Learning Outcomes Electrical Engineering

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Learning Outcomes

 

Link for Learning Outcome of Department of Electrical Engg.

Program Outcomes (POs)

 

PO 1   Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.

PO 2   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.

PO 3    Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental
considerations.

PO 4    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 valid conclusions.

PO 5    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.

PO 6    The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.

PO 7    Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, demonstrate the knowledge of, and need for sustainable development

PO 8    Ethics: Apply ethical principles and commit to professional ethics, responsibilities, and norms of the engineering practice.

PO 9    Individual and teamwork: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.

PO 10    Communication: Communicate effectively on complex engineering activities with the engineering community and with society, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.

PO 11    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.

PO 12;Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.

Course Outcomes (COs) of S.E. Electrical Engineering (2019 Course)

 

Course Code: 207006
Name of Course: Engineering Mathematics - III

EE211.1    Solve higher order linear differential equation using appropriate techniques to model and analyze electrical circuits.
EE211.2    Apply Integral transforms such as Laplace transform, Fourier transform and Z-Transform to solve  problems related to signal processing and control systems.
EE211.3    Apply Statistical methods like correlation, regression and Probability theory as applicable to analyze and interpret experimental data related to energy management, power systems,
testing and quality control.
EE211.4    Perform Vector differentiation and integration, analyze the vector fields and apply to wave theory and electro-magnetic fields.
EE211.5    Analyze Complex functions, conformal mappings, and perform contour integration in the study of electrostatics, signal and image processing.

Course Code: 203141
Name of Course: Power Generation Technologies

EE212.1    Identify components and elaborate working principle of conventional power plants.
EE212.2    Recognize the importance and opportunities of renewable energies.
EE212.3    Calculate and control power output of wind solar, and hydro power plant.
EE212.4    Describe process of grid interconnection of distributed generation and requirements.
EE212.5    Interpret the environmental and social impact of various generation technologies.

Course Code: 203142
Name of Course: Material Science

EE213.1    Discuss classification, properties and characteristics of different electrical engineering materials.
EE213.2    State various applications measuring methods for parameters of different classes of electrical engineering materials. .
EE213.3    Solve simple problems based on dielectric, magnetic and conducting materials.
EE213.4    Apply knowledge of Nano-technology to electrical engineering.
EE213.5    Execute tests on dielectric, insulating, magnetic, conducting, resistive materials as per IS to decide the quality of the materials.
EE213.6    Create learning resource material ethically to demonstrate self-learning leading to lifelong learning skills and usage of ICT/ online technology through collaborative/active learning activities.

Course Code: 203143
Name of Course: Analog and Digital Electronics

EE214.1    Design logical, sequential and combinational digital circuit using K-Map.
EE214.2    Demonstrate different digital memories and programmable logic families.
EE214.3    Apply and analyze applications of OPAMP in open and closed loop condition.
EE214.5    Design uncontrolled rectifier with given specifications

Course Code: 203144
Name of Course: Electrical Measurements and Instrumentation

EE215.1    Define various characteristic and classify measuring instruments along with range extension techniques.
EE215.2    Apply measurement techniques for measurement of resistance, inductance and capacitance.
EE215.3    Demonstrate construction, working principle of electrodynamics type and induction type instruments for measurement of power and energy.
EE215.4    Make use of CRO for measurement of voltage, current and frequency.
EE215.5    Classify transducer and apply it for measurement of physical parameters in real time.

Course Code: 203150
Name of Course: Application of Mathematics in Electrical Engineering

EE216.1    Apply fundamentals of mathematics in solving electrical engineering problem
EE216.2    Analyze complex electrical engineering problem using mathematical techniques
EE216.3    Implement program and simulation for problems in electrical engineering
EE216.4    Demonstrate self-lifelong learning skills with applications of mathematics in electrical engineering through software.

Course Code: 203151
Name of Course: Soft Skill

EE217.1    Do SWOC analysis.
EE217.2    Develop presentation and take part in-group discussion.
EE217.3    Understand and implement etiquette in workplace and in society.
EE217.4    Work in team with team spirit.
EE217.5    Utilize the techniques for time management and stress management.

Course Code: 203152(A)
Name of Course: Solar Thermal System

EE218.1    Differentiate between types of solar Concentrators
EE218.2    Apply software tool for solar concentrators
EE218.3    Design different types of Solar collectors and balance of plant
 
Course Code: 203145
Name of Course: Power System-I

EE221.1    Recognize different patterns of load curve and calculate associated different factors with it and tariff.
EE221.2    Draft specifications of electrical equipment in power station.
EE221.3    Design electrical and mechanical aspects in overhead transmission and underground cables.
EE221.4    Evaluate the inductance and capacitance of different transmission line configurations
EE221.5    Analyses the performance of short and medium transmission lines

Course Code: 203146
Name of Course: Electrical Machines-I

EE222.1    Evaluate performance parameters of transformer with experimentation and demonstrate construction along with specifications as per standards.
EE222.2    Distinguish between various types of transformer connections as per vector groups with application and to perform parallel operation of single/three phase transformers.
EE222.3    Select and draft specifications of DC machines and Induction motors for various applications along with speed control methods.
EE222.4    Justify the need of starters in electrical machines with merits and demerits.
EE222.5    Test and evaluate performance of DC machines and Induction motors as per IS standard.

Course Code: 203147
Name of Course: Network Analysis

EE223.1    Calculate current/voltage in electrical circuits using simplification techniques, Mesh, Nodal analysis and network theorems.
EE223.2    Analyze the response of RLC circuit with electrical supply in transient and stead state.
EE223.3    Apply Laplace transform to analyze behavior of an electrical circuit.
EE223.4    Derive formula and solve numerical of two port network and Design of filters
EE223.5    Apply knowledge of network theory to find transfer function, poles and zeroes location to perform stability analysis and parallel resonance

Course Code: 203148
Name of Course: Numerical Methods and Computer Programming

EE224.1    Demonstrate types of errors in computation and their causes of occurrence.
EE224.2    Calculate root of algebraic and transcendental equations using various methods.
EE224.3    Apply numerical methods for various mathematical problems such as interpolation, numerical differentiation, integration and ordinary differential equation.
EE224.4    Solve linear simultaneous equation using direct and indirect method.
EE224.5    Develop algorithms and write computer programs for various numerical methods.

Course Code: 203149
Name of Course: Fundamental of Microcontroller and Applications

EE224.1    Describe the architecture and features of various types of the microcontroller.
EE224.2    Illustrate addressing modes and execute programs in assembly language for the microcontroller.
EE224.3    Write programs in C language for microcontroller 8051.
EE224.4    Elaborate interrupt structure of 8051 and program to handle interrupt and ADC809
EE224.5    Define the protocol for serial communication and understand the microcontroller development systems.
EE224.6    Interface input output devices and measure electrical parameters with 8051 in real time.

Course Code: 203152
Name of Course: Project Based Learning

EE225.1    Identify, formulate, and analyze the simple project problem.
EE225.2    Apply knowledge of mathematics, basic sciences, and electrical engineering fundamentals to develop solutions for the project.
EE225.3    Learn to work in teams, and to plan and carry out different tasks that are required during a project.
EE225.4    Understand the strength & skill of their own and colleagues.
EE225.5    Collect the information from research literature, summaries it & come to certain conclusion.
EE225.6    Communicate to different audiences in oral, visual, and written forms.

Course Code: 203153(B)
Name of Course: Installation & Maintenance of Electrical appliances

EE226.1    Observing the safety precautions while working,
EE226.2    Test line cord for continuity with test lamp/ multimeter
EE226.3    Dismantle and reassemble an electric iron
EE226.4    Heater, kettle, room heater, toaster, hair dryer, mixer grinder etc.
EE226.5    Install a ceiling fan and the regulator
EE226.6    Check a fluorescent lamp chock, starter and install it
EE226.7    Domestic installation testing before energizing a domestic installation

Course Outcomes (COs) of T.E. Electrical Engineering (2019 Course)

 

Course Code: 303141
Name of Course: Industrial and Technology Management

EE311.1    Differentiate between different   types   of   business   organizations   and   discuss   the fundamentals of economics and management.
EE311.2    Explain the importance of technology management and quality management.
EE311.3    Explain the importance of IPR and role of Human Resource Management.
EE311.4    Understand the importance of Quality and its significance.
EE311.5    Describe the characteristics of marketing & its types and overview of financial Management.
EE311.6    Discuss the qualities of a good leader and road map to Entrepreneurship.

Course Code: 303142
Name of Course: Power Electronics

EE312.1    Develop characteristics of different power electronic switching devices.
EE312.2    Reproduce working principle of power electronic converters for different types of loads.
EE312.3    Choose the appropriate converter for different applications.

Course Code: 303143
Name of Course: Electrical Machines II

EE313.1    Learn construction, working principle of three phase Synchronous Machines, Induction Motors, A.C. Series Motor and Special Purpose Motors.
EE313.2    Understand characteristics of three phase Synchronous Machines, Induction Motors, A.C. Series Motor and Special Purpose Motors.
EE313.3    Select the above machines in Power System, industrial, household & Military Engineering applications.
EE313.4    Testing of machines to evaluate the performance through experimentation

Course Code: 303144
Name of Course: Electrical Installation, Design & Condition Based Maintenance

EE314.1    Classify different types of distribution supply system and determine economics of distribution system. Compare and classify various substations, bus-bars and Earthing systems.
EE314.2    Demonstrate the single line diagram of substation and earthing system
EE314.3    Analyze and test different condition monitoring methods.
EE314.4    Carry out estimation and costing of internal wiring for residential and commercial installations.
EE314.5    Apply electrical safety procedures

Course Code: 303145(A)
Name of Course: Advanced Microcontroller and Embedded System

EE315.1    Explain architecture of PIC 18F458 microcontroller, its instructions and the addressing modes.
EE315.2    Use Ports and timers for peripheral interfacing and delay generation.
EE315.3    Interface special and generate events using CCP module.
EE315.4    Effectively use interrupt structure in internal and External interrupt mode.
EE315.5    Effectively use ADC for parameter measurement and also understand LCD interfacing.
EE315.6    Use Serial Communication and various serial communication protocols.

Course Code: 303146
Name of Course: Seminar

EE316.1    Relate with the current technologies and innovations in Electrical engineering.
EE316.2    Improve presentation and documentation skill
EE316.3    Apply theoretical knowledge to actual industrial applications and research activity.
EE316.4    Communicate effectively.

Course Code: 303147 (A)
Name of Course: Energy Storage System

EE317.1    Explain and differentiate various types of energy storage for suitable applications
EE317.2    Understand battery recycling techniques

Course Code: 303148
Name of Course: Power System-II

EE321.1    Solve problems involving modelling, design and performance evaluation of HVDC and EHVAC power transmission lines.
EE321.2    Calculate per unit values and develop Y bus for solution power flow equations in power transmission networks
EE321.3    Calculate currents and voltages in a faulted power system under both symmetrical and asymmetrical faults, and relate fault currents to circuit breaker ratings.

Course Code: 303149
Name of Course: Computer Aided Design of Electric Machines

EE322.1    Summarize temperature rise, methods of cooling of transformer and consider IS 2026 in transformer design.
EE322.2    Design the overall dimensions of the transformer.
EE322.3    Analyze the performance parameters of transformer.
EE322.4    Design overall dimensions of three phase Induction motor
EE322.5    Analyze the performance parameters of three phase Induction motor
EE322.6    Implement and develop computer aided design of transformer and induction motor.

Course Code: 303150
Name of Course: Control System Engineering

EE323.1    Construct mathematical model of Electrical and Mechanical system using differential equations and transfer function and develop analogy between Electrical and Mechanical systems.
EE323.2    Determine time response of systems for a given input and perform analysis of first and second order systems using time domain specifications.
EE323.3    Investigate closed loop stability of system in s-plane using Routh Hurwitz stability criteria and root locus.
EE323.4    Analyze the systems in frequency domain and investigate stability using Nyquist plot and Bode plot
EE323.5    Design PID controller for a given plant to meet desired time domain specifications

Course Code: 303151
Name of Course: Electric Mobility

EE324.1    Analyse the concepts of Hybrid and Electric vehicles.
EE324.2    Describe the different types of energy storage systems
EE324.3    Comprehend the knowledge of the battery charging and management systems.
EE324.4    Classify the different mode of operation for hybrid vehicle.
EE324.5    Apply the different Charging standards used for electric vehicles.
EE324.6    Differentiate between Vehicle to home & Vehicle to grid concepts.

Course Code: 303152
Name of Course: Internship

EE325.1    Understand the working culture and environment of the Industry and get familiar with various departments and practices in the industry.
EE325.2    Operate various meters, measuring instruments, tools used in industry efficiently and develop technical competence.
EE325.3    Apply internship learning in other course completions and final year project management,
i.e. topic finalization, project planning, hardware development, result interpretations, report writing, etc.
EE325.4    Create a professional network and learn about ethical, safety measures, and legal practices.
EE325.5    Appreciate the responsibility of a professional towards society and the environment.
EE325.6    Identify career goals and personal aspirations.

Course Code: 303153 (B)
Name of Course: Project Management

EE326.1    Elaborate importance of project management and its process.
EE326.2    Learn about the role of high performance teams and leadership in project management

Course Outcomes (COs) of B.E. Electrical Engineering (2019 Course)

 

Course Code: 403141
Name of Course: Power System Operation and Control

EE411.1    Summarize angle, voltage and frequency stability in the power system control (UN).
EE411.2    Illustrate various ways of interchange of power between interconnected utilities (AP).
EE411.3    Analyze stability and optimal load dispatch using different techniques (AN).
EE411.4    Select appropriate FACTS devices for stable operation of the system (EV).
EE411.5    Evaluate the stability of the system and suggest the methods to improve it (EV)..

 

Course Code: 403142
Name of Course: Advanced Control System

EE412.1    Explain compensation networks, common nonlinearities, the concept of state, sampling and econstruction, and concepts of advanced controls (Understanding)
EE412.2    Determine transfer function from state model (Applying)
EE412.3    Test controllability and observability properties of the system (Evaluating)
EE412.4    Design compensators, state feedback controls, and observers for the system (Creating)

Course Code: 403143 (B)
Name of Course: Power Quality Management

EE413.1    Understand power quality and attribute of power quality
EE413.2    Describe voltage flicker and mitigation of it
EE413.3    Analyze the effect of power system events on voltage sag and its characteristics.
EE413.4    Identify the sources of harmonics and harmonics produced
EE413.5    Select proper method for harmonic mitigation along with methods of power quality monitoring.
EE413.6    Carry out power quality monitoring using power quality analyzers.

Course Code: 403144 (D)
Name of Course: HVDC and FACTs

EE414.1    Choose a proper FACTS controller for the specific application based on system requirements.
EE414.2    Analyze shunt, series, and combined controllers to explore different benefits.
EE414.3    Compare EHVAC and HVDC systems and to describe various types of DC links.
EE414.4    Describe various methods for the control of HVDC systems and to perform power flow analysis in AC/DC systems.
 

Course Code: 403145
Name of Course: Project Stage I

EE415.1    Define the project problem statement and identify the scope of the project.
EE415.2    Search the appropriate research papers, standards and e-resources and write a literature survey.
EE415.3    Identify tools, techniques, methods, concepts, measuring devices, and instruments required for the project to define the methodology of the project.
EE415.4    Justify the selection of electrical, electronic and mechanical components for the project prototyping
EE415.5    Simulate or develop a system for software or hardware verification.
EE415.6    Write a project report with proper interpretation of results.

Course Code: 403146
Name of Course: MOOCs

EE416.1    Enables the students to directly engage and learn from the best faculty in the country in order to strengthen the fundamentals
EE416.2    Explore new areas of interest in a relevant field.
EE416.3    Enable self learning initiative in learners..
EE416.4    Develop critical thinking to solve complex problems in engineering, science and humanities.
EE416.5    Improve communication skills by interacting with peers and course teachers.

Course Code: 403147 (A)
Name of Course: German Language-I

EE416.1    Will have the ability of basic communication.
EE416.2    Will have the knowledge of German script.
EE416.3    Will get introduced to reading ,writing and listening skills
EE416.4    Will develop interest to pursue profession in Indo-German Industry.

Course Code: 403148
Name of Course: Switchgear and Protection

EE421.1    Understand the fundamentals of protective relaying.
EE421.2    Demonstrate the arc interruption and analyze the RRRV in circuit breakers
EE421.3    Demonstrate the construction and working principle of air brake circuit breakers, SF6 circuit breakers, and a vacuum circuit breaker
EE421.4    Explain the characteristics of static and digital relays and their applications in power systems
EE421.5    Apply the differential protection scheme to large transformers, alternators, and induction motors.
EE421.6    Apply distance protection, three stepped protection for transmission line.

Course Code: 403149
Name of Course: Advanced Electrical Drives and Control

EE422.1    Explain motor load dynamics and multi quadrant operation of drives.
EE422.2    Analyze operation of converter fed and chopper fed DC drives.
EE422.3    Apply different braking methods of D.C. and induction motor drive.
EE422.4    Elaborate vector control for induction motor and BLDC drives.
EE422.5    Elaborate synchronous motor, reluctance motor drive.
EE422.6    Differentiate between classes and duty cycles of motors and select suitable drives in various industrial applications.

Course Code: 403150 (C)
Name of Course: Smart Grid

EE423.1    Apply the knowledge to differentiate between Conventional and Smart Grid
EE423.2    Describe importance of Super capacitors.
EE423.3    Identify the need of Smart metering
EE423.4    Apply the communication technology in smart grid.
EE423.5    Comprehend the issues of micro grid.

Course Code: 403151 (A)
Name of Course: EHV AC Transmission

EE424.1    Highlight need for EHV ac transmission.
EE424.2    Calculate line and ground parameters.
EE424.3    Enlist problems encountered in EHV transmission.
EE424.4    Describe the effect of electric and magnetic fields on human beings.

Course Code: 403151 (B)
Name of Course: Illumination Engineering

EE425.1    Define and reproduce various terms in illumination.
EE425.2    Identify various parameters for illumination system design..
EE425.3    Design indoor and outdoor lighting systems.
EE425.4    Enlist state of the art illumination systems

Course Code: 403152
Name of Course: Project Stage II

EE426.1    Identify tools, techniques, methods, concepts, measuring devices, and instruments required for the project to define the methodology of the project.
EE426.2    Justify the selection of electrical, electronic and mechanical components for the project prototyping
EE426.3    Select the appropriate testing method for system performance evaluation
EE426.4    Interpret results obtained by simulation, and hardware implementation and decide on further action or write a conclusion
EE426.5    Write a project report and research paper on the project work

Course Code: 403153 (A)
Name of Course: German Language-II

EE427.1    Will have the ability of advanced communication.
EE427.2    Will develop reading, writing and listening skills.
EE427.3    Will understand tenses in German Language.
EE427.4    Will develop interest to pursue a German language course.


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