Course Outcomes:At the end of the course, student will be able to
CO1: Understand the concepts of analyticity and integration of
complex functions, construction of analytic functions if a part
of it is known.
CO 2: Evaluate line integrals using Cauchy’s Integral formulae.
CO 3: Find the Taylor’s and Laurent’s series expansion of complex
functions.
CO 4: Evaluate contour integrals of different types using Residue
theorem.
CO 5: Appreciate the concepts of Conformal mappings and Bilinear
transformations of complex functions.
CO 6: Apply the Frobenius method to obtain a series solution for the
given linear 2nd order ODE.
CO 7: Identify Legendre equation and Bessel equation and solve
them under special conditions with the help of series solution
method. Derive recurrence relations and orthogonality
properties of Bessel and Legendre polynomials.
LOGIC AND SWITCHING THEORY
Course Outcomes:At the end of the course, student will be able
CO1: To convert one number system into anther, detect and
correct errors.
CO2: To optimize Boolean functions and design various
combinational logic circuits.
CO3: To analyze and design various synchronous sequential logic
circuits.
CO4: To synthesize asynchronous circuits.
CO5: To implement logic functions using PLDs
PRINCIPLES OF ELECTRICAL ENGINEERING
Course Outcomes:At the end of this course students able to
CO 1: Understand the basic concepts of transients and also be able
to solve real time electrical and electronic problems.
CO 2: Design electrical and electronics circuits and analyze and
interpret data related to electrical systems.
CO 3: Define various terms related to Filter and attenuation circuits
which are used for all electrical and electronic applications
and also the concept of Characteristic impedance.
CO 4: Learn the constructional features, principal of operation and
the significance of DC Motors and Generators and their
characteristics.
CO 5: Study the Faraday's laws, Principle of operation of single
phase transformer, testing of transformer and also
calculation of efficiency and regulation of transformer.
CO 6 : Understand the concept of Alternating Magnetic fields,
Principle of operation and applications of single phase
induction motors.
ELECTRONIC DEVICES AND CIRCUITS
Course Outcomes:At the end of the course, student will be able
CO1: To analyze diode parameters.
CO2:To analyze and design different rectifier circuits.
CO3: To comprehend different transistor configurations and
biasing techniques.
CO4: To analyze different small signal amplifiers at low frequency.
CO5: To gain familiarity of the devices FET, MOSFET, UJT, SCR
and their characteristics.
SIGNALS AND SYSTEMS
Course Outcomes:At the end of the course, student will be able
CO 1: To characterize and analyze the properties of continuous-time
and discrete-time signals and systems.
CO 2: To apply the knowledge of linear algebra topics like vector
space, basis, dimension, inner product, norm and orthogonal
basis to signals.
CO 3: To represent continuous signals and systems in the frequency
domain using Fourier series and Fourier Transform.
CO 4: To compute convolution, correlation functions and spectral
densities of deterministic signals.
CO 5: To apply the Laplace Transform and Z- Transform for
analyzing continuous-time and discrete-time signals and
systems.
CO 6: To understand the concept of sampling and reconstruction of
analog signals.
TRANSDUCTION OF PHYSICAL VARIABLES
Course outcomes:At the end of the course, the student will be
able to
CO 1: Understand the basics of Instrumentation
CO 2: Acquire confidence in designing a measurement system.
CO 3: Work on laboratory and multidisciplinary tasks.
CO 4: Identify measuring systems in the industry.
ELECTRONIC DEVICES AND CIRCUITS LAB
Course Outcomes:At the end of the lab course, student will be able
CO1: To analyze diode, transistor and FET parameters.
CO2: To design different rectifier circuits.
CO3: To analyze small signal amplifiers at low frequencies.
ELECTRICAL ENGINEERING LAB
Course outcomes:At the end of the lab, students will be able to
CO 1: Do simplification and Verification of theorems like
superposition, Thevenin’s and maximum power transfer etc.
CO 2: Understand practical verification of two port network
parameters.
CO 3: Understand concept of series and parallel resonance circuits.
CO 4: Analyse Magnetization characteristics of DC shunt generator
are performed and characteristics are analyzed.
CO 5: Conduct experiments like Swinburne’s test and Break test on
DC shunt motor and also analyze performance characteristics.
CO 6: Do experiments on transformer under OC and SC conditions
and also know calculation of equivalent circuit parameters,
efficiency and regulation.
CO 7: Understand operation of 3- phase induction motor under
loading conditions.
REASONING AND DATA INTERPRETATION LAB
Course Outcomes:At the end of the course, student should be able
to
CO 1: Understand the concepts of Statement-Argument, Assumption
and Course of Action and use reasoning as a tool to match.
statements with arguments etc.
CO 2: Look at data and find links and patterns, link data with
conclusions and study data logically.
CO 3: Study problem situations and use reasoning as a tool to find
solutions.
CO 4: Nurture the ability to use reasoning as a skill in real time
problems solving.
CO 5: Analyze and infer the data with respect to trend and case
based.
ENVIRONMENTAL STUDIES
Course Outcomes:At the end of the course, the student will be
able to
CO 1: Develop awareness about the hazards to environment.
CO 2: Develop awareness about optimum utilization of natural
resources.
CO 3: Learn about GREEN TECHNOLOGIES to maintain sustainable
development.
CO 4: Get awareness about rules and regulations applicable for
pollution control.
PRINCIPLES OF COMMUNICATIONS
Course Outcomes:At the end of the course, the student will be
able to
CO 1: Identify the modulation techniques used in communication.
CO 2: Develop concepts in both Analog and Digital Modulation
Techniques.
CO 3: Perform the time and frequency domain analysis of the
signals in a communication system.
CO 4: Evaluate the performance of communications in the presence
of noise.
ANALYSIS OF ELECTRONIC CIRCUITS
Course Outcomes:At the end of the course, the student will be able
to
CO 1: Find gain of given amplifier circuit.
CO 2: Use small signal LF and HF models to analyze various
amplifier circuits.
CO 3: Identify the feedback topology of given amplifier circuit.
CO 4: Distinguish among different amplifiers like power amplifiers,
tuned amplifiers, feedback amplifiers etc…
TRANSDUCERS AND APPLICATIONS
Course outcomes:At the end of the course, student will be able to
CO 1: Improve skills in selecting a suitable transducer for a given
application.
CO 2: Acquire confidence in applying various transducing principles
for many domestic requirements.
CO 3: Measure and control various process variables.
CO 4: Develop concepts in data transmission of different types of
physical data.
CO 5: Analyze the performance of different meters used for
measuring voltages, current and resistance.
CONTROL SYSTEMS ENGINEERING
Course Outcomes:At the end of the course, the student will be
able to
CO 1: Understand stability concept and time domain analysis using
time and frequency response.
CO 2: Develop modeling and analysis of simple physical system are
investigated.
CO 3: Study controller units, their type analysis and tuning.
CO 4: Design Lead-Lag compensators based on frequency data for
an open-loop linear system.
LINEAR AND DIGITAL INTEGRATED CIRCUITS
Course Outcomes:At the end of the course, the student will be
able to
CO 1: Construct op-amp applications.
CO 2: Acquire confidence in designing all filters.
CO 3: Develop different applications of 555 timer.
CO 4: Design digital blocks using digital IC’s.
CO 5: Analyze and design A/D and D/A convertors
ANALYSIS OF ELECTRONIC CIRCUITS LAB
Course Outcomes:At the end of the course, student will be able to
CO 1: Design and understand the single stage and multistage
Amplifiers.
CO 2: Understand the operation of RC Oscillators.
CO 3: Design power Amplifiers.
TRANSDUCERS AND INSTRUMENTATION LAB
Course Outcomes :At the end of the course, student will be able to
CO 1: Improve skills experimenting range extension of different
meters.
CO 2: Acquire confidence using capacitive and inductive transducers
for displacement measurement.
CO 3: Develop skills in finding out the accuracy of different circuit
components.
CO 4: Perform piezoelectric method of force and acceleration
measurement.
CO 5: Analyze the effect of temperature on resistance using RTD
sensor.
VERBAL ABILITY LAB
Course Outcomes:
CO 1: Students will develop familiarity with Corporate English.
CO 2: Students will have enriched vocabulary.
CO3: Students will develop the ability to write grammatically.
correct sentences and enhance their professional writing skills.
CO4: Students will be proficient in answering reasoning based
Questions
GENDER SENSITIZATION
Course Outcomes:
CO 1: Students will have developed a better understanding of
important issues related to gender in contemporary India.
CO 2: Students will be sensitized to basic dimensions of the
biological, sociological, psychological and legal aspects of
gender. This will be achieved through discussion of materials
derived from research, facts, everyday life, literature and film.
CO 3: Students will attain a finer grasp of how gender discrimination
works in our society and how to counter it.
CO 4: Students will acquire insight into the gendered division of
labour and its relation to politics and economics.
CO 5: Men and women students and professionals will be better
equipped to work and live together as equals.
CO 6: Students will develop a sense of appreciation of women in all
walks of life.
CO 7: Through providing accounts of studies and movements as well
as the new laws that provide protection and relief to women,
the textbook will empower students to understand and
respond to gender violence.
III Year
MANAGERIAL ECONOMICS AND FINANCIAL ANALYSIS
Course Outcomes:At the end of the course,the student should be able to
CO 1:Capable of analyzing fundamentals of economics such as demand, production, price, supply concepts etc., which helps in effective business administration.
CO 2:Analyze economies of scale and the Break-Even Point.
CO 3:Able to determine the Price-Output Relationship in different market Structures.
CO 4:Analyze how to invest adequate amount of capital in order to get maximum return from selected business activity.
CO 5:Analyze accounting statements like income & expenditure statement, balance sheet to understand financial performance of the business and to initiate the appropriate decisions to run the business profitably.
ELECTRONIC INSTRUMENTATION
Course Outcomes:At the end of the course, the student should be able to
CO 1:Develop skills in analyzing in advanced instrumentation application areas.
CO 2
:
Design instrumentation circuits for several applications.
CO 3
:
Improve their knowledge in Instrumentation associated with Several Industries.
SIGNAL CONDITIONING CIRCUITS
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Understand the importance of Transducers.
CO 2
:
Design the signal conditioning circuits for different instruments.
CO 3
:
Acquire analyze and automate the data.
CO 4
:
Implement the acquisition of real time variable in electrical format.
DIGITAL SIGNAL PROCESSING
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Understand the various operations on discrete time signals & systems.
CO 2
:
Apply DFT and FFT on Discrete time signals.
CO 3
:
Analyze and design an IIR digital filters.
CO 4
:
Analyze and design FIR digital filters.
CO 5
:
Understand the concept of multirate signal processing and its applications.
ADVANCED ENGLISH COMMUNICATION & SOFT SKILLS LAB
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Evolve as effective communicators.
CO 2
:
Emerge as decision makers, time managers and good negotiators.
CO 3
:
Develop holistic soft skills.
CO 4
:
Develop critical and analytical skills.
CO 5
:
Present their skills confidently in the job market.
CO 6
:
Gather ideas and information, and organize them relevantly and coherently.
CO 7
:
Develop leadership and team building skills.
INDUSTRIAL INSTRUMENTATION LAB
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Understand the control operation in the industry.
CO 2
:
Perform PLC programming to monitor and control the physical process.
CO 3
:
Gain knowledge in identifying the various instruments used to measure physical Parameters.
LINEAR AND DIGITAL IC APPLICATIONS LAB
Course Outcomes:At the end of the course, student should be able to
CO 1
:
Design practical op-amp applications.
CO 2
:
Acquire confidence in designing all filters.
CO 3
:
Develop different applications of 555 timer practically.
CO 4
:
Design digital blocks using digital IC’s.
CO 5
:
Analyze and design A/D and D/A convertors.
EFFECTIVE TECHNICAL COMMUNICATION LAB
Course Outcomes:At the end of the course, student should be able to
CO 1
:
Attain proficiency in Technical Writing.
CO 2
:
Use English language appropriately to write effective reports, notes and summaries.
CO 3
:
Write Emails suitable for Professional Communication.
CO 4
:
Develop Analytical and Critical Thinking Skills.
ANALYTICAL INSTRUMENTATION
Course Outcomes:At the end of the course, student should be able to
CO 1
:
Improve their knowledge in Instrumentation associated with several Industries like pharmaceutical, chemical etc.
CO 2
:
Gain knowledge in radioactive methods of analysis.
CO 3
:
Understand the basics of methods of component separation using analytical methods.
MICROPROCESSOR AND MICROCONTROLLERS
Course Outcomes: At the end of the course, the student should be able to
CO 1
:
Write assembly level language programs for different application using assembler
CO 2
:
Interface the processor with different peripheral devices
CO 3
:
Understand the architectural difference between the processor and controllers
CO 4
:
Describe the instruction set and addressing modes of 8086 and 8051
CO 5
:
Understand the real time applications of timers and serial communication of 8051
PROCESS CONTROL INSTRUMENTATION
Course Outcomes:At the end of the course, student should be able to
CO 1
:
Learn about automation concepts.
CO 2
:
Acquire confidence in designing a process control instrumentation system.
CO 3
:
Understand different functional elements in PCI system.
CO 4
:
Develop concepts in applying PID controllers for different control applications.
TELEMETRY AND TELECONTROL
Course Outcomes: At the end of the course, student should be able to
CO 1
:
Appreciate the application of different telemetry systems and control to any process.
CO : Get concept of multiplexing the signals for communication
DIGITAL SYSTEM DESIGN
Course Outcomes: At the end of the course, student should be able to
CO 1
:
Understand design of digital systems using PLDs.
CO 2
:
Acquire confidence in designing complex sequential circuits.
CO 3
:
Get knowledge about fault detection and diagnosis in digital systems.
CO 4
:
Understand different types of test algorithms.
PC BASED INSTRUMENTATION
Course Outcomes:At the end of the course, student should be able to
CO 1
:
Understand the importance of PC in the field of Instrumentation.
CO 2
:
Develop concepts of programming of Allen- Bradely PLCS and design a project.
CO 3
:
Design a project on control by using PLC as a controller.
RELIABILITY ENGINEERING
Course Outcomes:At the end of the course, student should be able to
CO 1
:
Understand essentially what is meant by reliability and distinguish it from quality.
CO 2
:
Calculate reliability of the system knowing reliability of components.
CO 3
:
Calculate reliability of systems connected in series and parallel and combination thereof.
CO 4
:
Improve reliability and manage reliability of instruments and system.
ARTIFICIAL NEURAL NETWORKS
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Understand the basics of Neural Networks and its functioning.
CO 2
:
Identify the various types of networks and its special features.
CO 3
:
Implement the Neural Networks using several softwares in different applications.
COMPUTER NETWORKS (Professional Elective-II)
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Understand the basics of Network models and its architectures.
CO 2
:
Identify the various types of network layers and its applications.
CO 3
:
Implement the Networks using several softwares in different applications.
MICROPROCESSOR AND MICROCONTROLLERS LAB
Course Outcomes:At the end of the lab course, the student should be able to
CO 1
:
Execute different programs for 8086 microprocessor in assembly level language using assembler.
CO 2
:
Interface various I/O Devices like stepper motor, Key board, ADC, DAC etc. with 8086 microprocessor.
CO 3
:
Set up communication between to microprocessors.
CO 4
:
Execute different programs for 8051 microcontroller using integrated development environment (IDE).
CO 5
:
Develop real time applications by interfacing 8051 with peripheral devices.
PROCESS CONTROL INSTRUMENTATION LAB
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Get knowledge about automation.
CO 2
:
Understand real time applications in the industry functioning.
CO 3
:
Analyze interfacing between analog and digital devices.
QUANTITATIVE ABILITY LAB
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Solve the problems using arithmetic, mensuration, geometry, averages & clocks &calendars questions.
CO 2
:
Practice general problems in Placement, CAT and GRE etc. tests.
IV year
BIO MEDICAL INSTRUMENTATION
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Understand the significance of instrumentation in human physiology.
CO 2
:
Acquire confidence in delivering effective therapeutic and diagnostic tools for doctors.
CO 3
:
Develop skill in designing suitable bio-potential electrodes.
CO 4
:
Develop concepts in cardiac and neuromuscular instrumentation.
CO 5
:
Analyze different organ systems by measuring the biopotentials.
VLSI DESIGN
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Familiarize with the basics of MOSFET and different IC fabrication technologies.
CO 2
:
Analyze and design various CMOS combinational and sequential circuits.
CO 3
:
Develop layouts for NMOS, CMOS logic circuits.
CO 4
:
Design different technologies and programmable logic devices.
CO 5
:
Understand the need for testing and design for testability
VIRTUAL INSTRUMENTATION
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Implement complex programs using LabVIEW.
CO 2
:
Create Virtual Instrument using Lab VIEW software for Control system, Signal Processing and Image processing applications.
CO 3
:
Acquire confidence on hardware and software interfacing methodology.
DIGITAL IMAGE PROCESSING
(Professional Elective-III)
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Understand the basic concepts of two-dimensional signal acquisition, sampling, and quantization.
CO 2
:
Understand the spatial filtering techniques, including linear and nonlinear methods.
CO 3
:
Gain the concepts of 2D Fourier transform, including the 2D DFT and FFT, and their use in frequency domain filtering.
CO 4
:
Acquire the knowledge of the fundamental image enhancement algorithms such as histogram modification, contrast manipulation, and edge detection.
CO 5
:
Demonstrate programming skills in digital image processing related problems.
INSTRUMENTATION PROCESS IN INDUSTRIES
(Professional Elective-III)
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Apply fundamental knowledge of chemistry & instrumentation to modeling and analysis of different Industrial engineering.
CO 2
:
Understand disasters caused by an incorrect analysis/design in different Industrial engineering system.
CO 3
:
Students will demonstrate a working knowledge of the basic principles of measuring techniques. And demonstrate technical knowledge and skills in the calibration and use of equipment used in different industrial process measurement and control.
CO 4
:
Students will demonstrate a working knowledge of safety
practices and skills in trouble-shooting problems used in the measurement and control in industrial processes.
ROBOTICS AND AUTOMATION
(Professional Elective-III)
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Know the various parts of robots and fields of robotics.
CO 2
:
Understand various kinematics and inverse kinematics of robots.
CO 3
:
Understand the Euler, Lagrangian formulation of Robot dynamics.
CO 4
:
Understand the trajectory planning for robot.
CO 5
:
Understand the control of robots for some specific applications.
OPTOELECTRONICS AND LASER INSTRUMENTATION
(Professional Elective-IV)
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Improve Knowledge of Fiber optics and lasers to design application specific optical fiber.
CO 2
:
Improve skills in using Lasers in the measurements.
CO 3
:
Acquire knowledge of applications of Lasers in medicine.
EMBEDDED SYSTEMS DESIGN
(Professional Elective-IV)
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Understand an embedded system and to know its applications.
CO 2
:
Learn the processing elements used in embedded systems.
CO 3
:
Understand different embedded application and domain specific systems.
CO 4
:
Learn hardware software development to design embedded systems.
CO 5
:
Familiarize with embedded system examples.
MEMS AND APPLICATIONS
(Professional Elective-IV)
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Know the fabrication process in industry in the context of MEMS.
CO 2
:
Identify suitable transducers in MEMS applications.
CO 3
:
Create Structures in micromachining.
AUTOMATION OF INDUSTRIAL PROCESS
(Professional Elective-V)
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Improve Knowledge in Functional elements of Control System.
CO 2
:
Improve skills in selecting a suitable Controller for a given application.
CO 3
:
Improve Knowledge in Distributed Control System.
POWER PLANT INSTRUMENTATION
(Professional Elective-V)
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Monitor & Control Parameters in power plants.
CO 2
:
Acquire confidence in identifying measuring systems in power plants.
CO 3
:
Understand role of instrumentation in power plants.
CO 4
:
Innovate ideas to improve plant efficiency, reduce leakages and losses and use technologies for designing and developing pollutant free industrial environment.
SCADA & DISTRIBUTED CONTROL SYSTEMS
(Professional Elective-V)
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Understand HMI.
CO 2
:
Understand DCS architecture.
CO 3
:
Understand role of HMI & DCS in industry.
ELECTRONIC COMPUTER AIDED DESIGN LAB
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Design digital circuits of combinational and sequential ICs.
CO 2
:
Develop programming skills in HDL using Xilinx software.
CO 3
:
Acquire to simulate and synthesize the digital circuits in Xilinx software.
ANALYTICAL AND VIRTUAL INSTRUMENTATION LAB
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Apply basic analytical methods and sampling procedures on several chemicals gases or liquids.
CO 2
:
Develop programming skills in Virtual instrumentation using LabVIEW.
CO 3
:
Acquire, Analyze and Display the results of several physical parameters.
MANAGEMENT SCIENCE
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Make business decisions for effective business administration.
CO 2
:
Identify Business strategies for effective and efficient utilization of resources.
CO 3
:
To explore new business opportunities in the dynamic business environment.
CO 4
:
To perform SWOT analysis of the internal and external environment.
CO 5
:
To implement contemporary best practices in an organization.
DIGITAL CONTROL SYSTEMS
Course Outcomes:At the end of the course, the student should be able to
CO 1
:
Identify the difference between the conventional Control systems and Digital Control systems.
CO 2
:
To study the properties of z-plane.
CO 3
:
Study the methods of identifying the stability of a digital system.
