DBATU - Syllabus
Course Outcome
BTBSC301 - Engineering Mathematics III
CO1
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demonstrate differential equations of the engineering problems.
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CO2
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solve analytic function of a complex variable.
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CO3
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calculate various integration solutions.
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CO4
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illustrate mathematical solution of social problems
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BTEEC 302. NETWORK ANALYSIS AND SYNTHESIS
CO1
|
describe basic components of electric network.
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CO2
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design and develop network equations and their solutions.
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CO3
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apply laplace theorem for electric network analyses
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CO4
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evaluate two-port network parameters.
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CO5
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design attenuators and equalizers
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BTEEC 303. FLUID MECHANICS AND THERMAL ENGINEERING
CO1
|
describe properties of fluid and hydraulic measurement
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CO2
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determine basic concepts of IC engines.
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CO3
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sovle fluid problems,
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CO4
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illustrate of thermo-fluid problem
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CO4
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evaluate and create an thermal system.
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BTEEC 304 MEASUREMENT AND INSTRUMENTATIONs
CO1
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analyze philosophy of measurement.
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CO2
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explain methods of analog and digital measurement.
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CO3
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demonstrate transducer principle operation.
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CO4
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use modern instruments for process control of automation.
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CO5
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select appropriate instrument for measurement.
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BTHM3401 - Basic Human Rights
CO1
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describe the historical growth of the idea of human rights
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CO2
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create an awareness of the international human rights.
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CO3
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describe the importance of the Human Rights Act 1998.
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CO4
|
predict concepts of basic human rights.
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BTHM306. - ENGINEERING ECONOMICS
CO1
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outline the concept of time value of money.
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CO2
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determine load demand.
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CO3
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describe production and factors of production.
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CO4
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categorize different concepts about market.
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CO5
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analyze economic development.
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CO6
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use of economic laws.
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BTEEE 305A - ELECTRICAL ENGINEERING MATERIALS
CO1
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analyze various crystal structure for different applications.
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CO2
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describe the importance of magnetic properties and superconductivity.
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CO3
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explain and classify behavior of conductive and semiconductive materials.
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CO4
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demonstrate the dielectric properties of insulators.
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CO5
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define the properties of nano materials.
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BTEEL307 - NETWORK ANALYSIS AND SYNTHESIS LABORATORY
CO1
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determine principles of network theorem.
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CO2
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analyze mathematical results with experimental results of network theorems.
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CO3
|
use circuit reduction techniques.
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CO4
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simplify the complicated circuit.
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BTEEL308. - MEASUREMENTS AND INSTRUMENTATION LABORATORY
CO1 |
Measure Voltage, Current, Power factor , Power, Energy. |
CO2 |
perform PMMC and Moving Iron type Instruments. |
CO3 |
calibrate the Bourdon tube pressure gauge. |
CO4 |
calculate value of resistance using AC Bridges. |
BTEEM309. - ELECTRICAL WORKSHOP/ MINI PROJECT
CO1 |
verifies basic scientific principles. |
CO2 |
design Small electronic project based on hardware & software. |
CO3 |
build core hardware projects. |
CO4 |
develope technical projects as an individual or in a team. |
Sem - 4
BTEEC 401. - ELECTRICAL MACHINES – I
CO1
|
describe operation of DC and AC machines.
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CO2
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compare the performance characteristics of machines.
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CO3
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illustrate performance of the equivalent circuit.
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CO4
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Perform parallel operation, tap-changing of three phase transformers.
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CO5
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Identify possible applications of different machines.
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BTEEC402 : - POWER SYSTEM-I
CO1
|
Explain basic operation of power system components .
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CO2
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Model the layout of generation and distribution power plant.
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CO3
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Analyze different major equipments used in power system.
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CO4
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Identify effects of problems arise in transmission lines.
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CO5
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Summarize the effect of wind & ice coating on transmission line.
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BTEEC 403 - ELECTRICAL INSTALLATION AND ESTIMATION
CO1
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Prepare estimate of domestic and commercial electrical installations.
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CO2
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summarize the scheme of illumination system.
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CO3
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describe methods of wiring systems.
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CO4
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demonstrate estimate of overhead & underground distribution lines
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CO5
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label the costing of electrical installation of power system.
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BTEEC 404 - NUMERICAL METHODS AND PROGRAMMING
CO1
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formulate MATLAB programming.
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CO2
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explain Newton-Raphson method in single variable.
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CO3
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develop computer program for linear and nonlinear equations.
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CO4
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evaluate program for numerical differentiation and integration.
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CO5
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Describe MATLAB function in Fixed-point iteration in single variable.
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BTEEC404 - Product Design Engineering
CO1
|
Create simple mechanical or other designs
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CO2
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Create design documents for knowledge sharing
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CO3
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Manage own work to meet design requirements
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CO4
|
Discuss & work effectively with colleagues
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BTEEE 405B - ANALOG AND DIGITAL ELECTRONICS
CO1
|
select proper instruments & set up testing strategies
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CO2
|
evaluate performance characteristics of electronic circuit.
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CO3
|
analyze operation of different digital components.
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CO4
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recall types of wiring and instruments connections.
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CO5
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discuss technical, economical, safety issues.
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BTEEOE 407B - INTRODUCTION TO NON-CONVENTIONAL ENERGY SOURCES
CO1
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demonstrate the generation of electricity from various sources of energy.
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CO2
|
analyze harnessing of solar energy.
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CO3
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illustrate harnessing of wind energy
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CO4
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explain the operational methods of ocean energy utilization.
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CO5
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acquire the knowledge on Geothermal energy.
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BTEEL 408 - ELECTRICAL MACHINE-I LABORATORY
CO1
|
describe construction, principle operation of electrical Machine.
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CO2
|
apply energy conversion principles to machines.
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CO3
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select machine for specific applications.
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CO4
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apply testing on the machine for performance calculation.
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CO5
|
acquire knowledge about characterstics of machines.
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BTEEL 409 - POWER SYSTEM-I LABORATORY
CO1
|
Explain basic operation of power system components.
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CO2
|
Model the layout of generation and distribution power plant.
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CO3
|
Analyze different major equipments used in power system.
|
CO4
|
Identify effects of problems arise in transmission lines.
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CO5
|
Summarize the effect of wind & ice coating on transmission line.
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BTEEL 410 - NUMERICAL METHODS AND PROGRAMMING LABORATORY
CO1
|
acquire basic knowledge in Finding the rank of matrices.
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CO2
|
solving algebraic and transcendental equations by numerical methods.
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CO3
|
verify different types of mathematical methods.
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CO4
|
implement simulation model.
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CO5
|
develop computer program for matrix.
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CO6
|
develop program for scan conversion of a straight line, circle, ellise, rectangle, circle, arc.
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BTEEL 411 - ANALOG AND DIGITAL ELECTRONICS LABORATORY
CO1
|
compare analog and digital electronics systems.
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CO2 |
analyze operation different electronic circuits. |
CO3 |
evaluate possible causes of discrepancy in practical experiment. |
CO4 |
design simple logic circuits. |
CO3 |
identify the various digital ICs and understand their operation. |
Sem - 5
BTEEC 501 - ELECTRICAL MACHINE-II
CO1
|
define methods of speed control of AC and DC motor. |
CO2 |
perform testing on AC and DC motor. |
CO3 |
determine operating characteristics of AC and DC machines. |
CO4 |
obtain simple equivalent circuit for the machine. |
CO5 |
learn the construction and principle of operation of different kinds of rotating AC machines. |
BTEEC 502 - POWER SYSTEM-II
CO1
|
Analyse sending end voltage, receiving end voltage.
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CO2
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evauate transmission line efficiency and regulation.
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CO3
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Develop the positive, negative and zero sequence network for a given system.
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CO4
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Recognise the common causes of faults in power system.
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CO5
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Formulate the power flow problems using load flow methods.
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BTEEC 503 - MICROPROCESSOR AND MICRO CONTROLLER
CO1
|
recognize the architecture of 8085 and 8051.
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CO2
|
describe features of 8085 and 8051.
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CO3
|
develop program for basic applications.
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CO4
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design electrical circuit on the Microprocessor I/O ports.
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CO5
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discuss the pin configuration and memory organisation of microprocessor and microcontroller.
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BTHM 504 - VALUE EDUCATION, HUMAN RIGHTS AND LEGISLATIVE PROCEDURES
CO1
|
define moral values of the society
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CO2
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identify a sense of right and wrong based on the moral philosophy.
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CO3
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discuss of the problems of modern society.
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CO4
|
recognize professional ethics and ethical practices in profession.
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CO5
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categorize environmental values.
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BTEEE 505 ELECTIVE- IV - C - Testing and Maintenance of Electrical equipment
CO1
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analyze testing of electrical equipment by various methods as per ISI standards.
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CO2
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determine the faults in equipment during manufacturing.
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CO3
|
demonstrate modern techniques for detecting faults
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CO4
|
develop maintenance schedule of different equipment.
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BTEEE 506 : ELECTIVE-V. A. - ELECTRICAL MOBILITY
CO1
|
use the concept of electric mobility for developing an electric vehicle..
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CO2
|
Programme is aimed at the future application fields of electric mobility and energy storage systems.
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CO3
|
demonstrate different configurations of electric vehicles.
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CO4
|
model the power electronics converter in eletric and hybrid vehicles.
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CO5
|
summarize benefits of electric vehicle for environment over to IC engine cars.
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BTEEL 507 - Electrical Machine-II Lab
CO1 |
verify the operating characteristics of different machines. |
CO2 |
apply concept of speed control of different machines. |
CO3 |
calculate the load sharing of transformers in the power engineering. |
CO4 |
calculate the parameters of both transformer and induction motor. |
BTEEL 508 - Power System-II Lab
CO1 |
analyse different types of faults in power systems. |
CO2 |
calculate fault occuring in transmission line. |
CO3 |
use the DC load flow analysis for estimation of different power systems. |
CO4 |
analyze stability problems in multi machine power system. |
BTEEL 509 - MICROPROCESSOR AND MICRO CONTROLLER LAB
CO1 |
develop program for basic applications. |
CO2 |
design programs on 8085 microprocessor. |
CO3 |
build the interfacing circuits with 8085. |
CO4 |
explain the concepts related to I/O and memory interfacing. |
Sem - 6
BTEEC 601 - CONTROL SYSTEM
CO1 |
describe the behaviour of nonlinear control system. |
CO2 |
design PID controller. |
CO3 |
analyze state variable technique. |
CO4 |
analyze suitable control system for engineering application. |
BTEEC 602 - PRINCIPLES OF ELECTRICAL MACHINE DESIGN
CO1 |
illustrate the principle of electric machine design. . |
CO2 |
design different components of electric machine. |
CO3 |
describe concepts of synchronous machines. |
CO4 |
solve the problems related to design. |
CO5 |
list out design of machines based on their applications. |
BTEEC 603 - POWER ELECTRONICS
CO1 |
choose fundamental concepts and techniques. |
CO2 |
develop skills to build troubleshoot in power electronics circuits. |
CO3 |
classify the power semiconductor devices. |
CO4 |
recognize the role power electronics in the improvement of efficiency. |
CO5 |
select suitable power convertersin industry grade apparatus. |
BTEEE604 : Elective-VI: A. - INDUSTRIAL AUTOMATION AND CONTROL
CO1 |
explain operation of different industrial measurement systems.system. |
CO2 |
develope new trends in industrial process control. |
CO3 |
apply hydraulic solutions for designing automated systems. |
CO4 |
implement electro-pneumatic/hydraulic solutions for automated systems. |
CO5 |
apply PLC programming and implement it on PLC kits. |
BTEEE 605 ELECTIVE-VII A. - SWITCH GEAR AND PROTECTION
CO1 |
explain the working of different types of switchgear equipments. |
CO2 |
select methods of over voltage protection. |
CO3 |
use of switchgear equipments in various application. |
CO4 |
derive protection schemes used in power system operation |
CO5 |
develop an ability and skill to design the feasible protection systems. |
BTEEOE606 ELECTIVE - VIII. B. - PROJECT MANAGEMENT
CO1 |
use concepts of project management. |
CO2 |
develop a project plan. |
CO3 |
implement the project strategy. |
CO4 |
analyze post project affects. |
BTEEL 607 - Control System Lab
CO1 |
derive the time and frequency response of the system. |
CO2 |
model of dynamical systems. |
CO3 |
analyze the stability of the system using MATLAB. |
CO4 |
verify the control technique using MATLAB. |
BTEEL 608 - Principles of Electrical Machine Design Lab
CO1 |
select proper material for the design of an electrical machine. |
CO2 |
design Stator core & stator winding of an Induction motor. |
CO3 |
calcuate load current & other performance characrteristics. |
CO4 |
estimate the performance characteristics of Transformer. |
BTEEL 609 - Power Electronics Lab
CO1 |
design the power electronics circuits. |
CO2 |
evaluate characteristics of power semiconductor devices. |
CO3 |
choose the testing strategies of Power devices. |
CO4 |
evaluate performance characteristics power electronics circuits. |
CO5 |
analyze their operation under different loading conditions |
Sem - 7
BTEEC 701 - Power System Operation & Control
CO1 |
develop mathematical models of power system components |
CO2 |
analyze synchronous machine & excitation system modelling. |
CO3 |
analyze the performance of systems under different conditions. |
CO4 |
formulate the power flow problems using different techniques. |
BTEEC 702 - High Voltage Engineering
CO1 |
Understand the engineering aspects of EHV AC transmission system. |
CO2 |
analyze various transients in transmission line |
CO3 |
design transient protection for power system. |
CO4 |
choose the testing methods for apparatus in power system. |
CO5 |
derive the voltage control principles. |
CO6 |
perform a dynamic response of high voltage measurement systems. |
BTEEC 703 - Electrical Drive
CO1 |
analyze the dynamics of electrical drives system. |
CO2 |
use control techniques for speed control of AC and DC motors. |
CO3 |
select the appropriate drive according to the applications. |
CO4 |
use of recent technology of AC and DC drives. |
BTEEE 704-A - Special Purpose Electrical Machines
CO1 |
explain the working of synchronous machines. |
CO2 |
illustrate principle of operation & construction of machines. |
CO3 |
design power converter for switched reluctance motor. |
CO4 |
explain the control aspect of special electrical machines. |
CO5 |
describe the features of motors for traction applications. |
BTEEE 705-B - Energy Audit & Conservation (Elecctive X)
CO1 |
discuss Global Environmental Issues. |
CO2 |
estimate Energy efficiency opportunities. |
CO3 |
analyze Energy Conservation Proposals economically and prepare audit reports. |
CO4 |
identify methods for energy management. |
CO5 |
analyze the energy data and electric tariff for implementation of DSM. |
BTEEL 706 - Power System Operation & Control
CO1 |
develop a program for economic dispatch in power systems. |
CO2 |
analyze equal area criteria. |
CO3 |
demonstrate the Excitation System for Syn. machine using MATLAB. |
CO4 |
evaluate power angle curve using MATLAB. |
CO5 |
derive single area load frequency control using MATLAB. |
BTEEL 707 - High Voltage Engineering
CO1 |
explain importance of insulation providing for the high voltage equipment. |
CO2 |
choose methods of breakdown mechanisms in application of high voltages. |
CO3 |
aware of generation & measurement of high voltage and currents. |
CO4 |
build the knowledge of insulation co-ordination. |
CO5 |
create information on testing of electrical apparatus. |
BTEEL 708 - Electrical Drive Lab
CO1 |
identify relevant information to supplement to the Electric Drives. |
CO2 |
use standard methods to determine accurate simulation parameters. |
CO3 |
estimate constraints, uncertainties and risks of the system. |
CO4 |
design systems with electric drives. |
Post Graduate
MTEPS 101 - POWER SYSTEM DYNAMICS AND CONTROL
CO1 |
develop power system component modeling. |
CO2 |
analyse modeling of synchronous machine. |
CO3 |
solve on simulation models. |
CO4 |
describe configuration and functioning of synchronous machine excitation system. |
MTEPS 102 - RENEWABLE ENERGY SYSTEM
CO1 |
describe current energy scenario and their impact on environment. |
CO2 |
predict the process of power generation by renewable energy sources. |
CO3 |
3 solve configuration of various renewable energy systems |
CO4 |
recite various forms of energy storage and their importance. |
CO5 |
analyze the performance of grid connected system. |
CO6 |
solve the various standards and quality issues for grid integration. |
MTEPS 203-C - MTEPS103. ADVANCED POWER ELECTRONICS
CO1 |
describe the behaviour of power semiconductor devices. |
CO2 |
analyze operation of various power converters. |
CO3 |
slove advance power conversion techniques. |
CO4 |
Apply power conversion technology for exploring RES. |
CO5 |
design and test power electronic circuits in the laboratory. |
MTEPS 104-1 - HIGH VOLTAGE POWER TRANSMISSION
CO1 |
design engineering aspects of EHV AC transmission system. |
CO2 |
analyze various transients in transmission line. |
CO3 |
design transient protection for power system. |
CO4 |
explain voltage control principles. |
MTEPS 205-3 MTEPS105-1: POWER SYSTEM PLANNING AND RELIABILITY
CO1 |
explain load forecasting and planning techniques. |
CO2 |
predict concepts of reliability to design secure and reliable networks. |
CO3 |
solve planning and reliability for generation, transmission, and distribution system. |
CO4 |
solve on simulation models. |
CO5 |
describe configuration and functioning of synchronous machine system. |
MTEPS 106 - COMMUNICATION SKILLS
CO1 |
apply communication skills across settings, purposes, and audiences. |
CO2 |
identify and control anxiety while delivering speech. |
CO3 |
justify and control the tone while speaking. |
CO4 |
develop a plan to deliver the well-argued presentations. |
MTEPS 107 - P.G. LABORATORY – I
CO1 |
design the practical circuits for applications. |
CO2 |
model different electrical and electronics systems. |
CO3 |
test the circuit performance for comparative study. |
CO4 |
define the computing requirements appropriate to its solution. |
MTME 201 - POWER SYSTEM DYNAMICS AND CONTROL
CO1 |
explain various models of Synchronous machine. |
CO2 |
analyze SMIB performance for various conditions. |
CO3 |
describe philosophy of power system stabilizer and their applications. |
CO4 |
evaluate small signal stability analysis with and without controller. |
CO5 |
apply various small signal stability enhancement techniques. |
MTEPS 202 - ADVANCED POWER SYSTEM PROTECTION
CO1 |
summarize philosophy of various relays used in protection. |
CO2 |
predict basic principle of digital relaying |
CO3 |
describe the concept of protection. |
CO4 |
solve on simulation models. |
MTEPS 203 - DISTRIBUTED GENERATION AND MICROGRID
CO1 |
describe exploration of renewable energy sources. |
CO2 |
analyse philosophy of distributed generation. |
CO3 |
slove various issues of DG with grid integration. |
CO4 |
predict the concept of micro grid and various power quality issues. |
MTEPS 204 - A APPLICATION OF POWER ELECTRONICS TO POWER SYSTEM
CO1 |
restate the concept of FACTs. |
CO2 |
solve the problems occurring power transmission. |
CO3 |
analyse the FACT controllers. |
CO4 |
predict the active filtering techniques in mitigation of harmonic distortion. |
MTEPS 205 - ENERGY MANAGEMENT AND AUDITINGS
CO1 |
analyse principles of energy audit and energy management. |
CO2 |
apply load management technique. |
CO3 |
describe present state of energy security and its importance. |
CO4 |
slove use of various energy metering tools in energy management. |
CO5 |
identify the basic principles and methodologies adopted in energy audit of utility. |
MTEPS 206 - SEMINAR-I
CO1 |
develops writing technical report writing skill. |
CO2 |
demonstrate presentation skill. |
CO3 |
judge when to speak and how much to say, speak clearly and audibly. |
CO4 |
demonstrate that they have paid close attention to what others say. |
MTEPS 207 - P G LABORATORY II / MINI PROJECT
CO1 |
model the different electrical and electronics systems practically |
CO2 |
test the circuit performance for comparative study |
CO3 |
design the practical circuits for applications. |
CO4 |
define the computing requirements appropriate to its solution. |
MTEPS 301 - PROJECT MANAGEMENT AND INTELLECTUAL PROPERTY RIGHTS
CO1 |
demonstrate fundamental terms such as copy-rights ,Patents. |
CO2 |
interpret and follow Laws to register own project research. |
CO3 |
exhibit the enhance capability to do economic analysis of commercial strategies. |
CO4 |
develop awareness at all levels of society. |
MTEPS 302 PROJECT PHASE-I
CO1 |
identify suitable area of work and conduct detailed literature survey. |
CO2 |
formulate the problem statement. |
CO3 |
define aim and objectives of with probable solution methodology. |
CO4 |
analyze the iterative processes of a project correctly. |
MTEPS 401 - PROJECT PHASE-II
CO1 |
Design and test the developed system. |
CO2 |
Analyze the performance of the system. |
CO3 |
create the technical report. |
CO4 |
genrate & publish research paper. |