PO2 |
Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences. |
| PO3 |
Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specific needs with appropriate considerations for the public health and safety, and the cultural, societal, and environmental considerations. |
| PO4 |
Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide conclusions |
| PO5 |
Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations |
| PO6 |
The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent relevant to the professional engineering practices |
| PO7 |
Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development |
| PO8 |
Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norm of the engineering practices |
| PO9 |
Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings |
| PO10 |
Communications: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions |
| PO11 |
Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments. |
| PO12 |
Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life learning in the broadest context of technological change. |
PROGRAM SPECIFIC OUTCOMES
- Utilize engineering mathematics, software tools and managerial skills for developing solutions in the field of Electronics Systems, Control Systems and Embedded Systems.
- Apply the knowledge of Electrical Power Engineering to solve real-time problems.
| Course Name
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Eligibility Criteria
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| B.Tech in Electrical Engineering (EE)
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10 + 2 Examination with Physics and Maths as compulsory subjects along with one subject Chemistry / Bio-Technology / Computer Science / Biology with minimum 50% .
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LIST OF COURSES FOR YEAR OF STUDY 2022-23 FROM SECOND YEAR
|
S. No.
|
Course Code and Name (as per AKTU Scheme)
|
|
1
|
KVE301
|
Universal Human Values
|
|
2
|
KEE302
|
Electrical Measurements & Instrumentation
|
|
3
|
KEE303
|
Basic Signals & Systems
|
|
4
|
KEE353
|
Electrical Workshop
|
|
5
|
KEE351
|
Analog electronics lab
|
|
6
|
KEE301
|
Electromagnetic Field Theory
|
|
7
|
KEE402
|
Electrical Machine-I
|
|
8
|
KEE403
|
Network Analysis And Synthesis
|
|
9
|
KEE452
|
Electrical Machines -I Lab
|
|
10
|
KOE038
|
Electronics Engineering
|
|
11
|
KEE352
|
Electrical Measurement and instrument Lab
|
|
12
|
KEE354
|
Mini Project/Internship
|
|
13
|
KAS402
|
Maths-IV
|
|
14
|
KAS401
|
Technical Communication
|
|
15
|
KEE401
|
Digital Electronics
|
|
16
|
KEE451
|
Circuit Simulation Lab
|
|
17
|
KEE453
|
Digital Electronics Lab
|
|
18
|
KEE502
|
Control System
|
|
19
|
KEE653
|
Power Electronics Lab
|
|
20
|
KEE552
|
Control System Lab
|
|
21
|
KEE503
|
Electrical Machine II
|
|
22
|
KEE553
|
Electrical Machine-II Lab
|
|
23
|
KEE061
|
Special Electrical Machines
|
|
24
|
KEE554
|
Mini Project or Internship Assessment
|
|
25
|
KEE603
|
Power Electronics
|
|
26
|
KEE501
|
Power System I
|
|
27
|
KEE053
|
Industrial Automation and Control
|
|
28
|
KEE056
|
Neural Networks & Fuzzy System
|
|
29
|
KEE551
|
Power System-I Lab
|
|
30
|
KEE601
|
Power System II
|
|
31
|
KEE602
|
Microprocessor and Microcontroller
|
|
32
|
KOE069
|
Understanding The Human Being Comprehensively Human
Aspiration And Its Fulfillment
|
|
33
|
KEE651
|
Power System-II Lab
|
|
34
|
KEE652
|
Microprocessor and Microcontroller Lab
|
|
35
|
KHU701
|
Rural Development: Administration and Planning
|
|
36
|
KEE074
|
Power Quality and FACTS
|
|
37
|
KEE077
|
Power System Protection
|
|
38
|
KOE076
|
Value Relationship & Ethical Human Conduct- For A Happy & Harmonious Society
|
|
39
|
KEE751
|
Industrial Automation & PLC Lab
|
|
40
|
KEE752
|
Mini Project or Internship Assessment
|
|
41
|
KEE753
|
Project-I
|
|
42
|
KHU802
|
Project Management & Entrepreneurship
|
|
43
|
KOE092
|
Computerized Process Control
|
|
44
|
KEE851
|
Project II
|
|
45
|
KOE084
|
Introduction To Smart Grid
|
COURSE NAME: UNIVERSAL HUMAN VALUES (KVE301)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to )
|
|
KVE301.1
|
Understand the need, concept and content of value-education in individual’s life and modifies their aspirations for happiness & prosperity.
|
|
KVE301.2
|
Comprehend the term self-exploration and its application for self-evaluation and development.
|
|
KVE301.3
|
Reconstruct the concepts about different values & discriminate between them.
|
|
KVE301.4
|
Analyze the concept of co-existence & evaluate the program to ensure self regulation.
|
|
KVE301.5
|
Identify the holistic perception of harmony at level of self, family, society, nature and explain it by various examples.
|
|
KVE301.6
|
Apply professional ethics in their future profession & contribute for making a value-based society.
|
COURSE NAME: Electrical Measurements & Instrumentation (KEE302)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE302.1
|
Measure various electrical parameters with accuracy, precision and able to get relative error if any.
|
|
KEE302.2
|
Design AC and DC bridges for relevant parameter measurement
|
|
KEE302.3
|
Study Instrument transformers with their design considerations and testing
|
|
KEE302.4
|
Design Signal Generator, frequency counter, CRO and digital IC counter for appropriate measurement.
|
|
KEE302.5
|
Application of appropriate passive or active transducers and data acquisition systems for measurement of physical phenomenon
|
COURSE NAME: BASIC SIGNALS & SYSTEMS (KEE303)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE303.1
|
Represent the various types of signals & systems and perform mathematical operations on them.
|
|
KEE303.2
|
Analyze the response of LTI system using Fourier Series and Fourier transform.
|
|
KEE303.3
|
Analyze the properties of continuous time signals and system using Laplace transform
|
|
KEE303.4
|
Apply the concepts of state- space models to SISO & MIMO systems.
|
|
KEE303.5
|
Implement the concepts of Z transform to solve complex engineering problems using difference equations.
|
COURSE NAME: ELECTRICAL WORKSHOP (KEE353)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE353.1
|
Understand various types of wiring systems, wiring tools, lighting & wiring accessories, wiring estimation & costing, etc.
|
|
KEE353.2
|
Understand rectifier in electronic systems.
|
|
KEE353.3
|
Understand all the fundamental concepts involving electrical and electronics Engineering.
|
COURSE NAME: ANALOG ELECTRONICS LAB (KEE351)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE351.1
|
Analyze working of different semiconductor devices and its characteristics
|
|
KEE351.2
|
Design the passive oscillator circuit
|
|
KEE351.3
|
Understand basics of Op-amp Ics for industrial applications
|
COURSE NAME: ELECTROMAGNETIC FIELD THEORY (KEE301)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE301.1
|
Understand the different coordinate systems and their applications in different EM Fields
|
|
KEE301.2
|
Explain the concept of static electric field and different boundary conditions.
|
|
KEE301.3
|
Describe the concept of static magnetic field.
|
|
KEE301.4
|
Discuss the forces due to magnetic field and magnetic boundary conditions.
|
|
KEE301.5
|
Application of Maxwell’s equation, wave propagation and Transmission line.
|
Course Name: Electrical Machines-I (KEE 402)
|
Course outcome
|
On completion of this course, the student will be able to -
|
|
KEE402.1
|
Understand the energy conversion principles and the concept of magnetic system.
|
|
KEE402.2
|
Explain the constructional details, characteristics and application of various types of DC generators.
|
|
KEE402.3
|
Interpret the performance characteristics of DC motors and their testing.
|
|
KEE402.4
|
Explain the working, performance characteristics and testing of 1-phase transformer operating individually or in parallel.
|
|
KEE402.5
|
Demonstrate various winding connections of 3-phase transformer and their conversion to multiphase system.
|
Course Name: Network Analysis & Synthesis (KEE 403)
|
Course outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE403.1
|
Understand the Importance of Graph Theory in Network Analysis
|
|
KEE403.2
|
Analyze AC electrical networks using various network theorems.
|
|
KEE403.3
|
Analyze transient and steady state response of first and second order circuit for arbitrary inputs.
|
|
KEE403.4
|
Determine the network functions and different parameters pertaining to one port and two port networks.
|
|
KEE403.5
|
Design an electrical network using driving point function and describe filters and attenuators.
|
COURSE NAME: Electrical Machine I Lab (KEE452)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE452.1
|
Analyse and evaluate performance characteristics of DC machine.
|
|
KEE452.2
|
Analyse and evaluate performance of transformer.
|
COURSE NAME: ELECTRONICS ENGINEERING (KOE038)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KOE038.1
|
Understand the concept of PN junction and special purpose diodes.
|
|
KOE038.2
|
Study the application of conventional diode and semiconductor diode
|
|
KOE038.3
|
Analyse the I-V characteristics of BJT and FET.
|
|
KOE038.4
|
Analyze the of Op-Amp, amplifiers, integrator, and differentiator
|
|
KOE038.5
|
Understand the concept of digital storage oscilloscope and compare of DSO with analog oscilloscope
|
COURSE NAME: ELECTRICAL MEASUREMENTS LAB (KEE352)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE352.1
|
Measure electrical engineering parameters using different measuring instruments
|
|
KEE352.2
|
Compute various physical parameters using different sensors
|
|
KEE352.3
|
Analyze and solve the variety of problems in the field of electrical engineering using MATLAB/LABVIEW
|
COURSE NAME: MINI PROJECT/INTERNSHIP (KEE354)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE354.1
|
Investigate the emerging problems in electrical engineering and solve them by referring standard journals.
|
|
KEE354.2
|
Illustrate the state-of-the-art technologies in the area of electrical engineering.
|
|
KEE354.3
|
Analyze various technological advancements in the area of machines, control system through software or hardware implementation.
|
|
KEE354.4
|
Understand and evaluate the area for future knowledge and skill development.
|
|
KEE354.5
|
Formulate a research paper and write the project report.
|
Course Name: Maths IV (KAS402)
|
Course outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KAS402.1
|
Remember the concept of partial differential equation and to solve partial differential equations.
|
|
KAS402.2
|
Analyse the concept of partial differential equations to evaluate the problems concerned with partial differential equations.
|
|
KAS402.3
|
Understand the concept of correlation, moments, skewness and kurtosis and curve fitting.
|
|
KAS402.4
|
Remember the concept of probability to evaluate probability Distributions.
|
|
KAS402.5
|
Apply the concept of hypothesis testing and statistical quality control to create control charts.
|
Course Name: Technical Communication (KAS401)
|
Course outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KAS401.1
|
Understand the nature and objective of Technical Communication relevant for the work place as Engineers.
|
|
KAS401.2
|
Utilize the technical writing for the purposes of Technical Communication and its exposure in various dimensions.
|
|
KAS401.3
|
Imbibe inputs by presentation skills to enhance confidence in face of diverse audience.
|
|
KAS401.4
|
Create a vast know-how of the application of the learning to promote their technical competence.
|
|
KAS401.5
|
Evaluate their efficacy as fluent & efficient communicators by learning the voice-dynamics
|
Course Name: Digital Electronics (KEE401)
|
Course outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE401.1
|
Analyze and design of Combinational logic circuits.
|
|
KEE401.2
|
Analyze and design of Sequential logic circuits with their applications.
|
|
KEE401.3
|
Implement the Design procedure of Synchronous & Asynchronous Sequential Circuits.
|
|
KEE401.4
|
Apply the concept of Digital Logic Families with circuit implementation.
|
|
KEE401.5
|
Apply concepts of Digital Binary System and implementation of Gates.
|
COURSE NAME: Circuit Simulation Lab (KEE451)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE451.1
|
Analyse of AC and DC circuit using simulation technique.
|
|
KEE451.2
|
Analyse of transient response of AC circuit.
|
|
KEE451.3
|
Determine the network functions and different parameters of one port and two port networks and analyses of filter.
|
COURSE NAME: Digital Electronics Lab (KEE453)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE453.1
|
Understand the digital binary system and implementation of gates to design data selector circuits
|
|
KEE453.2
|
Design of combinational circuits using gates.
|
|
KEE453.3
|
Design the sequential circuits with the help of combinational circuits and feedback element.
|
COURSE NAME: CONTROL SYSTEM (KEE502)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE502.1
|
Mathematical modelling of physical system to find transfer function
|
|
KEE502.2
|
Analysis of control system using standard test signal
|
|
KEE502.3
|
Design of controller & compensators
|
|
KEE502.4
|
Study of different component of control system
|
|
KEE502.5
|
Analysis of stability of control system in time & frequency domain
|
COURSE NAME: POWER ELECTRONICS LAB (KEE653)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE653.1
|
Understand various Power Electronics devices & its characteristics SCR, TRIAC, DIAC, IGBT, GTO etc.
|
|
KEE653.2
|
Understand application of Power Electronics devices in Choppers, Inverters and Converters etc. For different load.
|
|
KEE653.3
|
Design and simulate 1-3 phase half and full wave rectifiers, chopper inverter etc., using various power electronics devices MATLAB.
|
COURSE NAME: CONTROL SYSTEM LAB (KEE552)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE552.1
|
Analyze stability of various control system using time domain stability analysis methods
|
|
KEE552.2
|
Design and simulate various control systems in time /frequency domain using MATLAB
|
COURSE NAME:Electrical Machine II (KEE503)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE503.1
|
Understand the basic concept of synchronous generator
|
|
KEE503.2
|
Analyse the basic principle and working of synchronous motor
|
|
KEE503.3
|
Evaluate the basic concept of three phase induction motor
|
|
KEE503.4
|
Study the working of high torque three phase induction motor
|
|
KEE503.5
|
Explain the basic concept of single-phase induction motor
|
COURSE NAME: ELECTRICAL MACHINE–II LAB (KEE553)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE553.1
|
Conduct various tests on alternators and obtain their
performance indices using standard analytical, graphical and software methods.
|
|
KEE553.2
|
Analyses the performance of induction machines using standard analytical, graphical and software methods.
|
COURSE NAME: SPECIAL ELECTRICAL MACHINE (KEE-061)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE061.1
|
Study the basic concept of poly phase induction machines
|
|
KEE061.2
|
Understand the basic principle and working of induction generator
|
|
KEE061.3
|
Explain the basic concept of poly phase Stepper Motors
|
|
KEE061.4
|
Analyse the basic principle and working of Permanent Magnet Machines
|
|
KEE061.5
|
Differentiate between different type poly phase Single Phase Commutator Motors
|
COURSE NAME: MINI PROJECT/INTERNSHIP ASSESMENT (KEE554)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE554.1
|
Investigate the emerging problems in electrical engineering and solve them by referring standard journals.
|
|
KEE554.2
|
Illustrate the state-of-the-art technologies in the area of electrical engineering.
|
|
KEE554.3
|
Analyze various technological advancements in the area of machines, control system through software or hardware implementation.
|
|
KEE554.4
|
Understand and evaluate the area for future knowledge and skill development.
|
|
KEE554.5
|
Formulate a research paper and write the project report.
|
COURSE NAME: POWER ELECTRONICS (KEE603)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE603.1
|
Understand the characteristics as well as the operation of BJT, MOSFET, IGBT, SCR, TRIAC and GTO and identify their use in the power switching applications
|
|
KEE603.2
|
Ability to Comprehend the non-isolated DC-DC converters and apply their use in different Power electronics applications.
|
|
KEE603.3
|
Analyze the phase-controlled rectifiers and evaluate their performance parameters.
|
|
KEE603.4
|
Ability to apprehend the working of single-phase ac voltage controllers, cyclo-converters and their various applications.
|
|
KEE603.5
|
Ability to analyze a inverter for single and three phase system.
|
COURSE NAME: POWER SYSTEM I (KEE501)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE501.1
|
Describe the working principle and basic components of conventional power plants as well as the other aspects of power generation.
|
|
KEE501.2
|
Recognize elements of power system and their functions, as well as compare the different types of supply systems. Illustrate different types of conductors, transmission lines and various performance parameters of transmission line for short, medium and long transmission line
|
|
KEE501.3
|
Calculate sag and tension in overhead lines with and without wind and ice loading. Classify different type of insulators, determine potential distribution over a string of insulator, string efficiency and its improvement.
|
|
KEE501.4
|
Compute the inductance and capacitance of single phase, three phase lines with symmetrical and unsymmetrical spacing, composite conductors-transposition, bundled conductors, and understand the effect of earth on capacitance of transmission lines.
|
|
KEE501.5
|
Elucidate different types of cables and assess the resistance and capacitance parameters of cables, grading of cables and compare overhead lines and cables
|
COURSE NAME: INDUSTRIAL AUTOMATION AND CONTROL(KEE053)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE053.1
|
Understand the concept of automation, its terminology and basic communication protocol.
|
|
KEE053.2
|
Apply Relay logic for automation
|
|
KEE053.3
|
Learn about PLC, its operation and application in automation.
|
|
KEE053.4
|
Analyze the industrial sensors, its terminology and how one can interface with PLC.
|
|
KEE053.5
|
Demonstrate Pneumatic system and its application in industry.
|
COURSE NAME: Neural Networks & Fuzzy System (KEE056)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE056.1
|
Apply the concepts of feed forward neural networks and their learning techniques.
|
|
KEE056.2
|
Comprehend the architecture, develop algorithms and apply the concepts of back propagation networks
|
|
KEE056.3
|
Differentiate between the fuzzy and the crisp sets, apply the concepts of fuzziness and the fuzzy set theory.
|
|
KEE056.4
|
Select the membership functions, write rules and develop the fuzzy controller for Industrial applications.
|
|
KEE056.5
|
Demonstrate the working of fuzzy neural networks and identify its applications.
|
COURSE NAME: POWER SYSTEM –I LAB (KEE551)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
|
|
KEE551.1
|
Use programming tools /Software: Scilab, MATLAB or any C, C++ - Compiler and formulate a program/simulation model for calculation of various parameters related to transmission line.
|
COURSE NAME: POWER SYSTEM II (KEE601)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to )
|
|
KEE601.1
|
Identify power system components on one line diagram of power system and its
representation including the behavior of the constituent components and sub
systems and Analyse a network under both balanced and unbalanced fault
conditions and design the rating of circuit breakers.
|
|
KEE601.2
|
Perform load flow analysis of an electrical power network and interpret the results
of the analysis.
|
|
KEE601.3
|
Describe the concept of travelling waves in transmission lines and use the
travelling wave theory to determine the over voltage caused by surge propagation
in transmission networks
|
|
KEE601.4
|
Assess the steady state and transient stability of the power system under various
conditions.
|
|
KEE601.5
|
Describe Operating Principle of a relay and classify them according to
applications. Explain working principle of Circuit breaker and phenomenon of arc
production and quenching.
|
COURSE NAME: MICROPROCESSOR AND MICROCONTROLLER(KEE602)
|
Course Outcome
|
Statement (On completion of this course, the student will be able to)
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KEE602.1
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Demonstrate the basic architecture of 8085 & 8086 Microprocessors
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KEE602.2
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Illustrate the programming model of microprocessors & write program using 8085 microprocessors.
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KEE602.3
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Interface different external peripheral devices with 8085 microprocessors
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KEE602.4
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Comprehend the architecture of 8051 microcontroller
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KEE602.5
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Compare advance level microprocessor & microcontroller for different applications.
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COURSE NAME: UNDERSTANDING THE HUMAN BEING COMPREHENSIVELY – HUMAN ASPIRATIONS AND ITS FULFILLMENT (KOE069)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KOE069.1
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Understand the need, concept and content of value-education in individual’s life and modifies their aspirations for happiness & prosperity.
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KOE069.2
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Comprehend the term self-exploration and its application for self-evaluation and development.
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KOE069.3
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Reconstruct the concepts about different values & discriminate between them.
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KOE069.4
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Analyze the concept of co-existence & evaluate the program to ensure self-regulation.
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KOE069.5
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Identify the holistic perception of harmony at level of self, family, society, nature and explain it by various examples.
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KOE069.6
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Apply professional ethics in their future profession & contribute for making a value-based society.
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COURSE NAME: POWER SYSTEM –II LAB (KEE651)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KEE651.1
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Test various relays for different characteristics and compare with the performance
characteristics
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KEE651.2
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Select the power system data for load-flow and fault studies and to develop a
program to solve power flow problem using NR and GS methods
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KEE651.3
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Analyze various types of short circuit faults
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KEE651.4
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Demonstrate different numerical integration methods and factors influencing
transient stability
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KEE651.5
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Determine the effect of load in long transmission line
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COURSE NAME: MICROPROCESSOR AND MICROCONTROLLER LAB (KEE652)
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Course Outcome
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Statement (On completion of this course, the student will be able to )
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KEE652.1
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Study of microprocessor system
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KEE652.2
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Development of flow chart for understanding the data flow
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KEE652.3
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Learning assembly language to program microprocessor-based system
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KEE652.4
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Interfacing different peripheral devices with microprocessor
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KEE652.5
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Building logic for microprocessor-based system
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COURSE NAMERural Development: Adminstration and Planning (KHU701)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KHU701.1
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Students can understand the definitions, concepts and components of Rural Development
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KHU701.2
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Students will know the importance, structure, significance, resources of Indian rural economy.
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KHU701.3
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Students will have a clear idea about the area development programmes and its impact.
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KHU701.4
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Students will be able to acquire knowledge about rural entrepreneurship.
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KHU701.5
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Students will be able to understand about the using of different methods for human resource planning
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COURSE NAME: Power Quality and FACTS (KEE074)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KEE074.1
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Understand the power quality issues in electrical distribution network
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KEE074.2
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Evaluate the severity of voltage sag, voltage swell, harmonics, and transients in distribution networks
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KEE074.3
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Illustrate various sources of power quality disturbances and the basic of harmonics.
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KEE074.4
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Understand the methods to improve the power quality
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KEE074.5
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Design circuits to mitigate power quality issues
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COURSE NAME: POWER SYSTEM PROTECTION (KEE077)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KEE077.1
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Explain the purposes of protection, in relation to major types of relays and protection principles.
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KEE077.2
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Classify among the different relay principles on the basis of their characteristics.
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KEE077.3
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Identify the different protection schemes used for protection of transmission line.
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KEE077.4
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Define the various phenomenon occurred during faults and test the different circuit breakers.
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KEE077.5
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Describe the construction, working and capabilities of different type of circuit breaker for equipment and transmission line protection.
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COURSE NAME: INDUSTRIAL AUTOMATION & PLC LAB (KEE751)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KEE751.1
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Understand the automation of various plants.
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KEE751.2
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Understand the use of ladder programming for programmable logic controller.
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COURSE NAME: MINI PROJECT OR INTERNSHIP ASSESSMENT (KEE752)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KEE752.1
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Investigate the emerging problems in electrical engineering and solve them by referring standard journals.
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KEE752.2
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Illustrate the state-of-the-art technologies in the area of electrical engineering.
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KEE752.3
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Analyze various technological advancements in the area of machines, control system through software or hardware implementation.
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KEE752.4
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Understand and evaluate the area for future knowledge and skill development.
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KEE752.5
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Formulate a research paper and write the project report.
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COURSE NAME: VALUE RELATIONSHIP & ETHICAL HUMAN CONDUCT- FOR A HAPPY & HARMONIOUS SOCIETY (KOE076)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KOE076.1
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The students learn about different type of relations with expression & human conduct to attain comprehensive human goals
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KOE076.2
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Students understand about the conceptual frame work of undivided society as well as undivided human order.
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KOE076.3
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Student develop the exposure for transition from current state to the undivided society & universal human order.
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KOE076.4
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Students appreciate universal human order as continuity & expanse of order in living from family order to world family order.
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KOE076.5
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Students analyses current state & possibilities of participation in this direction to undivided society as well as universal human order.
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COURSE NAME: PROJECT (KEE753)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KEE753.1
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Identify the particular problem in the field and demonstrate independent learning.
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KEE753.2
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Plan, design and analyze the particular problem as project
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KEE753.3
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Demonstrate the usefulness of project in society and understanding of professional ethics and participate in a class or project team.
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COURSE NAME: Project Management & Entrepreneurship(KHU802)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KHU802.1
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Students can understand the conceptual model of entrepreneurship.
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KHU802.2
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Students will know about business opportunity and creating sustainable enterprise.
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KHU802.3
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Students can understand the preparation of a real time project feasibility report.
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KHU802.4
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Students will understand the Project finance and preparation of detailed project report.
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KHU802.5
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Students will be able to understand about Social Entrepreneurship Opportunities and Successful Models.
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COURSE NAME: Computerized Process Control(KOE092)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KOE092.1
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Describe basics of Computerized process control, various types of Computerized process control, its classification and interfaces used.
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KOE092.2
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Discuss communication system used in industrial Computerized process control and basic knowledge of real time operating system
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KOE092.3
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Illustrate Mathematical model of computerized process control
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KOE092.4
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Apply informative computerized control for advanced control strategies in an industrial environment.
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KOE092.5
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Summarize various application of Computer Aided process control in industries
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COURSE NAME: Project II(KEE851)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KEE851.1
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Identify the particular problem in the field and demonstrate independent learning.
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KEE851.2
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Plan, design and analyze the particular problem as project
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KEE851.3
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Demonstrate the usefulness of project in society and understanding of professional ethics and participate in a class or project team.
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COURSE NAME: Introduction To Smart Grid(KOE084)
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Course Outcome
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Statement (On completion of this course, the student will be able to)
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KOE084.1
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Understand the features of Smart Grid.
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KOE084.2
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Assess the role of metering and automation.
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KOE084.3
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Understand Power distribution sector framework with different loads and generating sources.
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KOE084.4
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Analyse microgrids and Distributed energy resources (DER) with integration of different sources.
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KOE084.5
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Understand operation and importance of power quality in smart grid.
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