COs of ECE Department (2019-20)

3rd Sem

Optics & Waves (BS-201A)

BS-201A.1 Familiarize with basic phenomenon used in propagation of waves.
BS-201A.2 Classify and Understand the basic phenomenon used in propagation of waves.
BS-201A.3 Illustrate the fundamentals of Interference and their applications.
BS-201A.4 Understand the fundamentals of Diffraction, Polarization and their applications.
BS-201A.5 Analyze and classify the Polarization and their applications.
BS-201A.6 Understand the importance of Laser in technology.

Electronic Devices (EC-201A)

EC-201A.1 Understand the fundamental concept of carrier transport phenomena in semiconductors devices with V-I characteristics
EC-201A.2 Analyze and design the various electronic circuits like rectifier, clipper, clamper etc
EC-201A.3 Assimilate the operation of BJT and analysis of V-I characteristics transistor in various configurations CB, CE and CC using different modes
EC-201A.4 Illustrate the transistor amplifier using hybrid model to find out various parameters like I/O impedance, V-I gain using h-parameters
EC-201A.5 Distinguish between JFET and MOSFET regarding their construction, operation, voltage current characteristics using N channel and P channel.
EC-201A.6 Understand the different regulated power supplies like series, shunt voltage regulators using transistors and Op-Amp.
Digital Electronics (EC-205A)
EC-205A.1 Implement the fundamental concepts and techniques in digital electronics.
EC-205A.2 Illustrate the various Boolean postulates and to show the relation with various Boolean expressions.
EC-205A.3 Utilize the various combinational circuits and their application in digital electronics.
EC-205A.4 Analyze the concept of sequential circuits and to simplify the various memory elements in digital design.
EC-205A.5 Elaborate various memories in digital and their significance in real time applications.
EC-205A.6 Develop skill to build various programmable logic devices.
Signal & System (EC-209A)
EC-209A.1 Analyze different types of signals and systems.
EC-209A.2 Understand concept of Random Variable and analysis of the continuous and discrete systems using convolution technique.
EC-209A.3 Understand sampling phenomenon of continuous signal to convert into digital signal.
EC-209A.4 Understand spectral analysis of continuous and discrete time signals using Fourier Series.
EC-209A.5 Apply Fourier Transform techniques to analyze continuous-time and discrete-time signals and systems.
EC-209A.6 Apply Laplace Transform techniques to analyze continuous-time signals and systems.
Network Theory (EC-213A)
EC-213A.1 Outline the concept of network topologies.
EC-213A.2 Understand the concept of the network analysis in the time domain and frequency domain for solving simple and complex circuits.
EC-213A.3 Appreciate the time domain behavior from the pole-zero plots.
EC-213A.4 Appreciate the characteristics & parameters of two port networks.
EC-213A.5 Illustrate the concept and design of passive filters.
EC-213A.6 Illustrate the concept of synthesis of one port networks.
Essentials of Information Technology (ES-219A)
ES-219A.1 Develop basic computational thinking. Learn how to reason with variables, state transitions, conditionals, and iteration.
ES-219A.2 Understand the notion of data types, and higher order data structures such as lists, tuples and dictionaries.
ES-219A.3 Understand the concept of Pyplot.
ES-219A.4 Develop a basic understanding of computer systems- architecture, OS, mobile and cloud computing.
ES-219A.5 Learn basic SQL programming.
ES-219A.6 Understand the concept of NoSQL and MongoDB
Environmental Sciences  (MC-901A)
MC-901A.1  Understand the importance of natural resources.
MC-901A.2  Illustrate the theoretical and practical aspects of eco system.
MC-901A.3  Interpret the basic concepts of conservation of biodiversity.
MC-901A.4  Understand the basic concept of sustainable development.
MC-901A.5  Understand the transnational character of environmental problems and ways of addressing them, including interactions across local to global scales.
MC-901A.6  Develop an integrative approach to environmental issues with a focus on sustainability.
Applied and Computational Mathematics (BS-207A)
BS-207A.1 Solve the Ordinary differential equation and some of its applications.
BS-207A.2 Illustrate the Partial Differential Equations, its formation and solutions for multivariable differential equations originated from real world problems.
BS-207A.3 Apply the integral calculus to find the area, volume, easy way to solve the multiple integrals by changing the variables.
BS-207A.4 Analyze the concept of Vector functions.
BS-207A.5 Understand the concept of Laplace transform and its use in the definite integrals and initial value problems.
BS-207A.6 Interpret the tools of numerical methods used in approximating the solutions of various engineering problems.
Digital Communication (EC-202A)
EC-202A.1 Understand the fundamental concept for digitization of analog signal by pulse modulation system and analyze their system performance
EC-202A.2 Analyze the behaviour of communication system in presence of noise like SNR and SQNR
EC-202A.3 Analyze the different baseband transmission schemes and their performance
EC-202A.4 Understand the different digital modulation schemes like ASK, FSK, PSK and QPSK
EC-202A.5 Illustrate the various performance of pass band digital modulation scheme
EC-202A.6 Examin the different modulation tradeoffs and various equalization techniques.
Analog Circuits (EC-206A)
EC-206A.1 Recall the basics of BJT and FET
EC-206A.2 Illustrate the analysis of BJT and FET amplifiers small signal models
EC-206A.3 Model the frequency response of multistage amplifiers
EC-206A.4 Analyze the feedback amplifiers in terms of their input and output impedance
EC-206A.5 Compare various oscillator circuits using both opamp and BJT
EC-206A.6 Design the various circuits of opamp for a given specification
Microprocessors & Microcontrollers  (EC-210A)
EC-210A.1 Define 8085 microprocessors.
EC-210A.2 Apply different logics to solve memory interfacing problem
EC-210A.3 Define 8086 microprocessors
EC-210A.4 Execute various 8086 Programming Techniques
EC-210A.5 Define 8051 microcontroller
EC-210A.6 Apply different logics to solve memory interfacing problem
Electromagnetic Field Theory (EC-214A)
EC-214A.1 Understand the Vector Calculus and Coordinate Systems.
EC-214A.2 Illustrate the basics of Electrostatic Field with its application and properties.
EC-214A.3 Interpret the basics of Magneto-static Field and Maxwell Equation with its application and properties.
EC-214A.4 Understand the fundamentals of Uniform plane waves and their propagation in different mediums.
EC-214A.5 Analyze the basic fundamentals of Transmission Lines and its properties.
EC-214A.6 Understand the basics of Waveguide and different modes of wave propagation in waveguides.
Basics of Analog Communication (ES-208A)
ES-208A.1 Describe different types of noise and predict its effect on various analog communication systems.
ES-208A.2 Understand the concept of amplitude and angle modulation and analyze their voltage, power and current relations.
ES-208A.3 Illustrate and classify various AM transmission and reception techniques.
ES-208A.4 Outline the different frequency modulation transmission and reception methods and evaluate with various techniques.
ES-208A.5 Explain the various SSB transmission and reception techniques with applications.
ES-208A.6 Classify the Analog pulse modulation techniques and comparative analysis amongst them.

5th Sem

Essentials Of Information Technology (CSE-304N)
CSE-304N.1 Solve Problems using various efficient and reliable algorithms.
CSE-304N.2 Understand the concepts of basic Data Structures
CSE-304N.3 Design and study basic concepts in Java
CSE-304N.4 Document and implement Object Oriented paradigms and design models in Java.
CSE-304N.5 Design simple data store using RDBMS concepts and implement
CSE-304N.6 Understand the concepts of ER diagram and SQL
Microprocessor & Interfacing (ECE-301N)
ECE-301N.1 Define 8085 microprocessors.
ECE-301N.2 Apply different logics to solve memory interfacing problem
ECE-301N.3 Define 8086 microprocessors
ECE-301N.4 Execute various 8086 Programming Techniques
ECE-301N.5 Understand different peripheral device for 8086 microprocessor
ECE-301N.6 Develop application based  project with 8086 microprocessor
Antenna & Wave Propagation (ECE-303N)
ECE-303N.1 Illustrate the performance parameters of antenna
ECE-303N.2 Explain the mechanism of calculating the radiated fields of antenna and to calculate the radiated fields of some common Antennas.
ECE-303N.3 Classify the requirements, principals, and structures for an antenna to be broadband and aperture type antenna.
ECE-303N.4 Discuss the mechanism and feeding techniques for micro strip patch antennas
ECE-303N.5 Understand and classify the different ways of signal propagation
ECE-303N.6 Interpret effects of atmosphere on radio wave propagation; also derive expressions for various modes.
Vlsi Technology (ECE-305 N)
ECE-305N.1 Understand the significance and classification of clean room standards, purification process of Silicon.
ECE-305N.2 Understand the fabrication processes involved in Integrated Circuits.
ECE-305N.3 Apply basic knowledge of mathematics, science and engineering to estimate the thickness of oxide layer, etch rate, deposition rate.
ECE-305N.4 Compare processes of doping and assess the suitability of a process for fabrication.
ECE-305N.5 Understand the techniques of lithography and metallization.
ECE-305N.6 Apply the knowledge to design fabrication steps for a device.
Control System Engineering (ECE-307N)
ECE-307N.1 Design and simplify the mathematical and graphical models of a control system through block diagram and signal flow graph method.
ECE-307N.2 Understand about the response and error analysis of system in time domain.
ECE-307N.3 Evaluate the conditions for which a system can work under stable conditions in time domain through routh-hurwitz and root locus technique.
ECE-307N.4 Explain about easier graphically methods to evaluate the conditions of stability in frequency domain.
ECE-307N.5 Apply the compensation technique to covert an unstable system into a stable system under certain conditions.
ECE-307N.6 Understand about the state variable approach to analyze the system.
Business Intelligence & Entrepreneurship (HS-303 N)
HS-303N.1 Understand about the Entrepreneurs and analyze the competences needed to become an entrepreneur.
HS-303N.2 Interpret insights into the management, opportunity search, identification of a product, market feasibility studies.
HS-303N.3 Create business idea, export marketing and product identification.
HS-303N.4 Apply different financial assistance for establishing small industrial units.
HS-303N.5 Adapt their awareness and deliberately practice the skills and disciplines necessary to increase confidence and agency; foster self-efficacy and self-advocacy; improve communication and problem-solving skills manage strong impulses and feelings; and identify personal purpose.
HS-303N.6 Understand the function of the entrepreneur in the successful,
Commercial application of innovations.

6th Sem

Digital Signal Processing (ECE-302N)
ECE-302N.1 Interpret Z-Transform, Fourier Transform with their properties and relationship between them along with analysis of LTI system in Z domain
ECE-302N.2 Analyze the frequency domain of signal using DFT and Implementation of various types of structures for FIR and IIR filter of Discrete Time Systems.
ECE-302N.3 Understand fundamental parameters specification for designing FIR filter along with characteristics of practical frequency selective filter
ECE-302N.4 Design FIR filter using diverse window techniques and their comparative analysis for different parameters
ECE-302N.5 Design IIR filter by implementing various methods from analog filters
ECE-302N.6 Illustrate characteristics of Butterworth, Chebyshev and Elliptical analog filter along with frequency transformation concept.
Digital Design Using Verilog (ECE-304 N)
ECE-304N.1  Understand the design flow of VLSI system.
ECE-304N.2  Understand the constructs and conventions of the Verilog HDL programming.
ECE-304N.3  Understand and applying different algorithmic levels of abstraction for modeling digital hardware systems.
ECE-304N.4  Design and model of combinational and sequential digital systems (Finite State Machines).
ECE-304N.5  Apply tasks and functions in system modeling.
ECE-304N.6  Apply the concept of  test-benches to create testing behavioral environments for simulation based verification.
Digital Communication (ECE-306N)
ECE-306N.1 Analyze and Design Error-Correcting Codes used in Digital Communication.
ECE-306N.2 Understand the importance of Synchronization in Communication System.
ECE-306N.3 Evaluate the performance of PCM, DPCM and DM in a digital communication system.
ECE-306N.4 Evaluate and Compare various digital modulation techniques.
ECE-306N.5 Ability to analyze various Detection Related Problems in Digital Communication Systems.
ECE-306N.6 Design Digital Communication systems to meet Predefined Specifications.
Computer Communication Networks (ECE-308N)
ECE-308N.1 Understand the basic concept of computer networks and physical layer & media
ECE-308N.2 Compare OSI model and TCP/IP model.
ECE-308N.3 Illustrate the process of data link layer and medium access sub layer.
ECE-308N.4 Familiarize with the concept and design issue of network, transport and session layer.
ECE-308N.5 Illustrate the basics of data compression technique and cryptography.
ECE-308N.6 Familiarize with the concept and design issue of application layer.
Fundamentals Of Management (HS-302N )
HS-302N.1 Elaborate management as a discipline and its evolution
HS-302N.2 Understand the concept and importance of planning and organizing in an organization
HS-302N.3 Understand about the various aspects of getting the right people for the organization by generating insight about staffing.
HS-302N.4 Illustrate the importance of communication, motivation and leadership to effectively deal with workforce in order to get the optimum outcomes.
HS-302N.5 Assess and minimize the gap between expected and actual performance in an organization.
HS-302N.6 Enlighten about social responsibility of conducting business and organization’s functional areas.

7th Sem

Microcontroller And Embedded System Design (ECE-401N)
ECE-401N.1 Recall the basic architecture of microcontrollers & microprocessors and understand the term embedded systems and its components.
ECE-401N.2 Understand the detailed architecture of microcontrollers (8051, PIC16, AVR, ARM).
ECE-401N.3 Classify and explain the instruction set and programming concepts in C and assembly language.
ECE-401N.4 Apply the programming tools to solve different problems in C and assembly language.
ECE-401N.5 Do peripheral interfacing with microcontrollers.
ECE-401N.6 Design the systems /models based on microcontrollers.
Digital Image Processing (ECE-403N)
ECE-403N.1 Recall the basics of Digital Image Processing
ECE-403N.2 Explain sampling and quantization of digital image
ECE-403N.3 Identify various image enhancement operations on a digital image
ECE-403N.4 Analyze the image enhancement techniques in spatial and frequency domain
ECE-403N.5 Compare various computer vision algorithms
ECE-403N.6 Build an algorithm for feature extraction
Power Electronics (ECE-405N)
ECE-405N.1 Acquire Knowledge about Fundamental concepts and techniques used in Power Electronics.
ECE-405N.2 Relate Basic Semiconductor physics to Properties of Power Devices.
ECE-405N.3 Ability to analyze various single phase and three phase power converter circuits and understand their application.
ECE-405N.4 Formulate and analyze a power electronic design at the system level and assess the performance.
ECE-405N.5 Design Converter Circuits and learn to select suitable power electronics device by assessing the requirements of application field.
ECE-405N.6 Recognize the role Power Electronics play in the improvement of energy usage efficiency and the Applications of Power Electronics in Emerging Areas.
Optical Communication(ECE-419N)
ECE-419N.1 Understand the structure of fiber with various modes of propagation and also illustrate the concept of light travelling in the fiber.
ECE-419N.2 Classify the various splices and connectors and analyze its effect while joining the fibers.
ECE-419N.3 Analyze the concept of various losses associated with fibers and the methods by which the losses can be reduced.
ECE-419N.4 Understand the concept of optical sources with its characteristics.
ECE-419N.5 Interpret the working of optical detectors and sensors.
ECE-419N.6 Illustrate the various components needed in optical networks and explain the different couplers in fiber communication system.
Satellite Communication (ECE-423N)
ECE-423N.1 Describe different types of noise and predict its effect on various analog communication systems.
ECE-423N.2 Understand the concept of amplitude and angle modulation and analyse their voltage, power and current relations.
ECE-423N.3 Illustrate and classify various AM transmission and reception techniques.
ECE-423N.4 Outline the different frequency modulation transmission and reception methods and evaluate with various techniques.
ECE-423N.5 Explain the various SSB transmission and reception techniques with applications.
ECE-423N.6 Classify the Analog pulse modulation techniques and comparative analysis amongst them.

8th Sem

Wireless and Mobile Communication (ECE-402N)
ECE-402N.1 Understand mobile radio communication principles and to study the recent trends adopted in cellular systems and wireless standards.
ECE-402N.2 Analyze the measures to increase the capacity in cellular systems – sectorization and Spatial Filtering for Interference Reduction
ECE-402N.3 Analysis of various analog and digital access techniques of wireless communication system and their implementation in respective domain
ECE-402N.4 Apply basic mathematical and scientific principles to solve wireless system design problems
ECE-402N.5 Select a wireless technology or a combination of technologies to suit a given application
ECE-402N.6 Summarize the principles and applications of wireless systems and standards
Microwave Engineering (ECE-404N)
ECE-404N.1 Familiarize with basic resonator cavities.
ECE-404N.2 Classify and understand the various microwave parameters such as impedance, frequency and VSWR etc
ECE-404N.3 Analyze and classify the conventional methods to generate the microwaves.
ECE-404N.4 To make the students understand the conceptual knowledge of importance of scattering parameters along with its applications in the analysis of basic microwave components.
ECE-404N.5 Illustrate the fundamentals of the solid state microwave devices like transferred electron devices.
ECE-404N.6 Understand the fundamentals of avalanche transit time devices in detail.
Transducer & its applications (ECE-420N)
ECE-420N.1 Classify and understand the basic requirements of transducers
ECE-420N.2 Illustrate the basic construction & working principle of different types of electrical transducers
ECE-420N.3 Analyze different types of transducers for measurement of pressure & temperature
ECE-420N.4 Select a suitable transducer for measurement of displacement
ECE-420N.5 Development of schemes for measurement of velocity
ECE-420N.6 Assimilate knowledge about implementation of various transducers used for force & torque measurement
Radar Engineering (ECE-422N)
ECE-422N.1 Understand the concept of basics of radar, its equation and signals associated with radar.
ECE-422N.2 Analyze the Doppler Effect, CW and Frequency Modulated Radar.
ECE-422N.3 Familiarize with the concept of tracking in Radar.
ECE-422N.4 Know the suitable measurement methodologies to characterize and verify the
performance of radar systems
ECE-422N.5 Differentiate between a MTI Radar and a Pulse Doppler Radar based on their
working Principle
ECE-422N.6 Familiarize with the Different types of Radar Displays and their application in
Real Time Scenario