CO1

Understanding Rank of matrices,

CO2

Concept of limit and continuity of a function of two variables

CO3

Solution of differential equation by separation of variables

CO4

Solution of differential equations with constant coefficients:

CO5

Simultaneously Linear differential equation and its solution

CO1

Understanding Spectroscopy and its Applications

CO2

UV /IR/ NMR Spectroscopy

CO3

Understanding Water and its treatment

CO4

Concept of Corrosion and its Prevention

CO5

Chemistry in Nanoscience and Technology

CO1

Introduction to Computers

CO2

Working Knowledge of Computer System

CO3

Fundamentals of Internet Technology

CO4

Basic Constructs of C

CO5

Concept of array Arrays and Strings

CO1

The multidisciplinary nature of environmental studies

CO2

Understanding Biodiversity and its conservation

CO3

Social Issues and the Environment

CO4

Human Population and Environment

CO5

Exposure of field work

CO1

Learn a universal language for engineers.

CO2

Learn the concept of first angle and third angle projection.

CO3

Learn to develop lateral surface for engineering objects.

CO4

Learn to read drawing, use and application of various line types

CO5

Projection of solids

CO1

Improve their writing skills as well as will enrich their word power.

CO2

Applied Grammar (Socio-Cultural Context)

CO3

Reading (Communicative Approach to be followed)

CO4

Essay Writing and Letter Writing

CO5

Group Discussion & Facing an Interview

CO1

Use of spectrometers

CO2

Determining strength/ Hardness of solutions

CO3

Determining surface tension of liquid

CO4

Determining flesh and fire point

CO5

Determining viscosity

CO1

Practical know-how of various internal and external Hardware components of a computer

CO2

Introduction to Operating Systems;

CO3

MS-Word, MS-Excel, MS-Power point

CO4

Concept of programming Language

CO5

Concept of Internet/IOT

CO1

Students will get exposure to speaking through the above-mentionedinteractive exercises.

CO2

they will develop a technical understanding of language learning software, which will further improve their communicative skills.

CO3

Understanding Video editing

CO4

Impact of role play in concept visualization

CO5

Importance of group discussion

CO1

Understanding Functions of Complex Variables

CO2

Understanding Integral Calculus/ Multiple Integrals

CO3

UnderstandingVector Calculus:

CO4

Understanding Vector differential operators

CO5

A Convergence and divergence of series and its in-depth analysis

CO1

Understanding principle of optics

CO2

Understanding LASER and fibre optics

CO3

Understanding concept of dielectrics

CO4

Understanding quantum computing

CO5

Understanding super conductivity

CO1

Know about the different thermodynamic processes and design principles.

CO2

Know about the different pressure-measuring units and devices.

CO3

Recognize the different power transmission devices, machine elements, and their applications.

CO4

Know about various power producing and power absorbing devices and their working.

CO5

Basic know how of IC Engines

CO1

Apply the knowledge of Electrical Engineering principles to solve DC and AC circuits.

CO2

Formulate and analyse electrical circuits. Understand basic principles of electromagnetism

CO3

Understand electrical machines and transformers.

CO4

Identify and select various electrical machines according to the applications.

CO5

Apply the ethical principles for troubleshooting & installation of safety devices as per norms of

CO1

Concept of Human value and ethics

CO2

Value base living : concept

CO3

Glimpses of history and geography 

CO4

Preliminary general science

CO5

Current affairs

CO1

Explain and strictly adhere to the rules and safety regulations for work in the mechanical workshop

CO2

Properly operate the manufacturing equipment in the mechanical workshop

CO3

Create and document a typical process plan for manufacturing of a product in the mechanical workshop

CO4

Read and use a manufacturing drawing as a definition for the manufacturing of a part

CO5

Use gauging equipment to verify that a manufactured part fulfills the requirements specified on a manufacturing drawing

CO1

Determination of Refractive Index of the Material

CO2

Determination of wave length of the Material

CO3

Determination of fuscous length of lences

CO4

Calculation of unknown Resistance/ Inductance/ Capacitance

CO5

study the Planck’s constant by using photoelectric cell method.

CO1

Identify DC and AC circuits

CO2

Formulate and analyze electrical circuits for  voltage, current and power measurements

CO3

Apply the ethical principles for troubleshooting & installation of safety devices as per norms of engineering practice

CO4

Interpret basic principles of electromagnetism to implement in electrical machines and transformers.

CO5

Recognize and select various electrical machines according to the applications.

CO1

be familiar with the fundamental concepts of network analysis.

CO2

know and apply the network theorems.

CO3

know about Network topologies and Graph Theory

CO4

determine two port network parameters and  system responses

CO5

 be familiar with the fundamental concepts of synthesis of two-port passive networks and learn various characteristics of Filters.

CO1

Understand the concepts of load, load curve and power plant economics

CO2

Identify the objective and design of Tariff.

CO3

Understand and interpret the concept of generation of energy plants

CO4

Understand automatic control of generation.

CO5

Apply the ethical principles for environmental constraints and their remedies in generation of power.

CO1

acquire knowledge of generalized measurement system , methods of measurement and various instruments

CO2

be conversant in construction and working of measuring instruments and their proficient use

CO3

acquire knowledge of the characteristics of measurement system.

CO4

be competent to handle various instruments for the measurement of electrical quantities

CO5

be conversant in construction, working of electromechanical indicating instruments and their use

CO1

Understanding Principals of Electromechanical energy system, Singly and doubly excited system

CO2

Understand construction and working principle of single phase and auto transformers.

CO3

acquire the knowledge of three phase transformers, different type of winding connection, parallel operation and testing of transformers

CO4

Explain construction and working principle of DC generator and various method of improving commutation.

CO5

Describe the construction, working principle and characteristics of DC motor.

CO1

Working of single and three phase transformers

CO2

Working of different types of DC Motors

CO3

Working of Series/Shunt/Compound DC Generators

CO4

Various characteristics of DC machines

CO5

Speed –torque characteristics of DC Machines

CO1

Various types of electromechanical measuring instruments.

CO2

Calibrate and use the Digital Energy Meter.

CO3

Measuring R,L,C.Using Bridges

CO4

Measurement of frequency using Wien’s Bridge.

CO5

Usage of DSO for steady-state periodic waveforms produced by a function generator,

CO1

Introduction to supply system and economy law

CO2

Conductors and Transmission Line Construction

CO3

Skin and proximity effect demonstration.

CO4

Transmission Line Parameters:

CO5

Transmission Line performance

CO1

understand vector analysis, curl, gradient, divergence and laws of static electric field.

CO2

analyse steady and time varying magnetic field, basic laws, vector representation, steady state equation, Poynting Vector etc.

CO3

interpret EM wave propagation in homogeneous, conducting and dielectric mediums.

CO4

differentiate reflection & refraction of EM waves by perfect conductor, dielectric and insulator.

CO5

analyse Transmission line travelling & standing waves, characteristic impedance, reflection coefficient.

CO1

Fundamentals of AC machine windings

CO2

Polyphase Induction Machines

CO3

Starting Methods and Speed Control of induction motor

CO4

Single phase Induction motor working

CO5

Special Purpose Motors

CO1

acquire the knowledge of Global energy requirement and acquire an in depth knowledge about the energy conservation and Energy management.

CO2

gain the knowledge of MHD Generators and Thermo-Electric Generators

CO3

acquire the knowledge of PV Cells and  solar power utilization.

CO4

gain the knowledge of electric power generation from wind power.

CO5

Understanding Fuel cells, principle of action, general description of fuel cells and know the harnessing power from bio and other renewable sources

CO1

Understand basic concept of wiring system and standard related to wiring system and knowledge regarding estimation, costing and purchasing.

CO2

understand and describe the basic term, general rules, circuit design procedure, wiring design for domestic and industrial installationand describe the basic term, general rules, circuit design procedure, wiring design for domestic and industrial installation

CO3

prepare details estimation and costing of domestic, commercial and industrial electrical installation as per IE Rules and test domestic, commercial and industrial installation as per standard

CO4

Prepare detail estimation and costing for single and three-phase service connection installation of service connection and prepare estimation and costing of overhead & underground transmission and distribution line.

CO5

Prepare estimate and costing of repair and maintenance of electrical equipment and products

CO1

interpret signals, convolution and learn various properties.

CO2

to familiarize the concepts of transform based continuous time and discrete time analysis of signals and systems.

CO3

be conversant in Fourier Series, Fourier Transform along with their basic properties

CO4

analyse sampling, restructuring, sampling theorem, aliasing, signal processing.

CO5

study Laplace and Z-transform, their basic properties, region of convergence, inverse Laplace and Z-transform, rational system functions.

CO1

exposed to various sensors and transducers for measuring physical quantities

CO2

 familiar with the specifications of transducers and their application.

CO3

exposed to advancements in sensor technology and able to identify or use a transducer for a specific measurement application.

CO4

 understand signal conditioning circuits and basic telemetry

CO5

identify or use CRO for specific measurement application.

CO1

Understand concepts of combinational and sequential circuits

CO2

Analyze the synchronous and asynchronous logic circuits.

CO3

Understand concepts of memory, programmable logic and digital integrated circuits.

CO4

Design Combinational and sequential systems.

CO5

RTL, DCTL, DTL, TTL, ECL, CMOS and its various types

CO1

Verification of the truth tables of TTL gates

CO2

Verify the NAND and NOR gates as universal logic gates.

CO3

Half adder/ Full adder realization

CO4

Multiplexer/ DE multiplexer Realization

CO5

Introduction to flip-flops

CO1

Acquire knowledge about fundamental concepts and techniques used in power electronics switches, their properties and characteristics.

CO2

Thyristor Turn on and Turn off methods, Various overvoltage and over current protection techniques. 

CO3

Analyse  and design of various single phase and three phase  AC-DC converters, AC-AC converters power converter circuits and understand their applications

CO4

analysis and design of inverters which consist of half and full bridge, single and three phase etc.

CO5

Analysis and Design of Buck Boost Chopper circuit, Classification and commutation techniques.

CO1

Identify relevant information to supplement to the Power Electronics course.

CO2

Set up testing strategies and select proper instruments to evaluate performance characteristics
of Power devices and power electronics circuits and analyze their operation under different
loading conditions.

CO3

Practice different types of wiring and devices connections keeping in mind technical,
economical, safety issues.

CO4

Realize the limitations of computer simulations for verification of circuit behaviour, apply these
techniques to different power electronic circuits and evaluate possible causes of discrepancy in
practical experimental observations in comparison to theory.

CO5

Prepare professional quality textual and graphical presentations of laboratory data and
computational results, incorporating accepted data analysis and synthesis methods,
mathematical software, and word‐processing tools.

Course Name: Power System-II

CO1

Acquire the knowledge of Modelling of sysncheous motor, Transforfer Load etc, Single line diagram representation. Per unit representation.

CO2

Analysis of various Symmetrical and Unsymmetrical Faults. Transient Phenomena, and Traveling Waves  in power system

CO3

Analysis of stability of power system.

CO4

Acquire the knowledge of Neutral Grounding.

CO5

Understanding Power flow analysis of a complex power system

CO1

get a thorough knowledge of MATLAB

CO2

Design PCB and layout

CO3

apply conceptual things to real-world
electrical and electronics problems and applications

CO4

Relate the software architectural styles to the
suitable applications.

CO5

Have the knowledge of PC based data acquisition

CO1

implement the project requiring individual and teamwork skills

CO2

correlate the theoretical concepts with the real life industrial environment.

CO3

gather and analyze the scientific information

CO4

communicate their work effectively through writing and presentation

CO1

Acquaint with the concept of power system, different types of switchgear equipment’s like circuit breakers and relays.

CO2

Design the ratings for fuses according to the requirement

CO3

Conceptualize various protection schemes, various power system components like alternators, transformers and bus-bars

CO4

Access the results obtained by solving symmetrical and unsymmetrical fault studies on the power system networks and design the ratings of the circuit breaker

CO5

Understand protection of different electrical
equipment’s

CO1

Acquire the basic knowledge of control engineering and its scope

CO2

Analyze the mathematical model of a system and determine the response of different order systems for standard inputs.

CO3

Solve the steady state and transient analysis of a system for standard inputs.

CO4

Analyze the stability analysis of a system

CO5

Analyze closed loop control design problems, PID controller and compensation.

CO1

analyse the performance of various controllers

CO2

analyse the mathematical model of a system and determine the response of different order systems.

CO3

solve the steady state and transient analysis of a system.

CO4

Obtain the characteristics of Thermocouple

CO5

be competent in using MATLAB software to analyse closed loop control design problems design compensating networks.

CO1

Concept of rotating Magnetic field

CO2

Understanding in-depth analysis of alternator 

CO3

Two reaction theory for salient pole alternator

CO4

Synchronous motors various torque such that locked-rotor, running, pull-in and pull-out torque.

CO5

Expression of torque/ effect of Excitation

CO1

Describe electrical hazards and safety equipment.

CO2

Analyze and apply various grounding and bonding techniques.

CO3

Select appropriate safety method for low, medium and high voltage equipment.

CO4

Participate in a safety team

CO5

Carry out proper maintenance of electrical equipment by understanding various standards

CO1

Carryout experiments ensuring the safety of equipment and personnel

CO2

Interpret the experimental results and correlating them with the practical power system.

CO3

analyze the performance of a transmission line

CO4

Analyze the power system data for load-flow and fault studies

CO5

Apply computational methods for large scale power system studies

CO1

Perform Load/No-Load test on Induction motor

CO2

Introduction of Kramer drive

CO3

Study of torque-slip/ Power-slip characteristics of Induction motor.

CO4

Perform Load/No-Load test on single phase  Induction motor

CO5

Parallel operation of three-phase alternators

CO1

Nature of Technical Communication

CO2

Barriers to Communication

CO3

Conversation: Formal and Informal

CO4

Report Writing

CO5

C.V. and Resume&Business Letters formation

CO1

To understand Fundamentals theoretical concepts of electric drives.

CO2

Analyse the performance of dc motor drives

CO3

Analyse the performance of induction motor drives for various operating conditions

CO4

To understand dynamics of electrical Drive

CO5

To acquire the knowledge of drives in industry in special reference with microprocessor controlled drives.

CO1

study about history, architecture of Microprocessor.  8085 and microcontroller 8051.

CO2

develop knowledge of programming of 8051 microcontroller using assembly language.

CO3

analyze 8051 microcontroller design, memory mapping and serial data transmission.

CO4

be conversant in application of 8051 microcontroller.

CO5

be aware in the application of PLC and its programming.

CO1

create programmes for various mathematical operations like addition, subtraction of numbers in decimal, hexadecimal and BCD system.

CO2

develop the understanding of various microprocessor and microcontroller kits.

CO3

gain practical understanding of the programmable logic console

CO4

implement ladder logic programming for small applications.

CO5

develop programming codes for laboratory projects

CO1

communicate their work effectively through writing and presentation.

CO2

use research based knowledge in the latest area of technology.

CO3

engage in independent and life-long learning.

CO4

implement the project requiring individual and teamwork skills.

CO5

carry out design calculations and implementations in the area of project.

CO1

implement the project requiring individual and teamwork skills

CO2

correlate the theoretical concepts with the real life industrial environment.

CO3

gather and analyze the scientific information

CO4

communicate their work effectively through writing and presentation

CO1

acquire the knowledge of different type of electrical heating and welding methods

CO2

know about various electrical rating of motors

CO3

fulfill the objective of utilization application of electrical energy in electrochemical process

CO4

know about various electrical circuits used in refrigeration and air conditioning.

CO5

analyze the various methods of illumination and electric traction system.

CO1

develop the concept of high voltage transmission.

CO2

acquire the knowledge of conducting and insulating materials requirements in voltage transmission system.

CO3

Gain the knowledge of the various reasons of
overvoltage in power system and protection
methods against them.

CO4

Understand the insulation coordination and
design of insulation levels of various parts of
power system.

CO5

gain the knowledge of high voltage generation.

CO1

communicate their work effectively through writing and presentation.

CO2

use research-based knowledge for presentation

CO3

engage in effective communication to display the technical knowledge efficiently and life-long learning.

CO4

implement the confidence to represent latest knowledge

CO5

carry out awareness and regular facts of the technical advancements

CO1

analyze design features and limitation of machine design

CO2

understand design parameters for DC Machines.

CO3

understand design parameters for Transformers

CO4

acquire knowledge of design for AC Machines

CO5

acquire computer aided design of electrical machines

CO1

analyze need of energy efficient machines

CO2

understand the standards of energy efficient motors

CO3

understand the concept of power factor improvement

CO4

understand the energy conservation and drive system.

CO5

acquire knowledge of efficiency labelling

CO1

know about basic nervous, circulatory and respiratory system and origin ofbio-potentials

CO2

utilize the concept of various bioelectric signals and electrodes for EEG, EMG and ECG.

CO3

know about the various Measurement and Analysis Techniques , X-Rays and computerized tomography and use them in diagnosis of disease.

CO4

exercise knowledge of Physical Medicine and Assist Devices and radio therapy,

CO5

learn physiological parameters and components of telemedicine, biotelemetry system and their applications in medical field.

CO1

analyze and formulate mathematical model of process element.

CO2

understand the concept of process control

CO3

demonstrate the working of various control valves and their selection criteria

CO4

 understand the operation SPC and DDC controllers

CO5

acquire knowledge of various intelligent controllers

CO1

Gain knowledge about the fundamental concepts of various analog communication systems.

CO2

Concept of AM, FM and PM transmission and reception.

CO3

Analyze the data encoding

CO4

acquire knowledge Asynchronous and Synchronous transmission

CO5

acquire knowledge of data link control

CO1

gain the knowledge of reliability

CO2

understand the application of maintenance strategies in manufacturing environment.

CO3

Will be able to establish maintenance strategies according to system characteristics.

CO4

develop ability in formulating suitable maintenance strategies to enhance system reliability

CO5

analyse statistical methods leading to reliability modelling.

CO1

learn the fundamentals of Robotics, various actuators and transmission systems.

CO2

select an appropriate robot type for a specific manufacturing application.

CO3

become conversant in various end effectors, gripping mechanism and Kinematics in robots.

CO4

develop programming principles and languages for a robot control
system

CO5

Study various applications of industrial robot systems

CO1

understand the basic principles and
modeling of digital control system in transfer
function and state-space domain.

CO2

analyse application of Laplace and
Z-transforms and its correlation for digital control
system.

CO3

apply different aspect of time
response like steady state analysis, transient
response analysis with system pole location,
disturbance rejection, robustness and sensitivity
analysis

CO4

Solve various stability
criteria, and Bilinear
transformation for various systems.

CO5

learn the design procedure for
controller for digital control system using root
locus method, Bilinear transformation

CO1

Be familiar with the important concepts applicable to MEMS, their
fabrication.

CO2

Be fluent with the design, analysis and testing of MEMS.

CO3

Apply the knowledge of MEMS for different applications.

CO4

 Gain the knowledge of sensors for bioinstrumentation

CO5

identify various fabrication and machining
process of MEMS

CO1

Understand the analytical tools such as Fourier transforms, Discrete Fourier transforms, Fast Fourier Transforms and Z-Transforms required for digital signal processing.

CO2

get familiarized with various structures of IIR and FIR systems.

CO3

Design and realize various digital filters for digital signal processing

CO4

Understand the applications of DSP in speech processing and spectrum analysis.

CO5

Analyze various signal processing techniques

CO1

recognize parameters of optimal control system like lagrange’s multiplier, eulers method.

CO2

analyse the use of maxima and minima functions in determining the optimal solution for a problem.

CO3

construct optimal control-based indices using Hamilton Jacobi and Ricatii equations.

CO4

analyse the optimality principle over time variant systems.

CO5

analyse optimal control problems, their classification along with performance indices and selection of dynamic optimization.

CO1

exercise basics of digital image generation, processing, sampling and quantization.

CO2

know about image transforms techniques and image enhancement techniques

CO3

become conversant in 2-D system, spectral density function, estimation and information theory

CO4

analyse image restoration including models, filters and digital processing

CO5

develop process of image segmentation, image data compression and associated techniques

CO1

Understand the basic concepts of Electrostatics and Electromagnetics.

CO2

Understand various computational techniques for computing magnetic fields

CO3

Apply the differential and non-differential techniques to various time dependent problems

CO4

analyse the analytical techniques for various irregular geometries.

CO5

develop the knowledge of harmonic field plots, structural computations and transient fields.

CO1

acquire an in-depth knowledge about the conducting materials

CO2

acquire of knowledge of properties of dielectric and insulator materials.

CO3

understand the selection of magnetic materials for electrical devices

CO4

acquire the knowledge of materials for special applications in electrical equipment

CO5

to understand the  processes used in Plano technology

CO1

acquire an in-depth knowledge about the wave analysers and various measuring instruments.

CO2

acquire of knowledge of properties and working of intelligent sensors like vision sensor, microwave sensor.

CO3

understand the selection criteria of optical fibre sensors, their properties and applications

CO4

recognize the importance of sound frequencies and light intensities.

CO5

acquire the knowledge of tactile sensors

CO1

Understanding Conventional Vehicles:

CO2

Configuration and control of DC/AC  Motor drives

CO3

Energy Storage Requirements in Hybrid and Electric Vehicles

CO4

Energy management strategies used in hybridand electric vehicles

CO5

Case studies

CO1

Introductory knowledge of Expert system

CO2

Expert systems, fuzzy sets and control theory

CO3

Introduction, Reasoning models,

CO4

Rule Base Construction By Self- Learning

CO5

Fuzzy Controller With Self Learning Teacher:

CO1

Types of energy audit, Energy management (audit) approach-understanding energy costs

CO2

Need and advantage of de regulation

CO3

Power wheeling in Multi area system

CO4

Reactive power management in some deregulated electricity markets

CO5

Reliability Analysis

CO1

Transmission Lines and Series/Shunt Reactive Power Compensation

CO2

Thyristor-based Flexible AC Transmission Controllers (FACTS

CO3

Voltage Source Converter based (FACTS) controllers

CO4

Application of FACTS

CO5

Power Quality Problems in Distribution Systems

CO1

Introduction of optimization and constraints

CO2

Linear Programming approach

CO3

Constrained Optimization Techniques:

CO4

Unconstrained Multivariable Optimization Techniques:

CO5

Multiobjective Optimization Techniques

CO1

 Choose the fundamental dynamic behaviour and controls of power systems to perform basic stability analysis.

CO2

Comprehend concepts in modelling and simulating the dynamic phenomena of power systems Interpret results of system stability studies

CO3

analyse theory and practice of modelling main power system components.

CO4

explain the connection between frequency and active power and between voltage and reactive power

CO5

analyse the tools for enhancing system stability.

CO1

Basics about electrical equipment’s in manufacturing

CO2

Application of electrical equipment’s in different
types of industries

CO3

Types and working of electric traction systems

CO4

Industry oriented consumption of electrical energy

CO5

Basics about Illumination and its types

CO1

Design controllers for closed-loop operation of a separately excited DC motor
drive with symmetrical optimization technique

CO2

Implement sine-triangle and Space Vector PWM techniques on analog and
digital platforms

CO3

Understand the power circuit topologies and the sine triangle PWM technique
for 3-level NPC, FC, HB inverters

CO4

Understand and simulate the behavior of high performance induction Motor
drives using the principles of Vector Control and DTC

CO5

Understand and apply the concept of vector control to PMSM drives

CO1

Categorize different types of system and identify a set of algebraic equations to represent and model a complicated system into a more simplified form

CO2

Formulate different types of analysis in frequency domain to explain the nature of stability of the system.

CO3

solve the steady state and transient analysis of a system for standard inputs.

CO4

analyse feedback control mechanisms and design feedback control systems

CO5

Understand the impact of PID and lead/lag compensation techniques on system
performance, stability, and disturbance rejection

CO1

Describe general principles and procedures involved in Electronic Measuring Instruments

CO2

Learn basic principles and instrumentation of thermal analysis

CO3

Learn basic knowledge about the calibration of analytical instruments

CO4

Understand the effects of different constituent in a process outcome and analysis the
performance of various on-line or off-line instruments

CO5

Apply the knowledge of Tactile Sensors

CO1

Understand the Steam Generators, Condensers And Turbines and Steam Power Plant

CO2

Gain the knowledge regarding Equipment, Plant layout, principle of working of Hydro Power plant

CO3

Familiarize the working principles of Nuclear Power Plants

CO4

Understand the various diesel and gas turbine plants

CO5

Basic knowledge of Combined operation of Different types of Power Plants, and pollution control