Course outcomes

S.NO

Description

Bloom’s Taxonomy Level

CO1

Analyze the construction, principle of operation and characteristics of PN junction diode

Level 4

CO2

Differentiate various types of diodes and their applications.

Level 3

CO3

Design biasing circuits to maintain a stable operating point based on given specifications

Level 4

CO4

Choose appropriate BJT configuration for a given application.

Level 2

CO5

Evaluate the characteristics of BJT and FET devices

Level 5

CO6

Analyze the amplifier configurations of BJT and FET devices using h parameters

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Analyze the network topologies with electrical components

Level 4

CO2

Analyze the steady state and transient response of RLC circuits

Level 4

CO3

Illustrate the characteristics of two port network parameters

Level 2

CO4

Design attenuators and impedance matching network

Level 4

CO5

Evaluate various transmission line parameters

Level 5

CO6

Analyze Transmission line using Smith Chart with impedance considerations

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Apply the concepts of number systems, codes and Boolean algebra to simplify logic expressions

Level 2

CO2

Design simple combinational logic circuits

Level 5

CO3

Apply minimization techniques for optimizing combinational logic

Level 2

CO4

Design and analyze simple sequential circuits

Level 4

CO5

Apply minimization techniques for sequential circuits

Level 1

CO6

Realize logic gates using diodes and transistors

Level 1

S.NO

Description

Bloom’s Taxonomy Level

CO1

Analyze the orthogonality of signals

Level 4

CO2

Analyze the Spectral characteristics of Periodic and aperiodic continuous signals

Level 2

CO3

Apply sampling theorem in analog to digital signal conversion.

Level 2

CO4

Analyze the signal transmission through linear time invariant systems.

Level 4

CO5

Apply the concepts of convolution and correlation in signal and system analysis

Level 2

CO6

Analyze continuous and discrete-time signals and systems using Laplace and Z Transforms respectively

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Apply the concepts of probability theory to solve probabilistic problems.

Level 3

CO2

Apply the concepts of probability theory to solve probabilistic problems.

Level 3

CO3

Estimate various parameters of a random variable multiple random variables

Level 5

CO4

Analyze the temporal and spectral characteristics of stochastic processes.

Level 4

CO5

Analyze the characteristics and modelling of various noise sources

Level 4

CO6

Analyze various Source coding techniques and related laws

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Analyze the characteristics of different practical diodes..

Level 4

CO2

Construct electronic circuits for various applications using diodes

Level 4

CO3

Analyze the characteristics of different Transistor configurations.

Level 4

CO4

Design amplifier circuits for a given specification.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Implement Boolean Expressions using universal logic gates

Level 4

CO2

Design and verify Combinational logic circuits using IC’s

Level 4

CO3

Design and verify Sequential logic circuits using IC’s

Level 4

CO4

Implement Counters & Shift registers using FF’s

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Perform various operations on signals

Level 4

CO2

Verify the properties of LTI system and its response for different inputs

Level 3

CO3

Analyze the signals using various transforms

Level 4

CO4

Analyze the characteristics of signals in noisy environment.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Differentiate architectural features and modes of operation of 8086 microprocessor and 8051 microcontrollers.

Level 1

CO2

Summarize the addressing modes, instruction set and assembler directives of 8086 Microprocessor and 8051 Microcontroller

Level 3

CO3

Write assembly language programs for 8086 Microprocessor and 8051 Microcontroller

Level 4

CO4

Interface various peripheral devices and memory with 8051 microcontrollers

Level 4

CO5

Analyze the architectural features and instruction set of ARM processor

Level 4

CO6

Explain the architectural feature of CORTEX and OMAP processors

Level 3

S.NO

Description

Bloom’s Taxonomy Level

CO1

Analyze the Categories and functions of various Data communication Networks

Level 4

CO2

Design and analyze various error detection techniques

Level 3

CO3

Demonstrate the mechanism of routing the data in network layer

Level 4

CO4

Analyze the significance of various Flow control and Congestion control Mechanisms

Level 4

CO5

Analyze the Functioning of various Application layer Protocols

Level 4

CO6

Analyze the features and operations of various user interface protocols.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Evaluate the types of control systems for real time applications.

Level 5

CO2

Compute transfer function of a system by different techniques

Level 4

CO3

Evaluate the time response of systems for standard input signals.

Level 4

CO4

Probe the stability of a system using time and frequency domain approach

Level 3

CO5

Examine the performance of systems with compensators and controllers

Level 4

CO6

Construct state models for continuous & discrete time systems and Comment on controllabity and observability of the system

Level 2

S.NO

Description

Bloom’s Taxonomy Level

CO1

Understand the Economic Concepts in business decision making process.

Level 3

CO2

Familiarize with the cost concepts, market structures.

Level 4

CO3

Make use of breakeven analysis, CVP Analysis, pricing strategies

Level 5

CO4

Examine financial accounting and analyze various financial statements.

Level 4

CO5

Interpret various financial statements by applying different types of ratios.

Level 4

CO6

Examine the usefulness of funds flow statement and cash flow statement for better managerial decisions.

Level 3

S.NO

Description

Bloom’s Taxonomy Level

CO1

Examine the Basic structure of a digital computer and the organization of different blocks in a computer using Micro Operations

Level 4

CO2

Use of micro-level operations to control different Units in a computer and analyze the concept of Memory system.

Level 2

CO3

Examine the organization of the I/O peripheral devices

Level 3

CO4

Analyze the Operating system functions, types, system calls.

Level 4

CO5

Demonstrate the memory management techniques impact on architecture of computer design and Principals of Deadlock.

Level 1

CO6

Examine file system implementation and its interface.

Level 1

S.NO

Description

Bloom’s Taxonomy Level

CO1

Calculate various information parameters and explain the types of errors and control strategies

Level 3

CO2

Explain error detection and correction mechanism of linear block codes and its applications

Level 4

CO3

Design cyclic codes for error detection

Level 3

CO4

Implement encoding and decoding techniques of Convolution codes

Level 3

CO5

Elucidate encoding and decoding process of Turbo codes and its applications

Level 4

CO6

Describe the concepts of space time codes

Level 1

S.NO

Description

Bloom’s Taxonomy Level

CO1

Illustrate the characteristics and operating principles of measuring systems

Level 1

CO2

Summarize the construction and operation of various Wave Analyzers and Signal generators.

Level 3

CO3

Analyze the working principles and applications of different types of Oscilloscopes

Level 4

CO4

Measure R, L and C values using different bridge circuits

Level 4

CO5

Utilise transducers to compute various electrical parameters.

Level 4

CO6

Make use of measuring devices to measure different physical parameters

Level 3

S.NO

Description

Bloom’s Taxonomy Level

CO1

Debug 8086 assembly language programs using macro assembler.

Level 3

CO2

Write 8051 assembly language programs for simple arithmetic and logical operations and verify using Keil IDE

Level 4

CO3

Write 8051 assembly language programs to configure various peripheral devices and verify using Keil IDE

Level 4

CO4

Interface various input/output devices to 8051 microcontroller using development kit.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Create and evaluate the performance of various LAN topologies

Level 4

CO2

Evaluate the performance of queue management, scheduling mechanisms and protocols

Level 4

CO3

Evaluate the performance of routing protocols and IEEE 802.x standards.

Level 4

CO4

Analyze various protocols using packet capture monitoring tools.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Build sound vocabulary and use functional English effectively

Level 4

CO2

Analyze the given text and respond appropriately and develop efficacious writing skills

Level 4

CO3

Develop effective speaking skills and maximize job prospects

Level 4

CO4

Plan and make different forms of presentation using various techniques

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Discuss the fundamental aspects of Intellectual property Rights which play a major role in development and management of innovative projects in industries

Level 3

CO2

Examine Trademarks, Acquisition of Trade Mark Rights and its registration processes.

Level 3

CO3

Evaluate various aspects relating to copyrights and its procedure for registration processes.

Level 2

CO4

Evaluate with the Trade Secret Law, protection for submission, Unfair Competition

Level 5

Evaluate on the International Developments in Intellectual Property Rights

Level 5

Interpret about current trends in IPR and the steps taken by the Government of India in fostering IPR

Level 5

S.NO

Description

Bloom’s Taxonomy Level

CO1

Analyze various modes of microwave transmission lines

Level 4

CO2

Examine various waveguide components and their applications.

Level 5

CO3

Analyze the characteristics of O-type and M-type microwave tubes

Level 4

CO4

Illustrate the operation of various solid-state devices

Level 3

CO5

Estimate S-parameters of multiport junction devices

Level 2

CO6

Measure various parameters using microwave bench

Level 1

S.NO

Description

Bloom’s Taxonomy Level

CO1

Discuss the basics of Internet and compare ISO-OSI &TCP/IP reference models.

Level 1

CO2

Analyze in detail about guided and unguided systems used for computer networks

Level 4

CO3

Apply knowledge of Computer Network Concepts to solve problems in Error Control and Access control mechanisms

Level 4

CO4

Analyze different routing Techniques.

Level 4

CO5

Explain different UDP and TCP protocols.

Level 5

CO6

Administrate a network and flow of information further he/she can understand easily the concepts of network security, Mobile and ad hoc networks.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

The student will be able to analyze and design wireless and mobile cellular systems

Level 2

CO2

The student will be able to understand impairments due to multipath fading channel.

Level 3

CO3

The student will be able understand the fundamental techniques to overcome the different fading effects.

Level 4

CO4

The student will be able to understand Co-channel and Non Co-channel interferences

Level 5

CO5

The student will be able to familiar with cell coverage for signal and traffic, diversity techniques and mobile antennas

Level 4

CO6

The student will have an understanding of frequency management, Channel assignment, and types of handoff.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Develop problem-solving and programming skills using OOP concepts.

Level 1

CO2

Make use of Interfaces, Abstract classes and packages for Java applications.

Level 3

CO3

Make Use of I/O functionality to read from and write to text files.

Level 2

CO4

Analyze multithreading and exception handling mechanism for java applications.

Level 4

CO5

Develop Applets for Web Application

Level 1

CO6

Build GUI using AWT and Swings

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Distinguish the embedded systems from general purpose processing systems.

Level 2

CO2

Recommend suitable hardware for different applications of embedded systems.

Level 3

CO3

Select different types and amount of memory based on embedded system specifications.

Level 4

CO4

Discuss the Embedded firmware design approaches, development languages and device drivers

Level 3

CO5

Analyze the issues and techniques of Task synchronization and communication in embedded firmware.

Level 4

CO6

Differentiate between general purpose operating systems and RTOS.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Design and Implement Combinational Logic Circuits on FPGAs

Level 2

CO2

Design and Implement Sequential Logic Circuits on FPGAs.

Level 3

CO3

Analyze static timing, IR drop and Cross talk in digital circuit Layouts

Level 4

CO4

Analyze the AC Characteristics of Amplifiers using VLSI backend tools

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Analyze the characteristics of microwave sources and devices.

Level 4

CO2

Measure different parameters of various microwave devices.

Level 1

CO3

Measure the Scattering Parameters of various Tee Junctions

Level 2

CO4

Measure the Antenna Patterns

Level 3

S.NO

Description

Bloom’s Taxonomy Level

CO1

Select a suitable project making use of the technical and engineering knowledge gained from previous courses with the awareness of impact of technology on the society and their ethical responsibilities.

Level 4

CO2

Collect and disseminate information related to selected project.

Level 4

CO3

Form a team and distribute the work among them

Level 4

CO4

Understand, Plan and execute a Mini Project with team, using necessary literature survey.

Level 4

CO5

Design and Implementation of electronic system using appropriate hardware, software. Troubleshooting techniques & prepare technical report based on the Mini Project.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

An ability to write technical documents and give oral presentations related to the work completed and improves personality development and communication skills.

Level 4

CO2

Train the students to approach ethically any multidisciplinary engineering challenges with economic, environmental and social contexts and to set them for future recruitment by potential employers

Level 4

CO3

Identify and apply appropriate well-rehearsed note-taking interactive and time management strategies to their academic studies

Level 4

CO4

Develop audience-centered presentations meeting concrete professional objectives and integrating ethical and legal visual aids.

Level 4

CO5

Identify and critically evaluate the quality of claims, explanation, support, and delivery in public and professional discourse, and understand the factors influencing a speaker’s credibility

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Apply Laplace Transforms to solve ordinary differential equations

Level 3

CO2

Estimate unknown values for a given data using Interpolation and method of least squares.

Level 4

CO3

Apply numerical methods to solve algebraic and transcendental equations.

Level 3

CO4

Apply numerical methods to evaluate definite integrals and solve initial value problems.

Level 2

CO5

Analyze the complex functions with reference to their analyticity

Level 4

CO6

Apply the knowledge of complex functions to evaluate various integrals.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Apply the laws of electrostatics for different types of charge distributions

Level 3

CO2

Apply the laws of magneto-statics for different types of current distributions

Level 4

CO3

Analyze boundary conditions using Maxwell’s equations at different media interfaces

Level 4

CO4

Examine the propagation of EM waves in different media

Level 4

CO5

Analyze the reflection and refraction of plane waves in dielectrics.

Level 4

CO6

Compare various modes of microwave transmission lines.

Level 3

S.NO

Description

Bloom’s Taxonomy Level

CO1

Analyze various modulation/demodulation techniques of amplitude modulation.

Level 4

CO2

Explain various modulation / demodulation techniques of angle modulation.

Level 3

CO3

Classify various types of transmitters and receivers used in AM and FM

Level 2

CO4

Analyze different types of pulse modulation techniques and multiplexing schemes.

Level 4

CO5

Demonstrate the error representation mechanism in various PCM techniques

Level 3

CO6

Analyze different types of digital modulation techniques and optimal reception of signal

Level 4

S.NO

Description

Bloom’s Taxonomy   Level

CO1

Describe the fundamentals of integrated circuits and Op-Amp

Level 1

CO2

Design Op-Amp circuits for basic applications.

Level 4

CO3

Choose appropriate regulator based on the type of application

Level 2

CO4

Design filters and oscillators using Op-Amp

Level 3

CO5

Use IC 555 and IC 565 for different analog applications.

Level 4

CO6

Differentiate between various types of data converters.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Build different types of multistage amplifiers.

Level 2

CO2

Analyze high frequency response of BJT amplifiers

Level 4

CO3

Categorize different feedback amplifier circuits

Level 4

CO4

Design various types of power and tuned amplifiers for specific applications

Level 5

CO5

Design multivibrators for various applications

Level 4

CO6

Design time-based generators using various techniques

Level 3

S.NO

Description

Bloom’s Taxonomy Level

CO1

Analyze the spectrum of various analog modulation techniques

Level 3

CO2

Design a multiplexing system using FDM

Level 2

CO3

Examine various pulse modulation techniques

Level 4

CO4

Analyze different digital modulation and demodulation schemes

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Design analog circuits for practical applications using Op Amp IC-741

Level 4

CO2

Design waveform generators and PLL circuits using ICs

Level 4

CO3

Design multi vibrators using IC555 and Schmitt trigger using IC741

Level 4

CO4

Analyze the practical applications of Voltage Regulator using various ICs.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Design, simulate and verify basic amplifier circuits.

Level 4

CO2

Design, simulate and verify feedback amplifiers and oscillators.

Level 4

CO3

Design, simulate and verify power amplifier circuits.

Level 4

CO4

Design, simulate and verify Multivibrators and Sweep Circuits.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Develop a better understanding of important issues related to gender in contemporary India.

Level 4

CO2

Analyze basic dimensions of the biological, sociological, psychological and legal aspects of gender.

Level 4

CO3

Develop a sense of appreciation of women in all walks of life and will be equipped to work and live together as equals.

Level 4

CO4

Examine the new laws for women protection & relief, and empower students to understand and respond to gender violence.

Level 5

S.NO

Description

Bloom’s Taxonomy Level

CO1

Apply the basic concepts of various antenna parameters like antenna pattern, radiation intensity, directivity, etc in antenna design.

Level 4

CO2

Analyze radiation pattern of linear wire antennas

Level 3

CO3

Examine the geometry of various types of antennas.

Level 2

CO4

Design different antenna arrays for improving the gain in desired direction.

Level 4

CO5

Measure antenna parameters to assess antenna’s performance.

Level 2

CO6

Analyze the characteristics of wave propagation in different layers of atmosphere.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Determine the behavior of LTI systems by solving difference equation

Level 4

CO2

Understand the concepts of multi rate digital signal processing

Level 3

CO3

Analyze digital signals in frequency domain using DFS and DFT

Level 4

CO4

Compute DFT using FFT algorithms

Level 1

CO5

Design and implement IIR and FIR digital filters

Level 2

CO6

Analyze the effects of finite word length representation

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Summarize the steps in VLSI fabrication process of different MOS Technologies

Level 1

CO2

Examine the electrical properties and models of CMOS circuits.

Level 3

CO3

Construct layouts using stick diagrams in accordance with the design rules.

Level 2

CO4

Implement complex digital logic circuits using switch logic and PLDs.

Level 2

CO5

Build different VLSI subsystems using CMOS logic.

Level 4

CO6

Explore the concept of testing and fault tolerant systems.

Level 2

S.NO

Description

Bloom’s Taxonomy Level

CO1

Distinguish the embedded systems from general purpose processing systems.

Level 4

CO2

Recommend suitable hardware for different applications of embedded systems.

Level 3

CO3

Select different types and amount of memory based on embedded system specifications.

Level 2

CO4

Explain the Embedded firmware design approaches, development languages and device drivers

Level 2

CO5

Analyze the issues and techniques of Task synchronization and communication in embedded

firmware.

Level 4

CO6

Differentiate between general purpose operating systems and RTOS.

Level 3

S.NO

Description

Bloom’s Taxonomy Level

CO1

Generate sinusoidal and noise waveforms using different approaches.

Level 3

CO2

Analyze Impulse and frequency response of various digital filters.

Level 3

CO3

Verify different algorithms of DSP through simulation.

Level 4

CO4

Implement various DSP algorithms in hardware.

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Verify the functionality of digital circuits using Xilinx ISIM simulator

Level 3

CO2

Implement digital circuits on various FPGA boards using Xilinx tools

Level 3

CO3

Design layout for digital circuits and perform physical verification

Level 3

CO4

Analyze static timing, IR drop and crosstalk in digital circuit layouts

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Design and test programs to solve mathematical problems

Level 3

CO2

Develop programs Using Ruby Script

Level 4

CO3

Develop Programs Using TCL Script

Level 4

CO4

Develop Programs Using Perl Script

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Students will understand the historical background, basic concepts and frequency allocations for satellite communication

Level 1

CO2

Students will demonstrate orbital mechanics, launch vehicles and launchers

Level 2

CO3

Students will demonstrate the design of satellite links for specified C/N with system design examples.

Level 3

CO4

Students will be able to visualize satellite sub systems like Telemetry, tracking, command and monitoring power systems etc.

Level 3

CO5

Students will understand the various multiple access systems for satellite communication systems and satellite packet communications.

Level 4

CO6

GPS Receivers and Codes

Level 4

S.NO

Description

Bloom’s Taxonomy Level

CO1

Demonstrate an understanding of the factors affecting the radar performance using Radar Range Equation

Level 1

CO2

Analyze the principle of FM-CW radar and apply it in FM-CW Altimeter.

Level 1

CO3

Differentiate between a MTI Radar and a Pulse Doppler Radar based on their working principle

Level 2

CO4

Demonstrate an understanding of the importance of Matched Filter Receivers in Radars

Level 4

CO5

Familiarize with the different types of Radar Displays and their application in real time scenario

Level 4

CO6

Account for the electronic scanning principle, and implement the same through phased array antennas, knowing their requirements and utilities.

Level 3

S.NO

Description

Bloom’s Taxonomy Level

CO1

Understand the principles of wireless communications.

Level 3

CO2

Understand fundamentals of wireless networking

Level 3

CO3

Understand cellular system design concepts

Level 3

CO4

Analyze various multiple access schemes used in wireless communication

Level 4

CO5

Understand wireless wide area networks and their performance analysis.

Level 2

CO6

Demonstrate wireless local area networks and their specifications

Level 2

S.NO

Description

Bloom’s Taxonomy Level

CO1

Identify problem, conduct relevant literature survey and formalize it.

Level 4

CO2

Analyze & design efficient, cost-effective and eco-friendly solutions using relevant tools (if

necessary) and processes

Level 4

CO3

Implement the design and demonstrate the functionality of developed model

Level 2

CO4

Evaluate the results to derive the conclusion and provide scope for future enhancement.

Level 4

CO5

Exhibit good interpersonal and leadership skills in meeting project deadlines with individual

contribution towards progress of the project.

Level 3