Course Outcomes

(3rd semester to 8th semester)

 

Semester: 3rd

Program:Btech

Course: Analog Devices And Circuits

Course Code: BTEC-301

After the completion of the course, students will be able to:

CO1

Understand the concepts of junction diodes and their applications

 

CO2

Analyze BJT characteristics and determine their behaviour under low and high frequencies.

CO3

Analyze various concepts of FETs and their characteristics. 4

 

CO4

Design low and high frequency models and observe and its various characteristics.

CO5

Generate ability to understand various amplifiers including push pull and complementary symmetry.

CO6

Design different types of feedback amplifiers and oscillator circuits.

 

Semester: 3rd

Program: Btech

Course:Digital Circuits and Logic Design

Course Code: BTEC-302

After the completion of the course, students will be able to:

CO1

Students will be able to understand different Number systems, Codes, Logic Gates, Boolean laws &theorems and minimization of logic functions to the minimum number of literals.

 

CO2

Design & implement different types of combinational logic circuits and sequential logic circuits using Logic gates and flip flops.

CO3

Enable to provide knowledge about Digital to Analog and Analog to Digital converter circuits.

 

CO4

Students will get knowledge about different Logic families and semiconductor memories

 

 

 

 

Semester: 3rd

Program:Btech

Course: Network Analysis and Synthesis

Course Code: BTEC-303

After the completion of the course, students will be able to:

 

CO1

Analyze linear networks using network theorems.

 

CO2

Use Laplace transform to analyze transient & steady state response of linear networks.

 

CO3

Comprehend network parameters to analyze two port networks.

 

CO4

Realize one port networks using Foster’s and Cauer’s methods.

 

 

 

Semester: 3rd

Program:Btech

Course: OOP Lab

Course Code: BTEC-309

After the completion of the course, students will be able to:

 

1

Enable students to develop their skills in programming with C++.

 

2

To describe functions of creating constructors, destructor, inheritance, polymorphism and file handling programs

3

Formulate problems as steps so as to be solved systematically.

 

4

Integrate robustness, reusability, and portability into large-scale software development

 

 

 

Semester: 3rd

Program:Btech

Course: Analog Devices And Circuits Lab

Course Code: BTEC-304

After the completion of the course, students will be able to:

CO1

An ability to understand all types of electronics devices and circuits

 

CO2

An ability to conduct experiments, as well as to analyze and interpret various data sheets.

CO3

Learnt about the basic Electronic Circuits, their operational characteristics and their applications

CO4

Generate ability to understand various amplifiers including push pull and complementary symmetry.

CO5

Design different types of feedback amplifiers and oscillator circuits.

 

 

Semester: 3rd

Program:Btech

Course: Digital Circuits and Logic Design lab

Course Code: BTEC-305

After the completion of the course, students will be able to:

 

CO1

An ability to test and verify working and truth tables of combinational and sequential circuits.

CO2

Working knowledge of different converters.

 

CO3

To perform multiplexer and demultiplexer.

 

 

 

 

Semester: 4th

Program:Btech

Course: Linear Control System

Course Code: BTEE-402

After the completion of the course, students will be able to:

CO1

To introduce the elements of control system and their modeling using various Techniques.

 

CO2

To introduce methods for analyzing the time response, the frequency response and the stability of systems .

CO3

Design the compensation technique that can be used to stabilize control systems.

 

 

Semester:  4th

Program: Btech

Course: Analog Communication Systems

Course Code: BTEC-401

After the completion of the course, students will be able to:

 

CO1

Learn analog communication system and modulation techniques

 

CO2

Understand design of useful circuits required in analog communication system.

 

CO3

Explore working of transmitter and receiver circuits used in communication.

 

CO4

Performance of AM/FM transmission and reception.

 

 

 

 

 

Semester: 4th

Program:Btech

Course: Signal and Systems

Course Code: BTEC-402

After the completion of the course, students will be able to:

 

CO1

Mathematically characterize different types of signals and systems.

 

CO2

Analyze the behavior of linear-shift invariant systems.

 

CO3

Apply concepts of Fourier and Laplace Transforms to analyze continuous-time signals and systems.

 

CO4

Investigate discrete-time signals and systems using Discrete-Time Fourier and Z-Transforms and simple Probability concepts.

 

 

 

 

 

 

 

Semester:  4th

Program: Btech

Course: Electromagnetics & Antennas

Course Code: BTEC-403

After the completion of the course, students will be able to:

 

CO1

Define and recognize different coordinate systems to describe the spatial variations of the physical quantities dealt in electromagnetic field theory as they are functions of space and time

CO2

Explain fundamental laws governing electromagnetic fields and evaluate the physical quantities of electromagnetic fields in different media using different fundamental laws.

 

CO3

Analyze Maxwell’s equation in different forms (differential and integral) and apply them to diverse engineering problems

 

CO4

To understand transmission lines and smith chart

 

CO5

To understand various antenna parameters and different kinds of antennas.

 

CO6

To analyze different types of antenna arrays.

 

 

 

 

 

Semester:  3rd

Program:Btech

Course: Electronics Measurements and Instrumentation

Course Code: BTEC-404

After the completion of the course, students will be able to:

 

CO1

Analyze operation of different instruments and able to describe different terminology related to measurements.

CO2

Recognize and understand various analog measuring instruments.

 

CO3

Measure resistance using various methods.

 

CO4

Find various measurements using CRO.

 

 

 

 

Semester: 4th

Program:Btech

Course: Pulse Wave Shaping and Switching

Course Code: BTEC-405

After the completion of the course, students will be able to:

 

CO1

Acquire knowledge about the basic elements and waveforms of electronic circuits.

 

CO2

Develop the skill for designing the multidirector for various applications.

CO3

Solve the problems related to the switching characteristics of transistors and diodes.

 

CO4

Analyze the low pass and high pass circuits with their responses to different input waveforms.

CO5

Design and analyses the  Non Linear Wave Shaping Circuits.

 

 

 

Semester: 4th

Program:Btech

Course: Analog Communication System Lab

Course Code: BTEC-406

After the completion of the course, students will be able to:

 

1

To familiarize with modulation & demodulation techniques and study their waveforms on oscilloscope.

 

2

To impart working knowledge of Voltage Controlled Oscillator.

 

3

To familiarize students with the functions of oscillators, filters, amplifiers, LC networks, modulators, limiters, mixers, and detectors in AM, FM, PM, SSB, and PLL circuits. Course

 

 

 

 

 

 

 

 

Semester: 4th

Program:Btech

Course: Electronic and Measurement and Instrumentation Lab

Course Code: BTEC-407

After the completion of the course, students will be able to:

 

CO1

Measure the inductance,resistance,capacitance and frequency  by   Maxwell’s Bridge, Kelvin’s Bridge, Schering Bridge, Wein Bridge, Wheat Stone’s Bridge.

 

CO2

Study the characterstics of Transducers

 

CO3

Determine the Q of LCR-Qmeter

 

CO4

Study a stepper motor and control its direction

 

 

Semester: 4th

Program:Btech

Course: Signal and Systems Lab

Course Code: BTEC-408

After the completion of the course, students will be able to:

CO1

Understand basics of MATLAB syntax, functions and programming.

 

CO2

Generate and characterize various continuous and discrete time signals.

 

CO3

Perform the basic operations on the signals.

 

CO4

Design and analyze linear time-invariant (LTI) systems and compute its response.

 

CO5

Analyze the spectral characteristics of signals using Fourier analysis.

 

CO6

Analyze the systems using Laplace transform and Z-transform

 

 

 

 

Semester: 5th

Program:Btech

Course:Data Stucture

Course Code: BTCS-304

After the completion of the course, students will be able to:

 

CO1

Determines the asymptotic time and space complexity of a simple algorithm and Oh-notation (order of magnitude)

 

CO2

Implements an array, linked list as data structure and a priority queue as a heap and insertion and deletion operations on various data structures.

 

CO3

Understands the concept of hashing and implements some basic version of a hash table

 

CO4

Knows sorting algorithms and searching algorithms and programs breadth-first and depth-first traversals in graphs

CO5

Understanding (using pictures and examples) the basic algorithms for shortest paths and minimum spanning trees and able to solve various graph problems using traversals.

 

 

Semester: 5th

Program:Btech

Course:DCS

Course Code: BTEC-501

After the completion of the course, students will be able to:

 

CO1

To understand the various blocks/stages in a digital communication system.

 

CO2

Analyze the performance of a baseband and pass band digital communication system

 

CO3

Perform the time and frequency domain analysis of the signals in a digital communication system.

 

CO4

Analyze the performance of various multiplexing techniques

 

 

 

 

Semester:5th

Program:Btech

Course: Digital Signal Processing

Course Code:BTEC-502

After the completion of the course, students will be able to:

 

CO1

Comprehend the concepts of signal processing, elementary discrete time (DT) sequences and systems.

 

CO2

Apply the concepts of stability, causality, linearity, difference equations to DT systems.

 

CO3

Apply the Discrete Fourier Transform, Fast Fourier Transform and Z-Transform method to discrete time sequences.

 

CO4

Realize structures of discrete time systems and design of FIR and IIR filters.

 

CO5

Describe the structures of DSP processors.

 

 

Semester:5th

Program:Btech

Course:Linear Integrated Circuit

Course Code:BTEC-503

After the completion of the course, students will be able to:

 

CO1

Design linear and nonlinear applications of op – amps.

 

CO2

Design applications using analog multiplier and PLL

 

CO3

Design ADC and DAC using op – amps

 

CO4

Generate waveforms using op – amp circuits

 

CO5

Analyse special function ICs.

 

 

 

 

 

 

 

 

Semester:5th

Program:Btech

Course: MPMC

Course Code:BTEC-504

After the completion of the course, students will be able to:

 

CO1

Comprehend the basic knowledge of microprocessors and microcontroller based embedded system.

 

CO2

Grasp the knowledge of architecture, interfacing and programming of microprocessor based system

 

CO3

Explore the  knowledge of programming in assembly language to solve the complex engineering problems .

 

CO4

Understand the concept of memory management in microprocessor and microcontroller.

 

CO5

Design the circuits of interfacing of embedded system with external devices by committing to professional ethics.

 

 

Semester: 5th

Program:Btech

Course: DSP LAB

Course Code: BTEC-505

After the completion of the course, students will be able to:

 

CO1

Carry out simulation of DSP systems.

 

CO2

Demonstrate their abilities towards DSP processor-based implementation of DSP systems.

 

CO3

Analyze Finite word length effect on DSP systems.

 

CO4

Demonstrate the applications of FFT to DSP.

 

 

 

 

Semester: 5h

Program:Btech

Course: Linear Control System

Course Code: BTEC-506

After the completion of the course, students will be able to:

 

CO1

Evaluate the performance of control system and analyse their steady state and transient response of the system

CO2

Analysis of control systems in the time and frequency domains and using transfer function

 

CO3

Study of the stability tests, such as the Routh Hurwitz, Nyquist criterion, root locus and Bode plot and system stability with them

CO4

Express and solve system equations in state variable form ( state variable models)

 

 

Semester: 5th

Program: Btech

Course: DCS LAB

Course Code: BTEC-507

After the completion of the course, students will be able to:

CO1

Design PCM systems.

CO2

Design and implement base band transmission schemes.

CO3

Design and implement band pass signaling schemes.

CO4

Analyze the spectral characteristics of band pass signaling schemes and their noise performance.

 

Semester: 5th

Program:Btech

Course: MPI LAB

Course Code: BTEC-508

After the completion of the course, students will be able to:

1

Write assembling language Programmes for fixed and Floating Point and Arithmetic

 

2

Interface different I/Os with processor.

3

Generate waveforms using Microprocessors.

 

4

Execute Programs in 8085.

 

 

 

 

Semester: 6th

Program:Btech

Course: Operating System

Course Code: BTEC-401

After the completion of the course, students will be able to:

CO1

Understand the basic concepts related to operating systems.

 

CO2

learn in detail about process management, CPU scheduling algorithms.

 

CO3

Understand memory management functions of operating systems.

 

CO4

Familiar with principles of deadlock and its prevention.

CO5

Understand the concepts of file system management.

 

CO6

Familiar with Protection and security aspects of operating systems.

 

 

Semester: 6th

Program:Btech

Course: Microwave Engineering

Course Code: BTEC-601

After the completion of the course, students will be able to:

CO1

Understand various parameters of waveguide and use of component as per applications

CO2

Analyze and find applications and limitations of microwave tube generators and microwave components

CO3

Analyze and find applications and limitations of semiconductor devices

CO4

 

Discriminate different Radars, find applications and use of its supporting systems.

 

Semester: 6th

Program:Btech

Course: Wireless Communication System

Course Code: BTEC-602

After the completion of the course, students will be able to:

CO1

know the characteristic of wireless channel.

 

CO2

learn the various cellular architectures.

CO3

understand the concepts behind various digital signaling

schemes for fading channels.

CO4

Familiar with the various multipath mitigation techniques.

 

 

Semester: 6th

Program:Btech

Course: Engineering Economics & Industrial Management

Course Code: BTEC-603

After the completion of the course, students will be able to:

CO1

Perform breakeven analysis, evaluate minimum cost analysis, economic order quality and understands the effect of risk and uncertainty on lot size.

 

CO2

Understanding reasons and factors responsible for replacement and economic analysis of Investment Alternatives.

CO3

Understands the difference between cost estimation and cost accounting and different types of cost incurred in estimation procedure and types of depreciation.

CO4

Understanding various motivational theories for industrial management and evaluate store records and identify the various designing structures of  industrial organizations.

 

Semester:  6th

Program: Btech

Course: ITC

Course Code: BTEC97

 

CO1

Design the channel performance using information theory

 

CO2

Comprehend various error control code properties.

CO3

Apply linear block codes for error detection and correction

CO4

Apply convolution codes for performace analysis & cyclic codes for error detection and correction

 

 

Semester: 6h

Program:Btech

Course: Microwave Engineering

Course Code: BTEC-606

After the completion of the course, students will be able to:

CO1

Test and analyze various microwave components.

CO2

Analyze the radiation pattern of antenna.

 

 

Semester: 6th

Program:Btech

Course: VLSI LAB

Course Code: BTEC-605

After the completion of the course, students will be able to:

CO1

demonstrate a clear understanding of hardware design language Verilog HDL.

CO2

realize logic circuits with different design styles.

 

CO3

model various combinational circuits using hardware description language Verilog HDL and validate their functionality.

 

CO4

model various sequential circuits and analyse their timing diagrams.

 

CO5

design, implement, and simulate circuits using VHDL.

 

CO6

analyze the results of logic and timing simulations and to use these simulation results to debug digital systems.

 

 

 

 

Semester:7th/8th

Program:Btech

Course:Computer Network

Course Code:BTCE-403

After the completion of the course, students will be able to:

 

CO1

Independently understand basic computer networking technology, Understand and explain Network System and its components and identify the different types of network topologies and protocols.

 

CO2

Able to enumerate the layers of the OSI model and TCP/IP along with explaining the function of each layer and identify different types of network devices and their functions within a network.

CO3

Able to understand switching and routing in networks and understand the basics of sub-netting and routing mechanisms.

CO4

Identifying Network congestion and its control algorithms.

 

CO5

Able to design and implement the subnet masks and addresses to fulfil networking requirements in IPv4 and IPv6.

 

 

 

Semester:7th/8th

Program:Btech

Course:Embeded System

Course Code:BTEC-701

After the completion of the course, students will be able to:

 

CO1

Understand the basic concepts of ARM Processor and Its Architecture.

 

CO2

Understand about the different registers in ARM.

 

CO3

Acquire programming skills in ARM Processor.

 

CO4

Understand the interfacing devices, programmable peripheral devices and applications.

 

CO5

Use ARM processor for a variety of real time applications.

 

 

 

 

Semester:7th/8th

Program: Btech

Course: Optical Communication

Course Code: BTEC-702

After the completion of the course, students will be able to:

 

CO1

To learn the fundamentals, advantages and advances in optical communication system.

 

CO2

Enable to understand the types, basic properties and transmission characteristic of optical fibers

 

CO3

Analyse the different kind of losses, signal distortion in optical wave guides and other signal degradation factors.

CO4

Classify the construction, characteristics of optical sources and detectors  with noise effects.

CO5

Understanding of short haul and long-haul light wave systems and multichannel techniques.

 

 

Semester:7th/8th

Program:Btech

Course: Human Resource Management

Course Code: Btech-913

After the completion of the course, students will be able to:

 

CO1

Develop a clear and meaningful understanding of human resource management theory, functions and practices.

CO2

Understand and defend the role and value of strategic human resource management in the success of modern organizations.

CO3

Apply human resource management concepts and skills across a variety of contexts, situations and incidents.

 

 

 

Semester:7th/ 8TH

Program:Btech

Course:Mobile Computing

Course Code:BTEC-919

After the completion of the course, students will be able to:

CO1

comprehend mobile and wireless communication concepts.

CO2

apply and implement concepts and algorithms used for various layers of mobile networks, namely MAC layer, Network Layer and Transport Layer to solve problems in engineering

CO3

investigate environmental and social issues related to mobile computing and come up    with a solution(s) by committing to professional ethics

CO4

develop new ad hoc network applications and/or algorithms for social needs.

 

 

 

Semester: 7th/8th

Program:Btech

Course: Embedded System Lab

Course Code: BTCS-704

After the completion of the course, students will be able to:

1

Explain the embedded system concepts and architecture of embedded systems

2

Understand the concepts of ARM architecture.

3

Understand the concept of programming

4

Perform the interfacing of ADC,ZIBEE,RFID etc.

 

Semester: 7th/8th

Program:Btech

Course: Wireless and Optical Systems Lab

Course Code: BTEC-703

After the completion of the course, students will be able to:

1

Understand optical fibre, its working and various losses incurred in it.

2

Implement various multiplexing techniques.

 

3

Investigate ABER/ASER for different modulation schemes.