COURSE OUTCOMES (COs)

BE Electrical Engineering

At the end of the course, the student should be able to:

Engineering Mathematics – III

CO1:Able to apply methods of solving differential equations to the engineering problems they face in industry.
CO2:Able to understand analytic function of a complex variable. Able to apply Cauchy Integral theorem and Cauchy residue theorem to solve contour integrations.
CO3:Able to apply Laplace Transform and Inverse Laplace Transform which are very useful in solving Initial Value Problems.
CO4:Able to apply Laplace Transform in solving problems related to their engineering field and other future courses.
CO5:Able to use Fourier transforms, Fourier Sine Transforms, Fourier Cosine transforms, Z transforms and their Inverses to solve various integration problems.
CO6:Able to use mathematics in higher studies for analysis and optimal design of system.


Power Plant Engineering

CO1:Apply basic knowledge of science, mathematics and engineering for understanding thermal studies.
CO2:Understand advantages, disadvantages of different types of power plant on the basis of economy and environmental aspects.
CO3:Understand basic working, selection of different boilers, their mountings and accessories.
CO4:Understand selection of water turbine for hydro electric power plant and working of diesel engine power plant.
CO5:Understand basic working of Nuclear power plant, social, safety and environmental considerations.
CO6:Do professional duties in technical field of power plants for economical development.


Electrical Measurement-I

CO1:Understand the basic concepts in measurement and measuring instruments.
CO2:Understand the need and process of standardization, calibration of instruments, their significance in process and manufacturing industries for international acceptance.
CO3:Understand the working principles of measuring instruments and their applications with extension of ranges.
CO4:Select instruments on basis of accuracy, sensitivity and response time in generation transmission, manufacturing, power system ,testing and energy auditing purposes.
CO5:Perform technical and professional duties in any type of industries.
CO6:Do higher studies and use of modern instruments for techno-economical developments.


Power System-I

CO1:Apply basic knowledge of science and mathematics and understand various power generating plants.
CO2:Understand the factors to be consider in site selection for different power plants in view of social, environmental and safety.
CO3:Understand need and concept of different auxiliaries in power plants.
CO4:Understand hydrology, load factor, load duration curves in view of economical considerations.
CO5:To familiarize with different transmission systems and their components.
CO6:Do higher studies in generation planning, generation scheduling and load dispatch.


Electrical Engineering Materials

CO1:Classify different electrical engineering materials and testing of various electrical Engineering materials.
CO2:Understand the electrical and thermal characteristics of conducting, semiconducting, insulating and magnetic materials for the manufacturing of electrical machines and electronic components.
CO3:Understand and plot the B-H curve of different magnetic materials, their suitability in manufacturing of energy efficient electrical machines.
CO4:Understand dielectric properties of insulating materials in static and alternating fields.
CO5:Recognize the materials used for solar photovoltaic systems and nanotechnology.
CO6:Do higher studies in solar photovoltaic material for green and clean power generation in view of sustainable development through environmental and safety aspects.


Analog & Digital Electronics

CO1:Apply basic knowledge of science and engineering to understand electronic devices and circuits.
CO2:Understand the construction and working principles of different electronic devices.
CO3:Analyze the circuit for determination of circuit parameters and response of electronic devices.
CO4:Understand the use of different electronic devices such as BJT,FET,OPP,IC 555, PLL,etc
CO5:Understand and implement simple digital electronic circuits, able to use updated software and tools for continuous updating of knowledge.
CO6:Do higher studies in Power Electronics, Modern Drives and Flexible AC Transmission System (FACTS).


Network Analysis

CO1:Identify the network, principal elements of electric circuits: nodes, loops, mesh, branches, voltage and current sources and topological description of a network.
CO2:Solve problems related to initial and final condition of a network.
CO3:Write the differential equation of first-order and second –order circuits in standard Form and determine the complete solution of first-order and second order circuits excited by switched DC sources.
CO4:Analyze waveform using Laplace & Fourier transform.
CO5:Compute different theorems for networks containing linear resistors and Independent and dependent sources.
CO6:Understand the meaning of steady state and transients by inductor and capacitor in circuits and write differential equations for such circuits.
CO7:Do higher studies in power system analysis under transient condition with help of modern tools.


Electrical Machines – I

CO1:Apply basic knowledge of science and engineering for understanding electrical machines.
CO2:Understand construction, concepts, principles of operation & testing of dc machines and transformers.
CO3:Analyze data for qualitative and quantitative parameters to determine characteristics of machines.
CO4:Apply knowledge of electrical machines for technological subjects such as utilization of electrical energy, switch gear & protection, manufacturing processes and safety precautions.
CO5:Discharging duties in technical field for economical, societal and sustainable developments.
CO6:Do higher studies and able to use updated software for continuous updating of knowledge.


Electrical Installation Estimation and Distribution

CO1:Understand various methods of power distribution system.
CO2:Analyze parameter and design of different transmission components.
CO3:Draw substation layout as per the requirements, design of conductor size and components of systems as per IS.
CO4:Prepare the detailed wiring, earthing estimates of residential, commercial building and industrial sectors.
CO5:To familiarize with different scheme of illumination systems.
CO6:Discharge the professional duties in the field of electrical installations.


Numerical Techniques

CO1:Solve polynomial and transcendental equations.
CO2:Solve linear algebraic equations, simultaneous equations.
CO3:Solve Interpolate by Lagrange’s & Newton methods.
CO4:Solve ordinary differential equations by using Euler’s method, Runge Kutta method, Taylor’s Method and predictor - corrector method.
CO5:Develop computer program for above methods.
CO6:Do higher studies in power system such as load flow study and power system optimization.


Electrical Machines – II

CO1:Apply basic knowledge of science and engineering to understand electrical machines.
CO2:Understand construction, concepts, principles of operation, testing and application of synchronous machines, induction motor and special function motors.
CO3:Understand the behaviour of synchronous machine on infinite bus and analyze data for qualitative and quantitative parameters to determine characteristics of machines by performing practical.
CO4:Perform professional duties in team of manufacturing, testing, operation and maintenance with the sense of safety precautions.
CO5:Apply knowledge for technological subjects such as utilization of electrical energy, switch gear and machine design for economical and sustainable developments.
CO6:Do higher studies and able to use updated software and tools for continuous updating of knowledge.


Power System – II

CO1:Apply basic knowledge of science and engineering to understand power system.
CO2:Describe the role of Power System Engineer and necessity of power system analysis to provide good quality, uninterruptable service to the consumer.
CO3:Represent synchronous machine, transmission line and power transformer to evaluate the performance of power system.
CO4:Evaluate reactance of synchronous machine on no load and loaded condition.
CO5:Analyze the power system in terms of symmetrical and unsymmetrical components to calculate the effect of symmetrical and unsymmetrical faults on power system.
CO6:Understand the concept of load flow analysis for continuous monitoring of power system by using modern computational techniques.
CO7:Do higher studies in the field of power system analysis and discharge the professional duties as Power System Engineer for economical development through modern technology.


Power Electronics

CO1:Describe the role of Power Electronics as an enabling technology in various applications such as flexible production systems, energy conservation, renewable energy, transportation etc.
CO2:Understand the behavior of semiconductor devices operated as power switches.
CO3:Learn the basic concepts of operation of dc-dc converters in steady state in continuous and discontinuous modes and be able to analyze basic converter topologies.
CO4:Ability to analyze and design ac-to-dc circuits.
CO5:Ability to analyze and design dc-to-ac inverters.
CO6:Design power factor correction (PFC) circuits to draw sinusoidal currents at unity power factor.
CO7:Understand and design single-phase and three-phase thyristor converters.
CO8:Ability to design, set up, and test power electronic circuits in the laboratory
CO9:Learn the role of Power Electronics in utility-related applications which are becoming extremely important.


Electromagnetic Engineering

CO1:Apply basic concepts of scalars and vector quantities to evaluate the impact of electromagnetic fields.
CO2:Understand the basic concepts of static electric field and its associated quantity to evaluate the force between two point charges using Coulomb’s Law.
CO3:Know the boundary condition, particularly a boundary between conducting material and free space.
CO4:Use Poisson’s and Laplacian equations to calculate potential, capacitance and Electric field.
CO5:Understand the magnetization principle and Biot-savart law and its importance.
CO6:Analysis how a time varying magnetic field induces an electric field and apply Maxwell’s equation for analysis of static , dynamic field conditions.
CO7:Understand of different antennas, parameters, principle pattern multiplication


Industrial Organization & Management

CO1:Understand various aspects of management.
CO2:Understand the concepts of human resource management, marketing management, financial management, production and operation management.
CO3:Estimate the financial feasibility of business and identify the various sources of financing Understand different industrial laws in views of safety, pollutions and societal developments.
CO4:Discharge professional duties in field of manufacturing and operational management.
CO5:Function on multidisciplinary teams and able to understand the impact of engineering solutions in a global, economic, environmental, and societal context.
CO6:Do higher study in various new disciplines in the area of management like entrepreneurs in view of economic objectives of country, such as industrial development, regional growth, employment generation and development.


Control System-I

CO1:Apply basic mathematical for modelling of control system and responses of first and second order system.
CO2:Describe the role of control system as an enabling technology in various applications such as in power systems, automation, renewable energy, etc.
CO3:Understand the response of control system subjected to different input signals, design, set up, and test control system in the laboratory.
CO4:Analyze and design open and closed control system.
CO5:Design dc servo motor and stepper motor to meet the characteristics of control system application.
CO6:Become proficient with computer skills (e.g., PSPICE and MATLAB) for the simulated analysis and design of control system and able to use control system in utility-related applications .


Electrical Measurement-II

CO1:Understand the basic concepts in measurement and measuring instruments.
CO2:Understand the need and process of standardization, calibration of instruments, their significance in process and manufacturing industries for international acceptance.
CO3:Select instruments on basis of accuracy, sensitivity and response time in generation, transmission, manufacturing, power system, testing and energy auditing purposes.
CO4:Perform technical and professional duties in any type of industries.
CO5:Do higher studies and use of modern instruments for automation, process control for sustainable developments.


Electrical Machine Design

CO1:Apply knowledge of mathematics, science, and engineering for design of electrical machines.
CO2:Understand the electrical engineering material characteristic for designing an energy efficient electrical machine.
CO3:Understand the temperature rise in electrical machines and impact on rating and duty of machines.
CO4:Ability to design an electrical machines and components to meet desired needs within realistic constraints such as economic, environmental, social, safety, manufacturability, and sustainability.
CO5:Function on multidisciplinary teams with professional and ethical responsibility.
CO6:Discharge duties in the field of design and manufacturing industries and able to do higher studies in optimal design and use latest software and engineering tools.


Microprocessor and Microcontroller

CO1:Apply basic electronic subject and software algorithm application for understanding architectures assemble language of microcontroller and microprocessor.
CO2:Know the pin configuration and memory organization of a typical microprocessor and microcontroller.
CO3:Develop assemble language programming and interfacing peripherals for wide application in electrical engineering.
CO4:Develop assembly language source code for applications that use I/O ports, timer and single/multiple interrupts
CO5:Apply techniques for measurement of electrical quantities by microprocessor.
CO6:Apply the knowledge of microprocessor and microcontroller in application of microprocessor and microcontroller based electrical protection system.
CO7:Do higher study in the field of automation, operation and control of power system by microprocessor and microcontroller.


Entrepreneurship Development

CO1:Understand the various new disciplines in the area of management.
CO2:Understand concept of entrepreneurship and learn the procedure of setting up an enterprise.
CO3:Understand the concepts of human resource management, marketing management, financial management, production and operation management in a new enterprise.
CO4:Function on multidisciplinary teams and understand the impact of engineering solutions in a global, economic, environmental, and societal context.
CO5:Estimate the financial feasibility of business and identify the various sources of financing.
CO6:Understand the role of small scale enterprises in economic development of a country and understand the linkage between small and large scale enterprises.
CO7:Develop skills to become an entrepreneurs in view of economic objectives of country, such as industrial development, regional growth, employment generation and development of small scale industries through technological developments.


Industrial Drives and Control

CO1:Apply the knowledge of electrical engineering subjects in different application of industries like manufacturing, maintenance, operation and safety.
CO2:Understand different speed control methods in D.C and A.C motors using thyristors based control schemes.
CO3:Understand the characteristic of load and selection of derive in industrial sectors.
CO4:Conduct practical and analyze data for proper selection of derive in realistic constrain of load requirement.
CO5:Understand the impact of electrical characteristic of motor in electric traction system.
CO6:Discharge professional duties in industries with innovative ideas of operation and control of drives.


High Voltage Engineering

CO1:Apply basic knowledge of electrical engineering material for understanding breakdown phenomena in solid, liquid and gases.
CO2:Understand the lightning stroke and behavior on electrical appliances.
CO3:Understand the generation and measurement of high voltage for various testing in the field of manufacturing of power plant equipments.
CO4:Discharge the professional duties in high voltage test laboratories.
CO5:Higher study in field of high voltage with latest tools and software for sustainable development in EHV transmission field.


Renewable Energy Sources

CO1:Apply basic knowledge of science , mathematics and engineering for understanding energy sources and conversion in useful forms.
CO2:Understand facts, concepts, principles of exploration and extraction of energy for judicious and economic choice of energy for environment friendly and sustain able developments.
CO3:Function on interdisciplinary subjects of science and technology and analyze the characteristics of different energy sources.
CO4:Understand contemporary issues of energy and solve engineering problem of energy extraction from different renewable sources by modern tools.
CO5:Discharging duties in energy development by understanding an ethical and social responsibility for answerable to next generation.
CO6:Do higher studies for lifelong learning and higher education in field of energy conversion.


Industrial Electrical Engineering

CO1:Apply the knowledge of electrical engineering subjects in different application of industries like manufacturing, maintenance, operation and safety.
CO2:Understand the characteristic of load and selection of derive in industrial sectors.
CO3:Conduct practical and analyze data for proper selection of derive in realistic constrain of load requirement.
CO4:Understand the impact of electrical characteristic of motor in electric traction system.
CO5:Discharge professional duties in industries with innovative ideas of operation and control of drives.
CO6:Do higher study in the field of modern derives and control.


Power System operation and Control

CO1:Know the complicity of power system and role of engineer in power system operation and control. Able to discharge professional duties in electrical utilities.
CO2:Know the optimal load scheduling, function & operation of load dispatch centre for economic growth of electric utilities.
CO3:Know the significance of real power & reactive power flow inthe system for effective utilization of electrical installations.
CO4:Know the concept of automatic voltage control ,their mathematical modeling , static and dynamic analysis.
CO5:Know the concept of frequency control , mathematical modeling ,static and dynamic response of two area system for higher studies.
CO6:Understand concept of pool member and their advantages for economical growth and sustainable development. Know the concept of voltage stability and FACT controllers for enhancing power handling capacity of existing transmission lines.


Power System Stability

CO1:To Apply basic knowledge of science and mathematics and electrical engineering in stability studies.
CO2:Understand facts, concepts and classification of stability on the basis of perturbation and economical aspect of energy exchange.
CO3:To analyze the characteristics of synchronous alternator under small and large disturbances.
CO4:Apply Knowledge of electrical subjects for solving stability problem and use method for enhancing stability .
CO5:Discharging duties as power system engineer in technical and professional way.
CO6:Do higher studies in stability with modern tools for increasingly difficult complex interconnected power system.


Switchgear And Protection

CO1:Apply the basic knowledge of science for understanding arc generation and interruption in medium and high voltage circuit.
CO2:Conduct practical based on testing of relay and analysis data for matching different fault characteristics.
CO3:Select different protective relay and circuit breakers based on their characteristic feature for different protective scheme.
CO4:Understand continuously monitor the power system to ensure maximum continuity of electrical supply with minimum damage to life, equipment and property and best safety practices.
CO5:Discharge his professional duties in field of power system protection, maintenance and manufacturing sector.
CO6:Do higher study of updated protection technology for complex power system .


Computer Aided Power System Analysis

CO1:To describe the role of Computer aided power system analysis as an enabling tool in various analysis such as power flow, short circuit, contingency and stability analyses.
CO2:To understand the network topology for the representation of power system components and networks.
CO3:To form the bus impedance and admittance matrices by algorithms.
CO4:To perform the short circuit studies for proper selection of protection scheme.
CO5:To perform the load flow studies using N-R method, Gauss seidal method and fast decoupled method.
CO6:To evaluate simultaneous faults by matrix Transformations.
CO7:To learn the role of Computer aided power system analysis in utility-related applications which are becoming extremely important.


Flexible AC transmission system

CO1:Apply basic knowledge power electronic for enhancing power transfer capability of AC transmission system.
CO2:Understand FACTS, concepts its location in transmission network.
CO3:Analyze the characteristics FACTS controller and able to solve engineering problems.
CO4:Understand the sources of harmonics and its mitigation.
CO5:Discharging duties as power system engineer in technical and professional way.
CO6:Do higher studies in stability with modern tools for increasingly complex interconnected power system.