Outcome Based Education (OBE) - bvmengineering.ac.in Report 2018 (Electronics) (3) (1).pdf · about...
Transcript of Outcome Based Education (OBE) - bvmengineering.ac.in Report 2018 (Electronics) (3) (1).pdf · about...
B.Tech (Electronics) Program 2018
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BOOKLET FOR
B.Tech (Electronics) Program2018
Outcome Based Education(OBE)
ELECTRONICS ENGINEERING DEPARTMENT
Birla Vishvakarma Mahavidyalaya(Autonomous Engineering College)
Vallabh Vidyanagar, Gujarat, Inida
B.Tech (Electronics) Program 2018
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BIRLA VISHVAKARMA MAHAVIDYALAYA(AUTONOMOUS ENGINEERING COLLEGE)
ABOUT BVM:
BVM is premier institution in the field of technical education established in 1948 and is managed by Chartuar Vidya Mandal. The motto of the institute is “Work is worship”. More than 20000 engineers have graduated from this college and around a third of them are working aboard.
VISION OF INSTITUTE:
“Produce globally employable innovative engineers with core values”
MISSION OF INSTITUTE:
• Re-engineer curricula to meet global employment requirements.
• Promote innovative practices at all levels.
• Imbibe core values.
• Reform policies, systems and processes at all levels.
• Develop faculty and staff members to meet the challenges.
AFFILIATIONS OF THE COLLEGE:
• Bombay University: June 1948 - May 1951
• Gujarat University: June 1951 - May 1957
• Sardar Vallabhbhai Vidyapeeth: June 1957 to June 2008 (Re-named as Sardar Patel University in 1966)
• Gujarat Technological University: June 2008 Onwards
• First Autonomous Institute of Gujarat since June 2015
UNDER GRADUATE PROGRAMS:
Sr. No Branch Seats 01 Civil Engineering 120 02 Computer Engineering 60 03 Electrical Engineering 60 04 Electronics Engineering 75 05 Mechanical Engineering 90 06 Production Engineering 30
Total 435 07 Mechanical Engineering (SF) 30
Outcome Based Education (OBE)
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08 Production Engineering (SF) 30 09 Information Technology (SF) 60 10 Electronics & Telecommunication (SF) 60 11 P.D.D.C (Mechanical) – Part Time 30
Total 645
POST GRADUATE PROGRAM (SF)
Sr. No. Branch Seats 01 M. Tech Structural Engineering 18 02 M. Tech Computer Engineering 25 03 M. Tech Construction Engineering & Management 18 04 M. Tech Environmental Engineering 18 05 M. Tech Machine Design 18 06 M.Tech Transportation System Engineering 18 07 M. Tech Power System Engineering 18 08 M. Tech Infrastructure Engineering & Technology 18
Total 151
ABOUT OUTCOME BASED EDUCATION:
Globalization has brought in a clear shift from education as transmission of expert knowledge to education as building learner competencies which includes learning to learn and lifelong learning. Preparing global engineers who will required to shoulder unforeseen challenges. Outcome based education (OBE) is student centred instruction that focuses on measuring student performance i.e. outcomes. Outcomes include knowledge, skills, and attributes suggested by National Board of Accreditation.
B.Tech (Electronics) Program 2018
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INDEXSr. No. Details Page
1. Vision
2. Mission
3. About Department
4. Faculty Details
5. Program Educational Objectives (PEO’s)
6. Programme Outcomes (PO’s)
7. List of Equipment’s
8. List of Course Software
9. Programme Specific Outcomes (PSO’s)
10. Programme Outcome (PO’s)
11. Course Outcomes (CO’s)
12. Mapping of courses with PO’s
13. Mapping of CO’s with PO’s
14. Mapping of PO’s and PSO’s With Co-Curricular Student Activities
Outcome Based Education (OBE)
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ELECTRONICS ENGINEERING DEPARTMENT
VISION
“Produce globally employable innovative electronics engineers with core values”
MISSION
1. Promote Innovative Practices to strengthen teaching and learning process in electronics engineering
2. Develop faculty and staff to meet challenges in Electronics engineering
3. Adapt Engineering curricula to meet global requirements for Electronics engineering programme
4. Reform policies, systems and processes at all levels
5. Imbibe core Values.
ABOUT ELECTRONICS ENGINEERING DEPARTMENT:
Electronics Engineering Department offers B. Tech program and senior faculty members are also guiding Ph. D. candidates registered in various universities. The department has highly qualified, well experienced and dedicated faculty members. The department is equipped with advanced instruments and equip-ment’s for research facilities. Experts from leading industries and educational institutes are invited frequently for guest lectures on recent developments for the benefit of student and faculty. The department is organizing various train-ing programs in thrust areas for students, faculty and industrial personnel. It has signed MoU with various industrial and research agencies under the aus-pices of Industry Institution Interaction initiative. The graduates of this depart-ment are well placed in national and multinational companies in the core, IT and services sectors and academic institutions.
FACULTY DETAILS:
Sr. No.
Staff Member Present Post
Date of Joining
Quali-fications
Area of Specialization / Interest
1 Prof. T. D. Pawar Professor & Head
24-11-1997 B.E., M. Tech, Ph. D
Signal Processing and Communication Engg.
2 Prof. D. M. Patel Professor 24-11-1997 B.E., M. Tech, Ph. D
Embedded and IoT Systems, Control and Automation
3 Prof. D. L. Vala Asso. Professor
18-04-2006 B.E., M.E., Ph. D
Signal Processing and Microwave Commu.
4 Prof. J. M. Rathod Asso. Professor
04-12-1997 B.E., M.E., Ph. D
RF Comm. and Antenna Design
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Sr. No.
Staff Member Present Post
Date of Joining
Quali-fications
Area of Specialization / Interest
5 Prof. A. A. Daiya Asso. Professor
17-12-1990 B.E., M.E. Power Electronics and Integrated Circuits
6 Prof. (Ms). M. S. Holia
Asstt. Professor
01-08-2002 B.E., M.E., Ph. D
Signal Processing and Embedded Systems
7 Prof. (Ms). K. D. Patel
Asstt. Professor
01-08-2002 B.E., M.E., Ph. D
Computer Networks, Control and Automation
8 Prof. M.M. Khambalkar
Asstt. Professor
21-06-2004 B.E., M.E. Biomed. Signal Processing and Communication Engg.
9 Prof. (Ms) P.H. Panchal
Asstt. Professor
16-01-2006 B.E., M.E., (Ph. D Pursuing)
Biomedical and Instrumentation and Embedded Systems
10 Prof. M. M. Solanki Asstt. Professor
19-01-2006 B.E., M.E., (Ph. D Thesis submitted)
Wireless Communication, Control and Automation
11 Prof. M. P. Prajapati
Asstt. Professor
17-03-2006 B.E., M.E. Electronics Communication Engg.
12 Prof. C. S. Patel Asstt. Professor
22-07-2010 B.E., M. Tech. VLSI Technology
13 Prof. C. J. Jayaswal Asstt. Professor
03-09-2010 B.E., M. Tech. Electronics Communication Engg.
14 Prof. N. R. Ada Asstt. Professor
01-10-2010 B.E., M.E. RF Comm. and Antenna Design
15 Prof. (Ms.) A. N. Bhatt
Asstt. Professor
01-07-2014 B.E., M. Tech. VLSI Technology
16 Mr. H. C. Patel Lab. Asstt. 11-12-1991 D.E. (Electrical)
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17 Mr. H. J. Sevak Instru. Mech.
01-01-1993 I.T.I. -
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PROGRAM EDUCATIONAL OBJECTIVES (PEOs)
1. Study and analysis of Electronics engineering systems.
2. Adapt state-of-art developments in Electronics engineering and eco-friendly technologies.
3. Design and develop Electronic hardware and software based applications.
PROGRAM OUTCOMES (PO)
PO Title Program Outcome1 Engineering
knowledge:Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
2 Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.
3 Design/development of solutions:
Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations.
4 Conduct investigations of complex problems:
Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.
5 Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.
6 The engineer and society:
Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice.
7 Environment and sustainability:
Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
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PO Title Program Outcome8 Ethics: Apply ethical principles and commit to
professional ethics and responsibilities and norms of the engineering practice.
9 Individual and team work:
Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
10 Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.
11 Project management and finance:
Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.
12 Life-long learning: Recognize the need for, and have the preparation and ability to engage in Independent and life-long learning in the broadest context of technological change.
LIST OF EQUIPMENT
Sr. No.
Name of Equipment Model No. Maker Qty.(Units)
Source
1 RF Signal Generator:9KHz- 3GHz
N9310A Agilent 01 TEQIP-II
2 Spectrum Analyzer:9KHz- 3GHz
N9000A503 Agilent 01 TEQIP-II
3 Scalar Network Analyzer: 400KHz – 2.5GHz
SNA 2550 Elad 01 TEQIP-II
4 Vector Network Analyzer (VNA), 9KHz – 15GHz
MS 2037C Anritsu 01 TEQIP-II
5 DSO: 200MHz, 2 Channel
DSOx 2022A Agilent/Keysight
12 TEQIP-II
6 DSO: 50MHz, 2 Channel
1052B Agilent/Keysight
12 TEQIP-II
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Sr. No.
Name of Equipment Model No. Maker Qty.(Units)
Source
7 Arbitrary Function Generator, 25 MHz
AFG 1022 Tektronics 06 TEQIP-II
8 Desktop Computers Veriton – M200
Acer – i5OS Windows
8.1
20 TEQIP-II
9 Desktop Computers Veriton Acer – i5 OS Windows
10
15 CVM
10 Software Define Radio
FMCOM3 Analog Device 1 GUJCOST
LIST OF COURSE SOFTWARE
Sr. No.
Name of Software Make Qty.(Units)
Source
1 Proteus VSM Lab Center Electronics
10 User TEQIP-II
2 MATLAB-2017b Mathworks Inc. 100 UserInst. level
TEQIP-II
3 HFSS-17 Ansys 05 User TEQIP-II
4 Xilinx- Vivado Xilinx 25 User TEQIP-II
PROGRAM SPECIFIC OUTCOMES Sr. No
Short name Program Outcome
PSO1 Analysis and Evaluation Of electronic circuits
Analyse electronic circuits and performance evalua-tion of electronics system.
PSO2 Design for problems
Design analogue and digital circuits using relevant software and hardware for various applications In electronics domain.
PSO3 Design of electronics systems
Demonstrate the skills to design electronics systems.
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COURCE OUTCOME
Subject Code Subject Name Course Outcomes
SEMESTER-1
CC101 Calculus
Acquire knowledge of advanced differential calculus for single variable and their applications Get acquainted with the knowledge of functions of several variables. Apply knowledge of differential and integral calculus of several variables for engineering applications.
CC111
Basic Civil Engineering and
Environmental Studies
Carry out linear, angular & levelling measurements using survey methods. Acquainted to common building materials, components & simple building drawing. Gain knowledge of the different transportation modes and their elements. Recognize importance of Natural Resources. Impact assessment of various pollution and remedial measures.
CC122 Computer Workshop
Understand basics of computer hardware.Install operating systems, drivers related to hardware and other software.Configure operating system for effective management of resources.Manage security related basic problem using anti-virus software.Create reports, presentation, and spread sheets.Work with various tools for collaboration and website creation.
CC143 Engineering Physics
Apply the Basic Laws of Physics in Quantum Mechanics, to understand the concepts of wave particle duality, black body Radiation De-Broglie’s hypothesis and uncertainty Principle. Understand the working principle of a Laser and Optical Fibre communication, them components, working of different Laser systems and their engineering applications
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Subject Code Subject Name Course Outcomes
Apprise observation, experiment and theory work together to continue to expand the frontiers of knowledge of the Engineering Physics in the field of superconductivity Understand the basics of Acoustics and Ultrasonic and their applications Understand basic concepts of Nanophysics and their various applications.
CC152Elements of MechanicalEngineering
Use the concepts of units, systems (open, closed systems and control volumes) and its boundaries, properties, state, process, cycle, quasi-static process in context of energy conversion.Assess thermodynamic properties of gases and steam, and apply it to systems of relevance.Interpret the fundamentals of I C engine and air compressors.Interpret the fundamentals of pumps, refrigerators and air-conditioners.Identify the transmission systems and its components.
CC171 Communication Skills
Acquire Presentation skills and Group Discussion skills Acquire knowledge of communication and its components Improve language skills -LSRWDevelop basic and intermediate competency in English language Overcome communication phobia in English
SEMESTER-2
CC102Vector Calculus
and Linear Algebra
Solve system of linear equations using different tools of linear algebra for the problems Use Eigen values and Eigen vector in different subjects of engineering like control theory, vibration analysis, electric circuits, advanced dynamics and quantum mechanics.
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Subject Code Subject Name Course Outcomes
Apply vectors in higher dimensional space in experimental data, storage and warehousing,
CC121 Computer Programming
Explain different features (keywords, constructs, functions, pointers, etc...) of C programming language.Break-up a medium (or large) problem into smaller sub-problems to make it tractable for a possible solution through computer programming.Represent and communicate a conceived solution to a problem in a systematic way using the tools of algorithms and flow-chartsUse different features of C programming language to develop a possible programming solution to a given problem in each domainDecipher a given C program of simple to moderate complexity and determine the output.Identify syntactical and semantic errors in given C program.
CC131 Basic electrical Technology
Assess the knowledge about the electric and magnetic circuits. Practice the fundamentals of AC supply systems and their applications. Interpret the working and applications of various electrical machines. Associate the knowledge about various measuring instruments and wiring system. Comprehend the advance subjects of electrical engineering.
CC141 Fundamentals of Electronics
Identify the applications and functions of electronics in Engineering. Acquire knowledge about semiconductor physics for intrinsic and extrinsic materials. Understand the basic of semiconductor diodes, BJTs and their small signal Analyse the performance of BJTs on the basic of their operation and working.
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Subject Code Subject Name Course Outcomes
CC142 Electronics workshop
Build a small electronic circuit. Identification and testing of basic electronics Components. Use of analogy and digital instruments for troubleshooting. Understand the operating function about basic instruments like CRO, Digital Storage Oscilloscope Power Supply, Function Generator and Digital Multi meter etc. Design and development of PCB and soldering of components.
CC151 Engineering Graphics
Interpret standard conventions used in engineering drawing and construction of plain and diagonal scales.Construct orthographic and isometric projections.Construct various engineering curves and identify its various applications.Construct projections of points and straight lines.Interpret different planes and solids and construct their projection.Create sections of solids and develop surfaces.
CC174
Value Education, Human
Rights and LegislativeProcedures
Inculcate the core Values of education Trigger their social behaviour and Personality Civilize in the societal settings Adopt moral behaviour and act accordingly.
SEMESTER-3
MA201Advanced
Engineering Mathematics
Do expansion of functions in terms of basic trigonometric functions.Analyse differential equations.Solve differential equations by using tool like Laplace transform, Fourier series and series solution.Create a modelling of engineering problems.
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Subject Code Subject Name Course Outcomes
EL201 Signals and Systems
Understand the analytical frame work, mathematical description and representation of Signals. Derive and examine a fundamental representation of LTI systems. Understand and analyse the representation of periodic signals in continuous and discrete time. Understand and analyse the representation of aperiodic signals in continuous and discrete time. Relate time-domain and frequency-domain characteristics of the LTI systems. Understand the concept of sampling of a signal and reconstruction of a signal from the samples. Understand the generalization of frequency representation of continuous time and discrete time systems. Understand the analytical frame work, mathematical description and representation of Signals.
EL202
Linear Circuit Analysis
Apply various circuit laws, theorems and analysis techniques. Analyse behaviour of passive circuits such as RC, RL and RLC. Apply Laplace Transform for circuit analysis. Analyse circuit in the S- Domain Study various two port networks.
EL203 Analog Electronics
Understand the basics of BJTs and MOS circuits. Analyse the multistage amplifiers and understand its frequency response. Analyse and Design the performance of negative feedback circuits and Oscillators. Understand the use of op-amp using MOS. Analyse the power amplifiers and wave shaping circuits.
EL204 Digital Electronics
Understand digital number systems and logic gates. Analyse logic function minimization.
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Subject Code Subject Name Course Outcomes
Design combinational and sequential circuits. Design simple digital circuits using FSM. To study the functions of various digital integrated circuits and ADC, DAC. Simulate digital circuits using Hardware descriptive language.
MA202 Professional Soft Skills
Understand organizational structure.Promote professionalism.Enhance advanced level of communication with special focus on organizational structure.Enhance their presentations style and their ability to deal with the variety of organizational communication i.e. presentations, conferences, meetings, interviews and the other.
SEMESTER-4
MA203Engineering
Economics and Management
Understand and apply the basics of economics and management to engineering areas.Understand and apply the basics of demand, demand forecasting, elasticity et al. to engineering projects.Apply the basics of project planning project evaluation break even depreciation and costing and et al to engineering.Understand product development product life cycle and its advantages to the organization.Understand quality concepts.Understand human resource development recruitment and training and its advantages to the organization.
EL205 Electromagnetic Field Theory
Understand and apply Maxwell’s equations in governing electric and magnetic forces. Calculate line parameters, characteristic impedance and propagation constants for coaxial, two-wire, parallel plate and micro strip transmission lines. Apply vector calculus for solving electromagnetic problems of gradient, divergence and curl operations.
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Subject Code Subject Name Course Outcomes
Understand Coulomb’ and Gauss laws and apply them to electrostatic problems. Understand Biot-Savart and Ampere laws and apply them to magneto static problems.
EL206 Control Systems
Understanding of basic linear feedback principles and find out the transfer function using various methods. Able to represent Mathematical model for different physical system determine conditions that guarantee the linear system stability. Able to design system with controller to improve system transient and steady state response Able to sketch the static feedback root locus and determine the location of the closed-loop poles. Able to draw Nyquist plots, bode plots and find stability margins. Able to present and analyse linear control system using the state space technique
EL207 Analog Communication
Understand Basic Communication System and noise present in systems. Evaluate fundamental communication system factors, such as bandwidth, power and signal to quantization noise ratio. Able to describe classification of elementary signals and noise with different noise parameter like noise factor, noise temperature and noise bandwidth. Use Fourier transforms for frequency analysis of communication systems. Examine basic types of modulation scheme for analog communication (AM, FM, PM).
EL208Micro Controllers
andApplications
Explore Architecture and practice related to basic Microcontroller. Program the microprocessors and microcontrollers. Able to design Microcontrollers based systems.
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Subject Code Subject Name Course Outcomes
Use software tools to simulate and ability to analyse the peripherals interfacing Design of microcontroller based Systems, and use it in applications. Explore Architecture and practice related to basic Microcontroller. Program the microprocessors and microcontrollers.
EL209Electronic
Measurements and
Instrumentation
Understand the terminology of instruments. Understand the sensors. Apply the transducers for various electronic applications. Able to apply signal conditioning for measurements.Explain various measurements techniques for industrial and laboratory applications of various transducers.
EL210Electronic Design
and AutomatedTools
Use software tools like NGspice/LTSpice/Multisim/Orcad.Simulate various analog and digital circuits using NGspice/LTSpice/Multisim/Orcad. Design PCB for given circuit using PCB Software like EAGLE, Express PCB, OrCAD.
Subject Code Subject Name Course Outcomes
SEMESTER-5
EL301 Digital Communication
Analyse different baseband modulation techniques like PCM, DM, ADM. Analyse the concept of ISI and reduction of ISI through Nyquist criteria. Compare various digital modulation-demodulation techniques Understand probability, random variable and various statistical analysis methods. Derive channel capacity for discrete memory less channel and continuous channel.
EL302 Analog Circuit Design
Understand basic characteristics of op-amp. Analyse the basic block diagram and datasheets for op-amp.
B.Tech (Electronics) Program 2018
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Subject Code Subject Name Course Outcomes
Design the op-amp’s linear, non-linear circuits and active filters applications. Test and Analyse special purpose ICs and their application circuits. Understand basic characteristics of op-amp.
EL303 Antenna and Wave Propagation
Apply Antenna theory to design various antennas. Analyse and measure the fundamental antenna parameters. Design various antennas performance using Electromagnetic Simulators. Understand and analyse the operation of different types of antennas.
EL304 Advanced Micro Controller
Knowledge of Architecture and practice related to various Microcontrollers available in the market today. Understand and analyse the various design challenges and techniques for solution by Microcontrollers based designs. Use software tools to simulate and analyse the performance of Design of microcontroller based Systems, and use it in real time applications. Ability to identify, formulate and solve engineering problems related to Real time Electronics design solutions.
EL305 Guided Research and Reading
Guided research reading helps students to understand texts and to use a range of reading and thinking strategies on other texts. Assessment that emerges from the classroom rather than being imposed upon it is integral to guided reading. Guided reading requires that comprehension strategies be modelled by teachers and that students be encouraged to use them independently before, during, and after their reading of a text.
Outcome Based Education (OBE)
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Subject Code Subject Name Course Outcomes
Guided reading is much more than a set of activities to work through. An understanding of the theoretical underpinnings is essential.
EL351Power Drivers
Electronics andDrivers
Understand the power semiconductor devices. Design and analyse various SCR firing, commutation methods and Phase controlled rectifiers. Design and understand the operation of various industrial based power electronics circuits like inverters, choppers and Cycloconverters. Foster ability to understand the use of DC drives and AC drives in industrial applications.
EL352 Digital System Design
Understand Hardware Descriptive Language and different design methodology. Design Combinational and sequential circuits using HDL. Design synchronous circuits using FSM and analyse Asynchronous circuits and timing
SEMESTER-6
EL306 VLSI Design
Understand VLSI design flow and different design methodology. Understand fabrication process of MOSFETs and CMOS. Understand MOS theory. Analyse the CMOS construction & its characteristics. Apply CMOS fundamentals to design CMOS based digital circuits.
EL307 Digital Signal Processing
Understands the fundamentals, implementations and application of DSP. Understand applications of z- transforms. Design the digital filters. Analysis of the frequency response of discrete-time signals and systems.
B.Tech (Electronics) Program 2018
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Subject Code Subject Name Course Outcomes
Develop programs using software tools for DSP algorithms. Understand the difference between fixed point and floating point digital signal processor and select them as per requirement of applications
EL308 Microwave Engineering
To understand TE, TM, TEM mode propagation, advantages and applications of microwaves. To understand, analyse and solve problems related microwave transmission line. To understand and analyse the concept of various active and passive microwave components for different applications. To understand the concept of various microwave tube devices.
EL341 Mini Project
Students will be able to practice acquired knowledge within the chosen area of technology for project development. Identify, discuss and justify the technical aspects of the chosen project with a comprehensive and systematic approach. Reproduce, improve and refine technical aspects for engineering projects. Work as an individual or in a team in development of technical projects. Communicate and report effectively project related activities and findings
EL353 Digital Control System
Understand the role of different types of digital PID controller and its realization in control system design. Understand the methodology of feedback control system and different types of stability analysis for them. Identify, formulate digital control system, and analyse optimal control system. Understand of digital control system and able to predict system behaviour.
Outcome Based Education (OBE)
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Subject Code Subject Name Course Outcomes
EL354 Optical Fibber Communication
Understand the basic elements of optical fibre transmission link, fibre modes and structure configurations. Analyse the different kind of losses, signal distortion in optical wave guides. Design optical source materials, LED / Laser diodes structures and Transmission Systems. Analyse the fibre optical receiver operation and configuration.
EL371 Electronic Communication
Understand the basic concept Communication system. Analyse Digital communication systems. Use network fundamentals for LAN. Understand the Internet technologies it’s security aspects. Analyse Cellular Technologies.
SEMESTER-7
EL401 Wireless Communication
Understand the basics of Wireless Communication, Evolution and comparison. Understand the basic concepts of basic Cellular System, design requirements and basic Principles behind radio resource management techniques such as power control, channel allocation and handoffs. Gain insights into various mobile radio propagation models and how the diversity can be exploited to improve performance.
EL402 Embedded System Design
Knowledge of theory and practice related to Embedded System. Understand and analyse the Hardware techniques and Design of Software codes for Embedded Systems. Use software tools to simulate and analyse the performance of Embedded Systems and development of model for real time Application.
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Subject Code Subject Name Course Outcomes
Ability to identify, formulate and solve engineering problems by using Embedded Systems. Ability to implement real field problem by gained knowledge of Embedded Systems
EL431 Seminar
Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the Electronics engineering practice. Understand the impact of the Electronics engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development. Apply ethical principles and commit to professional ethics and responsibilities and norms of the Electronics engineering practice Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings
EL451Process
Instrumentation & Control
Identify, formulate and analyse complex process control system problems related to industrial automation. Understand the analytical frame work, description of actuators, final control elements and continuous and discrete control system. Design solutions for simple process problems and design small data acquisition system. Identify the need for the automation problems, and have the preparation and ability to engage independent and life-long learning in the broadest context of technological change. Identify, formulate and analyse complex process control system problems related to industrial automation.
Outcome Based Education (OBE)
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Subject Code Subject Name Course Outcomes
EL452 Radar & Navigation Aids
Knowledge in the topics such as Fundamentals of Radar To become familiar with fundamentals of Different types of RADAR To gain in-depth knowledge about the different types of RADAR and their operations Understand signal detection in RADAR and various detection techniques
EL453
DataCommunication
&Networking
Apply the knowledge of communication techniques, medias and fundamentals of layer architecture to the solve computer networks’ problems. Design solutions for different communication networks Analyse any system as layered architecture system. Able to choose appropriate protocol on each layer based on application demand.
EL454 Digital Image Processing
Understand the basic concepts of two-dimensional signal acquisition, Sampling, and quantization. Apply the knowledge of spatial filtering techniques and enhance image quality using image enhancement techniques. Understand the DFT and able to filter given image using frequency domain filtering technique. Apply the knowledge of Image restoration and reconstruction and select the right image restoration technique to remove degradation from given image Understand image segmentation, image compression and image morphological operations.
EL471
Microcontroller Based
Electronics System
Understand the architecture of AVR 8-bit Microcontroller and importance and function of each pin of AVR ATmega32 Microcontroller. Write, debug and simulate embedded C language programs.
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Subject Code Subject Name Course Outcomes
Understand Timer operation, Interrupt environment and Serial Communication and. Interface I/O peripherals like LCD, ADC, DAC devices with microcontroller
SEMESTER-8
EL441 Project
Apply the knowledge of electronics engineering to the solution of electronics engineering problems/project. Review research literature, and analyse complex engineering problems reaching substantiated conclusions. Use research-based knowledge and research methods, including design of experiments, analysis and interpretation of data to design electronic project. Apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modelling to design electronics circuits using relevant software and hardware for embedded, IOT, signal processing and communication etc. based application. Understand the impact of the electronics engineering solutions to societal and environmental contexts, ethical principles and norms of the electronics engineering practice.
EL455 Antenna Design
Understanding basic antenna characteristics. Ability to select and justify an appropriate antenna for an engineering task. Ability to model/optimize the antenna using ANSOFT HFSS. Design and fabrication of antenna with optimization of results Understanding basic antenna characteristics.
EL456 Biomedical Instrumentation
To understand characterize anatomy and physiology of important physiological system of human body. To understand the Analyse and design of medical instruments (particularly electronics part) by evaluating medical parameter measurement constraint.
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Subject Code Subject Name Course Outcomes
To analyse important vital sign parameters to evaluate certain disease conditions. To Implementation of the electric safety of the medical instruments
EL457 Internet of Things
Knowledge of theory and practice related to IoT System. Understand and analyse the Hardware techniques and Design of Software codes for IoT Systems. Use software tools to simulate and analyse the performance of IoT Systems and development of model for real time Application. Ability to identify, formulate and solve engineering problems by using IoT Systems. Ability to implement real field problem by gained knowledge of IoT Systems.
EL458 Advance Microprocessor
Become familiar with the Intel 8086 microprocessor. Understand instruction set and programming of 8086. Learn Intel 80386, 80486, Pentium family. Understand Instruction Level Parallelism.
EL459 SatelliteCommunication
Understand principle, working and operation of various sub systems of satellite as well as the earth station. Apply various communication techniques for satellite applications. Analyse and design satellite communication link. Analyse Propagation Effects and their Impact on Satellite –Earth Links.
EL446 Industry DefinedProject/Training
Apply the knowledge of electronics engineering to the solution of electronics engineering problems/project. Review research literature, and analyse complex engineering problems reaching substantiated conclusions.
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Subject Code Subject Name Course Outcomes
Use research-based knowledge and research methods, including design of experiments, analysis and interpretation of data to design electronic project. Apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modelling to design electronics circuits using relevant software and hardware for embedded, IOT, signal processing and communication etc. based application. Understand the impact of the electronics engineering solutions to societal and environmental contexts, ethical principles and norms of the electronics engineering practice.
Outcome Based Education (OBE)
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MA
PPIN
G O
F CO
UR
CES
WIT
H P
O’s
Subj
ect
Code
Subj
ect N
ame
PO1
PO2
PO3
PO4
PO5
PO6
PO7
PO8
PO9
PO10
PO
11 P
O12
PS0
1 PS
O2
PSO
3
Engineering knowledge
Problem Analysis
Design of solution
Conduct investigations of complex problems
Modern tool usage
The Engineer and Society
Environment and Stability
Ethics
Individual and Team Work
Communication
Project management and finance
Lifelong learning
Analysis and Evaluation of electronics circuits
Design for problem
Design of electronic System
SEM
EST
ER-1
CC10
1Ca
lcul
us2.
752.
001.
502.
002.
25-
1.00
-2.
002.
00-
2.50
--
-
CC11
1B
asic
Civ
il E
ngi
nee
rin
g2.
331.
832.
162.
332.
002.
001.
672.
002.
332.
162.
002.
16-
--
CC12
2Co
mpu
ter
Wor
ksh
op1.
001.
171.
001.
002.
001.
331.
002.
001.
172.
001.
002.
00-
--
CC14
3E
ngi
nee
rin
g Ph
ysic
s2.
171.
501.
401.
00-
1.67
1.67
--
--
1.00
--
-
CC15
2E
lem
ents
of M
ech
anic
al
En
gin
eeri
ng
3.00
1.60
1.00
--
--
--
--
--
--
CC17
1Co
mm
unic
atio
n S
kills
--
--
-1.
50-
2.00
3.00
3.00
-2.
00-
--
SEM
EST
ER-2
CC10
2Ve
ctor
Cal
culu
s an
d Li
nea
r A
lgeb
ra2.
502.
002.
331.
671.
501.
802.
502.
002.
251.
67-
2.33
--
-
CC12
1Co
mpu
ter
Prog
ram
min
g2.
332.
172.
171.
001.
83-
1.50
2.00
1.50
1.33
1.17
1.13
--
-
CC13
1B
asic
Ele
ctri
cal T
ech
nol
ogy
2.40
2.00
2.20
2.00
2.40
2.40
1.60
1.60
1.60
2.00
1.00
1.00
--
-
CC14
1Fu
nda
men
tal o
f Ele
ctro
nic
s3.
002.
00-
-1.
00-
--
--
--
--
-
CC14
2E
lect
ron
ics
Wor
ksh
op
2.20
2.00
2.40
1.50
2.50
1.00
1.00
1.00
2.33
1.00
1.67
2.00
--
-
B.Tech (Electronics) Program 2018
|| 29 ||
Subj
ect
Code
Subj
ect N
ame
PO1
PO2
PO3
PO4
PO5
PO6
PO7
PO8
PO9
PO10
PO
11 P
O12
PS0
1 PS
O2
PSO
3
CC15
1E
ngi
nee
rin
g G
raph
ics
3.00
2.00
2.00
--
--
--
--
2.00
--
-
CC17
4Va
lue
Edu
cati
on, H
uman
R
igh
ts &
Leg
isla
tive
Pro
cedu
re
--
--
-2.
002.
003.
002.
252.
002.
502.
00-
--
SEM
EST
ER-3
MA
201
Adv
ance
d E
ngi
nee
rin
g M
ath
emat
ics
2.50
2.50
2.00
--
--
-1.
002.
00-
2.00
--
-
EL 2
01Si
gnal
s an
d Sy
stem
s3.
002.
432.
001.
002.
00-
1.00
1.00
2.00
--
3.00
2.33
1.14
-
EL 2
02Li
nea
r Ci
rcui
t An
alys
is3.
002.
001.
00-
1.00
--
-1.
001.
00-
1.00
3.00
-1.
00
EL 2
03A
nal
og E
lect
ron
ics
2.60
1.60
2.00
1.60
1.00
--
-1.
00-
1.00
1.60
1.00
1.00
2.00
EL20
4D
igit
al E
lect
ron
ics
1.67
3.00
2.17
1.00
2.00
--
--
--
-1.
332.
332.
00
MA
202
Prof
essi
onal
Sof
t Ski
lls-
-1.
00-
-2.
001.
332.
252.
753.
001.
672.
25-
--
SEM
EST
ER-4
MA
203
En
gin
eeri
ng
Eco
nom
ics
and
Man
agem
ent
3.00
3.00
2.00
--
2.00
1.00
1.00
1.00
1.50
1.50
3.00
--
-
EL20
5E
lect
rom
agn
etic
Fie
ld T
heo
ry1.
603.
003.
002.
602.
50-
--
3.00
--
--
--
EL20
6Co
ntr
ol S
yste
ms
2.67
1.67
2.00
1.40
2.00
1.00
1.00
3.00
3.00
3.00
1.00
3.00
1.00
1.00
1.00
EL20
7A
nal
og C
omm
unic
atio
n3.
002.
672.
502.
00-
2.00
2.00
2.00
2.00
3.00
3.00
2.50
3.00
3.00
3.00
EL20
8M
icro
con
trol
lers
an
d A
pplic
atio
ns
3.00
2.00
1.80
1.33
2.60
1.00
1.00
3.00
1.80
1.00
-3.
001.
801.
802.
40
EL20
9E
lect
ron
ics
Mea
sure
men
ts a
nd
Inst
rum
enta
tion
3.00
2.40
2.60
2.20
1.20
2.80
1.40
1.20
1.40
1.20
1.20
1.40
3.00
2.00
1.80
EL21
0E
lect
ron
ics
Des
ign
an
d A
utom
atio
n T
ools
1.
671.
003.
001.
003.
00-
--
--
--
2.00
3.00
3.00
SEM
EST
ER-5
EL30
1D
igit
al C
omm
unic
atio
ns
3.00
1.67
1.80
1.00
2.00
--
1.00
1.00
--
3.00
1.00
1.00
-
Outcome Based Education (OBE)
|| 30 ||
Subj
ect
Code
Subj
ect N
ame
PO1
PO2
PO3
PO4
PO5
PO6
PO7
PO8
PO9
PO10
PO
11 P
O12
PS0
1 PS
O2
PSO
3
EL30
2A
nal
og C
ircu
it D
esig
n3.
002.
752.
751.
002.
002.
00-
-1.
001.
00-
2.00
1.00
1.00
1.00
EL30
3A
nte
nn
as a
nd
Wav
e Pr
opag
atio
n3.
002.
001.
752.
002.
501.
001.
001.
001.
002.
00-
3.00
1.75
1.00
-
EL30
4A
dvan
ced
Mic
roco
ntr
olle
rs-
-2.
002.
003.
002.
001.
00-
--
-1.
252.
502.
002.
25
EL30
5G
uide
d Re
sear
ch a
nd
Read
ing
2.25
1.75
2.00
2.75
2.00
2.25
1.33
1.00
-2.
00-
2.00
1.00
2.00
-
EL35
1Po
wer
Ele
ctro
nic
s an
d D
rive
s2.
001.
752.
251.
331.
671.
001.
001.
002.
001.
002.
00-
1.33
2.50
1.50
EL35
2D
igit
al S
yste
m D
esig
n3.
002.
251.
501.
752.
00-
--
--
-2.
002.
003.
002.
00
SEM
EST
ER-6
EL30
6V
LSI D
esig
n3.
002.
201.
401.
602.
00-
--
--
-2.
202.
201.
401.
40
EL30
7D
igit
al S
ign
al P
roce
ssin
g3.
002.
172.
001.
002.
17-
-2.
002.
00-
-3.
001.
001.
502.
00
EL30
8M
icro
wav
e E
ngi
nee
rin
g1.
672.
001.
331.
001.
001.
002.
00-
--
-1.
001.
201.
501.
00
EL34
1M
ini P
roje
ct1.
001.
002.
50-
2.00
-1.
00-
2.00
1.50
2.00
1.00
1.33
1.50
1.67
EL35
3D
igit
al C
ontr
ol S
yste
ms
3.00
1.75
2.00
1.00
2.00
2.00
1.00
1.00
--
--
--
-
EL35
4O
ptic
al F
ibre
Com
mun
icat
ion
3.00
2.00
2.00
2.00
1.00
1.00
--
--
-1.
001.
001.
00-
EL37
1E
lect
ron
ics
Com
mun
icat
ion
3.
001.
831.
201.
002.
00-
-1.
00-
1.00
-3.
001.
00-
1.00
SEM
EST
ER-7
EL40
1W
irel
ess
Com
mun
icat
ion
3.00
2.33
2.17
2.00
2.33
1.33
1.00
3.00
3.00
3.00
-3.
002.
502.
831.
00
EL40
2E
mbe
dded
Sys
tem
Des
ign
3.00
1.80
2.00
2.00
3.00
1.80
2.00
3.00
1.80
1.40
1.75
3.00
2.60
2.60
2.20
EL43
1Se
min
ar1.
602.
002.
002.
001.
252.
332.
332.
002.
332.
001.
332.
501.
171.
501.
33
EL45
1Pr
oces
s In
stru
men
tati
on a
nd
Con
trol
2.25
2.25
2.00
2.00
2.00
2.50
1.25
1.50
1.50
1.50
1.25
1.25
2.50
2.25
2.50
EL45
2R
adar
an
d N
avig
atio
n A
ids
2.00
1.00
1.00
1.00
1.60
2.00
1.00
1.60
1.25
1.40
1.00
1.80
1.50
1.00
1.00
EL45
3D
ata-
com
mun
icat
ion
an
d N
etw
orki
ng
3.00
2.80
2.00
2.60
2.20
3.00
1.20
2.00
2.00
3.00
2.00
3.00
2.80
1.60
1.40
B.Tech (Electronics) Program 2018
|| 31 ||
Subj
ect
Code
Subj
ect N
ame
PO1
PO2
PO3
PO4
PO5
PO6
PO7
PO8
PO9
PO10
PO
11 P
O12
PS0
1 PS
O2
PSO
3
EL45
4D
igit
al Im
age
Proc
essi
ng
3.00
1.67
1.83
1.40
2.83
1.33
-3.
001.
831.
831.
333.
002.
002.
002.
00
EL47
1M
icro
con
trol
ler
Bas
ed
Ele
ctro
nic
Sys
tem
1.50
2.00
2.00
1.67
3.00
2.00
1.25
1.00
-1.
00-
1.00
1.50
2.00
1.75
SEM
EST
ER-8
EL44
1Pr
ojec
t3.
001.
502.
001.
501.
401.
671.
202.
001.
331.
333.
001.
001.
801.
001.
60
EL45
5A
nte
nn
a D
esig
n2.
251.
752.
002.
752.
002.
251.
331.
00-
2.00
-2.
001.
002.
00-
EL45
6B
iom
edic
al In
stru
men
tati
on3.
002.
002.
002.
001.
001.
001.
00-
1.00
1.00
-1.
002.
002.
002.
00
EL45
7In
tern
et o
f Th
ings
3.00
1.80
2.00
2.00
2.80
1.80
2.00
3.00
1.80
1.40
1.75
3.00
2.60
2.60
2.20
EL45
8A
dvan
ce M
icro
proc
esso
r2.
002.
171.
501.
671.
673.
003.
003.
002.
503.
002.
002.
002.
002.
171.
50
EL45
9Sa
telli
te C
omm
unic
atio
n3.
001.
832.
202.
002.
002.
002.
002.
001.
601.
002.
001.
331.
001.
671.
67
EL44
6In
dust
ry D
efin
ed P
roje
ct/
Tan
nin
g3.
001.
502.
001.
501.
401.
671.
202.
001.
331.
333.
001.
001.
801.
001.
60
Outcome Based Education (OBE)
|| 32 ||
MA
PPIN
G O
F CO
’s W
ITH
PO
’s
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Engg. knowledge
Problem analysis
Design of solutions
Conduct investigation of complex problems
Modern tool usage
The engineer and society
Environment and sustainability
Ethics
Individual and team work
Communication
Project Management and finance
Life long learning
Analysis and Evaluation of electronics circuits
Design for problems
Design of electronic System
SEM
EST
ER 1
CC10
1Ca
lcul
us
Acq
uire
kn
owle
dge
of
adva
nce
d di
ffer
enti
al c
alcu
lus
for
sin
gle
vari
able
an
d th
eir
appl
icat
ion
s
32
11
3-
1-
22
-3
--
-
Get
acq
uain
ted
wit
h th
e kn
owle
dge
of fu
nct
ion
s of
se
vera
l var
iabl
es.
32
-1
1-
1-
22
-3
--
-
Lear
n d
iffer
enti
al a
nd
inte
gral
ca
lcul
us o
f sev
eral
var
iabl
es.
22
-3
2-
1-
22
-1
--
-
App
ly k
now
ledg
e of
di
ffer
enti
al a
nd
inte
gral
ca
lcul
us o
f sev
eral
var
iabl
es
for
engi
nee
rin
g ap
plic
atio
ns.
32
23
3-
1-
22
-3
--
-
B.Tech (Electronics) Program 2018
|| 33 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
CC11
1
Basic
Civ
il En
gine
erin
g an
dEn
viro
nmen
tal
Stud
ies
Carr
y ou
t lin
ear,
angu
lar
&
leve
llin
g m
easu
rem
ents
usi
ng
surv
ey m
eth
ods.
32
22
22
22
33
32
--
-
Acq
uain
ted
to c
omm
on
bui
ldin
g m
ater
ials
,
com
pon
ents
& s
impl
e b
uild
ing
draw
ing.
32
32
21
12
32
22
--
-
Gai
n k
now
ledg
e of
the
d
iffer
ent t
ran
spor
tati
on
mod
es a
nd
thei
r el
emen
ts.
21
22
22
11
22
22
--
-
Rec
ogn
ize
impo
rtan
ce o
f
Nat
ural
Res
ourc
es.
22
23
12
32
22
13
--
-
Impa
ct a
sses
smen
t of
var
ious
pol
luti
on a
nd
rem
edia
l mea
sure
s.2
22
22
23
22
22
2-
--
Dev
elop
eth
ical
an
d so
cial
aw
aren
ess
abou
t en
viro
nm
enta
l deg
rada
tion
an
d co
ntr
ol.
22
23
33
33
22
22
--
-
CC12
2Co
mpu
ter
Wor
ksh
op
Un
ders
tan
d ba
sics
of
com
pute
r h
ardw
are
11
1-
1-
-2
1-
12
--
-
Inst
all
oper
atin
g sy
stem
s,
driv
ers
rela
ted
to
har
dwar
e an
d ot
her
sof
twar
e1
11
-2
--
21
-1
2-
--
Outcome Based Education (OBE)
|| 34 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Con
figu
re o
pera
tin
g sy
stem
fo
r eff
ecti
ve m
anag
emen
t of
reso
urce
s1
11
12
1-
22
-1
2-
--
Man
age
secu
rity
re
late
d ba
sic
prob
lem
usi
ng a
nti-
viru
s sof
twar
e1
11
12
21
21
-1
2-
--
Crea
te re
port
s, p
rese
nta
tion
, an
d sp
read
sh
eets
11
11
2-
-2
13
12
--
-
Wor
k w
ith
var
ious
tool
s fo
r co
llabo
rati
on a
nd
web
site
cr
eati
on1
21
13
11
21
11
2-
--
CC14
3E
ngi
nee
rin
g Ph
ysic
s
App
ly th
e B
asic
Law
s of
Ph
ysic
s in
Qua
ntu
m
Mec
han
ics,
to u
nde
rsta
nd
the
con
cept
s of
wav
e
part
icle
dua
lity,
bla
ck b
ody
Rad
iati
on D
e-B
rogl
ie’s
hypo
thes
is a
nd
unce
rtai
nty
Pri
nci
ple.
31
--
-2
--
--
-1
--
-
Un
ders
tan
d th
e w
orki
ng
pr
inci
ple
of a
Las
er a
nd
Opt
ical
Fib
re
com
mun
icat
ion
, th
emco
mpo
nen
ts, w
orki
ng
of
diff
eren
t Las
er s
yste
ms
and
thei
r en
gin
eeri
ng
app
licat
ion
s
22
11
--
1-
--
-1
--
-
B.Tech (Electronics) Program 2018
|| 35 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
App
rise
obs
erva
tion
, ex
peri
men
t an
d th
eory
wor
k to
geth
er to
con
tin
ue to
exp
and
the
fron
tier
s of
kn
owle
dge
of
the
En
gin
eeri
ng
Phys
ics
in th
e fi
eld
of s
uper
con
duct
ivit
y
22
2-
-2
2-
--
-1
--
-
Un
ders
tan
d th
e ba
sics
of
Aco
usti
cs a
nd
Ult
raso
nic
an
d th
eir
appl
icat
ion
s2
12
--
--
--
--
--
--
Un
ders
tan
d ba
sic
con
cept
s
of N
anop
hysi
cs a
nd
thei
r
vari
ous
appl
icat
ion
s.2
11
1-
12
--
--
--
--
Abi
lity
to id
enti
fy e
ngi
nee
rin
g pr
oble
ms
rela
ted
to
En
gin
eeri
ng
Phys
ics.
22
11
--
--
--
--
--
-
CC15
2El
emen
ts o
f M
echa
nica
lEn
gine
erin
g
Use
the
con
cept
s of
un
its,
sy
stem
s (o
pen
, clo
sed
syst
ems
and
con
trol
vo
lum
es) a
nd
its
boun
dari
es, p
rope
rtie
s,
stat
e, p
roce
ss, c
ycle
, qua
si-
stat
ic p
roce
ss in
con
text
of
ener
gy c
onve
rsio
n.
32
1-
--
--
--
--
--
-
Ass
ess
ther
mod
ynam
ic
prop
erti
es o
f gas
es a
nd
stea
m, a
nd
appl
y it
to
syst
ems
of re
leva
nce
.
32
1-
--
--
--
--
--
-
Outcome Based Education (OBE)
|| 36 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Inte
rpre
t th
e fu
nda
men
tals
of
I C
engi
ne
and
air
co
mpr
esso
rs.
32
1-
--
--
--
--
--
-
Inte
rpre
t th
e fu
nda
men
tals
of
pum
ps, r
efri
gera
tors
an
d
air-
con
diti
oner
s.3
11
--
--
--
--
--
--
Iden
tify
the
tran
smis
sion
sy
stem
s an
d it
s co
mpo
nen
ts.
31
1-
--
--
--
--
--
-
CC17
1Co
mm
u-n
icat
ion
Sk
ills
Acq
uire
Pre
sen
tati
on s
kills
an
d G
roup
Dis
cuss
ion
ski
lls-
--
--
1-
23
3-
2-
--
Acq
uire
kn
owle
dge
of
com
mun
icat
ion
an
d it
s
com
pon
ents
--
--
-1
-2
33
-2
--
-
Impr
ove
lan
guag
e sk
ills
–LS
RW-
--
--
1-
23
3-
2-
--
Dev
elop
bas
ic a
nd
in
term
edia
te c
ompe
ten
cy in
E
ngl
ish
lan
guag
e-
--
--
2-
23
3-
2-
--
Ove
rcom
e co
mm
unic
atio
n
phob
ia in
En
glis
h-
--
--
1-
23
3-
2-
--
Acq
uire
Pre
sen
tati
on s
kills
an
d G
roup
Dis
cuss
ion
ski
lls.
--
--
-2
-2
33
-2
--
-
Get
acq
uain
ted
to li
tera
ture
to
acqu
ire
nec
essa
ry li
fe s
kills
.-
--
--
3-
23
3-
2-
--
B.Tech (Electronics) Program 2018
|| 37 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Feel
con
fide
nt t
o co
mm
unic
ate
in E
ngl
ish
&
Rece
ive
know
ledg
e of
form
al
lett
er w
riti
ng.
--
--
-1
-2
33
-2
--
-
SEM
EST
ER-2
CC10
2
Vect
or
Calc
ulus
an
d Li
nea
r A
lgeb
ra
Solv
e sy
stem
of l
inea
r
equa
tion
s us
ing
diff
eren
t to
ols
of li
nea
r al
gebr
a fo
r th
e pr
oble
ms
3-
11
2-
--
-1
-3
--
-
Use
Eig
en v
alue
s an
d E
igen
ve
ctor
in d
iffer
ent s
ubje
cts
of e
ngi
nee
rin
g lik
e co
ntr
olth
eory
, vib
rati
on a
nal
ysis
, el
ectr
ic c
ircu
its,
adv
ance
d dy
nam
ics
and
quan
tum
mec
han
ics.
31
22
11
--
-2
-2
--
-
App
ly v
ecto
rs in
hig
her
di
men
sion
al s
pace
in
expe
rim
enta
l dat
a, s
tora
ge
and
war
ehou
sin
g,
32
32
12
3-
22
-2
--
-
App
ly li
nea
r tr
ansf
orm
atio
n
in s
ubje
ct li
ke c
ompu
ter
grap
hic
s, c
rypt
ogra
phy,
th
erm
odyn
amic
s et
c.
22
22
12
3-
21
-2
--
-
Outcome Based Education (OBE)
|| 38 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
App
ly d
iffer
enti
al a
nd
inte
gral
vec
tor
calc
ulus
to th
e pr
oble
ms
in R
3 .2
23
11
21
22
2-
2-
--
Use
the
tech
niq
ues
and
theo
ry
of li
nea
r al
gebr
a to
mod
el
vari
ous
real
wor
ld p
robl
ems.
23
32
32
32
32
-3
--
-
CC12
1Co
mpu
ter
Prog
ram
min
g
Exp
lain
diff
eren
t fea
ture
s
(key
wor
ds, c
onst
ruct
s,
fun
ctio
ns,
poi
nte
rs, e
tc...
) of
prog
ram
min
g la
ngu
age.
11
11
--
-2
11
-1
--
-
Bre
ak-u
p a
med
ium
(or
la
rge)
pro
blem
into
sm
alle
r su
b-pr
oble
ms
to m
ake
ittr
acta
ble
for
a po
ssib
le
solu
tion
thro
ugh
com
pute
r pr
ogra
mm
ing.
22
31
--
22
21
22
--
-
Repr
esen
t an
d co
mm
unic
ate
a co
nce
ived
so
luti
on
to
a pr
oble
m i
n a
sys
tem
atic
way
us
ing
the
tool
s of
alg
orit
hm
s an
d fl
ow-c
har
ts
22
21
3-
-2
23
22
--
-
Use
diff
eren
t fea
ture
s of
C
prog
ram
min
g la
ngu
age
to
deve
lop
a po
ssib
le
prog
ram
min
g so
luti
on to
a
give
n p
robl
em in
eac
h d
omai
n
32
31
3-
12
21
11
--
-
B.Tech (Electronics) Program 2018
|| 39 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Dec
iph
er a
giv
en C
pr
ogra
m o
f sim
ple
to
mod
erat
e co
mpl
exit
y an
d de
term
ine
the
outp
ut.
33
21
3-
-2
11
11
--
-
Iden
tify
syn
tact
ical
an
d se
man
tic
erro
rs in
giv
en C
pr
ogra
m.
33
21
2-
-2
11
11
--
-
CC13
1B
asic
el
ectr
ical
Te
chn
olog
y
Ass
ess
the
know
ledg
e ab
out
the
elec
tric
an
d m
agn
etic
ci
rcui
ts.
32
22
22
12
22
11
--
-
Prac
tice
the
fun
dam
enta
ls
of A
C su
pply
sys
tem
s an
d th
eir
appl
icat
ion
s.3
22
13
31
22
21
1-
--
Inte
rpre
t th
e w
orki
ng
and
appl
icat
ion
s of
var
ious
el
ectr
ical
mac
hin
es.
22
33
33
21
12
11
--
-
Ass
ocia
te th
e kn
owle
dge
abou
t var
ious
mea
suri
ng
in
stru
men
ts a
nd
wir
ing
syst
em.
22
22
22
21
12
11
--
-
Com
preh
end
the
adva
nce
su
bjec
ts o
f ele
ctri
cal
engi
nee
rin
g.2
22
22
22
22
21
1-
--
Outcome Based Education (OBE)
|| 40 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
CC14
1Fu
ndam
enta
ls of
Ele
ctro
nics
Iden
tify
the
appl
icat
ion
s an
d fu
nct
ion
s of
ele
ctro
nic
s in
En
gin
eeri
ng.
32
--
1-
--
--
--
--
-
Acq
uire
kn
owle
dge
abou
t se
mic
ondu
ctor
phy
sics
for
intr
insi
c an
d ex
trin
sic
mat
eria
ls.
32
--
1-
--
--
--
--
-
Un
ders
tan
d th
e ba
sic
of
sem
icon
duct
or d
iode
s, B
JTs
and
thei
r sm
all s
ign
al3
2-
-1
--
--
--
--
--
An
alys
e th
e pe
rfor
man
ce o
f B
JTs
on th
e ba
sic
of th
em
oper
atio
n a
nd
wor
kin
g.3
2-
-1
--
--
--
--
--
Gai
n id
ea a
bout
CM
OS
stru
ctur
e an
d O
pera
tion
of
MO
S tr
ansi
stor
.3
2-
-1
--
--
--
--
--
An
alys
e an
d D
esig
n th
e op
erat
ion
al a
mpl
ifier
s ci
rcui
ts.
32
--
1-
--
--
--
--
-
CC14
2E
lect
ron
ics
wor
ksh
op
Build
a s
mal
l ele
ctro
nic
cir
cuit
.3
11
--
11
-2
--
1-
--
Iden
tifi
cati
on a
nd
test
ing
of
basi
c el
ectr
onic
s Co
mpo
nen
ts.
23
32
2-
1-
--
-2
--
-
Use
of a
nal
ogy
and
digi
tal
in
stru
men
ts fo
r tr
oubl
esh
ooti
ng.
22
21
3-
--
--
1-
--
-
B.Tech (Electronics) Program 2018
|| 41 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Un
ders
tan
d th
e op
erat
ing
fun
ctio
n a
bout
bas
ic
inst
rum
ents
like
CR
O, D
igit
al S
tora
ge O
scill
osco
pe P
ower
S
uppl
y, F
unct
ion
Gen
erat
or
an
d D
igit
al M
ulti
met
er e
tc.
12
32
2-
1-
3-
2-
--
-
Des
ign
an
d de
velo
pmen
t of
PCB
an
d so
lder
ing
of
com
pon
ents
.3
23
13
--
12
12
3-
--
CC15
1E
ngi
nee
rin
g G
raph
ics
Inte
rpre
t sta
nda
rd
conv
enti
ons
used
in
engi
nee
rin
g dr
awin
g an
d
con
stru
ctio
n o
f pla
in a
nd
diag
onal
sca
les.
32
2-
--
--
--
--
--
-
Con
stru
ct o
rth
ogra
phic
an
d is
omet
ric
proj
ecti
ons.
32
2-
--
--
--
--
--
-
Con
stru
ct v
ario
us e
ngi
nee
rin
g cu
rves
an
d id
enti
fy it
s va
riou
s ap
plic
atio
ns.
32
2-
--
--
--
--
--
-
Con
stru
ct p
roje
ctio
ns
of
poin
ts a
nd
stra
igh
t lin
es.
32
2-
--
--
--
--
--
-
Inte
rpre
t diff
eren
t pla
nes
an
d so
lids
and
con
stru
ct
thei
r pr
ojec
tion
.3
22
--
--
--
--
--
--
Crea
te s
ecti
ons
of s
olid
s an
d de
velo
p su
rfac
es.
32
2-
--
--
--
--
--
-
Outcome Based Education (OBE)
|| 42 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
CC17
4
Valu
e E
duca
tion
, H
uman
Rig
hts
an
d Le
gisl
ativ
ePr
oced
ures
Incu
lcat
e th
e co
re V
alue
s o
f edu
cati
on-
--
--
22
32
22
2-
--
Tri
gger
thei
r so
cial
b
ehav
iour
an
d Pe
rson
alit
y-
--
--
22
32
22
2-
--
Civ
ilize
in th
e so
ciet
al
s
etti
ngs
--
--
-2
23
22
32
--
-
Ado
pt m
oral
beh
avio
ur a
nd
act
acc
ordi
ngl
y.-
--
--
22
33
23
2-
--
SEM
EST
ER-3
MA
201
Adva
nced
En
gine
erin
g M
athe
mat
ics
Do
expa
nsi
on o
f fun
ctio
ns
in
term
s of
bas
ic tr
igon
omet
ric
fun
ctio
ns.
22
--
--
--
12
-2
--
-
An
alys
e di
ffer
enti
al
equa
tion
s.3
3-
--
--
-1
2-
2-
--
Solv
e di
ffer
enti
al e
quat
ion
s by
usi
ng
tool
like
Lap
lace
tr
ansf
orm
, Fou
rier
ser
ies
and
seri
es s
olut
ion
.
22
--
--
--
12
-2
--
-
Crea
te a
mod
ellin
g of
en
gin
eeri
ng
prob
lem
s.3
3-
--
--
-1
2-
2-
--
B.Tech (Electronics) Program 2018
|| 43 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
EL20
1Si
gnal
s an
d Sy
stem
s
Un
ders
tan
d th
e an
alyt
ical
fr
ame
wor
k, m
ath
emat
ical
de
scri
ptio
n a
nd
repr
esen
tati
on o
f Sig
nal
s.
31
21
2-
-1
2-
-3
12
-
Der
ive
and
exam
ine
a fu
nda
men
tal r
epre
sen
tati
on
of L
TI s
yste
ms.
31
21
2-
-1
2-
-3
-1
-
Un
ders
tan
d an
d an
alys
e th
e re
pres
enta
tion
of p
erio
dic
sign
als
in c
onti
nuo
us a
nd
disc
rete
tim
e.
33
21
2-
-1
2-
-3
-1
-
Un
ders
tan
d an
d an
alys
e th
e re
pres
enta
tion
of a
peri
odic
si
gnal
s in
con
tin
uous
an
d di
scre
te ti
me.
33
21
2-
-1
2-
-3
-1
-
Rela
te ti
me
- dom
ain
and
freq
uenc
y - d
omai
n ch
arac
teri
-st
ics o
f the
LTI
syst
ems.
33
21
2-
11
2-
-3
-1
-
Un
ders
tan
d th
e co
nce
pt o
f sa
mpl
ing
of a
sig
nal
an
d re
con
stru
ctio
n o
f a s
ign
al
from
the
sam
ples
.
33
21
2-
11
2-
-3
31
-
Un
ders
tan
d th
e ge
ner
aliz
atio
n o
f fre
quen
cy
repr
esen
tati
on o
f con
tin
uous
ti
me
and
disc
rete
tim
e sy
stem
s.
33
21
2-
11
2-
-3
3-
-
Outcome Based Education (OBE)
|| 44 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
EL20
2Li
nea
r Ci
rcui
t A
nal
ysis
Appl
y va
riou
s ci
rcui
t la
ws,
theo
rem
s and
ana
lysi
s te
chni
ques
.3
21
-1
--
-1
1-
13
-1
Ana
lyse
beh
avio
ur o
f pas
sive
ci
rcui
ts s
uch
as R
C, R
L an
d RL
C.3
21
-1
--
-1
1-
13
-1
App
ly L
apla
ce T
ran
sfor
m
for
circ
uit a
nal
ysis
.3
21
-1
--
-1
1-
13
-1
Ana
lyse
circ
uit i
n th
e S-
Dom
ain
32
1-
1-
--
11
-1
3-
1
Stu
dy v
ario
us tw
o po
rt n
etw
orks
.3
21
-1
--
-1
1-
13
-1
EL20
3A
nal
og
Ele
ctro
nic
s
Un
ders
tan
d th
e ba
sics
of B
JTs
and
MO
S ci
rcui
ts.
32
--
1-
--
--
--
11
2
An
alys
e th
e m
ulti
stag
e am
plifi
ers
and
unde
rsta
nd
its
freq
uen
cy re
spon
se.
32
--
1-
--
--
--
11
2
Anal
yse
and
Des
ign
the
perf
orm
ance
of n
egat
ive
feed
back
ci
rcui
ts a
nd O
scill
ator
s.3
2-
-1
--
--
--
-1
12
Un
ders
tan
d th
e us
e of
op-
amp
usin
g M
OS.
32
--
1-
--
--
--
11
2
An
alys
e th
e po
wer
am
plifi
ers
and
wav
e sh
apin
g ci
rcui
ts.
32
--
1-
--
--
--
11
2
EL20
4D
igit
al
Ele
ctro
nic
s
Un
ders
tan
d di
gita
l num
ber
syst
ems
and
logi
c ga
tes.
33
1-
--
--
--
--
12
1
An
alys
e lo
gic
fun
ctio
n
min
imiz
atio
n.
13
2-
--
--
--
--
12
1
Des
ign
com
bin
atio
nal
an
d se
quen
tial
cir
cuit
s.1
33
1-
--
--
--
-1
32
B.Tech (Electronics) Program 2018
|| 45 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Des
ign
sim
ple
digi
tal c
ircu
its
usin
g FS
M.
23
31
1-
--
--
--
12
3
To s
tudy
the
fun
ctio
ns
of
vari
ous
digi
tal i
nte
grat
ed
circ
uits
an
d A
DC,
DA
C.1
31
12
--
--
--
-1
32
Sim
ulat
e di
gita
l cir
cuit
s usi
ng
Har
dwar
e de
scri
ptiv
e la
ngua
ge.
23
31
3-
--
--
--
32
3
MA
202
Prof
essi
onal
So
ft S
kills
Un
ders
tan
d or
gan
izat
ion
al
stru
ctur
e.-
-1
--
-1
23
30
2-
--
Prom
ote
prof
essi
onal
ism
.-
-1
--
22
23
31
2-
--
En
han
ce a
dvan
ced
leve
l of
com
mun
icat
ion
wit
h s
peci
al
focu
s on
org
aniz
atio
nal
st
ruct
ure.
--
1-
--
-3
33
22
--
-
Enha
nce
thei
r pr
esen
tati
ons
styl
e an
d th
eir
abili
ty
to
deal
w
ith
the
vari
ety
of o
rgan
izat
iona
l co
mm
unic
atio
n i.e
. pre
sent
atio
ns,
conf
eren
ces,
mee
ting
s, in
terv
iew
s an
d th
e ot
her.
--
0-
--
12
23
23
--
-
SEM
EST
ER-4
MA
203
Engi
neer
ing
Econ
omic
s an
d M
anag
emen
t
Un
ders
tan
d an
d ap
ply
the
basi
cs o
f eco
nom
ics
and
man
agem
ent t
o en
gin
eeri
ng
area
s.
33
2-
-2
11
11
13
----
--
Outcome Based Education (OBE)
|| 46 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Un
ders
tan
d an
d ap
ply
the
basi
cs o
f dem
and,
dem
and
fore
cast
ing,
ela
stic
ity
et a
l. to
en
gin
eeri
ng
proj
ects
.
33
2-
-2
11
11
13
----
--
Appl
y th
e ba
sics
of
pr
ojec
t pl
anni
ng p
roje
ct e
valu
atio
n br
eak
even
de
prec
iati
on
and
cost
ing
and
et a
l to
engi
neer
ing.
33
2-
-2
11
13
33
----
--
Un
ders
tan
d pr
oduc
t de
velo
pmen
t pro
duct
life
cy
cle
and
its
adva
nta
ges
to th
e or
gan
izat
ion
.
33
2-
-2
11
11
13
----
--
Un
ders
tan
d qu
alit
y co
nce
pts.
33
2-
-2
11
11
13
----
--
Un
ders
tan
d h
uman
reso
urce
de
velo
pmen
t rec
ruit
men
t an
d tr
ain
ing
and
its
adva
nta
ges
to
the
orga
niz
atio
n.
33
2-
-2
11
11
13
----
--
EL20
5E
lect
ro
mag
net
ic
Fiel
d T
heo
ry
Un
ders
tan
d an
d ap
ply
Max
wel
l’s e
quat
ion
s in
go
vern
ing
elec
tric
an
d m
agn
etic
forc
es.
3-
-2
--
--
3-
--
--
-
Calc
ulat
e lin
e pa
ram
eter
s,
char
acte
rist
ic im
peda
nce
an
d pr
opag
atio
n c
onst
ants
fo
r co
axia
l, tw
o-w
ire,
par
alle
l pl
ate
and
mic
ro s
trip
tr
ansm
issi
on li
nes
.
13
32
3-
--
3-
--
--
-
B.Tech (Electronics) Program 2018
|| 47 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
App
ly v
ecto
r ca
lcul
us fo
r so
lvin
g el
ectr
omag
net
ic
prob
lem
s of
gra
dien
t,
dive
rgen
ce a
nd
curl
op
erat
ion
s.
23
-3
--
--
3-
--
--
-
Un
ders
tan
d Co
ulom
b’ a
nd
Gau
ss la
ws
and
appl
y th
em to
el
ectr
osta
tic
prob
lem
s.1
33
32
--
-3
--
--
--
Un
ders
tan
d B
iot-
Sava
rt a
nd
Am
pere
law
s an
d ap
ply
them
to
mag
net
o st
atic
pro
blem
s.1
--
3-
--
-3
--
--
--
EL20
6Co
ntr
ol
Syst
ems
Un
ders
tan
din
g of
bas
ic
lin
ear
feed
back
pri
nci
ples
a
nd
fin
d ou
t th
e tr
ansf
erfu
nct
ion
usi
ng
vari
ous
met
hod
s.
11
--
-1
13
33
13
1-
-
Abl
e to
repr
esen
t M
ath
emat
ical
mod
el fo
r d
iffer
ent p
hysi
cal s
yste
m
det
erm
ine
con
diti
ons
that
gu
aran
tee
the
linea
r sy
stem
st
abili
ty.
31
-1
2-
-3
33
13
--
-
Abl
e to
des
ign
sys
tem
wit
h
con
trol
ler
to im
prov
e sy
stem
tr
ansi
ent a
nd
stea
dy s
tate
re
spon
se
32
21
2-
-3
33
13
11
1
Outcome Based Education (OBE)
|| 48 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Abl
e to
ske
tch
the
stat
ic
feed
back
root
locu
s an
d d
eter
min
e th
e lo
cati
on o
f th
e cl
osed
-loo
p po
les.
32
21
2-
-3
33
13
11
1
Abl
e to
dra
w N
yqui
st p
lots
, b
ode
plot
s an
d fi
nd
stab
ility
m
argi
ns.
32
22
2-
-3
33
13
11
1
Abl
e to
pre
sen
t an
d an
alys
e li
nea
r co
ntr
ol s
yste
m u
sin
g th
e st
ate
spac
e te
chn
ique
32
22
2-
-3
33
13
11
1
EL20
7A
nal
og
Com
mu-
nic
atio
n
Un
ders
tan
d B
asic
Co
mm
unic
atio
n S
yste
m a
nd
noi
se p
rese
nt i
n s
yste
ms.
3-
--
--
22
1-
--
--
-
Eva
luat
e fu
nda
men
tal
com
mun
icat
ion
sys
tem
fa
ctor
s, s
uch
as
ban
dwid
th,
pow
er a
nd
sign
al to
qu
anti
zati
on n
oise
rat
io.
33
--
--
-2
2-
--
--
-
Abl
e to
des
crib
e cl
assi
fica
tion
of
ele
men
tary
sig
nal
s an
d n
oise
wit
h d
iffer
ent n
oise
pa
ram
eter
like
noi
se fa
ctor
, n
oise
tem
pera
ture
an
d n
oise
ba
ndw
idth
.
33
--
--
-2
2-
--
--
-
Use
Fou
rier
tran
sfor
ms
for
freq
uen
cy a
nal
ysis
of
com
mun
icat
ion
sys
tem
s.3
2-
2-
--
22
3-
--
--
B.Tech (Electronics) Program 2018
|| 49 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Exam
ine
basi
c ty
pes o
f m
odul
atio
n sc
hem
e fo
r ana
log
com
mun
icat
ion
(AM
, FM
, PM
).3
-2
--
--
22
3-
2-
--
EL20
8
Mic
ro
Con
trol
lers
an
dA
pplic
atio
ns
Exp
lore
Arc
hit
ectu
re a
nd
prac
tice
rela
ted
to b
asic
M
icro
con
trol
ler.
--
12
-3
1-
--
-1
--
-
Prog
ram
the
mic
ropr
oces
sors
an
d m
icro
con
trol
lers
.-
--
-2
31
--
--
1-
--
Able
to d
esig
n M
icro
cont
rolle
rs
base
d sy
stem
s.-
--
1-
31
--
--
3-
--
Use
soft
war
e to
ols t
o si
mul
ate
and
abili
ty to
ana
lyse
the
peri
pher
als i
nter
faci
ng D
esig
n of
m
icro
cont
rolle
r bas
ed S
yste
ms,
an
d us
e it
in a
pplic
atio
ns.
--
23
21
1-
--
-3
-2
-
Abili
ty to
iden
tify
, for
mul
ate
and
solv
e en
gine
erin
g pr
oble
ms
rela
ted
to m
icro
proc
esso
r and
m
icro
cont
rolle
r app
licat
ions
.
--
12
12
1-
2-
-3
-2
-
EL20
9
Elec
troni
c M
easu
rem
ents
and
Instr
umen
tatio
n
Un
ders
tan
d th
e te
rmin
olog
y of
inst
rum
ents
.3
2-
--
3-
--
--
--
--
Un
ders
tan
d th
e se
nso
rs.
-3
2-
32
--
--
--
--
-
App
ly th
e tr
ansd
ucer
s fo
r va
riou
s el
ectr
onic
ap
plic
atio
ns.
--
3-
-2
1-
--
2-
--
-
Outcome Based Education (OBE)
|| 50 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Abl
e to
app
ly s
ign
al
con
diti
onin
g fo
r m
easu
rem
ents
.-
--
--
31
--
--
--
--
Expl
ain
vari
ous m
easu
rem
ents
te
chni
ques
for i
ndus
tria
l and
la
bora
tory
app
licat
ions
of v
ario
us
tran
sduc
ers.
--
--
--
--
-2
3-
3-
2
EL21
0
Ele
ctro
nic
D
esig
n a
nd
Aut
omat
edTo
ols
Use
sof
twar
e to
ols
like
NG
spic
e/LT
Spic
e/M
ulti
sim
/Orc
ad.
21
31
3-
--
--
--
23
3
Sim
ulat
e va
riou
s an
alog
an
d di
gita
l cir
cuit
s us
ing
NG
spic
e/LT
Spic
e/M
ulti
sim
/Orc
ad.
21
31
3-
--
--
--
23
3
Des
ign
PCB
for
give
n c
ircu
it
usin
g PC
B S
oftw
are
like
EA
GLE
, Exp
ress
PCB
, OrC
AD
.1
-2
13
--
--
--
-2
33
SEM
EST
ER-5
EL30
1D
igit
al
Com
mu-
nic
atio
n
An
alys
e di
ffer
ent b
aseb
and
mod
ulat
ion
tech
niq
ues
like
PCM
, DM
, AD
M.
31
--
2-
-1
1-
-3
--
-
An
alys
e th
e co
nce
pt o
f ISI
an
d re
duct
ion
of I
SI th
roug
h
Nyq
uist
cri
teri
a.3
11
-2
--
11
--
3-
--
Com
pare
var
ious
dig
ital
m
odul
atio
n-d
emod
ulat
ion
te
chn
ique
s3
22
12
--
11
--
31
1-
B.Tech (Electronics) Program 2018
|| 51 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Un
ders
tan
d pr
obab
ility
, ra
ndo
m v
aria
ble
and
vari
ous
stat
isti
cal a
nal
ysis
met
hod
s.3
22
12
--
11
--
3-
--
Der
ive
chan
nel
cap
acit
y fo
r di
scre
te m
emor
y le
ss c
han
nel
an
d co
nti
nuo
us c
han
nel
.3
22
12
--
11
--
3-
1-
EL30
2A
nal
og
Circ
uit
Des
ign
Un
ders
tan
d ba
sic
c
har
acte
rist
ics
of o
p-am
p.3
33
12
2-
-1
1-
21
11
An
alys
e th
e ba
sic
bloc
k d
iagr
am a
nd
data
shee
ts fo
r o
p-am
p.3
22
--
2-
-1
--
2-
--
Des
ign
the
op-a
mp’
s lin
ear,
non
-lin
ear
circ
uits
an
d a
ctiv
e fi
lter
s ap
plic
atio
ns.
33
31
22
--
11
-2
11
1
Tes
t an
d A
nal
yse
spec
ial
pur
pose
ICs
and
thei
r
appl
icat
ion
cir
cuit
s.
33
31
22
--
11
-2
11
1
EL30
3A
nte
nn
a an
d W
ave
Prop
agat
ion
App
ly A
nte
nn
a th
eory
to
desi
gn v
ario
us a
nte
nn
as.
33
11
-1
-1
12
-3
11
-
An
alys
e an
d m
easu
re th
e fu
nda
men
tal a
nte
nn
a pa
ram
eter
s.3
11
1-
11
11
2-
31
1-
Des
ign
var
ious
an
ten
nas
pe
rfor
man
ce u
sin
g E
lect
rom
agn
etic
Sim
ulat
ors.
31
33
31
11
12
-3
21
-
Outcome Based Education (OBE)
|| 52 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Un
ders
tan
d an
d an
alys
e th
e op
erat
ion
of d
iffer
ent t
ypes
of
ante
nn
as.
33
23
21
11
12
-3
31
-
EL30
4A
dvan
ced
Mic
ro
Con
trol
ler
Kn
owle
dge
of A
rch
itec
ture
an
d pr
acti
ce re
late
d to
var
ious
M
icro
con
trol
lers
ava
ilabl
e in
the
mar
ket t
oday
.
--
31
--
1-
--
-1
--
2
Un
ders
tan
d an
d an
alys
e th
e va
riou
s de
sign
ch
alle
nge
s an
d te
chn
ique
s fo
r so
luti
on b
yM
icro
con
trol
lers
bas
ed
desi
gns.
--
13
-2
1-
--
-1
22
2
Use
sof
twar
e to
ols
to s
imul
ate
and
anal
yse
the
perf
orm
ance
of
Des
ign
of m
icro
con
trol
ler
base
d Sy
stem
s, a
nd
use
it in
re
al ti
me
appl
icat
ion
s.
--
--
32
1-
--
-1
-2
2
Abi
lity
to id
enti
fy, f
orm
ulat
e an
d so
lve
engi
nee
rin
g pr
oble
ms
rela
ted
to R
eal t
ime
Ele
ctro
nic
s de
sign
sol
utio
ns.
--
-1
-2
1-
--
-2
32
3
EL30
5G
uide
d Re
sear
ch
and
Read
ing
Gui
ded
rese
arch
read
ing
hel
ps
stud
ents
to u
nde
rsta
nd
text
s an
d to
use
ara
nge
of r
eadi
ng
and
thin
kin
g st
rate
gies
on
oth
er te
xts.
31
-2
-3
--
--
--
--
-
B.Tech (Electronics) Program 2018
|| 53 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Un
ders
tan
d an
d an
alys
e th
e op
erat
ion
of d
iffer
ent t
ypes
of
ante
nn
as.
33
23
21
11
12
-3
31
-
EL30
4A
dvan
ced
Mic
ro
Con
trol
ler
Kn
owle
dge
of A
rch
itec
ture
an
d pr
acti
ce re
late
d to
var
ious
M
icro
con
trol
lers
ava
ilabl
e in
the
mar
ket t
oday
.
--
31
--
1-
--
-1
--
2
Un
ders
tan
d an
d an
alys
e th
e va
riou
s de
sign
ch
alle
nge
s an
d te
chn
ique
s fo
r so
luti
on b
yM
icro
con
trol
lers
bas
ed
desi
gns.
--
13
-2
1-
--
-1
22
2
Use
sof
twar
e to
ols
to s
imul
ate
and
anal
yse
the
perf
orm
ance
of
Des
ign
of m
icro
con
trol
ler
base
d Sy
stem
s, a
nd
use
it in
re
al ti
me
appl
icat
ion
s.
--
--
32
1-
--
-1
-2
2
Abi
lity
to id
enti
fy, f
orm
ulat
e an
d so
lve
engi
nee
rin
g pr
oble
ms
rela
ted
to R
eal t
ime
Ele
ctro
nic
s de
sign
sol
utio
ns.
--
-1
-2
1-
--
-2
32
3
EL30
5G
uide
d Re
sear
ch
and
Read
ing
Gui
ded
rese
arch
read
ing
hel
ps
stud
ents
to u
nde
rsta
nd
text
s an
d to
use
ara
nge
of r
eadi
ng
and
thin
kin
g st
rate
gies
on
oth
er te
xts.
31
-2
-3
--
--
--
--
-
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Ass
essm
ent t
hat
em
erge
s fr
om th
e cl
assr
oom
rat
her
th
an b
ein
g im
pose
d up
on it
is in
tegr
al to
gui
ded
read
ing.
22
23
22
1-
--
--
1-
-
Guid
ed re
adin
g req
uire
s tha
t co
mpr
ehen
sion
stra
tegi
es b
e m
odel
led
by te
ache
rs a
nd th
at
stud
ents
be e
ncou
rage
d to
use
them
in
depe
nden
tly b
efor
e, du
ring,
and
af
ter t
heir
read
ing o
f a te
xt.
22
23
22
1-
--
--
-2
-
Guid
ed re
adin
g is
muc
h m
ore
than
a se
t of a
ctiv
itie
s to
wor
k th
roug
h. A
n un
ders
tand
ing
of
the
theo
reti
cal u
nder
pinn
ings
is
esse
ntia
l.
22
23
22
21
-2
-2
--
-
EL35
1
Pow
er
Dri
vers
E
lect
ron
ics
and
Dri
vers
Un
ders
tan
d th
e po
wer
se
mic
ondu
ctor
dev
ices
.3
12
22
--
1-
--
-1
21
Des
ign
an
d an
alys
e va
riou
s SC
R fi
rin
g, c
omm
utat
ion
m
eth
ods
and
Phas
eco
ntr
olle
d re
ctifi
ers.
21
31
1-
1-
-1
2-
13
-
Des
ign
an
d un
ders
tan
d th
e op
erat
ion
of v
ario
us
indu
stri
al b
ased
pow
erel
ectr
onic
s ci
rcui
ts li
ke
inve
rter
s, c
hop
pers
an
d Cy
cloc
onve
rter
s.
13
3-
21
--
2-
--
-2
2
Outcome Based Education (OBE)
|| 54 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Fost
er a
bilit
y to
un
ders
tan
d th
e us
e of
DC
driv
es a
nd
AC
driv
es in
indu
stri
alap
plic
atio
ns.
22
11
--
-1
2-
2-
23
-
EL35
2D
igit
al
Syst
em
Des
ign
Un
ders
tan
d H
ardw
are
Des
crip
tive
Lan
guag
e an
d di
ffer
ent d
esig
n m
eth
odol
ogy.
33
11
--
--
--
-2
23
2
Des
ign
Com
bin
atio
nal
an
d se
quen
tial
cir
cuit
s us
ing
HD
L.3
11
1-
--
--
--
22
32
Des
ign
syn
chro
nou
s ci
rcui
ts
usin
g FS
M a
nd
anal
yse
Asy
nch
ron
ous
circ
uits
an
dti
min
g
33
23
2-
--
--
-2
23
1
32
22
2-
--
--
-2
23
3
SEM
EST
ER-6
EL30
6V
LSI D
esig
n
Un
ders
tan
d V
LSI d
esig
n
flow
an
d di
ffer
ent d
esig
n
met
hod
olog
y.3
31
1-
--
--
--
21
11
Und
erst
and
fabr
icat
ion
proc
ess
of M
OSFE
Ts a
nd C
MOS
.3
11
1-
--
--
--
21
11
Un
ders
tan
d M
OS
theo
ry.
33
23
2-
--
--
-1
31
1
Anal
yse
the
CMOS
cons
truc
tion
&
its c
hara
cter
isti
cs.
32
22
2-
--
--
-3
32
2
Appl
y CM
OS fu
ndam
enta
ls to
de
sign
CM
OS b
ased
dig
ital c
ircui
ts.
32
11
2-
--
--
-3
32
2
B.Tech (Electronics) Program 2018
|| 55 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
EL30
7D
igit
al
Sign
al
Proc
essi
ng
Un
ders
tan
ds th
e
fun
dam
enta
ls,
impl
emen
tati
ons
and
app
licat
ion
of D
SP.
31
--
2-
-2
2-
-3
1-
-
Un
ders
tan
d ap
plic
atio
ns
of
z-
tran
sfor
ms.
31
--
2-
-2
2-
-3
1-
-
Des
ign
the
digi
tal fi
lter
s.3
22
12
--
22
--
31
22
An
alys
is o
f th
e fr
eque
ncy
re
spon
se o
f dis
cret
e-ti
me
sign
als
and
syst
ems.
33
21
3-
-2
2-
-3
12
2
Dev
elop
pro
gram
s us
ing
soft
war
e to
ols
for
DSP
al
gori
thm
s.3
32
12
--
22
--
31
12
Un
ders
tan
d th
e di
ffer
ence
be
twee
n fi
xed
poin
t an
d fl
oati
ng
poin
t dig
ital
sig
nal
pr
oces
sor
and
sele
ct th
em
as p
er re
quir
emen
t of
appl
icat
ion
s
33
21
2-
-2
2-
-3
11
2
EL30
8M
icro
wav
e E
ngi
nee
rin
g
To u
nde
rsta
nd
TE
, TM
, T
EM
mod
e pr
opag
atio
n,
adva
nta
ges
and
appl
icat
ion
s of
mic
row
aves
.
1-
--
-1
1-
--
-1
1-
-
To u
nde
rsta
nd,
an
alys
e an
d so
lve
prob
lem
s re
late
d m
icro
wav
e tr
ansm
issi
on li
ne.
33
21
1-
--
--
-1
12
1
Outcome Based Education (OBE)
|| 56 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
To u
nde
rsta
nd
and
anal
yse
the
con
cept
of v
ario
us a
ctiv
e an
d pa
ssiv
e m
icro
wav
eco
mpo
nen
ts fo
r di
ffer
ent
appl
icat
ion
s.
21
-1
--
--
--
-1
11
-
To u
nde
rsta
nd
the
con
cept
of
var
ious
mic
row
ave
tube
de
vice
s.1
--
--
--
--
--
11
--
Mea
sure
men
ts o
f var
ious
pa
ram
eter
s of
mic
row
ave
syst
ems.
22
11
--
--
--
--
--
-
Rece
nt
tren
ds
of
mic
row
ave
engi
neer
ing,
var
ious
app
licat
ions
, an
d he
alth
haz
ards
.1
-1
-1
13
--
--
12
-1
EL34
1M
ini P
roje
ct
Stud
ents
will
be
able
to
prac
tice
acq
uire
d kn
owle
dge
wit
hin
the
chos
en a
rea
ofte
chn
olog
y fo
r pr
ojec
t de
velo
pmen
t.
11
2-
--
--
--
-1
2-
-
Iden
tify
, dis
cuss
an
d ju
stif
y th
e te
chn
ical
asp
ects
of t
he
chos
en p
roje
ct w
ith
aco
mpr
ehen
sive
an
d sy
stem
atic
app
roac
h.
--
--
--
--
--
--
--
2
Repr
oduc
e, im
prov
e an
d re
fin
e te
chn
ical
asp
ects
for
engi
nee
rin
g pr
ojec
ts.
--
--
--
--
21
--
1-
-
B.Tech (Electronics) Program 2018
|| 57 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Wor
k as
an
indi
vidu
al o
r in
a
team
in d
evel
opm
ent o
f te
chn
ical
pro
ject
s.-
13
-2
--
--
--
1-
21
Com
mun
icat
e an
d re
port
eff
ecti
vely
pro
ject
rela
ted
acti
viti
es a
nd
fin
din
gs-
--
--
-1
--
22
-1
12
EL35
3D
igit
al
Con
trol
Sy
stem
Un
ders
tan
d th
e ro
le o
f di
ffer
ent t
ypes
of d
igit
al P
ID
con
trol
ler
and
its
real
izat
ion
in
con
trol
sys
tem
des
ign
.
31
21
-2
--
--
--
--
-
Un
ders
tan
d th
e m
eth
odol
ogy
of fe
edba
ck c
ontr
ol s
yste
m
and
diff
eren
t typ
es o
fst
abili
ty a
nal
ysis
for
them
.
31
21
2-
--
--
--
--
-
Iden
tify
, for
mul
ate
digi
tal
con
trol
sys
tem
, an
d an
alys
e op
tim
al c
ontr
ol s
yste
m.
33
21
--
1-
--
--
--
-
Un
ders
tan
d of
dig
ital
con
trol
sy
stem
an
d ab
le to
pre
dict
sy
stem
beh
avio
ur.
32
21
--
-1
--
--
--
-
EL35
4
Opt
ical
Fi
bber
Co
mm
u-n
icat
ion
Un
ders
tan
d th
e ba
sic
elem
ents
of o
ptic
al fi
bre
tran
smis
sion
lin
k, fi
bre
mod
es a
nd
stru
ctur
e co
nfi
gura
tion
s.
32
22
11
--
--
-1
--
-
Outcome Based Education (OBE)
|| 58 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
An
alys
e th
e di
ffer
ent k
ind
of
loss
es, s
ign
al d
isto
rtio
n in
op
tica
l wav
e gu
ides
.3
22
21
1-
--
--
1-
--
Des
ign
opt
ical
sou
rce
mat
eria
ls, L
ED
/ L
aser
dio
des
stru
ctur
es a
nd
Tran
smis
sion
Syst
ems.
32
22
11
--
--
-1
1-
-
An
alys
e th
e fi
bre
opti
cal
rece
iver
ope
rati
on a
nd
con
figu
rati
on.
32
22
11
--
--
-1
1-
-
An
alys
e O
ptic
al A
mpl
ifier
an
d n
etw
orks
com
pon
ents
.3
22
21
1-
--
--
11
1-
EL37
1E
lect
ron
ic
Com
mu-
nic
atio
n
Un
ders
tan
d th
e ba
sic
con
cept
Co
mm
unic
atio
n s
yste
m.
31
--
2-
-1
-1
-3
--
-
An
alys
e D
igit
al
com
mun
icat
ion
sys
tem
s.3
21
12
--
1-
1-
31
-1
Use
net
wor
k fu
nda
men
tals
fo
r LA
N.
32
11
2-
-1
-1
-3
--
1
Un
ders
tan
d th
e In
tern
et
tech
nol
ogie
s it
’s se
curi
ty
aspe
cts.
32
21
2-
-1
-1
-3
--
1
An
alys
e Ce
llula
r Te
chn
olog
ies.
32
11
2-
-1
-1
-3
1-
1
Com
pare
var
ious
wir
eles
s te
chn
olog
ies.
32
11
2-
-1
-1
-3
1-
1
B.Tech (Electronics) Program 2018
|| 59 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
SEM
EST
ER-7
EL40
1W
irel
ess
Com
mu-
nic
atio
n
Un
ders
tan
d th
e ba
sics
of
Wir
eles
s Co
mm
unic
atio
n,
Evo
luti
on a
nd
com
pari
son
.3
11
12
11
33
3-
31
2-
Un
ders
tan
d th
e ba
sic
con
cept
s of
ba
sic
Cellu
lar
Syst
em,
desi
gn r
equi
rem
ents
an
d ba
sic
Prin
cipl
es
beh
ind
radi
o re
sour
ce
man
agem
ent
tech
niq
ues
such
as
po
wer
co
ntr
ol,
chan
nel
al
loca
tion
an
d h
ando
ffs.
32
33
32
13
33
-3
33
-
Gain
insi
ghts
into
var
ious
mob
ile
radi
o pr
opag
atio
n m
odel
s and
ho
w th
e di
vers
ity ca
n be
exp
loite
d to
impr
ove
perf
orm
ance
.
33
33
32
13
33
-3
33
-
Gai
n k
now
ledg
e an
d aw
aren
ess
of th
e te
chn
olog
ies
for
how
to e
ffec
tive
ly s
har
e sp
ectr
um T
hro
ugh
mul
tipl
e ac
cess
tech
niq
ues
i.e. T
DM
A,
CDM
A, F
DM
A e
tc.
33
21
21
13
33
-3
23
-
Hav
e in
-dep
th u
nde
rsta
ndi
ng
of th
e de
sign
con
side
rati
on
and
arch
itec
ture
for
diff
eren
t W
irel
ess
Syst
ems
like
GSM
, CD
MA
, an
d G
PRS
etc.
32
22
21
13
33
-3
33
-
Outcome Based Education (OBE)
|| 60 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Un
ders
tan
din
g of
the
emer
gin
g tr
ends
in W
irel
ess
com
mun
icat
ion
like
WiF
i, W
iMA
X, S
oftw
are
Defi
ned
R
adio
(SD
R) a
nd
rela
ted
issu
es
and
chal
len
ges.
33
22
21
13
33
-3
33
1
EL40
2E
mbe
dded
Sy
stem
D
esig
n
Kn
owle
dge
of th
eory
an
d p
ract
ice
rela
ted
to
Em
bedd
ed S
yste
m.
31
2-
31
23
11
-3
12
2
Un
ders
tan
d an
d an
alys
e th
e
Har
dwar
e te
chn
ique
s an
d D
esig
n o
f Sof
twar
e co
des
for
Em
bedd
ed S
yste
ms.
32
22
32
23
21
13
33
2
Use
sof
twar
e to
ols
to
sim
ulat
e an
d an
alys
e th
e p
erfo
rman
ce o
f Em
bedd
ed S
yste
ms
and
deve
lopm
ent
of m
odel
for
real
tim
e
App
licat
ion
.
32
22
32
23
21
23
33
2
Abi
lity
to id
enti
fy,
form
ulat
e an
d so
lve
en
gin
eeri
ng
prob
lem
s by
u
sin
g E
mbe
dded
Sys
tem
s.
32
22
32
23
22
23
32
2
Abi
lity
to im
plem
ent r
eal
fiel
d pr
oble
m b
y ga
ined
kn
owle
dge
of E
mbe
dded
Sys
tem
s3
22
23
22
32
22
33
33
B.Tech (Electronics) Program 2018
|| 61 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
EL43
1Se
min
ar
App
ly re
ason
ing
info
rmed
by
the
con
text
ual k
now
ledg
e to
as
sess
soc
ieta
l, h
ealt
h,
safe
ty, l
egal
an
d cu
ltur
al
issu
es a
nd
the
con
sequ
ent
resp
onsi
bilit
ies
rele
van
t to
the
Ele
ctro
nic
s en
gin
eeri
ng
prac
tice
.
21
12
23
23
22
12
13
1
Un
ders
tan
d th
e im
pact
of
the
Ele
ctro
nic
s en
gin
eeri
ng
solu
tion
s in
soc
ieta
l an
den
viro
nm
enta
l con
text
s, a
nd
dem
onst
rate
the
know
ledg
e of
, an
d n
eed
for
sust
ain
able
dev
elop
men
t.
23
22
12
32
22
23
22
2
App
ly e
thic
al p
rin
cipl
es a
nd
com
mit
to p
rofe
ssio
nal
eth
ics
and
resp
onsi
bilit
ies
and
nor
ms
of th
e E
lect
ron
ics
engi
nee
rin
g pr
acti
ce
12
2-
-2
23
21
13
11
2
Fun
ctio
n e
ffec
tive
ly a
s an
in
divi
dual
, an
d as
a m
embe
r or
lead
er in
div
erse
team
s,an
d in
mul
tidi
scip
linar
y se
ttin
gs
-2
32
-2
21
33
22
11
1
Outcome Based Education (OBE)
|| 62 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Com
mun
icat
e eff
ecti
vely
on
com
plex
en
gin
eeri
ng
acti
viti
es w
ith
the
engi
nee
rin
g co
mm
unit
y an
d w
ith
soc
iety
at l
arge
, suc
h a
s,
bein
g ab
le to
com
preh
end
and
wri
te e
ffec
tive
repo
rts
and
desi
gn d
ocum
enta
tion
, m
ake
effec
tive
pre
sen
tati
ons,
an
d gi
ve a
nd
rece
ive
clea
r in
stru
ctio
ns.
12
22
12
21
33
12
11
1
Reco
gniz
e th
e n
eed
for
and
hav
e th
e pr
epar
atio
n
and
abili
ty to
en
gage
in
inde
pen
den
t an
d lif
e-lo
ng
lear
nin
g in
the
broa
dest
co
nte
xt o
f tec
hn
olog
ical
ch
ange
.
22
22
13
32
21
13
11
1
EL45
1
Proc
ess
Inst
ru-
men
tati
on
& C
ontr
ol
Iden
tify
, for
mul
ate
and
an
alys
e co
mpl
ex p
roce
ss
con
trol
sys
tem
pro
blem
s re
late
d to
indu
stri
al
aut
omat
ion
.
32
22
23
21
22
21
33
3
Un
ders
tan
d th
e an
alyt
ical
fr
ame
wor
k, d
escr
ipti
on o
f a
ctua
tors
, fin
al c
ontr
ol e
lem
ents
an
d co
nti
nuo
us
an
d di
scre
te c
ontr
ol s
yste
m.
23
22
22
11
12
11
22
2
B.Tech (Electronics) Program 2018
|| 63 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Des
ign
sol
utio
ns
for
sim
ple
proc
ess
prob
lem
s an
dde
sign
sm
all d
ata
acqu
isit
ion
sys
tem
.
22
32
22
12
11
12
22
2
Iden
tify
the
nee
d fo
r th
e au
tom
atio
n p
robl
ems,
an
d h
ave
the
prep
arat
ion
an
dab
ility
to e
nga
ge in
depe
nde
nt
and
life-
lon
g le
arn
ing
in
the
broa
dest
con
text
of
tech
nol
ogic
al c
han
ge.
22
12
23
12
21
11
32
3
EL45
2R
adar
&
Nav
igat
ion
A
ids
Kn
owle
dge
in th
e to
pics
suc
h
as F
unda
men
tals
of R
adar
2-
--
12
11
-1
-1
--
-
To b
ecom
e fa
mili
ar w
ith
fu
nda
men
tals
of D
iffer
ent
type
s of
RA
DA
R2
--
-1
21
21
2-
2-
--
To g
ain
in-d
epth
kn
owle
dge
abou
t th
e di
ffer
ent t
ypes
of
RA
DA
R a
nd
thei
r op
erat
ion
s2
-1
-2
21
22
2-
21
-1
Un
ders
tan
d si
gnal
det
ecti
on
in R
AD
AR
an
d va
riou
s de
tect
ion
tech
niq
ues
2-
-1
22
12
11
-2
--
1
Un
ders
tan
d N
avig
atio
nal
Aid
s an
d M
oder
n N
avig
atio
n2
1-
12
21
11
11
22
1-
Outcome Based Education (OBE)
|| 64 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
EL45
3
Dat
a co
mm
u-n
icat
ion
&
Net
wor
kin
g
Appl
y the
kno
wle
dge o
f
com
mun
icat
ion
tech
niqu
es,
med
ias a
nd fu
ndam
enta
ls o
f lay
er
arch
itect
ure t
o th
e so
lve c
ompu
ter
netw
orks
’ pro
blem
s.
33
23
23
12
23
23
31
1
Des
ign
sol
utio
ns
for
diff
eren
t co
mm
unic
atio
n n
etw
orks
32
23
23
22
23
23
23
2
An
alys
e an
y sy
stem
as
laye
red
arch
itec
ture
sys
tem
.3
32
32
31
22
32
33
11
Abl
e to
ch
oose
app
ropr
iate
pr
otoc
ol o
n e
ach
laye
r ba
sed
on a
pplic
atio
n d
eman
d.3
32
23
31
22
32
33
21
Un
ders
tan
d m
ajor
issu
es a
nd
resp
onsi
bilit
ies
of e
ach
laye
r.3
32
22
31
22
32
33
12
EL45
4D
igit
al
Imag
e Pr
oces
sin
g
Un
ders
tan
d th
e ba
sic
con
cept
s of
two-
dim
ensi
onal
si
gnal
acq
uisi
tion
, Sam
plin
g,an
d qu
anti
zati
on.
32
1-
21
-3
11
13
22
2
Appl
y th
e kn
owle
dge
of sp
atia
l fil
teri
ng te
chni
ques
and
enh
ance
im
age
qual
ity
usin
g im
age
enha
ncem
ent t
echn
ique
s.
32
21
31
-3
22
13
22
2
Un
ders
tan
d th
e D
FT a
nd
able
to
filt
er g
iven
imag
e us
ing
freq
uen
cy d
omai
nfi
lter
ing
tech
niq
ue.
32
21
31
-3
22
13
22
2
B.Tech (Electronics) Program 2018
|| 65 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
App
ly th
e kn
owle
dge
of
Imag
e re
stor
atio
n a
nd
reco
nst
ruct
ion
an
d se
lect
th
e ri
ght i
mag
e re
stor
atio
n
tech
niq
ue to
rem
ove
degr
adat
ion
from
giv
en im
age
32
21
31
-3
22
13
22
2
Un
ders
tan
d im
age
segm
enta
tion
, im
age
com
pres
sion
an
d im
age
mor
phol
ogic
al o
pera
tion
s.
31
21
31
-3
11
13
22
2
Dem
onst
rate
team
wor
k an
d co
mm
unic
atio
n s
kills
thro
ugh
co
urse
pro
ject
s.3
12
33
3-
33
33
32
22
EL47
1
Mic
ro-
con
trol
ler
Bas
edE
lect
ron
ics
Syst
em
Un
ders
tan
d th
e ar
chit
ectu
re
of A
VR
8-b
it M
icro
con
trol
ler
and
impo
rtan
ce a
nd
fun
ctio
n o
f eac
h p
in o
f AV
R
ATm
ega3
2 M
icro
con
trol
ler.
--
31
--
1-
--
-1
--
2
Wri
te, d
ebug
an
d si
mul
ate
embe
dded
C la
ngu
age
prog
ram
s.2
-1
33
21
--
--
12
22
Und
erst
and
Tim
er
oper
atio
n,
Inte
rrup
t env
iron
men
t and
Ser
ial
Com
mun
icat
ion
and.
--
--
-2
1-
--
-1
-2
2
Inte
rfac
e I/
O p
erip
her
als
like
LCD
, AD
C, D
AC
devi
ces
wit
h
mic
roco
ntr
olle
r1
2-
1-
-2
1-
1-
11
21
SEM
EST
ER-8
Outcome Based Education (OBE)
|| 66 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
EL44
1Pr
ojec
t
App
ly th
e kn
owle
dge
of
elec
tron
ics
engi
nee
rin
g to
th
e so
luti
on o
f ele
ctro
nic
s en
gin
eeri
ng
prob
lem
s/pr
ojec
t.
31
21
11
1-
11
-1
31
1
Revi
ew re
sear
ch li
tera
ture
, and
an
alys
e co
mpl
ex e
ngin
eeri
ng
prob
lem
s rea
chin
g su
bsta
ntia
ted
conc
lusi
ons.
-3
22
11
12
11
-1
21
1
Use
rese
arch
-bas
ed
know
ledg
e an
d re
sear
ch
met
hod
s, in
clud
ing
desi
gn
of e
xper
imen
ts, a
nal
ysis
an
d in
terp
reta
tion
of d
ata
to
desi
gn e
lect
ron
ic p
roje
ct.
-1
32
1-
12
11
-1
21
3
Appl
y ap
prop
riat
e te
chni
ques
, re
sour
ces,
and
mod
ern
engi
neer
ing
and
IT to
ols i
nclu
ding
pr
edic
tion
and
mod
ellin
g to
des
ign
elec
tron
ics c
ircui
ts u
sing
rele
vant
so
ftw
are
and
hard
war
e fo
r em
bedd
ed, I
OT, s
igna
l pro
cess
ing
and
com
mun
icat
ion
etc.
bas
ed
appl
icat
ion.
-1
21
3-
1-
11
-1
11
2
B.Tech (Electronics) Program 2018
|| 67 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Un
ders
tan
d th
e im
pact
of
the
elec
tron
ics
engi
nee
rin
g so
luti
ons
to s
ocie
tal a
nd
envi
ron
men
tal c
onte
xts,
et
hic
al p
rin
cipl
es a
nd
nor
ms
of th
e el
ectr
onic
s en
gin
eeri
ng
prac
tice
.
--
1-
13
23
11
-1
11
1
Fun
ctio
n e
ffec
tive
ly a
s an
indi
vidu
al, a
nd
as
a m
embe
r or
lead
er in
di
vers
e te
ams
to m
anag
e pr
ojec
ts, c
omm
unic
ate
effec
tive
ly, w
rite
repo
rt a
nd
effec
tive
pre
sen
tati
ons
of
proj
ects
.
--
--
--
-1
33
31
--
-
EL45
5A
nte
nn
a D
esig
n
Un
ders
tan
din
g ba
sic
a
nte
nn
a ch
arac
teri
stic
s.3
1-
2-
3-
--
--
--
--
Abi
lity
to s
elec
t an
d ju
stif
y
an
app
ropr
iate
an
ten
na
for
an
en
gin
eeri
ng
task
.2
22
32
21
--
--
-1
--
Abi
lity
to m
odel
/opt
imiz
e th
e an
ten
na
usin
g A
NSO
FT H
FSS.
22
23
22
1-
--
--
-2
-
Des
ign
an
d fa
bric
atio
n o
f a
nte
nn
a w
ith
opt
imiz
atio
n
of r
esul
ts2
22
32
22
1-
2-
2-
--
Outcome Based Education (OBE)
|| 68 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
EL45
6B
iom
edic
al
Inst
ru-
men
tati
on
To u
nde
rsta
nd
char
acte
rize
an
atom
y an
d ph
ysio
logy
of
impo
rtan
t phy
siol
ogic
alsy
stem
of h
uman
bod
y.
32
22
11
1-
11
-1
22
2
To u
nde
rsta
nd
the
An
alys
e an
d de
sign
of m
edic
al
inst
rum
ents
(par
ticu
larl
yel
ectr
onic
s pa
rt) b
y ev
alua
tin
g m
edic
al p
aram
eter
m
easu
rem
ent c
onst
rain
t.
32
22
11
1-
11
-1
22
2
To a
nal
yse
impo
rtan
t vit
al
sign
par
amet
ers
to e
valu
ate
cert
ain
dis
ease
con
diti
ons.
32
22
11
1-
11
-1
22
2
To Im
plem
enta
tion
of t
he
elec
tric
saf
ety
of th
e m
edic
al
inst
rum
ents
32
22
11
1-
11
-1
22
2
EL45
7In
tern
et o
f T
hin
gs
Kn
owle
dge
of th
eory
an
d pr
acti
ce re
late
d to
IoT
Sys
tem
.3
12
-3
12
31
1-
31
22
Un
ders
tan
d an
d an
alys
e th
e H
ardw
are
tech
niq
ues
and
Des
ign
of S
oftw
are
code
sfo
r Io
T S
yste
ms.
32
22
22
23
21
13
33
2
Use
sof
twar
e to
ols
to s
imul
ate
and
anal
yse
the
perf
orm
ance
of
IoT
Sys
tem
s an
dde
velo
pmen
t of m
odel
for
real
ti
me
App
licat
ion
.
32
22
32
23
21
23
33
2
B.Tech (Electronics) Program 2018
|| 69 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
Abi
lity
to id
enti
fy, f
orm
ulat
e an
d so
lve
engi
nee
rin
g pr
oble
ms
by u
sin
g Io
TSy
stem
s.
32
22
32
23
22
23
32
2
Abi
lity
to im
plem
ent r
eal fi
eld
prob
lem
by
gain
ed k
now
ledg
e of
IoT
Sys
tem
s.3
22
23
22
32
22
33
33
EL45
8A
dvan
ce
Mic
ro-
proc
esso
r
Bec
ome
fam
iliar
wit
h th
e In
tel 8
086
mic
ropr
oces
sor.
21
11
1-
--
--
-1
21
1
Un
ders
tan
d in
stru
ctio
n s
et
and
prog
ram
min
g of
808
6.2
32
33
--
-2
-1
22
32
Lear
n In
tel 8
0386
, 804
86,
Pen
tium
fam
ily.
22
11
1-
--
--
-2
22
1
Un
ders
tan
d In
stru
ctio
n L
evel
Pa
ralle
lism
.2
21
11
--
--
--
22
21
Lear
n
Pen
tium
an
d M
ulti
-Co
re A
rch
itec
ture
s.
22
22
2-
--
--
22
22
2
Lear
n
rece
nt
tren
d in
m
icro
proc
esso
rs
fiel
ds
and
prep
are
PPT
pre
sen
tati
on o
r de
sign
min
i pro
ject
.
23
22
23
33
33
33
23
2
EL45
9Sa
telli
teCo
mm
u-n
icat
ion
Un
ders
tan
d pr
inci
ple,
w
orki
ng
and
oper
atio
n
of v
ario
us s
ub s
yste
ms
of
sate
llite
as
wel
l as
the
eart
h
stat
ion
.
31
--
--
-2
--
-1
1-
-
Outcome Based Education (OBE)
|| 70 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
App
ly v
ario
us c
omm
unic
atio
n
tech
niq
ues
for
sate
llite
ap
plic
atio
ns.
32
22
2-
--
21
-1
11
1
An
alys
e an
d de
sign
sat
ellit
e co
mm
unic
atio
n li
nk.
33
32
2-
--
2-
22
12
2
An
alys
e Pr
opag
atio
n E
ffec
ts
and
thei
r Im
pact
on
Sat
ellit
e –E
arth
Lin
ks.
32
22
--
--
1-
11
--
An
alys
e Lo
w E
arth
Orb
it a
nd
Non
-Geo
stat
ion
ary
Sate
llite
Sy
stem
s.3
22
2-
--
-1
-1
1-
-
eval
uate
ro
le
of
sate
llite
in
va
riou
s ap
plic
atio
ns.
31
22
22
22
21
22
12
2
EL44
6
Indu
stry
D
efin
edPr
ojec
t/Tr
ain
ing
App
ly th
e kn
owle
dge
of
elec
tron
ics
engi
nee
rin
g to
the
solu
tion
of e
lect
ron
ics
engi
nee
rin
g pr
oble
ms/
proj
ect.
31
21
11
1-
11
-1
31
1
Revi
ew re
sear
ch li
tera
ture
, and
an
alys
e co
mpl
ex e
ngin
eeri
ng
prob
lem
s rea
chin
gsu
bsta
ntia
ted
conc
lusi
ons.
-3
22
11
12
11
-1
21
1
Use
rese
arch
-bas
ed
know
ledg
e an
d re
sear
ch
met
hod
s, in
clud
ing
desi
gn o
fex
peri
men
ts, a
nal
ysis
an
d in
terp
reta
tion
of d
ata
to
desi
gn e
lect
ron
ic p
roje
ct.
-1
32
1-
12
11
-1
21
3
B.Tech (Electronics) Program 2018
|| 71 ||
Subj
ect
Code
Subj
ect
Nam
eCo
urse
Out
com
esPO
1 PO
2 PO
3 PO
4 PO
5 PO
6 PO
7 PO
8 PO
9 PO
10 P
O11
PO12
PS
O1 P
SO2
PSO3
App
ly a
ppro
pria
te te
chn
ique
s,
reso
urce
s, a
nd
mod
ern
en
gin
eeri
ng
and
IT to
ols
incl
udin
g pr
edic
tion
an
d m
odel
ling
to d
esig
n
elec
tron
ics
circ
uits
usi
ng
rele
van
t sof
twar
e an
d h
ardw
are
for
embe
dded
, IO
T, s
ign
al p
roce
ssin
g an
d co
mm
unic
atio
n e
tc.
base
d ap
plic
atio
n.
-1
21
3-
1-
11
-1
11
2
Un
ders
tan
d th
e im
pact
of
the
elec
tron
ics
engi
nee
rin
g so
luti
ons
to s
ocie
tal a
nd
envi
ron
men
tal c
onte
xts,
et
hic
al p
rin
cipl
es a
nd
nor
ms
of th
e el
ectr
onic
sen
gin
eeri
ng
prac
tice
.
--
1-
13
23
11
-1
11
1
Fun
ctio
n e
ffec
tive
ly a
s an
indi
vidu
al, a
nd
as a
m
embe
r or
lead
er in
di
vers
e te
ams
to m
anag
e pr
ojec
ts, c
omm
unic
ate
effec
tive
ly, w
rite
repo
rt a
nd
effec
tive
pre
sen
tati
ons
of
proj
ects
.
--
--
--
-1
33
31
--
-
Outcome Based Education (OBE)
|| 72 ||
MAPPING OF POs AND PSOs WITH CO-CURRICULAR STUDENTS ACTIVITY
1. INDUCTION PROGRAM:ACTIVITIES DURING INDUCTION PROGRAM:
1. Visit to the Institute2. Visit to Industries: Elecon, Atlanta, Amul, Finecast and Rhino
Industries etc.3. Visit to Villages: Valsan, Jol, Mogar, Sarsa, Adas, Vaghasi, Navali,
Sandeshar, Napadvanta and Vadod. 4. Expert Lectures By: Collector, Entrepreneur, Corporate leaders, Cyber
Security Personnel, Spiritual & Motivational Leaders, Professional Trainer, Police Superintendent, and Artists.
OUTCOMES 1. It has provided students the confidence and skills to successfully
transition to college. 2. Students have been familiarized with BVM College and its resources. 3. It has built positive relationships between new students and peers,
faculty, and staff at BVM College. 4. It has assisted students in their personal development of life skills,
ethical judgment and moral fortitude. 5. It has helped students for enhancing critical thinking skills through
self-exploration and class experiences. 6. Student will able to develop strategies and resources for students to
balance school, work, and personal commitments. 7. It has given exposure to college life in a structured and supportive
learning community.
2. TECHNICAL VISITS:1. Technical visits to core industries2. Technical visits to Research Centres
OUTCOMES:1. Industrial visits enhance student practical knowledge and challenges
faced by the organization in the business world.2. It gives greater clarity about various technical concepts for students
as they can practically see how the classroom concepts are put into action.
B.Tech (Electronics) Program 2018
|| 73 ||
3. It motivates students to achieve essential Program Outcomes like life-long learning, communication, engineer & society,
4. Students get exposure to the usage of modern tools5. Students are motivated for learning beyond syllabus. 6. Report writing being part of every industrial visit, it enhance the
writing and presentation skills.
3. INDUSTRIAL TRAINING/INTERNSHIP:As mandatory part of the program structure, a student is required to undergo internship or industrial training in core industry or research institution for a period of total 6 weeks during his/her undergraduate program.
OUTCOMES:1. Hands-on experience on the real time system which increases their
knowledge and confidence. Competency in domain area increases2. Enhancing report writing skill and ability to communication
effectively.3. Learn leadership qualities and to work as a member of diverse group. 4. Enhance design competency, understand project management, time
management and financial issues.5. Ability to understand industrial practices & modern tools;
professional, ethical and legal issues.
4. MEMORANDUM OF UNDERSTANDING The Institution or department has signed various MoU with
Professional Training Agencies, Industrial units, Research Institutions to share the synergies for mutual benefits.
OUTCOMES: 1. Knowledge of state-of-the-art technologies through Extension
Lectures.2. Sensitizing the issues in society and industries.3. Industrial visits, internship, undertaking projects etc. are the activities
undertaken under this auspices.
5. STUDENTS ACTIVITIESThe college organizes various co-curricular and extra-curricular activities appropriately spaced during the academic calendar of the institution.
Outcome Based Education (OBE)
|| 74 ||
ACTIVITIES:1. Student Training Program: In the domain subjects, pedagogies,
communication skills, Personality Development Programs etc.2. Social & Environmental issues: Blood donation camp, Tree Plantation,
NSS & NCC activities, social activities under the aegis of NGO ‘Bachpan’ etc.
3. Annual Festival- ‘Udaan’: Comprising of about 50 events under the category of design, problem solving, coding, innovations, literature, dramatics, fine arts, music, etc.
OUTCOMES:1. Enhance skills related to Project and financial management2. Enhance design & innovation skills, creativity in subject domain,
effective communication skills3. Built team spirit as a member or leader of a diverse team. Build
amicable personality 4. Sensitizes the social issues and the commitment of engineers toward
society5. Improve learning capacity and assimilate lifelong learning
B.Tech (Electronics) Program 2018
|| 75 ||
Map
pin
g of
Act
ivit
ies
Out
com
es w
ith
POs/
PSO
s
PO1
PO2
PO3
PO4
PO5
PO6
PO7
PO8
PO9
PO10
PO11
PO12
PSO
1PS
O2
PSO
3
Engineering knowledge
Problem analysis:
Design/development of solutions:
Investigations of complex prob-lems
Modern tool usage:
engineer and society:
Environment and sustainability:
Ethics
Individual and team work:
Communication
Project management and finance:
Life-long learning:
Analysis and evaluation of elec-tronic circuit
Design of problem
Design of electronic System
Indu
ctio
n P
rogr
am1
--
--
22
1-
1-
--
--
Tech
nic
al V
isit
s1
11
-1
11
--
11
11
11
Inte
rnsh
ip2
22
12
--
12
22
11
11
MoU
--
1-
1-
-1
1-
11
11
1
Stud
ents
Act
ivit
ies
12
1-
-2
12
32
32
11
1