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PEO, PO, PSO & CO
  • PEO1. Build a solid foundation in mathematics, science, engineering and soft skills for diverse career and lifelong learning.
  • PEO2. Function ethically in multidisciplinary teams to develop sustainable solutions for global, environmental and social issues.
  • PEO3. Model, design and develop a system, component or process to meet the needs of the society and industry within realistic constraints.
  • PO1. Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
  • PO2. Problem analysis: Identify, formulate, research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
  • PO3. Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations.
  • PO4. Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.
  • PO5. Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.
  • PO6. The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
  • PO7. Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
  • PO8. Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
  • PO9. Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
  • PO10. Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
  • PO11. Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’sown work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
  • PO12. Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.
  • PSO1: Apply fundamental knowledge to identify, formulate, design and investigate various problems of electrical and electronic circuits, power electronics, and power systems.
  • PSO2: Apply modern software tools for design, simulation and analysis of electrical systems to engage in life- long learning and to successfully adapt in multi disciplinary environments.
  • PSO3: Solve ethically and professionally various Electrical Engineering problems in societal and environmental context and communicate effectively.

2019 Scheme:

Semester

Sub Code

Courses

S1

MAT 101

LINEAR ALGEBRA AND CALCULUS

PHT110

ENGINEERING PHYSICS B

EST100

ENGINEERING MECHANICS

EST130

BASICS OF ELECTRICAL & ELECTRONICS ENGINEERING

HUN101

LIFE SKILLS

PHL120

ENGINEERING PHYSICS LAB

ESL130

ELECTRICAL & ELECTRONICS WORKSHOP

S2

MAT 102

VECTOR CALCULUS, DIFFERENTIAL EQUATIONS AND TRANSFORMS

CYT100

ENGINEERING CHEMISTRY

EST110

ENGINEERING GRAPHICS

EST120

BASICS OF CIVIL & MECHANICAL ENGINEERING

HUN102

PROFESSIONAL COMMUNICATION

EST102

PROGRAMMING IN C

CYL120

ENGINEERING CHEMISTRY LAB

ESL120

CIVIL & MECHANICAL WORKSHOP

S3

MAT201

PARTIAL DIFFERENTIAL EQUATION AND COMPLEX ANALYSIS

EET 201

CIRCUITS AND NETWORKS

EET 203  

MEASUREMENTS AND INSTRUMENTATION (MI)

EET 205  

ANALOG ELECTRONICS (AE)

EST 200  

 DESIGN AND ENGINEERING (DE)

MCN201

SUSTAINABLE ENGINEERING

EEL 201

CIRCUITS AND MEASUREMENTS LAB

EEL 203  

ANALOG ELECTRONICS LAB

S4

MAT204

PROBABILITY, RANDOM PROCESSES AND NUMERICAL METHODS

EET 202

DC MACHINES & TRANSFORMERS

EET 204

ELECTROMAGNETIC THEORY

HUT 200

PROFESSIONAL ETHICS

EET 206

DIGITAL ELECTRONICS

MCN202

CONSTITUTION OF INDIA

EEL 202

ELECTRICAL MACHINES LAB I

EEL204

DIGITAL ELECTRONICS LAB

S5

EET301

POWER SYSTEMS I

EET303

MICROPROCESSORS AND MICROCONTROLLERS

EET305

SIGNALS AND SYSTEMS

EET307

SYNCHRONOUS AND INDUCTION MACHINES

HUT300

INDUSTRIAL ECONOMICS & FOREIGN TRADE

MCN301

DISASTER MANAGEMENT

EEL333

ELECTRICAL MACHINES LAB II

EEL331

MICROPROCESSORS AND MICROCONTROLLERS LAB

S6

EET 302

LINEAR CONTROL SYSTEMS

EET 304

POWER SYSTEM II

EET306

POWER ELECTRONICS

EET 308

COMPREHENSIVE COURSE WORK

EET322

RENEWABLE ENERGY SYSTEMS

HUT310

MANAGEMENT FOR ENGINEERS

EEL04

POWER ELECTRONICS LAB

S7

EET 401

ADVANCED CONTROL SYSTEMS

EET 463

ILLUMINATION TECHNOLOGY

MCN401

INDUSTRIAL SAFETY ENGINEERING

CET455

ENVIRONMENTAL HEALTH AND SAFETY

EEL 411

CONTROL SYSTEMS LAB

EEQ413

SEMINAR

EED 415

PROJECT PHASE I

S8

EET 402

ELECTRICAL SYSTEM DESIGN AND ESTIMATION

EET 468

INDUSTRIAL INSTRUMENTATION AND AUTOMATION

EET424

ENERGY MANAGEMENT 

EET436

POWER QUALITY

EET 404

COMPREHENSIVE COURSE VIVA

EED416

PROJECT PHASE II

MAT201 – PARTIAL DIFFERENTIAL EQUATIONS AND COMPLEX ANALYSIS

Sl.No:

Course Outcomes

Level

CO 1

Understand the concept and the solution of partial differential equation.

L2

CO2

Analyze and solve one dimensional wave equation and heat equation.

L3

CO3

Understand complex functions, its continuity differentiability with the use of Cauchy Riemann equations.

L2

CO4

Evaluate complex integrals using Cauchy’s integral theorem and Cauchy’s integral formula, understand the series expansion of analytic function

L3

CO5

Understand the series expansion of complex function about a singularity and Apply residue theorem to compute several kinds of real integrals.

L2

EET 201 Circuits and Networks

Sl. No.

Course Outcomes

Level

CO 1

Apply circuit theorems to simplify and solve complex DC and AC electric networks. 

L3

CO 2

Analyse dynamic DC and AC circuits and develop the complete response to excitations.

L4

CO 3

Solve dynamic circuits by applying transformation to s-domain.

L3

CO 4

Analyse three-phase networks in Y and ∆ configurations.

L4

CO 5

Solve series /parallel resonant circuits.

L3

EET 203   Measurements And Instrumentation (MI)

Sl. No.

Course Outcomes

Level

CO1

Identify and analyse the factors affecting performance of measuring system.

L1

CO2

Choose appropriate instruments for the measurement of voltage, current in ac and dc measurements

L2

CO3

Explain the operating principle of power and energy measurement

L2

CO4

Outline the principles of operation of Magnetic measurement systems

L2

CO5

Describe the operating principle of DC and AC bridges, transducers based systems.

L2

CO6

 Understand the operating principles of basic building blocks of digital systems, recording and display units 

L1

EET 205   Analog Electronics(AE)

Sl. No.

Course Outcomes

Level

CO1

Design biasing scheme for transistor circuits.

L3

CO2

Model BJT and FET amplifier circuits.

L3

CO3

Identify a power amplifier with appropriate specifications for electronic circuit applications.

L3

CO4

Describe the operation of oscillator circuits using BJT.

L2

CO5

Explain the basic concepts of Operational amplifier(OPAMP)

L2

CO6

Design and developvarious OPAMP application circuits.

L3

EST 200   Design And Engineering (DE)

Sl. No.

Course Outcomes

Level

CO1

Explain the different concepts and principles involved indesign engineering.

L2

CO2

Apply design thinking while learning and practicing
engineering.

L3

CO3

Develop innovative, reliable, sustainable and economicallyviable designs incorporating knowledge in engineering.

L3

MCN201 SUSTAINABLE ENGINEERING

Sl. No:

Course Outcomes

Level

CO1

Understand the relevance and the concept of sustainability and the global initiatives in this direction

L2

CO2

Explain the different types of environmental pollution problems and their sustainable solutions

L2

CO3

Discuss the environmental regulations and standards

L2

CO4

Outline the concepts related to conventional and non-conventional energy

L2

CO5

Demonstrate the broad perspective of sustainable practices by utilizing engineering knowledge and principles

L2

EEL 201   Circuits And Measurements Lab

Sl. No.

Course Outcomes

Level

CO1

Analyse voltage current relations of RLC circuits

L3

CO2

Verify DC network theorems by setting up various electric circuits

L3

CO3

Measure power in a single and three phase circuits by various methods

L3

CO4

Calibrate various meters used in electrical systems.

L3

CO5

Determine magnetic characteristics of different electrical devices

L3

CO6

Analyse the characteristics of various types of transducer systems

L4

CO7

Analyse the performance of various electronic devices for an instrumentation system and, to develop the team management and documentation capabilities.

L4

EEL 203 Analog Electronics Lab

Sl. No.

Course Outcomes

Level

CO1

Use the various electronic instruments and for conducting experiments.

L3

CO2

Design and develop various electronic circuits using diodes and Zener diodes.

L3

CO3

Design and implement amplifier and oscillator circuits using BJT and JFET.

L3

CO4

Design and implement basic circuits using IC (OPAMP and 555 timers).

L3

CO5

Simulate electronic circuits using any circuit simulation software.

L3

CO6

Use PCB layout software for circuit design

L3

MAT202 PROBABILITY, RANDOM PROCESSES AND NUMERICAL METHODS

Sl. No.

Course Outcomes

Level

CO1

Understand the concept, properties and important models of discrete random variables and, using them, analyze suitable random phenomena.

L2

CO2

Understand the concept, properties and important models of continuous random variables and, using them, analyze suitable random phenomena.

L2

CO3

Analyse random processes using autocorrelation, power spectrum and Poisson process model as appropriate.

L3

CO4

Compute roots of equations, evaluate definite integrals and perform interpolation on given numerical data using standard numerical techniques

L2

CO5

Apply standard numerical techniques for solving systems of equations, fitting curves on given numerical data and solving ordinary differential equations.

L3

EET 202 DC MACHINES & TRANSFORMERS

Sl. No.

Course Outcomes

Level

CO1

Acquire knowledge about constructional details of DC machines

L1

CO2

Describe the performance characteristics of DC generators

L2

CO3

Describe the principle of operation of DC motors and select appropriate motor types for different applications

L2

CO4

Acquire knowledge in testing of DC machines to assess its performance

L3

CO5

Describe the constructional details and modes of operation of single phase and three phase transformers

L2

CO6

Analyse the performance of transformers under various conditions

L3

EET 204 ELECTROMAGNETIC THEORY

Sl. No.

Course Outcomes

Level

CO1

Apply vector analysis and coordinate systems to solve static electricand magnetic field problems.

L3

CO2

Apply Gauss Law, Coulomb’s law and Poisson to equation todetermine electrostatic field parameters

L2

CO3

Determine magnetic fields from current distributions by applyingBiot-Savart law and Amperes Circuital law.

L2

CO4

Apply Maxwell Equations for the solution of time varying fields

L3

CO5

Analyze  electromagnetic wave propagation in different media.

L4

HUT 200 PROFESSIONAL ETHICS

Sl. No.

Course Outcomes

Level

CO1

Understand the core values that shape the ethical behavior of a professional.

L2

CO2

Adopt a good character and follow an ethical life.

L3

CO3

Explain the role and responsibility in technological development by keeping personal ethics

L2

CO4

and legal ethics.

L6

CO5

Solve moral and ethical problems through exploration and assessment by established

L3

EET 206 DIGITAL ELECTRONICS

Sl. No.

Course Outcomes

Level

CO1

Identify various number systems, binary codes and formulate digital functions using Boolean algebra.

L3

CO2

Design and implement combinational logic circuits.

L3

CO3

Design and implement sequential logic circuits.

L3

CO4

Compare the operation of various analog to digital and digital to analog conversion circuits.

L2

CO5

Explain the basic concepts of programmable logic devices and VHDL.

L2

MCN202 CONSTITUTION OF INDIA

Sl.No:

Course Outcomes

Level

CO1

Explain the background of the present constitution of India and features

L2

CO2

Utilize the fundamental rights and duties

L3

CO3

Understand the working of the union executive, parliament and judiciary.

L2

CO4

Understand the working of the state executive, legislature and judiciary.

L2

CO5

Utilize the special provisions and statutory institutions.

L3

CO6

Show national and patriotic spirit as responsible citizens of the country

L1

EEL 202 ELECTRICAL MACHINES LAB I

Sl. No.

Course Outcomes

Level

CO1

Analyse the performance of DC motors and DC generators by performing load test.

L3

CO2

Sketch the Open Circuit Characteristics of a self excited DC shunt generator and check conditions of voltage build up by performing suitable experiment.

L3

CO3

Develop equivalent circuit and predetermine their regulation and efficiency by performing OC & SC tests on transformer

L3

CO4

Analyse the efficiency and regulation of the transformer by performing load test

L3

CO5

Analyse the efficiency of a DC machine when working as motor and generator by conducting suitable test.

L3

CO6

Examine the efficiency by performing Sumpner’s test on two similar transformers.

L3

EEL204 DIGITAL ELECTRONICS LAB

Sl. No.

Course Outcomes

Level

CO1

Formulate digital functions using Boolean Algebra and verify experimentally

L3

CO2

Design and implement combinational logic circuits

L3

CO3

Design and implement sequential logic circuits.

L3

CO4

Design and fabricate a digital circuit using the knowledge acquired from the laboratory.

L3

CO5

Design combinational circuits using VHDL

L3

EET301 POWER SYSTEMS I

Sl. No.

Course Outcomes

Level

CO1

Identify the power generating system appropriate for a given area

L3

CO2

Evaluate the electrical performance of any transmission line

L3

CO3

Compute various physical characteristics of underground and overhead transmission systems

L3

CO4

Select appropriate switchgear for protection schemes

L2

CO5

Design a simple electrical distribution system as per the standards.

L3

EET303 MICROPROCESSORS AND MICROCONTROLLERS

Sl. No.

Course Outcomes

Level

CO1

Describe the architecture and timing diagram of 8085 microprocessor

L2

CO2

Develop assembly language programs in 8085 microprocessor.

L3

CO3

Identify the different ways of interfacing memory and I/O with 8085 microprocessor

L3

CO4

Understand the architecture of 8051 microcontroller and embedded systems.

L1

CO5

Develop assembly level and embedded C programs in 8051 microcontroller.

L3

EET305 SIGNALS AND SYSTEMS

Sl. No:

Course Outcome

Level

CO1

Explain the basic operations on signals and systems.

L2

CO2

Apply Fourier Series and Fourier Transform concepts for continuous time signals.

L3

CO3

Analyse the continuous time systems with Laplace Transform

L4

CO4

Analyse the discrete time system using Z Transform

L4

CO5

Apply Fourier Series and Fourier Transform concepts for Discrete time domain.

L3

CO6

Describe the concept of stability of continuous time systems and sampled data systems.

L2

EET307 SYNCHRONOUS AND INDUCTION MACHINES

Sl. No.

Course Outcomes

Level

CO1

Analyse the performance of different types of alternators

L4

CO2

Analyse the performance of a synchronous motor

L4

CO3

Analyse the performance of different types of induction motors

L4

CO4

Describe operating principle of induction machine as generator

L3

CO5

Explain the types of single phase induction motors and their working principle.

L3

EEL331 MICROPROCESSORS AND MICROCONTROLLERS LAB

Sl. No.

Course Outcomes

Level

CO1

Develop and execute assembly language programs for solving arithmetic and logical problems using microprocessor/microcontroller.

L3

CO2

Design and Implement systems with interfacing circuits for various applications.

L3

CO3

Execute projects as a team using microprocessor/microcontroller for real life applications.

L3

EEL333 ELECTRICAL MACHINES LAB II

Sl. No.

Course Outcomes

Level

CO1

Analyse the performance of three phase induction motors by conducting suitable tests.

L3

CO2

Analyse the performance of three phase synchronous machine from V and inverted V curves

L3

CO3

Analyse the performance of a three phase alternator by conducting suitable tests.

L3

CO4

Analyse the performance  of single phase induction motors by conducting suitable tests

L3

CO5

Analyse the performance of  Induction generators by conducting suitable tests

L3

HUT300 INDUSTRIAL ECONOMICS & FOREIGN TRADE

Sl. No.

Course Outcomes

Level

CO1

Explain the problem of  resources and consumer behavior ,and  to evaluate the impact of government policies on the general economic welfare

L2

CO2

Take appropriate decisions regarding volume of output and to evaluate the social cost of production

         L4

CO3

Determine the functional requirement of a firm under various competitive conditions

L2

CO4

Examine the overall performance of the economy and the regulations of economic fluctuations and its impact on various sections of the society

L3

CO5

Determine the impact of changes in the global economic policies on the business opportunities of a firm

L2

MCN301 DISASTER MANAGEMENT

Sl. No.

Course Outcomes

Level

CO1

Define and use various terminologies in use in disaster management parlance and organise each of these terms in relation to the disaster management cycle

L2

CO2

Distinguish between different hazard types and vulnerability types and do vulnerability assessment

L2

CO3

Identify the components and describe the process of risk assessment, and apply appropriate methodologies to assess risk

L2

CO4

Explain the core elements and phases of Disaster Risk Management and develop possible measures to reduce disaster risks across sector and community.

L3

CO5

Identify factors that determine the nature of disaster response and discuss the various disaster response actions

L2

CO6

Explain the various legislations and best practices for disaster management and risk reduction at national and international level

L2

EET 302 LINEAR CONTROL SYSTEMS

Sl. No.

Course Outcomes

Level

CO1

Describe the role of various control blocks and components in feedback systems.

L3

CO2

Analyse the time domain responses of the linear systems.

L3

CO3

Apply Root locus technique to assess the performance of linear systems.

L3

CO4

Analyse the stability of the given LTI systems

L3

CO5

Analyse the frequency domain response of the given LTI systems

L3

CO6

Design compensators using time domain and frequency domain techniques

L3

EET 306 POWER ELECTRONICS

Sl. No.

Course Outcomes

Level

CO1

Explain the operation of modern power semiconductor devices and its characteristics

L2

CO2

Analyze the working of controlled rectifiers

L3

CO3

Explain the working of AC voltage controllers ,inverters and PWM techniques

L2

CO4

Compare the performance of different dc-dc converters

L2

CO5

Describe basic drive schemes for ac and dc motors

L2

EET 304 POWER SYSTEM II

Sl. No.

Course Outcomes

Level

CO1

Apply the per unit scheme for any power system network and compute the fault levels.

L3

CO2

Analyse the voltage profile of any given power system network using iterative methods.

L3

CO3

Analyse the steady state and transient stability of power system networks

L3

CO4

Model the control scheme of power systems

L3

CO5

Schedule optimal generation scheme

L3

EET322 RENEWABLE ENERGY SYSTEMS

Sl. No.

Course Outcomes

Level

CO1

Describe the environmental aspects of renewable energy resources

L2

CO2

Explain the operation of various renewable energy systems.

L2

CO3

Design solar PV systems

L3

CO4

Explain different emerging energy conversion technologies and storage.

L2

HUT310 MANAGEMENT FOR ENGINEERS

Sl. No.

Course Outcomes

Level

CO1

Explain the characteristics of management in the contemporary context (Cognitive Knowledge Level: Understand).

L2

CO2

Describe the functions of management (Cognitive Knowledge Level: Understand).

L2

CO3

Demonstrate ability in decision-making process and productivity analysis (Cognitive Knowledge Level: Understand).

L2

CO4

Illustrate project management technique and develop a project schedule (Cognitive Knowledge Level: Apply)

L3

CO5

Summarize the functional areas of management (Cognitive Knowledge Level: Understand).

L2

CO6

Comprehend the concept of entrepreneurship and create business plans (Cognitive Knowledge Level: Understand).

L2

EET308 COMREHENSIVE COURSE WORK

Sl. No.

Course Outcomes

Level

CO1

Apply the knowledge of circuit theorems to solve the problems in electrical networks

L3

CO2

Evaluate the performance of DC machines and Transformers under different loading conditions

L3

CO3

Identify appropriate digital components to realise any combinational or sequential logic.

L2

CO4

Apply the knowledge of Power generation, transmission and distribution to select appropriate components for power system operation.

L3

CO5

Apply appropriate mathematical concepts to analyse continuous time and discrete time signals and systems

L3

EEL04 POWER ELECTRONICS LAB

Sl. No.

Course Outcomes

Level

CO1

Determine the characteristics of SCR and design triggering circuits for SCR based circuits

L3

CO2

Design, set up and analyse single phase AC voltage controllers.

L3

CO3

Design, set up and test suitable gate drives for MOSFET/IGBT.

L3

CO4

Design, set up and test basic inverter topologies.

L3

CO5

Design and set up dc-dc converters

L3

EET 401 ADVANCED CONTROL SYSTEMS

Sl. No.

Course Outcomes

Level

CO1

Develop the state variable representation of physical systems

L4

CO2

Analyse the performance of linear and nonlinear systems using state variable

L4

CO3

Design state feedback controller for a given system

L4

CO4

Explain the characteristics of nonlinear systems

L3

CO5

Apply the tools like describing function approach or phase plane approach for assessing the performance of nonlinear systems

L3

CO6

Apply Lyapunov method for the stability analysis of physical systems.

L3

EET 463 ILLUMINATION TECHNOLOGY

Sl. No.

Course Outcomes

Level

CO1

Explain the fundamental concepts of natural and artificial lighting schemes

L2

CO2

Design efficient indoor lighting systems

L3

CO3

Design efficient outdoor lighting systems

L3

CO4

Describe aesthetic and emergency lighting systems

L3

FST423 AUTOMOBILE ENGINEERING & SAFETY

Sl. No.

Course Outcomes

Level

CO1

Explain the engine and fuel system in vehicles

L2

CO2

Outline the details of transmission system components

L2

CO3

Illustrate the steering, brakes and suspension system

L2

CO4

Relate the operations of different electrical components

L2

CO5

Identify the modern techniques used in automotive safety and role of regulations towards it

L3

MCN401 INDUSTRIAL SAFETY ENGINEERING

Sl. No.

Course Outcomes

Level

CO1

Describe the theories of accident causation and preventive measures of industrial accidents. (Cognitive Knowledge level: Understand)

L2

CO2

Explain about personal protective equipment, its selection, safety performance & indicators and importance of housekeeping. (Cognitive Knowledge level: Understand)

L2

CO3

Explain different issues in construction industries. (Cognitive Knowledge level: Understand)

L2

CO4

Describe various hazards associated with different machines and mechanical material handling. (Cognitive Knowledge level: Understand)

L2

CO5

Utilize different hazard identification tools in different industries with the knowledge of different types of chemical hazards. (Cognitive Knowledge level: Apply)

L3

MET455 QUALITY ENGINEERING AND MANAGEMENT

Sl. No.

Course Outcomes

Level

CO1

To be conversant with important terms for quality management in organizations

L2

CO2

Have a complete theoretical and practical understanding of the contributions of Quality Gurus

L2

CO3

Demonstrate knowledge of the underlying principles of strategic quality management

L2

CO4

Identify various human dimensions of TQM

L3

CO5

Implement different tools and techniques in TQM

L3

CO6

Implement different statistical quality control techniques

 

CET455 ENVIRONMENTAL HEALTH AND SAFETY

Sl. No.

Course Outcomes

Level

CO1

Explain the Toxicology and Occupational Health associated with industries.

L2

CO2

Identify chemical and microbial agents that originate in the environment and can impact human health

L2

CO3

Describe various measures to ensure safety in Construction industry.

L2

CO4

Explain the effect of air and water pollution on environment.

L2

CO5

Describe the safety measures against various environmental hazards.

L2

EEL 411 CONTROL SYSTEMS LAB

Sl. No.

Course Outcomes

Level

CO1

Demonstrate the knowledge of simulation tools for control system design.

L3

CO2

Develop the mathematical model of a given physical system by conducting appropriate experiments.

L4

CO3

 Analyse the performance and stability of physical systems using classical and advanced control approaches

L4

CO4

Design controllers for physical systems to meet the desired specifications.

L4

EOQ413 SEMINAR

Sl. No.

Course Outcomes

Level

CO1

Identifyacademic documents from the literature which are related to her/his areas of interest(Cognitive knowledge level: Apply)

L3

CO2

Read and apprehend an academic document from the literature which is related to her/is areas of interest.(Cognitive knowledge level: Analyze)

L4

CO3

Prepare a technical presentation about an academic document(Cognitive knowledge level: Create)

L3

CO4

Develop effective communication skills to present his/her understanding based on the literatures reviewed.(Cognitive knowledge level: Apply)

L3

CO5

Prepare a technical report regarding the study.(Cognitive knowledge level: Create)

L3

EED 415 PROJECT PHASE I

Sl. No.

Course Outcomes

Level

CO1

Model and solve real-world problems by applying knowledge across domains

L3

CO2

Develop products, processes or technologies for sustainable and socially relevant applications

L3

CO3

Function effectively as an individual and as a leader in diverse teams and to comprehend and execute designated tasks

L3

CO4

Plan and execute tasks utilizing available resources within timelines, following ethical and professional norms

L3

CO5

Identify technology/research gaps and propose  innovative/creative solutions

L4

CO6

Organize and communicate technical and scientific findings effectively in written and oral forms

L3

EET 402 ELECTRICAL SYSTEM DESIGN AND ESTIMATION

Sl. No.

Course Outcomes

Level

CO1

Explain the rules and regulations in the design of components for medium and high voltage installations.

L2

CO2

Design lighting schemes for indoor and outdoor applications.

L3

CO3

Design low/medium voltage domestic and industrial electrical installations.

L3

CO4

Design, testing and commissioning of 11 kV transformer substation.

L3

CO5

Design electrical installations in high rise buildings.

L3

EET424 Energy Management 

Sl. No.

Course Outcomes

Level

CO1

Analyse the significance of energy management and auditing.

L2

CO2

Discuss the energy efficiency and management of electrical loads.

L3

CO3

Apply demand side management techniques

L2

CO5

Explain the energy management opportunities in industries.

L2

EET 468  INDUSTRIAL INSTRUMENTATION AND AUTOMATION

Sl. No.

Course Outcomes

Level

CO1

Identify the sensors/transducers suitable for industrial applications.

L1

CO2

Design the signal conditioning circuits for industrial instrumentation and automation.

L3

CO3

Analyze the concepts of data transmission and virtual instrumentation related to automation

L3

CO4

Develop the logic for the process control applications using PLC programming

L3

CO5

Describe the fundamental concepts of DCS and SCADA system

L2

EED416PROJECT PHASE II

Sl. No.

Course Outcomes

Level

CO1

Identify solutions forreal world problemsbyapplying knowledgeacross domains.

L2

CO2

Buildproducts,processes,ortechnologies forsustainableandsociallyrelevant applications.

L6

CO3

Develop the capability to functioneffectivelyasan individualand asaleaderin diverseteams to comprehendandexecutedesignatedtasks.

L3

CO4

Organizetasksutilizingavailableresourceswithintimelines,following ethicalandprofessional norms.

L3

CO5

Examinetechnology/researchgapstopropose innovative/creativesolutions.

L4

CO6

Organizetechnicalandscientificfindings effectivelyin written andoralforms

L3

2015 Scheme:

SEMESTER

SUB CODE

COURSES

I
MA101
Linear Algebra and Calculus
CYT 100
Engineering Chemistry
EST 110
Engineering Graphics
EST 120
Basics of Civil & Mechanical Engineering
HUT 101
Life Skills
CYL 120
Engineering Chemistry Lab
ESL 120
Civil & Mechanical Workshop
II
MA 102
Vector Calculus, Differential Equations And Transforms
PH 100
Engineering Physics A
EST 100
Engineering Mechanics
EST 130
Basics of Electrical & Electronics Engineering
HUT 102
Professional Communication
EST 102
Programming in C
ESL 130
Electrical & Electronics Workshop
PHL 120
Engineering Physics lab
III
MA201
Linear Algebra & Complex Analysis
EE201
Circuits and, Networks
EE203
Analog Electronic Circuits
EE205
DC Machines and Transformers
EE207
Computer Programming
HS200
Business Economics
EE231
Electronic Circuits Lab
EE233
Programming Lab
IV
MA 201
Probability Distributions, Transforms And Numerical Methods
EE202
Synchronous and Induction Machines
EE204
Digital Electronics and Logic Design
EE206
Material Science
EE208
Measurements and Instrumentation
HS210
Life Skills
EE232
Electrical Machines Lab I
EE234
Circuits and Measurements Lab
V
EE301
Power Generation, Transmission and Protection
EE303
Linear Control Systems
EE305
Power Electronics
EE307
Signals and Systems
EE309
Microprocessor and Embedded Systems
EE367
Elective -1 New and Renewable Energy Systems
EE341
Design Project
EE331
Digital Circuits and Embedded Systems Lab
EE333
Electrical Machines Lab II
VI
EE302
Electromagnetics
EE304
Advanced Control Theory
EE306
Power System Analysis
EE308
Electric Drives
HS 300
Principles of Management
EE372
Elective 2 Biomedical Instrumentation
EE332
Systems and Control Lab
EE334
EE334 Power Electronics and Drives Lab
EE352
Comprehensive Exam
VII
EE401
Electronic communication
EE403
Distributed generation and smart grids
EE405
Electrical system design
EE407
Digital Signal Processing
EE409
Electrical Machine Design
EE465
Power Quality
EE451
Seminar & Project Preliminary
EE431
Power system Lab
VIII
EE402
Special Electric Machines
EE404
Industrial Instrumentation &Automation
EE 474
Elective 4 Energy Management and Auditing
CE 494
Elective 5 (Non Departmental) Environmental Health and Safety
EE492
EE492 Project
EE 201 CIRCUITS AND NETWORKS
Sl.No
COURSE OUTCOMES
Level
CO1
Solve any DC or AC circuits
L3
CO2
Apply graph theory in solving networks
L3
CO3
Apply Laplace Transform to find transient response
L3
CO4
Analyse the performance of two port networks using network parameters
L4
CO5
Relate between current and voltage in circuit elements
L2
EE 203 ANALOG ELECTRONIC CIRCUITS
Sl.No
COURSE OUTCOMES
Level
CO1
Design biasing schemes for transistor circuits
L3
CO2
Model BJT and FET amplifier circuits
L3
CO3
Compare different power amplifier for electronic circuit applications
L2
CO4
Describe oscillator circuits using BJT
L2
CO5
Design analog circuits using OPAMPs for specific applications
L3
EE 205 DC MACHINES & TRANSFORMERS
Sl.No
COURSE OUTCOMES
Level
CO1
Describe  Constructional & operational features of  DC machines & transformers
L3
CO2
Classify DC generator & transformers based on their applications
L3
CO3
Select different speed control methods of DC motors for different applications
L2
CO4
Develop the equivalent circuit & phasor diagram of transformers
L2
CO5
Make use of different tests to get the performance of  DC machines & (L3) transformer
L3
EE 207 COMPUTER PROGRAMMING THEORY
Sl.No
COURSE OUTCOMES
Level
CO1
Build C programs from algorithms and flowcharts
L3
CO2
Design C programs with interactive Input-Output, arithmetic expressions, decision making and arrays
L3
CO3
Design modular C programs using functions
L3
CO4
Make use of files in C programs
L3
CO5
Design programs using Python language
L3
HS 200  BUSINESS ECONOMICS
Sl.No
COURSE OUTCOMES
Level
CO1
Explain the basic economic problems
L2
CO2
Describe various micro economic concepts demand, supply, market equilibrium and production
L2
CO3
Compare different market structures
L2
CO4
Make use of economic models for examining current economic scenario
L3
CO5
Prepare various business tools like balance sheet, cost benefit analysis and rate of returns
L3
 EE 231 ELECTRONICS CIRCUITS LAB
Sl.No
COURSE OUTCOMES
Level
CO1
Design different types of waveform generators using discrete components and opamps
L3
CO2
Plot the frequency response and characteristics of BJT and JFET
L2
CO3
Develop opamp circuits to perform mathematical operations
L3
CO4
Design waveform generation circuits using 555 Timer IC
L3
CO5
Utilize one’s ability as an individual or in a team for development of effective communication, practical skill and document design
L3
 EE233 COMPUTER PROGRAMMING  LAB
Sl.No
COURSE OUTCOMES
Level
CO1
Build C programs from algorithms and flowcharts
L3
CO2
Design C programs with interactive Input-Output, arithmetic expressions, decision making and arrays
L3
CO3
Design modular C programs using functions
L3
CO4
Make use of files in C programs
L3
CO5
Design programs using Python language
L3
EE 202 SYNCHRONOUS& INDUCTION MACHINES
Sl.No
COURSE OUTCOMES
Level
CO1
Describe the principle of operation of 3 phase induction motor
L2
CO2
Analyze the performance of different types of induction motors
L3
CO3
Identify alternator types
L1
CO4
Analyze the performance of alternator from voltage regulation
L3
CO5
Explain the principle of operation of synchronous motor
L2
 
EE 205 DIGITAL ELECTRONICS & LOGIC DESIGN
Sl.No
COURSE OUTCOMES
Level
CO1
Explain different number systems, and Boolean algebra.
L2
CO2
Design and set up logic circuits using gates and VHDL
L3
CO3
Design combinational circuits and Flip Flop based sequential circuits
L3
CO4
Design and implement various counters
L3
CO5
Describe the operation of ADC & DAC circuits, and memories
L2
 
EE 206 MATERIAL SCIENCE
Sl.No
COURSE OUTCOMES
Level
CO1
Describe the characteristics of conducting, semiconducting and insulating materials
L2
CO2
Explain the behavior of dielectrics in static and alternating fields
L2
CO3
Classify magnetic materials based on different laws related to them
L2
CO4
Explain solar energy materials and superconducting materials
L2
CO5
Illustrate the modern techniques used for material studies
L3
 
EE 208 MEASUREMENTS AND MEASURING INSTRUMENTS
Sl.No
COURSE OUTCOMES
Level
CO1
Describe the construction and working of different measuring instruments for the measurement of various electrical parameters. (Voltage, current, resistance, inductance, capacitance, power, energy).
L2
CO2
Describe the different methods for the measurement of various magnetic characteristics
L2
CO3
Explain high voltage and high current measuring methods and equipments
L2
CO4
Illustrate the working and applications of cathode ray oscilloscope
L2
CO5
Describe the operating principles of different transducers for measuring various physical variables
L2
 
HS210 LIFE SKILLS
Sl.No
COURSE OUTCOMES
Level
CO1
To develop communication competence ,convey  thoughts and ideas with clarity and focus,report writing skills and develop interview and group  discussion skills
L2
CO2
To build critical thinking process and problem solving skills
L3
CO3
To develop team dynamics and effectiveness that  enable leadership qualities
L3
CO4
To compare Engineering ethics and human values
L2
CO5
To develop moral and social values, loyalty and to learn to appreciate the rights of others
L3
 
 EE 231 ELECTRONICS CIRCUITS LAB
Sl.No
COURSE OUTCOMES
Level
CO1
Analyze RLC circuits and coupled circuits to obtain the voltage current relations
L3
CO2
Verify DC network theorems by settling up various networks
L3
CO3
Calibrate the single and three phase energy meters at various power factor
L3
CO4
Measure power in single and three phase circuits by various methods
L3
CO5
Determine magnetic characteristics of iron ring specimen
L3
 
 EE232 ELECTRICAL MACHINES LAB I
Sl.No
COURSE OUTCOMES
Level
CO1
Select suitable methods to find out the regulation of  single transformers
L3
CO2
Develop the equivalent circuit of transformers
L3
CO3
Experiment with  DC motors to get its performance characteristics
L3
CO4
Experiment with  DC generators to get its performance characteristics
L3
CO5
Utilize one’s ability as an individual or in a team for development of effective communication, practical skill and document design
L3
 
EE 301 POWER GENERATION, TRANSMISSION AND PROTECTION
Sl.No
COURSE OUTCOMES
Level
CO1
Explain the basic aspects of power generation and economics of power generation
L2
CO2
Design the power factor correction equipment and transmission line parameters.
L3
CO3
Explain the characteristics of overhead, underground transmission and the types of insulators used
L2
CO4
Describe the need for HVDC ,FACTS  and insulation coordination
L2
CO5
Select the various protection schemes to be adopted in various cases
L3
 
EE 305 LINEAR CONTROLS SYSTEMS
Sl.No
COURSE OUTCOMES
Level
CO1
Develop the mathematical model of different systems.
L2
CO2
Develop analogous systems of different systems
L3
CO3
Describe the different components used in control systems
L2
CO4
Explain the transient and steady state response of dynamic systems
L2
CO5
Examine the stability of LTI systems in time and frequency domain
L3
 
EE305: POWER ELECTRONICS
Sl.No
COURSE OUTCOMES
Level
CO1
Illustrate the characteristics of various power semiconductor devices
L3
CO2
Describe triggering circuit sand controlled  rectifiers
L2
CO3
Describe various inverter circuits
L2
CO4
Explain different ac-ac voltage regulator circuits& PWM methods
L2
CO5
Design dc-dc regulator circuits& chopper circuits
L3
 
EE 307 – SIGNAL AND SYSTEMSS
Sl.No
COURSE OUTCOMES
Level
CO1
Classify Signals and system based on their property& Acquire Basic Knowledge in Nonlinear Systems
L2
CO2
Analyse the continuous time system  using Laplace Transform
L4
CO3
Analyse the spectral Characteristics of continuous time signal using Fourier Transform and Fourier Series.
L4
CO4
Understanding the process of sampling and its effects
L2
CO5
Analyse the discrete time system with Z Transform and Discrete Fourier Series
L4
 
EE 309  MICROPROCESSOR AND EMBEDDED SYSTEMS
Sl.No
COURSE OUTCOMES
Level
CO1
Demonstrate the architecture, instruction set and programming of 8085 microprocessor
L2
CO2
Illustrate timing diagram for 8085 instructions.
L2
CO3
Outline the concept of I/O and memory interfacing with 8085 microprocessor.
L2
CO4
Interpret the architecture and instruction set8086 microprocessor
L2
CO5
Develop programs in 8086 and 8051
L3
 
EE 367 NEW AND RENEWABLE SOURCES OF ENERGY
Sl.No
COURSE OUTCOMES
Level
CO1
Interpret the current energy scenario
L3
CO2
Explain commonly used renewable energytechnologies and systems
L2
CO3
Describe the different Storage technologies form the autonomous renewable energy sources
L2
CO4
Design various possible mechanisms with renewable energy resources
L3
CO5
Identify the modern energy conversion technologies
L3
 
EE 361 DESIGN PROJECT
Sl.No
COURSE OUTCOMES
Level
CO1
To plan innovatively on the development of components, products, processes or technologies in the engineering field.
L3
CO2
To choose the engineering tools/components for solving the identified engineering problem
L3
CO3
To develop different solution to a given problem & compare these solutions for optimum design
L3
CO4
To conclude the results of experiments conducted on the designed solution
L4
CO5
To build effective oral and written  communication through presentation of the project work, demonstration of the project and preparation of project report
L3
 
EE 331  DIGITAL CIRCUITS & EMBEDDED SYSTEMS LAB
Sl.No
COURSE OUTCOMES
Level
CO1
Build digital logic circuits for specific applications
L3
CO2
Design digital circuits using MUX and DEMUX IC’s
L3
CO3
Develop programs to design various arithmetic and logical operations
L3
CO4
Design digital systems to interface peripheral devices with 8051
L3
CO5
Utilize one’s ability as an individual or in a team for the effective communication, practical skill   and document design
L3
 
EE 333 ELECTRICAL MACHINES LAB II
Sl.No
COURSE OUTCOMES
Level
CO1
Select suitable methods to find out the regulation of  three phase Alternator.
L3
CO2
Experiment with  single phase induction motor to get its performance characteristics
L3
CO3
Examine the performance of a three phase induction motor under dual speed conditions
L4
CO4
Develop the equivalent circuit and circle diagram of a three phase induction motor by conducting suitable experiments
L3
CO5
Utilize one’s ability as an individual or in a team for development of effective communication, practical skill and document design
L3
 
EE302ELECTROMAGNETICS
Sl.No
COURSE OUTCOMES
Level
CO1
Develop a conceptual basis of electrostatics
L3
CO2
Explain the physical significance of differential equations governing electrostatic and magnetic field
L2
CO3
Develop a conceptual basis of magneto-statics
L3
CO4
Understand how materials are affected by electric and magnetic fields
L2
CO5
Understand the basic principles of EMI and  propagation of uniform plane wave
L2
 
EE304ADVANCED CONTROL THEORY
Sl.No
COURSE OUTCOMES
Level
CO1
Design compensators using classical techniques
L2
CO2
Develop a state model of linear system using state space methods
L2
CO3
Examine the controllability and observe ability and state feedback design using pole placement technique
L3
CO4
Determine the stability of discrete system and non linear system
L2
CO5
Determine the describing function of  various non linear ties
L2
 
EE306 POWER SYSTEM ANAYSIS
Sl.No
COURSE OUTCOMES
Level
CO1
Analyze power system under normal and fault condition
L3
CO2
Make use of load flow studies under normal and abnormal condition
L3
CO3
Model different components of power system
L4
CO4
Apply different techniques for maintaining system stability
L3
CO5
Discuss the distribution of  load economically between units
L2
 
EE308 ELECTRIC DRIVES
Sl.No
COURSE OUTCOMES
Level
CO1
Explain fundamental concepts of electric drives
L2
CO2
Apply DC motor dynamics to meet load requirements
L3
CO3
Compare quadrant operation of chopper controlled DC drives.
L2
CO4
Explain different speed control methods of AC motor drives
L2
CO5
Describe  basic concepts of field oriented control
L2
 
HS 300PRINCIPLES OF MANAGEMENT
Sl.No
COURSE OUTCOMES
Level
CO1
Classifythe changing role and functions of management in business
L2
CO2
Explainthe role of managers in today’s business
L2
CO3
Identify  the impacts of alternative management approaches on an organization..
L3
CO4
Identify the importance of planning, organizing, staffing, leading and controlling
L3
CO5
Differentiate between leading and managing theories
L2
 
EE372 BIOMEDICAL INSTRUMENTATION
Sl.No
COURSE OUTCOMES
Level
CO1
Explain important systems of human physiology
L2
CO2
Inspect characteristics features of biopotential signals
L4
CO3
Interpret data from living systems
L2
CO4
Explain the fundamentals of medical equipment’s used for advanced diagnosis and therapy
L2
CO5
Identify patient safety issues related to biomedical instrumentation
L3
 
EE332 SYSTEMS AND CONTROL LAB
Sl.No
COURSE OUTCOMES
Level
CO1
Develop a mathematical model for servomotor and other electrical systems.
L4
CO2
Analyze the performance a of different process control systems.
L4
CO3
Analyze the performance of different types of controllers
L4
CO4
Design simple systems and compensators using MATLAB
L4
CO5
Design basic logic gates and counters using  PLC ladder diagram.
L4
 
EE334POWER ELECTRONICS AND DRIVES LAB
Sl.No
COURSE OUTCOMES
Level
CO1
Analyze various power semiconductor devices that are used in power electronic applications
L4
CO2
Select a firing circuit based on the application
L3
CO3
Experiment with various power electronic converter topologies.
L3
CO4
Examine the waveforms for various power electronic converter circuits
L3
CO5
Simulate  power electronic converters for various applications
L4
 
EE365 COMPREHENSIVE EXAM
Sl.No
COURSE OUTCOMES
Level
CO1
Improve their interview skills
L3
CO2
Develop confidence in themselves with respect to the knowledge gained in their field of engineering
L3
CO3
Solve the various technical questions generally asked in the exams related to employment in the field of electrical engineering
L3
CO4
Develop knowledge in the latest developments in their field of engineering
L3
CO5
Propose solutions to common engineering problems in their field of engineering
L4
EE 401 ELECTRONIC COMMUNICATION
Sl.No
COURSE OUTCOMES
 Level
CO1
Obtain the basic relations used in analog modulation.
L3
CO2
Summarize the various analog communication systems.
L2
CO3
Describe the concepts of TV & RADAR Engineering.
L2
CO4
Explain the basic principles of digital communication.
L2
CO5
Outline the concepts of various wireless communication systems
L2
 
EE 403 DISTRIBUTED GENERATION AND SMART GRIDS
Sl.No
COURSE OUTCOMES
 Level
CO1
Explain the term Distributed Generation
L2
CO2
Illustrate the structure of a microgrid
L3
CO3
Explain the control and protection issues of a microgrid
L2
CO4
Distinguish between a conventional grid and a smart grid
L4
CO5
Explain the various power quality aspects with respect to a smart grid
L2
 
EE 405 ELECTRICAL SYSTEM DESIGN
Sl.No
COURSE OUTCOMES
Level
CO1
Describe various IS codes and Acts for design of electrical installations
L2
CO2
Apply relevant Indian standards for design of electrical systems with low and medium voltage installations
L3
CO3
Develop an estimate for design of indoor and outdoor 11kV substations
L3
CO4
Make use of different illumination schemes for design of electrical installations
L3
CO5
Describe various energy conservation techniques in lighting and power
L2
 
EE407 DIGITAL SIGNAL PROCESSING
Sl.No
COURSE OUTCOMES
 Level
CO1
Obtain Discrete Fourier Transform of the discrete time system.
L3
CO2
Realize digital filters for given transfer function
L2
CO3
Design digital filters using various methods
L3
CO4
Explain the effects of finite word length registers in DSP
L2
CO5
Describe various features of digital signal processor TMS320C24x
L2
 
EE 409 ELECTRICAL MACHINE DESIGN
Sl.No
COURSE OUTCOMES
 Level
CO1
Design electromagnetic circuits for electric machines
L2
CO2
Design Transformers by applying the design criteria
L3
CO3

Design DC machine parts to give the desired performance

L3
CO4
Design Synchronous machines to meet the desired performance
L3
CO5
Design induction machine parts to get the required performance characteristics
L3
 
EE465 POWER QUALITY
Sl.No
COURSE OUTCOMES
 Level
CO1
To understand the basic definitions and metrics of power Quality phenomena
L2
CO2
To classify the harmonic sources and the effects of harmonic distortion in power system
L2
CO3
To determine power quality monitoring and AND different filtering techniques used for harmonics mitigation
L2
CO4
To understand the various power quality L2 issues in smart grid
L2
CO5
To solve various harmonic analysis using fourier transforms
L3
 
EE  431 POWER SYSTEM LAB
Sl.No
COURSE OUTCOMES
 Level
CO1
Simulate power system operations to find power flow in a given power system using any software
L3
CO2
Analyze different fault conditions in a power system using Mipower
L3
CO3
Analyze  the stability of a power system using any software
L3
CO4
Determine economic load distribution between units
L3
CO5
Testing of  earth resistance ,cable insulation ,over current relay using different testing equipment’s
L3
 
EE451 SEMINAR & PROJECT PRELIMINARY
Sl.No
COURSE OUTCOMES
 Level
CO1
Apply the fundamental knowledge of Electrical and Electronics Engineering indeveloping products or solutions or society
L3
CO2
Design and develop system or prototypes independently by utilizing modernsoftware tools and equipments
L6
CO3
Understand the materials obtained and get familiar with industrial standards
L1
CO4
Identify technical issues and solve them effectively in a systematic manner
L2
CO5

Develop professionalism, self-confidence , ethical responsibilities and team working

L6
 
 
EE402 SPECIAL ELECTRICAL MACHINES
Sl.No
COURSE OUTCOMES
 Level
CO1
Explain the basic principles and classification of servo motors
L2
CO2
Describe construction features and method of operation stepper motor.
L2
CO3
Explain the principle of operation of single phase special electrical machines.
L2
CO4
Compare the different types of reluctance motor and PM motors.
L3
CO5
Classify linear motors for different applications
L3
EE404 INDUSTRIAL INSTRUMENTATION AND AUTOMATION
Sl.No
COURSE OUTCOMES
 Level
CO1
Select instruments and transducers for various physical variables.
L3
CO2
Make use of data acquisition, processing and monitoring system
L3
CO3
Identify  various signal conditioning systems for transducers
L3
CO4
Explain dynamic responses of various systems.
L2
CO5
Describe the concepts of virtual instrumentation and  programming of PLC
L2
EE 474 ENERGY MANAGEMENT & AUDITING
Sl.No
COURSE OUTCOMES
Level
CO1
Explain the general principles of Energy management
L2
CO2
Discuss energy saving opportunities in different electrical systems
L2
CO3
Explain energy conservation opportunities in Boilers, furnaces & HVAC
L2
CO4
Outline different phases in energy audit
L2
CO5
Apply different financial assessment tools in new proposals
L3
CE494ENVIRONMENTAL HEALTH & SAFETY
Sl.No
COURSE OUTCOMES
 Level
CO1
Identify the preventive measures based on the effect of occupational health diseases
L3
CO2
Analyze the different types of chemical, physical and biological hazards in industry
L4
CO3
Choose the appropriate safety measures to be taken while working in construction industry
L5
CO4
Evaluate the health hazards caused due to water pollution and hazardous waste on humans
L5
CO5
Justify the pollution control methodologies based on the process
L5
EE492 PROJECT
Sl.No
COURSE OUTCOMES
 Level
CO1
Apply the fundamental knowledge of Electrical and Electronics Engineering indeveloping products or solutions or society
L3
CO2
Design and develop system or prototypes independently by utilizing modernsoftware tools and equipments
L6
CO3
Understand the materials obtained and get familiar with industrial standards
L1
CO4
Identify technical issues and solve them effectively in a systematic manner
L2
CO5
Develop professionalism,self-confidence, ethical responsibilities and teamworking
L6
EE465 POWER QUALITY
Sl.No
COURSE OUTCOMES
 Level
CO1
To understand the basic definitions and metrics of power Quality phenomena
L2
CO2
To classify the harmonic sources and the effects of harmonic distortion in power system
L2
CO3
To determine power quality monitoring and AND different filtering techniques used for harmonics mitigation
L2
CO4
To understand the various power quality L2 issues in smart grid
L2
CO5
To solve various harmonic analysis using fourier transforms
L3
EE  431 POWER SYSTEM LAB
Sl.No
COURSE OUTCOMES
 Level
CO1
Simulate power system operations to find power flow in a given power system using any software
L3
CO2
Analyze different fault conditions in a power system using Mipower
L3
CO3
Analyze  the stability of a power system using any software
L3
CO4
Determine economic load distribution between units
L3
CO5
Testing of  earth resistance ,cable insulation ,over current relay using different testing equipment’s
L3
EE451 SEMINAR & PROJECT PRELIMINARY
Sl.No
COURSE OUTCOMES
 Level
CO1
Apply the fundamental knowledge of Electrical and Electronics Engineering in developing products or solutions or society
L3
CO2
Design and develop system or prototypes independently by utilizing modern software tools and equipments
L6
CO3
Understand the materials obtained and get familiar with industrial standards
L1
CO4
Identify technical issues and solve them effectively in a systematic manner
L2
CO5
Develop professionalism, self-confidence , ethical responsibilities and team working
L6