CO1	demonstrate differential equations of the engineering problems.
CO2	solve analytic function of a complex variable.
CO3	calculate various integration solutions.
CO4	illustrate mathematical solution of social problems

BTEEC 302. NETWORK ANALYSIS AND SYNTHESIS

CO1	describe basic components of electric network.
CO2	design and develop network equations and their solutions.
CO3	apply laplace theorem for electric network analyses
CO4	evaluate two-port network parameters.
CO5	design attenuators and equalizers

BTEEC 303. FLUID MECHANICS AND THERMAL ENGINEERING

CO1	describe properties of fluid and hydraulic measurement
CO2	determine basic concepts of IC engines.
CO3	sovle fluid problems,
CO4	illustrate of thermo-fluid problem
CO4	evaluate and create an thermal system.

BTEEC 304 MEASUREMENT AND INSTRUMENTATIONs

CO1	analyze philosophy of measurement.
CO2	explain methods of analog and digital measurement.
CO3	demonstrate transducer principle operation.
CO4	use modern instruments for process control of automation.
CO5	select appropriate instrument for measurement.

BTHM3401 - Basic Human Rights

CO1	describe the historical growth of the idea of human rights
CO2	create an awareness of the international human rights.
CO3	describe the importance of the Human Rights Act 1998.
CO4	predict concepts of basic human rights.

BTHM306. - ENGINEERING ECONOMICS

CO1	outline the concept of time value of money.
CO2	determine load demand.
CO3	describe production and factors of production.
CO4	categorize different concepts about market.
CO5	analyze economic development.
CO6	use of economic laws.

BTEEE 305A - ELECTRICAL ENGINEERING MATERIALS

CO1	analyze various crystal structure for different applications.
CO2	describe the importance of magnetic properties and superconductivity.
CO3	explain and classify behavior of conductive and semiconductive materials.
CO4	demonstrate the dielectric properties of insulators.
CO5	define the properties of nano materials.

BTEEL307 - NETWORK ANALYSIS AND SYNTHESIS LABORATORY

CO1	determine principles of network theorem.
CO2	analyze mathematical results with experimental results of network theorems.
CO3	use circuit reduction techniques.
CO4	simplify the complicated circuit.

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.
CO2	compare the performance characteristics of machines.
CO3	illustrate performance of the equivalent circuit.
CO4	Perform parallel operation, tap-changing of three phase transformers.
CO5	Identify possible applications of different machines.

BTEEC402 : - POWER SYSTEM-I

CO1	Explain basic operation of power system components .
CO2	Model the layout of generation and distribution power plant.
CO3	Analyze different major equipments used in power system.
CO4	Identify effects of problems arise in transmission lines.
CO5	Summarize the effect of wind & ice coating on transmission line.

BTEEC 403 - ELECTRICAL INSTALLATION AND ESTIMATION

CO1	Prepare estimate of domestic and commercial electrical installations.
CO2	summarize the scheme of illumination system.
CO3	describe methods of wiring systems.
CO4	demonstrate estimate of overhead & underground distribution lines
CO5	label the costing of electrical installation of power system.

BTEEC 404 - NUMERICAL METHODS AND PROGRAMMING

CO1	formulate MATLAB programming.
CO2	explain Newton-Raphson method in single variable.
CO3	develop computer program for linear and nonlinear equations.
CO4	evaluate program for numerical differentiation and integration.
CO5	Describe MATLAB function in Fixed-point iteration in single variable.

BTEEC404 - Product Design Engineering

CO1	Create simple mechanical or other designs
CO2	Create design documents for knowledge sharing
CO3	Manage own work to meet design requirements
CO4	Discuss & work effectively with colleagues

BTEEE 405B - ANALOG AND DIGITAL ELECTRONICS

CO1	select proper instruments & set up testing strategies
CO2	evaluate performance characteristics of electronic circuit.
CO3	analyze operation of different digital components.
CO4	recall types of wiring and instruments connections.
CO5	discuss technical, economical, safety issues.

BTEEOE 407B - INTRODUCTION TO NON-CONVENTIONAL ENERGY SOURCES

CO1	demonstrate the generation of electricity from various sources of energy.
CO2	analyze harnessing of solar energy.
CO3	illustrate harnessing of wind energy
CO4	explain the operational methods of ocean energy utilization.
CO5	acquire the knowledge on Geothermal energy.

BTEEL 408 - ELECTRICAL MACHINE-I LABORATORY

CO1	describe construction, principle operation of electrical Machine.
CO2	apply energy conversion principles to machines.
CO3	select machine for specific applications.
CO4	apply testing on the machine for performance calculation.
CO5	acquire knowledge about characterstics of machines.

BTEEL 409 - POWER SYSTEM-I LABORATORY

CO1	Explain basic operation of power system components.
CO2	Model the layout of generation and distribution power plant.
CO3	Analyze different major equipments used in power system.
CO4	Identify effects of problems arise in transmission lines.
CO5	Summarize the effect of wind & ice coating on transmission line.

BTEEL 410 - NUMERICAL METHODS AND PROGRAMMING LABORATORY

CO1	acquire basic knowledge in Finding the rank of matrices.
CO2	solving algebraic and transcendental equations by numerical methods.
CO3	verify different types of mathematical methods.
CO4	implement simulation model.
CO5	develop computer program for matrix.
CO6	develop program for scan conversion of a straight line, circle, ellise, rectangle, circle, arc.

BTEEL 411 - ANALOG AND DIGITAL ELECTRONICS LABORATORY

CO1	compare analog and digital electronics systems.
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.
CO2	evauate transmission line efficiency and regulation.
CO3	Develop the positive, negative and zero sequence network for a given system.
CO4	Recognise the common causes of faults in power system.
CO5	Formulate the power flow problems using load flow methods.

BTEEC 503 - MICROPROCESSOR AND MICRO CONTROLLER

CO1	recognize the architecture of 8085 and 8051.
CO2	describe features of 8085 and 8051.
CO3	develop program for basic applications.
CO4	design electrical circuit on the Microprocessor I/O ports.
CO5	discuss the pin configuration and memory organisation of microprocessor and microcontroller.

BTHM 504 - VALUE EDUCATION, HUMAN RIGHTS AND LEGISLATIVE PROCEDURES

CO1	define moral values of the society
CO2	identify a sense of right and wrong based on the moral philosophy.
CO3	discuss of the problems of modern society.
CO4	recognize professional ethics and ethical practices in profession.
CO5	categorize environmental values.

BTEEE 505 ELECTIVE- IV - C - Testing and Maintenance of Electrical equipment

CO1	analyze testing of electrical equipment by various methods as per ISI standards.
CO2	determine the faults in equipment during manufacturing.
CO3	demonstrate modern techniques for detecting faults
CO4	develop maintenance schedule of different equipment.

BTEEE 506 : ELECTIVE-V. A. - ELECTRICAL MOBILITY

CO1	use the concept of electric mobility for developing an electric vehicle..
CO2	Programme is aimed at the future application fields of electric mobility and energy storage systems.
CO3	demonstrate different configurations of electric vehicles.
CO4	model the power electronics converter in eletric and hybrid vehicles.
CO5	summarize benefits of electric vehicle for environment over to IC engine cars.

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.

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