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Course Outcomes (COs)

Course Outcomes of ECE Department (2021-22)

3rd Sem

Optics and 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 To make the students aware to the importance of Laser in technology.
Electronic Devices (EC-201A)
EC-201A.1 Explain concept of carrier transport phenomena in semiconductors devices and Fermi energy level position variation with doping
EC-201A.2 Infer the operation of different diodes working along with V-I characteristics
EC-201A.3 Explain the working mechanism of Bipolar Junction Transistor in various configurations with characteristics.
EC-201A.4 Examine working of transistor amplifier using hybrid model to find out various parameters like I/O impedance, V-I gain
EC-201A.5 Analyze the non ideal behavior of FET devices regarding their construction, operation, voltage current characteristics using N channel and P channel.
EC-201A.6 Design different configurations of regulated power supplies using Zener diodes and Op-Amp. ent kind of regulated power supplies.
Electronic Devices Lab (EC-203LA)
EC-203LA.1 Examine the VI characteristics of various diodes such as p-n diode, zener diode etc. find the threshold voltage and zener breakdown voltage from the VI curve.
EC-203LA.2 Construct various configuration of transistor experimentally and examine various parameters of Transistor such as voltage gain, current gain etc.
EC-203LA.3 Analyze the non ideal behavior of FET devices regarding their construction, operation, VI characteristics using N channel and P channel.
EC-203LA.4 Design different configurations of regulated power supplies using Zener diodes and Op-Amp.ent kind of regulated power supplies.
Digital Electronics (EC-205A)
EC-205A.1 Apply boolean algebra to understand binary logic and logic circuits.
EC-205A.2 Understand the operational and electrical characteristics of logic families
EC-205A.3 Apply the design procedure to construct combinational circuits and applications related to them
EC-205A.4 Design and analysis of synchronous and asynchronous sequential circuits using flip flops.
EC-205A.5 Illustrate the working of different A/D and D/A converters
EC-205A.6 Implement combinational logic circuits using various programmable logic devices
Digital Electronics Lab (EC-207LA)
EC-207LA.1 Identify various digital ICs and understand their operation
EC-207LA.2 Design basic combinational Circuits and verify their functionalities
EC-207LA.3 Apply the design procedures to design basic sequential circuits using Flip-Flops
EC-207LA.4 Understand the concept of encoders and decoders and verify their operation
Signal & System (EC-209A)
EC-209A.1 Classify different types of signals and systems.
EC-209A.2 Understand the concept of Random Variable and analysis of systems using convolution technique.
EC-209A.3 Apply sampling phenomenon of continuous signal to convert into digital signal.
EC-209A.4 Illustrate spectral analysis of continuous and discrete time signals using Fourier Series.
EC-209A.5 Apply Fourier Transform technique to analyze continuous-time and discrete-time systems.
EC-209A.6 Apply Laplace Transform technique to analyze continuous-time systems.
Signal & System Lab (EC-211LA)
ECE-211LA.1 Understand the basic concepts of MATLAB
ECE-211LA.2 Explore properties of various types of signals and systems.
ECE-211LA.3 Demonstrate the relationship between time domain and frequency domain.
ECE-211LA.4 Demonstrate the Convolution and Correlation of two signals.
Network Theory (EC-213A)
EC-213A.1 Apply the concept of graph theory on network topologies
EC-213A.2 Analyze the network in the time domain and frequency domain for different singular functions
EC-213A.3 Evaluate the time domain behavior from the pole-zero plots.
EC-213A.4 Utilize the characteristics & parameters of two port networks.
EC-213A.5 Illustrate the concept of passive filters and one port networks.
EC-213A.6 Design the passive filters and one port networks for given problems.
Essentials of Information Technology (ES-219A)
ES219A.1 Familiarization with the fundamental concepts of python language.
ES219A.2 Develop a basic understanding of errors and exceptions in python.
ES219A.3 To understand and apply data visualization functions using pyplot in python.
ES219A.4 To understand the concepts of computer system architecture and cloud computing.
ES219A.5 To learn theoretical and practical aspects of SQL programming.
ES219A.6 Develop a basic understanding of SQL database.

4th Sem

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, and 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 digitization process of analog signal by pulse modulated system.
EC-202A.2 Analyze different baseband transmission schemes and their performance
EC-202A.3 Understand the concept of transmitting digital data over base band channel to examine various parameters
EC-202A.4 Learn and understand different digital modulation scheme and compute various parameters like Spectra, BER etc
EC-202A.5 Analyze different modulation tradeoffs and different equalization techniques
Communication Lab (EC-204LA)
EC-204LA.1 Analyze analog modulated and demodulated Signals.
EC-204LA.2 Interpret the outputs of different types of analog detectors.
EC-204LA.3 Analyze digital Modulated and demodulated Signals.
EC-204LA.4 Interpret the outputs of different types of digital detectors.
Analog Circuits (EC-206A)
EC-206A.1 Illustrate the basics concept of amplifying devices like BJT, FET, and op-amp.
EC-206A.2 Interpret and analyze BJT and FET amplifiers for small signals and high frequency signals.
EC-206A.3 Analyze the concept of feedback and its use in the design of oscillators.
EC-206A.4 Design small signal and power amplifiers.
EC-206A.5 Design various application based on amplifying devices.
Analog Circuits Lab (EC-208LA)
EC-208LA.1 Understand the basic electronics components and Simulation Software.
EC-208LA.2 Design amplifier and oscillators based on op-amps and BJT.
EC-208LA.3 Design application circuits based on op-amps like adder, subtractor, integrator etc.
EC-208LA.4 Design application circuit based on 555 timer.
Microprocessor & Microcontroller(ECE-210A)
ECE-210A.1 Define 8085 microprocessors.
ECE-210A.2 Apply different logics to solve memory interfacing problem
ECE-210A.3 Define 8086 microprocessors
ECE-210A.4 Execute various 8086 Programming Techniques
ECE-210A.5 Define 8051 microcontroller
ECE-210A.6 Apply different programming technique to provide interface with peripheral device
Microprocessors And Microcontroller Lab (EC-212LA)
EC-212LA.1 Understand basic concept of 8085, 8086 Microprocessors and 8051 Microcontrollers.
EC-212LA.2 Experiment with an assembly language program for 8086 Microprocessors as well as C language program for 8051 Microcontroller.
EC-212LA.3 Experiment with interfacing the various Peripheral to 8086 Microprocessors and 8051 Microcontrollers.
EC-212LA.4 Design the systems based on 8051 Microcontrollers.
Electromagnetic Field Theory (EC-214A)
EC-214A.1 Summarize the concept of Vector Calculus and Coordinate Systems.
EC-214A.2 Apply the concept of Electrostatic Field with its application and properties.
EC-214A.3 Apply the concept of Magneto-static Field and Maxwell Equation with its application and properties.
EC-214A.4 Apply the Maxwell Equation to analyze 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 Analyze the 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 modulation and demodulation methods and analyze their voltage, power and current relations
ES-208A.3 Understand and analyze angle modulation and demodulation methods
ES-208A.4 Understand the concept of Transmitters and Receivers and their circuits
ES-208A.5 Classify the Analog pulse modulation techniques and comparative analysis amongst them.

5th Sem

Soft Skills & Interpersonal Communication (HM-903A)
HM-903A.1 Develop basic understanding of Communication
HM-903A.2 Understand the process of communication and speaking
HM-903A.3 Develop the Personality concepts and its implementation
HM-903A.4 Develop the basic of Group Discussion and interviews
HM-903A.5 Develop the organizational skills.
HM-903A.6 Role of communication in developing life skills
Computer Organization and Architecture (EC-305A)
ECE-305A.1 Understand the concept of basics of computer hardware & software.
ECE-305A.2 Understand the concept of control design & processor design
ECE-305A.3 Familiarize with the concept of various memory systems.
ECE-305A.4 Familiarize with the concept of system organization.
ECE-305A.5 Familiarize the students with the concepts of of RTL programming
Information Theory & Coding (EC-307A)
ECE-307A.1 Understand the concept of Information Theory & evaluation entropy, mutual information & channel capacity for various channels.
ECE-307A.2 Discuss various source coding theorem and techniques.
ECE-307A.3 Discuss various error control channel coding schemes.
ECE-307A.4 Understand the concept of Probability and Random Variable.
Digital Signal Processing (EC-309A)
EC-309A.1 Explain the significance of Z Transform and Fourier Transform in analysis of LTI system, Goertzel algorithm, Chirp Z-transform
EC-309A.2 Demonstrate the frequency domain of signal using DFT and causality, stability properties of LTI system by applying Z Transform
EC-309A.3 Construct various types of structures for FIR and IIR filter of Discrete Time Systems.
EC-309A.4 Analyze working mechanism of FIR and IIR filters
EC-309A.5 Compare various aspects of Butterworth, Chebyshev and Elliptical filter design technique
EC-309A.6 Design IIR and FIR filter by applying knowledge of various techniques.
VLSI Technology (ECP-5A)
ECP-5A.1 Understand the basic concepts in VLSI, purification process of Silicon and fabrication processes involved in Integrated Circuits
ECP-5A.2 Choose the appropriate technique of single crystal growth with given wafer specifications.
ECP-5A.3 Apply existing mathematical models, to estimate the thickness of oxide layer, etch rate, deposition rate.
ECP-5A.4 Compare processes of doping, lithography, etching and metallization and assess the suitability of a process for fabrication.
ECP-5A.5 Design the fabrication steps for a device with the knowledge of fabrication processes
Computer Networks (ECO-1A)
ECO-1A.1 Familiarize the students with the concepts of basic computer networks used in communication
ECO-1A.2 Understand the concept of basics of computer networks and physical layer& media.
ECO-1A.3 Understand the concept and processes of data link layer and medium access sublayer.
ECO-1A.4 Familiarize with the concept and design issues of network, transport & session layer and presentation layer.
ECO-1A.5 Familiarize with the concept and protocols of application layer.
Digital Signal Processing Lab (EC-311LA)
EC-311LA.1 Understand different discrete time signals
EC-311LA.2 Interpret the aliasing effects
EC-311LA.3 Design digital FIR filters for various applications
EC-311LA.4 Design digital IIR filters for various applications
Electromagnetic Wave Lab (EC-303LA)
EC-303LA.1 Understand the basic concepts of HFSS Software
EC-303LA.2 Demonstrate the Electric Field Pattern for Conductor and Electrodes
EC-303LA.3 Design and analyze the characteristics of various type of waveguide and Microstrip Lines using HFSS
EC-303LA.4 Determine experimentally dielectric constant, SWR and reflection Coefficient

6th Sem

Organizational Behaviour (HM-901A)
HM-901A.1 Identify the concepts, need and importance of individual behaviour.
HM-901A.2 Understand the importance of personality, emotions and its effective leadership.
HM-901A.3 Critically analyse and understand the process of decision making process.
HM-901A.4 Analyse, adopt and integrate the individual behaviour with the organizational behaviour.
HM-901A.5 Make use of various concepts for enabling students to understand about motivation and its contribution in group dynamics and resolving conflicts.
Control System Engineering (ECE-302A)
ECE-302A.1 Design and simplify the mathematical and graphical models of a control system through block diagram and signal flow graph method.
ECE-302A.2 Evaluate the conditions for which a system can work under stable conditions in time domain.
ECE-302A.3 Evaluate the conditions for stability of a system in time domain through routh-hurwitz and root locus technique.
ECE-302A.4 Analyze performance characteristics of a system in frequency domain.
ECE-302A.5 Apply the compensation technique using state variable approach to covert an unstable system into a stable system under certain conditions.
ECE-302A.6 Apply the Controller to meet the desired system response.
Verilog HDL (EC -306 A)
EC-306A.1 Understand the constructs and conventions of the Verilog HDL programming
EC-306A.2 Differentiate between the structural, register-transfer level (RTL), and algorithmic levels of Abstraction for modeling digital hardware systems.
EC-306A.3 Design and modeling of combinational and sequential digital systems (Finite State Machines)
EC-306A.4 Apply the concept of test-benches to create testing behavioral environments for simulation based verification.
EC-306A.5 Implement the concepts of UDPs , tasks, function and compiler directives to improve the design.
Verilog HDL Lab (EC-308LA)
EC-308LA N.1 Understand the basics of Hardware Description Languages, Program structure and basic language elements of Verilog HDL programming.
EC-308LA N.2 Understand types of modelling, modules, functions of Verilog and simulate and synthesize related Programs.
EC-308LA N.3 Design, Simulate and Synthesize various Verilog descriptions for Combinational circuits
EC-308LA N.4 Design, Simulate and Synthesize various Verilog descriptions for Sequential circuits.
Control System Engineering Lab (EC-304LA)
EC-304LA.1 Execute time response analysis of a second order control system using MATLAB
EC-304LA.2 Design Lag, Lead, Lead-Lag compensators and verify experimental results using MATLAB.
EC-304LA.3 Design a controller with required specification using PI,PD and PID controller.
EC-304LA.4 Analyze and interpret stability of the system through Root Locus, Bode plot and Nyquist plot.
Antenna & Propagation (ECP-6A)
ECP-6A.1 Understand the performance parameters of antenna and apply them to calculate performance of antenna.
ECP-6A.2 Applying the mechanism for calculating the radiated fields of antennas.
ECP-6A.3 Understand the requirements, principals, and structures of different antennas.
ECP-6A.4 Designing antennas of required specifications.
ECP-6A.5 Classify different modes of electromagnetic wave propagation.
Transducer & its applications (ECO-8A)
ECO-8A.1 Understand the principles of operation of the sensor parameters and generators
ECO-8A.2 Interpretation of the measurement results by using transducers.
ECO-8A.3 Development of measurement schemes for different non-electrical quantities
ECO-8A.4 Assimilating knowledge about the implementation of sensors and transducers.
ECO-8A.5 Compare the different measurement schemes used for non-electrical quantities.
Mini Project/Electronic Design Workshop (EC-310LA)
EC-310LA.1 Understand & Identify the basic active and passive components.
EC-310LA.2 Design and Simulate Core Electronic Circuits.
EC-310LA.3 Analyze the circuits and troubleshoot faults/errors if any
EC-310LA.4 Develop presentation and interpersonal communication skills through project work.
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