ABOUT THE DEPARTMENT
The formation of the Department of Electronics and Communication Engineering was in the year 1995 with the introduction of an undergraduate course. The Department is affiliated to Anna University, Chennai. The Department has been accredited from April 2008 to June 2013 by National Board of Accreditation (NBA). The Department over the time has grown in several dimensions and provides a magnetic ambience in teaching and learning. The Department has the support of highly qualified, experienced and dedicated faculty members to offer good academic help to students and also constantly help our students to carry out their academic projects addressing the demands of society.
Apart from four years B.E program, the Department also offers a full time M.E program (Applied Electronics) in 2004. The Postgraduate study in ECE prepares students for leadership roles in research, development and design positions that require skill and imaginative engineering solutions.
The major areas of faculty expertise of the department include Biomedical Signal Processing, Communication Systems, Computer networks, Control Systems, Digital Signal Processing, Image Processing, Instrumentation, RF and Microwaves, Micro strip Antennas, Optoelectronic and Optical Communication, VLSI Design, Wireless Communication, Embedded Systems and MEMS.
The Department has signed MoUs with leading industries and organizations for establishing collaborative research, conducting Workshops, Seminars and for organizing International Conferences. Professional associations such as ECE association and life member in IOSR (Instrumentation society of India) for professional interaction.
Our students are always encouraged to take part in co-curricular and extracurricular activities in various state-level / national-level competitions including national level symposiums and international conferences.
The graduates from this department have become professional engineers, employed both in core and software companies. They are well represented at core companies, such as Robert Bosch, Qualcomm, Aricent Group, Wipro and as well as smaller start-up companies. They have become successful software developers and managers in the leading software companies, such as Thought works, Infosys, Cognizant Technology Solutions (CTS), HCL Technologies, TCS, and IGATE etc. Many of our students pursue higher education to obtain MS, MBA and PhD degrees in foreign universities. Also, some of the graduates working in Public sector units, such as BSNL, National Thermal Power Corporation(NTPC) Ltd, DRDO, ISRO, BHEL, BEL etc.
VISION
To transform our department into centre for excellence with high quality education in curricular, co-curricular and extra-curricular activities.
MISSION
To create an excellent teaching and learning environment with our potential to give satisfaction to our stakeholders and to equip contemporary skills to compete with the change.
PROGRAMMES OFFERED BY THE DEPARTMENT
- B.E. in Electronics and Communication Engineering
- M.E. in Applied Electronics
PROGRAM OUTCOMES (POs)
PO1: Engineering knowledge
Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems.
PO2: 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.
PO3: 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.
PO4: 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.
PO5: 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.
PO6: 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.
PO7: 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.
PO8: Ethics
Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice.
PO9: Individual and team work
Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.
PO10: 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.
PO11: 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.
PO12: 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.
COURSE OPPORTUNITIES
The graduates from this department have become professional engineers, employed both in core and software companies. They are well represented at core companies, such as Robert Bosch, Qualcomm, Aricent Group, Wipro and as well as smaller start-up companies. They have become successful software developers and managers in the leading software companies, such as Thought works, Infosys, Cognizant Technology Solutions, HCL Technologies, TCS, and IGATE etc. Many of our students pursue higher education to obtain MS, MBA and PhD degrees in foreign universities. Also, some of the graduates working in Public sector units, such as BSNL, National Thermal Power Corporation(NTPC) Ltd, DRDO, ISRO, BHEL, BEL etc.
PROGRAMME EDUCATIONAL OBJECTIVES (PEOs)
PEO 1
Graduates will have a successful life-long career in Electronics and Communication Engineering or associated industries or higher education or as entrepreneurs.
PEO 2
Graduates will have the ability and attitude to adapt to latest technologies.
PEO 3
Graduates will have the ability and attitude to adapt to latest technologies.
PROGRAM SPECIFIC OBJECTIVES (PSOs)
PSO 1
Apply the knowledge in the field of electronics and communication engineering to analyze, design and develop solutions for real world problems.
PSO 2
Demonstrate the skill in core and allied domain to work in interdisciplinary teams.
COURSE OUTCOMES
REGULATION – 2021
| SEMESTER | THEORY/ PRACTICAL | SUB. CODE | SUB.NAME | COURSE OUTCOMES |
|---|---|---|---|---|
| I | THEORY | HS3151 | PROFESSIONAL ENGLISH I | To use appropriate words in a professional context. |
| To gain understanding of basic grammatic structures and use them in right context. | ||||
| To read and infer the denotative and connotative meanings of technical texts | ||||
| To write definitions, descriptions, narrations and essays on various topics | ||||
| THEORY | MA3151 | MATRICES AND CALCULUS | Use the matrix algebra methods for solving practical problems. | |
| Apply differential calculus tools in solving various application problems. | ||||
| Able to use differential calculus ideas on several variable functions. | ||||
| Apply different methods of integration in solving practical problems. | ||||
| Apply multiple integral ideas in solving areas, volumes and other practical problems. | ||||
| THEORY | PH3151 | ENGINEERING PHYSICS | Understand the importance of mechanics. | |
| Express their knowledge in electromagnetic waves. | ||||
| Demonstrate a strong foundational knowledge in oscillations, optics and lasers. | ||||
| Understand the importance of quantum physics. | ||||
| Comprehend and apply quantum mechanical principles towards the formation of energy bands | ||||
| THEORY | CY3151 | ENGINEERING CHEMISTRY | To infer the quality of water from quality parameter data and propose suitable treatment methodologies to treat water. | |
| To identify and apply basic concepts of nanoscience and nanotechnology in designing the synthesis of nanomaterials for engineering and technology applications. | ||||
| To apply the knowledge of phase rule and composites for material selection requirements. | ||||
| To recommend suitable fuels for engineering processes and applications. | ||||
| To recognize different forms of energy resources and apply them for suitable applications in energy sectors. | ||||
| THEORY | GE3151 | PROBLEM SOLVING AND PYTHON PROGRAMMING | Develop algorithmic solutions to simple computational problems. | |
| Develop and execute simple Python programs. | ||||
| Write simple Python programs using conditionals and loops for solving problems. | ||||
| Decompose a Python program into functions. | ||||
| Represent compound data using Python lists, tuples, dictionaries etc. | ||||
| Read and write data from/to files in Python programs. | ||||
| THEORY | GE3152 | HERITAGE OF TAMILS | ||
| PRACTICAL | GE3171 | PROBLEM SOLVING AND PYTHON PROGRAMMING LABORATORY | Develop algorithmic solutions to simple computational problems. | |
| Develop and execute simple Python programs. | ||||
| Implement programs in Python using conditionals and loops for solving problems | ||||
| Deploy functions to decompose a Python program. | ||||
| Process compound data using Python data structures. | ||||
| Utilize Python packages in developing software applications. | ||||
| PRACTICAL | BS3171 | PHYSICS AND CHEMISTRY LABORATORY | Understand the functioning of various physics laboratory equipment. | |
| Use graphical models to analyze laboratory data. | ||||
| Use mathematical models as a medium for quantitative reasoning and describing physical reality. | ||||
| Access, process and analyze scientific information. | ||||
| Solve problems individually and collaboratively | ||||
| To analyse the quality of water samples with respect to their acidity, alkalinity, hardness and DO. | ||||
| To determine the amount of metal ions through volumetric and spectroscopic techniques | ||||
| To analyse and determine the composition of alloys. | ||||
| To learn simple method of synthesis of nanoparticles | ||||
| To quantitatively analyse the impurities in solution by electroanalytical techniques | ||||
| PRACTICAL | GE3172 | ENGLISH LABORATORY | To listen and comprehend complex academic texts | |
| To speak fluently and accurately in formal and informal communicative contexts | ||||
| To express their opinions effectively in both oral and written medium of communication | ||||
| II | THEORY | HS3251 | PROFESSIONAL ENGLISH -II | To compare and contrast products and ideas in technical texts. |
| To identify cause and effects in events, industrial processes through technical texts | ||||
| To analyse problems in order to arrive at feasible solutions and communicate them orally and in the written format. | ||||
| To report events and the processes of technical and industrial nature. | ||||
| To present their opinions in a planned and logical manner, and draft effective resumes in context of job search. | ||||
| THEORY | MA3251 | STATISTICS AND NUMERICAL METHODS | Apply the concept of testing of hypothesis for small and large samples in real life problems. | |
| Apply the basic concepts of classifications of design of experiments in the field of agriculture. | ||||
| Appreciate the numerical techniques of interpolation in various intervals and apply the numerical techniques of differentiation and integration for engineering problems. | ||||
| Understand the knowledge of various techniques and methods for solving first and second order ordinary differential equations. | ||||
| Solve the partial and ordinary differential equations with initial and boundary conditions by using certain techniques with engineering applications. | ||||
| THEORY | PH3254 | PHYSICS FOR ELECTRONICS ENGINEERING | Know basics of crystallography and its importance for varied materials properties | |
| Gain knowledge on the electrical and magnetic properties of materials and their applications. | ||||
| Understand clearly of semiconductor physics and functioning of semiconductor devices | ||||
| Understand the optical properties of materials and working principles of various optical devices | ||||
| Appreciate the importance of nanotechnology and nanodevices | ||||
| THEORY | BE3254 | ELECTRICAL AND INSTRUMENTATION ENGINEERING | Explain the working principle of electrical machines. | |
| Analyze the output characterizes of electrical machines | ||||
| Choose the appropriate electrical machines for various applications | ||||
| Explain the types and operating principles of measuring instruments | ||||
| Explain the basic power system structure and protection schemes | ||||
| THEORY | GE3251 | ENGINEERING GRAPHICS | Use BIS conventions and specifications for engineering drawing. | |
| Construct the conic curves, involutes and cycloid. | ||||
| Solve practical problems involving projection of lines. | ||||
| Draw the orthographic, isometric and perspective projections of simple solids. | ||||
| Draw the development of simple solids | ||||
| THEORY | EC3251 | CIRCUIT ANALYSIS | Apply the basic concepts of circuit analysis such as Kirchoffs laws, mesh current and node voltage method for analysis of DC and AC circuits. | |
| Apply suitable network theorems and analyze AC and DC circuits | ||||
| Analyze steady state response of any R, L and C circuits | ||||
| Analyze the transient response for any RC, RL and RLC circuits and frequency response of parallel and series resonance circuits. | ||||
| Analyze the coupled circuits and network topologies | ||||
| THEORY | GE3252 | TAMILS AND TECHNOLOGY | ||
| PRACTICAL | GE3271 | ENGINEERING PRACTICES LABORATORY | Draw pipe line plan; lay and connect various pipe fittings used in common household plumbing work; Saw; plan; make joints in wood materials used in common household wood work. | |
| Wire various electrical joints in common household electrical wire work. | ||||
| Weld various joints in steel plates using arc welding work; Machine various simple processeslike turning, drilling, tapping in parts; Assemble simple mechanical assembly of common household equipments; Make a tray out of metal sheet using sheet metal work. | ||||
| Solder and test simple electronic circuits; Assemble and test simple electronic components on PCB. | ||||
| PRACTICAL | EC3271 | CIRCUIT ANALYSIS LABORATORY | Design RL and RC circuits. | |
| Verify Thevinin & Norton theorem KVL & KCL, and Super Position Theorems. | ||||
| PRACTICAL | GE3272 | COMMUNICATION LABORATORY | Speak effectively in group discussions held in a formal/semi formal contexts. | |
| Write emails and effective job applications. | ||||
| III | THEORY | MA3355 | RANDOM PROCESSES AND LINEAR ALGEBRA | Explain the fundamental concepts of advanced algebra and their role in modern mathematics and applied contexts. |
| Demonstrate accurate and efficient use of advanced algebraic techniques. | ||||
| Apply the concept of random processes in engineering disciplines. | ||||
| Understand the fundamental concepts of probability with a thorough knowledge of standard distributions that can describe certain real-life phenomenon. | ||||
| Understand the basic concepts of one and two dimensional random variables and apply them to model engineering problems. | ||||
| THEORY | CS3353 | C PROGRAMMING AND DATA STRUCTURES | Develop C programs for any real world/technical application. Apply appropriate hash functions that result in a collision free scenario for data storage and retrieval. | |
| Apply advanced features of C in solving problems. | ||||
| Write functions to implement linear and nonlinear data structure operations. | ||||
| Suggest and use appropriate linear/nonlinear data structure operations for solving a given problem. | ||||
| Appropriately use sort and search algorithms for a given application. | ||||
| Apply appropriate hash functions that result in a collision free scenario for data storage and retrieval. | ||||
| THEORY | EC3354 | SIGNALS AND SYSTEMS | Determine if a given system is linear/causal/stable. | |
| Determine the frequency components present in a deterministic signal | ||||
| Characterize continuous LTI systems in the time domain and frequency domain | ||||
| Characterize discrete LTI systems in the time domain and frequency domain | ||||
| Compute the output of an LTI system in the time and frequency domains | ||||
| THEORY | EC3353 | ELECTRONIC DEVICES AND CIRCUITS | Explain the structure and working operation of basic electronic devices. | |
| Design and analyze amplifiers. | ||||
| Analyze frequency response of BJT and MOSFET amplifiers | ||||
| Design and analyze feedback amplifiers and oscillator principles. | ||||
| Design and analyze power amplifiers and supply circuits | ||||
| THEORY | EC3351 | CONTROL SYSTEMS | Compute the transfer function of different physical systems. | |
| Analyse the time domain specification and calculate the steady state error. | ||||
| Illustrate the frequency response characteristics of open loop and closed loop system response. | ||||
| Analyse the stability using Routh and root locus techniques. | ||||
| Illustrate the state space model of a physical system and discuss the concepts of sampled data control system. | ||||
| THEORY | EC3352 | DIGITAL SYSTEMS DESIGN | Use Boolean algebra and simplification procedures relevant to digital logic. | |
| Design various combinational digital circuits using logic gates. | ||||
| Analyse and design synchronous sequential circuits. | ||||
| Analyse and design asynchronous sequential circuits. . | ||||
| Build logic gates and use programmable devices | ||||
| PRACTICAL | EC3361 | ELECTRONIC DEVICES AND CIRCUITS LABORATORY | Characteristics of PN Junction Diode and Zener diode | |
| Design and Testing of BJT and MOSFET amplifiers. | ||||
| Operation of power amplifiers | ||||
| PRACTICAL | CS3362 | C PROGRAMMING AND DATA STRUCTURES LABORATORY | Use different constructs of C and develop applications | |
| Write functions to implement linear and non-linear data structure operations | ||||
| Suggest and use the appropriate linear / non-linear data structure operations for a given problem | ||||
| Apply appropriate hash functions that result in a collision free scenario for data storage and Retrieval | ||||
| Implement Sorting and searching algorithms for a given application | ||||
| PRACTICAL | GE3361 | PROFESSIONAL DEVELOPMENT | Use MS Word to create quality documents, by structuring and organizing content for their day to day technical and academic requirements | |
| Use MS EXCEL to perform data operations and analytics, record, retrieve data as per requirements and visualize data for ease of understanding | ||||
| Use MS PowerPoint to create high quality academic presentations by including common tables, charts, graphs, interlinking other elements, and using media objects. | ||||
| IV | THEORY | EC3452 | ELECTROMAGNETIC FIELDS | Relate the fundamentals of vector, coordinate system to electromagnetic concepts |
| Analyze the characteristics of Electrostatic field | ||||
| Interpret the concepts of Electric field in material space and solve the boundary conditions | ||||
| Explain the concepts and characteristics of Magneto Static field in material space and solve boundary conditions. | ||||
| Determine the significance of time varying fields | ||||
| THEORY | EC3401 | NETWORKS AND SECURITY | Explain the Network Models, layers and functions. | |
| Categorize and classify the routing protocols. | ||||
| List the functions of the transport and application layer. | ||||
| Evaluate and choose the network security mechanisms. | ||||
| Discuss the hardware security attacks and countermeasures | ||||
| THEORY | EC3451 | LINEAR INTEGRATED CIRCUITS | Design linear and nonlinear applications of OP AMPS | |
| Design applications using analog multiplier and PLL | ||||
| Design ADC and DAC using OP AMPS | ||||
| Generate waveforms using OP AMP Circuits | ||||
| Analyze special function ICs | ||||
| THEORY | EC3492 | DIGITAL SIGNAL PROCESSING | Apply DFT for the analysis of digital signals and systems | |
| Design IIR and FIR filters | ||||
| Characterize the effects of finite precision representation on digital filters | ||||
| Design multirate filters | ||||
| Apply adaptive filters appropriately in communication systems | ||||
| THEORY | EC3491 | COMMUNICATION SYSTEMS | Gain knowledge in amplitude modulation techniques | |
| Understand the concepts of Random Process to the design of communication systems | ||||
| Gain knowledge in digital techniques | ||||
| Gain knowledge in sampling and quantization | ||||
| Understand the importance of demodulation techniques | ||||
| THEORY | GE3451 | ENVIRONMENTAL SCIENCES AND SUSTAINABILITY | ||
| PRACTICAL | EC3461 | COMMUNICATION SYSTEMS LABORATORY | Design AM, FM & Digital Modulators for specific applications. | |
| Compute the sampling frequency for digital modulation. | ||||
| Simulate & validate the various functional modules of Communication system. | ||||
| Demonstrate their knowledge in base band signaling schemes through implementation of digital modulation schemes. | ||||
| Apply various channel coding schemes & demonstrate their capabilities towards the improvement of the noise performance of Communication system. | ||||
| PRACTICAL | EC3462 | LINEAR INTEGRATED CIRCUITS LABORATORY | Analyze various types of feedback amplifiers | |
| Design and simulate feedback amplifiers,oscillators, tuned amplifiers, waveshaping circuits and multivibrators, filters using SPICE Tool. | ||||
| Design oscillators, tuned amplifiers, wave-shaping circuits and multivibrators | ||||
| Design amplifiers, oscillators, D-A converters using operational amplifiers. | ||||
| Design filters using op-amp and perform an experiment on frequency response |
REGULATION – 2017
| SEMESTER | THEORY/ PRACTICAL | SUB. CODE | SUB.NAME | COURSE OUTCOMES |
|---|---|---|---|---|
| I | THEORY | HS6151 | Technical English - I | Explain clearly, confidently, comprehensibly, and communicate with one or many listeners using appropriate communicative strategies. |
| Construct cohesively and coherently and flawlessly avoiding grammatical errors, using a wide vocabulary range, organizing their ideas logically on a topic. | ||||
| Organize different genres of texts adopting various reading strategies. | ||||
| Distinguish and comprehend different spoken discourses/excerpts in different accents. | ||||
| Improve listening to different accents, speeches and presentations. | ||||
| THEORY | MA6151 | Mathematics - I | This course equips students to have basic knowledge and understanding in one fields of materials, integral and differential calculus | |
| THEORY | PH6151 | Engineering Physics - I | Extend the knowledge about the crystal structures and crystal growth techniques. | |
| Interpret the fundamental knowledge about the elastic nature of materials and able to differentiate a good thermal conductor from the bad thermal conductor. | ||||
| Apply the knowledge of quantum mechanics and classical mechanics in addressing problems related to science and technology. | ||||
| Utilize the knowledge about designing an auditorium with good acoustical properties and make use of ultrasonic and its applications in various fields. | ||||
| Identify and appreciate the advantages of optical communication using LASER. | ||||
| THEORY | CY6151 | Engineering Chemistry - I | Describe the methods of polymerization, types and properties of polymers. | |
| Illustrate the concepts of basic thermodynamics and problem solving skills in various disciplines of Engineering. | ||||
| Discuss the laws of photochemistry in recognizing the interaction of light with matter and its applications in luminescence and spectroscopy. | ||||
| Review the use of the phase rule in identifying its applications in Metallurgical Engineering. | ||||
| Summarize the basic knowledge in Nano chemistry and distinguish the existing technology with Nano technology. | ||||
| THEORY | GE6151 | Computer Programming | Describe the functions of a digital computer with its organization and translate program logic into pseudo code and flow chart | |
| Apply the different conditional constructs to solve simple scientific and statistical problems | ||||
| Demonstrate the usage of functions and pointers with the help of C programs | ||||
| Use the arrays and strings for writing programs involving character manipulations | ||||
| Apply the concept of structures and unions in writing C programs | ||||
| THEORY | GE6152 | Engineering Graphics | Familiarize with the fundamentals and standards of Engineering graphics | |
| Perform freehand sketching of basic geometrical constructions and multiple views of objects. | ||||
| Project orthographic projections of lines and plane surfaces. | ||||
| Draw projections and solids and development of surfaces. | ||||
| The student will be able to Visualize and to project isometric and perspective sections of simple solids. | ||||
| PRACTICAL | GE6161 | Computer Practices Laboratory | Use of office automation tools. | |
| Apply good programming design methods for program development. | ||||
| Design and implement the C programs for simple applications. | ||||
| Develop and implement the recursive programs. | ||||
| Implement the C programs with the help of structures and unions. | ||||
| PRACTICAL | GE6162 | Engineering Practices Laboratory | Construct carpentry components and pipe connections including plumbing works. | |
| Use welding equipment’s to join the structures | ||||
| Illustrate the basic machining operations | ||||
| Construct the models using sheet metal works | ||||
| Describe centrifugal pump, Air conditioner, operations of smithy, foundry and fittings. | ||||
| Construct the basic Electrical and Electronics circuits. | ||||
| Examine the different types of electronic circuits and components. | ||||
| Explain the electrical safety rules, grounding, general house wiring. | ||||
| Perform soldering in various electronic circuits. | ||||
| Illustrate the basic operation of domestic electrical appliances. | ||||
| PRACTICAL | GE6163 | Physics and Chemistry Laboratory - I | Experienced with hands-on knowledge in the quantitative chemical analysis of chloride and dissolved oxygen. | |
| Equipped in the determination of acids by using the instruments of conductivity meter and pH meter. | ||||
| II | THEORY | HS6251 | Technical English – II | Speak convincingly, express their opinions clearly, initiate a discussion, negotiate, argue using appropriate communicative strategies. |
| Write effectively and persuasively and produce different types of writing such as narration, description, exposition and argument as well as creative, critical, analytical and evaluative writing. | ||||
| Read different genres of texts, infer implied meanings and critically analyse and evaluate them for ideas as well as for method of presentation. | ||||
| Listen/view and comprehend different spoken excerpts critically and infer unspoken and implied meanings. | ||||
| Students will become accomplished, active readers and will be able to write effectively for a variety of professional and social settings | ||||
| THEORY | MA6251 | Mathematics– II | Apply knowledge of vector calculus in engineering disciplines | |
| Solve ordinary differential equations that model the engineering problems | ||||
| Find the Laplace transform of functions and solve the ordinary differential equations using Laplace transform | ||||
| Construct analytic functions and apply the knowledge of conformal mappings in engineering disciplines | ||||
| Evaluate contour integration and apply it in engineering problems | ||||
| THEORY | PH6251 | Engineering Physics – II | Describe the conducting materials and their properties. | |
| Analyze the semiconductors and able to differentiate various types of semiconductors. | ||||
| Apply the knowledge of magnetic and superconducting materials for modern day to day applications. | ||||
| Explain the properties and applications of dielectrics. | ||||
| Apply the knowledge about the modern engineering materials for various applications. | ||||
| THEORY | CY6251 | Engineering Chemistry –II | Describe water technology in the purification of water in domestic and industrial applications. | |
| Explain the principles of electrochemistry, the factors affecting corrosion and the prevention of corrosion. | ||||
| Classify the different alternative sources of energy and the generation processes. | ||||
| Enumerate the different types of engineering materials and their applications. | ||||
| Discuss the industrial techniques of petroleum processing and the determination of calorific values and combustion parameters. | ||||
| THEORY | EC6201 | Electronic Devices | Design applications using the basic electronic devices | |
| Interpret the construction and operation of Bipolar Junction Transistor | ||||
| Analyze the operation of various Field Effect Transistors | ||||
| Develop applications using the special semiconductor devices | ||||
| Apply the basic concepts of Power and Display devices | ||||
| THEORY | EE6201 | Circuit Theory | Analyse circuits with ideal, independent, and controlled voltage and current sources. | |
| Apply Ohm’s Law, Kirchhoff’s laws, Network theorems to the analysis of AC and DC circuits. | ||||
| Evaluate the response of the series and parallel resonance circuits, coupled circuits and tuned circuits. | ||||
| Solve first and second order AC and DC circuits for steady-state and transient response in the time domain and two port networks. | ||||
| Estimate the power consumed by the three-phase balanced and unbalanced circuits. | ||||
| PRACTICAL | GE6262 | Physics and Chemistry Laboratory – II | Test materials by using their knowledge of applied physics principles in optics and properties of matter. | |
| Determine the hardness, alkalinity and metal ion content in the water samples by volumetric titration. | ||||
| Estimate the water quality parameters by potentiometer, conductometer and flame photometer. | ||||
| PRACTICAL | EC6211 | Circuits and Devices Laboratory | Analyze the characteristics of basic electronic devices. | |
| Design the RL & RC circuits. | ||||
| Apply KVL, KCL, Thevenin, Norton and Super Position Theorems in circuit analysis. | ||||
| III | THEORY | MA6351 | Transforms and Partial Differential Equations | Solve the Partial Differential Equations. |
| Determine the Fourier series expansion of functions and hence evaluate the value of infinite series. | ||||
| Apply the method of separation of variables to solve one dimensional wave equation, one dimensional heat equation and two dimensional heat equation | ||||
| Find the Fourier transform of functions and also evaluate definite integrals using Fourier transform. | ||||
| Calculate the Z-transform of discrete time systems and solve the difference equations using Z-transform. | ||||
| THEORY | EE6352 | Electrical Engineering and Instrumentation | Analyze the characteristics of DC machines | |
| Determine the efficiency and regulation of transformers | ||||
| Evaluate the performance of Induction and Synchronous machines | ||||
| Select transducers for the measurement of temperature, displacement and strain | ||||
| Determine the circuit parameters using AC and DC bridges | ||||
| THEORY | EC6301 | Object Oriented Programming and Data Structures | Summarize the object oriented features like data abstraction and overloading to solve various computing problems. | |
| Illustrate the concepts of inheritance and polymorphism in various applications. | ||||
| Make use of linear data structure concepts for problem solving. | ||||
| Experiment with various non-linear data structures such as trees and graphs. | ||||
| Analyze standard algorithms for searching and sorting techniques. | ||||
| THEORY | EC6302 | Digital Electronics | Analyze different methods used for simplification of Boolean functions | |
| Design and implement Combinational circuits | ||||
| Design and implement synchronous and asynchronous sequential circuits | ||||
| Apply the basic concepts of memory devices and programmable logic devices | ||||
| Write simple HDL code for combinational and sequential circuits | ||||
| THEORY | EC6303 | Signals and Systems | Analyze the various properties of signals and systems. | |
| Apply Laplace transform, Fourier transform, Z transform and DTFT in signal analysis. | ||||
| Analyse continuous time LTI systems using Fourier and Laplace transform. | ||||
| Analyze the sampling theorem and discrete time signals using Z transform and DTFT. | ||||
| Interpret the LTI discrete time systems using Z transform and DTFT | ||||
| THEORY | EC6304 | Electronic Circuits- I | Design the circuits with BJT and MOSFET biasing | |
| Analyze the small signal equivalent and design simple BJT amplifier circuits | ||||
| Design simple JFET and MOSFET amplifier circuits | ||||
| Find the frequency response of all amplifiers | ||||
| Design an amplifiers with active loads | ||||
| PRACTICAL | EC6311 | Analog and Digital Circuits Laboratory | Design the electronic circuits. | |
| Recognize the characteristics of CE,CB& CC amplifiers | ||||
| Calculate the frequency response of CS amplifier. | ||||
| Analyze the limitations in bandwidth of single stage and multistage amplifiers. | ||||
| Simulate the amplifiers using spice tool. | ||||
| Design and implement the digital circuits using logic gates. | ||||
| PRACTICAL | EC6312 | OOPS and Data Structures Laboratory | Design and implement various concepts in C++ programming language. | |
| Apply good programming design methods for program development. | ||||
| Apply the different data structures like stacks, queues, linked lists, trees and graphs for implementing solutions to practical problems. | ||||
| IV | THEORY | MA6451 | Probability and Random Processes | Apply the knowledge of the probability concepts and distributions in communication engineering. |
| Find the covariance, correlation and regression of two dimensional random variables. | ||||
| Analyze the random processes to apply in random signals in communication engineering. | ||||
| Apply the concept of correlation functions and spectral densities of random processes in communication engineering problems | ||||
| Analyze the response of random inputs to linear time invariant systems to apply in linear systems in communication engineering. | ||||
| THEORY | EC6401 | Electronic Circuits II | Design and analyze feedback amplifiers. | |
| Design different types of oscillator at different frequency. | ||||
| Analyse the performance of Tuned amplifiers. | ||||
| Design wave shaping circuits and multivibrators. | ||||
| Apply the various design techniques to analyze blocking oscillators and time base Generators | ||||
| THEORY | EC6402 | Communication Theory | Analyze the various modulation techniques used for communication. | |
| Elaborate the angle modulation and demodulation techniques. | ||||
| Apply the concepts of Random process. | ||||
| Analyze the noise performance of AM and FM systems. | ||||
| Apply the basic concepts of source and channel coding in design of communication systems. | ||||
| THEORY | EC6403 | Electromagnetic Fields | Apply the basic mathematical concepts of vector analysis and its associated laws to the solution of electrostatic field. | |
| Describe the properties of conductors and dielectrics. | ||||
| Analyze the field potentials due to static magnetic fields. | ||||
| Explain how materials affect electric and magnetic fields. | ||||
| Analyze the relation between the fields under time varying situations and apply Maxwell’s equations to electric and magnetic fields. | ||||
| THEORY | EC6404 | Linear Integrated Circuits | Design linear and non-linear applications of op-amps. | |
| Design applications using Analog multipliers and PLL. | ||||
| Design ADC and DAC using op-amps. | ||||
| Design waveform Generators using op-amps. | ||||
| Analyze special function ICs. | ||||
| THEORY | EC6405 | Control System Engineering | Perform modelling of control system using various techniques | |
| Obtain the time response and steady state error of control systems | ||||
| Design compensators and to plot the frequency response using various techniques | ||||
| Determine the stability of control systems | ||||
| Analyse and obtain state space model using state variables | ||||
| PRACTICAL | EC6411 | Circuit and Simulation Integrated Laboratory | Analyze various types of feedback amplifiers | |
| Design oscillators, tuned amplifiers, wave-shaping circuits and multivibrators. | ||||
| Design and simulate feedback amplifiers, oscillators, tuned amplifiers, wave- shaping circuits and multivibrators using SPICE tool. | ||||
| PRACTICAL | EC6412 | Linear Integrated Circuit Laboratory | Analyze the basics of linear integrated circuits and available ICs. | |
| Design the oscillators, amplifiers and filters using operational amplifiers. | ||||
| Analyze and implement the frequency multiplier using PLL. | ||||
| Design the oscillators and Multi vibrators using SPICE. | ||||
| Analyze the performance of DC power supply using ICs. | ||||
| PRACTICAL | EE6461 | Electrical Engineering and Control System Laboratory | Perform experiments to study the load characteristics of DC Motors/ Generators. | |
| Design bridge network circuit to measure the values of passive component. | ||||
| Analyse the stability of linear system through simulation software | ||||
| Obtain transfer function of DC Generator. | ||||
| V | THEORY | EC6501 | Digital Communication | Design applications using the various types of sampling and quantization. |
| Describe the various waveform coding schemes. | ||||
| Analyze the various baseband transmission schemes. | ||||
| Explain the various digital modulation schemes. | ||||
| Apply the various channel coding in digital communication systems. | ||||
| THEORY | EC6502 | Principles of Digital Signal Processing | Apply DFT for the analysis of digital signals & systems. | |
| Design Infinite Impulse response (IIR) digital filters. | ||||
| Design Finite Impulse response (FIR) digital filters. | ||||
| Analyze the finite Word length effects in digital filters. | ||||
| Explain the concept of Multirate Signal processing and Application of Adaptive Filters. | ||||
| THEORY | EC6503 | Transmission Lines and Wave Guides | Analyze the various types of transmission lines and the losses associated. | |
| Analyze different parameters and constraints in high frequency transmission of information. | ||||
| Apply the concept of impedance transformation and matching using Smith chart. | ||||
| Use the fundamental concept of filter theories and design it. | ||||
| Apply the fundamental concept of transmission in different guided systems and Utilize cavity resonators. | ||||
| THEORY | GE6351 | Environmental Science and Engineering | Summarize the importance of public awareness on environment and nature of Bio diversity. | |
| Describe the various causes, effect and control measures of environmental pollution. | ||||
| Discuss the human development that leads to environmental disasters, the value of natural resources and their conservation. | ||||
| Explain the value of public participation in environmental protection, Environmental Management and Legislation Acts and sustainable development. | ||||
| Review the problems related to population and their remedial measures. | ||||
| THEORY | EC6504 | Microprocessor and Microcontroller | Write and implement programs on 8086 microprocessor. | |
| Implement the system bus structure of 8086 and coprocessor. | ||||
| Describe the I/O devices, peripherals and bus interfacing. | ||||
| Elaborate the operation of 8051 microcontroller architecture and implement ALP using 8051 instructions. | ||||
| Design and implement 8051 microcontroller based systems. | ||||
| PRACTICAL | EC6511 | Digital Signal Processing Laboratory | Implement Linear and circular convolution programs using MATLAB and | |
| DSP Processor | ||||
| Implement FIR and IIR Filters Using MATLAB and DSP Processor. | ||||
| Implement Multi rate filters for various applications of DSP. | ||||
| Analyze the performance of DSP Processor. | ||||
| Generate the Waveform of signals using DSP Processor. | ||||
| PRACTICAL | EC6512 | Communication System Laboratory | Analyze the effects of sampling and TDM. | |
| Design AM & FM modulation and demodulation. | ||||
| Implement Pulse Code Modulation and Delta Modulation. | ||||
| Implement the signal constellations of BPSK, QPSK and QAM. | ||||
| Demonstrate base band signaling schemes through implementation of FSK, PSK and DPSK. | ||||
| Implement Equalization algorithms and Error control coding schemes. | ||||
| PRACTICAL | EC6513 | Microprocessor and Microcontroller Laboratory | Write ALP program for arithmetic operation, logical operations and data movement. | |
| Implement code conversion, decimal arithmetic and matrix operations. | ||||
| Execute ALP program for floating point operations, string manipulations, sorting and searching. | ||||
| Implement peripherals and interfacing with 8086 microprocessor. | ||||
| Write and execute ALP program for arithmetic, logical operations, square and cube program. | ||||
| VI | THEORY | MG6851 | Principles of Management | Discuss the evolution of management, functions and roles of managers |
| Explain the different types of planning process and tools used for planning | ||||
| Elaborate different organization structures and functions of human resources manager | ||||
| Illustrate the different theories of motivation and leadership | ||||
| Describe the control techniques and the role of technology in management | ||||
| THEORY | CS6303 | Computer Architecture | Analyze the performance of the computer operations and understand the instructions in MIPS architecture. | |
| Design arithmetic and logic unit. | ||||
| Design a pipeline for execution of instructions with minimum hazards. | ||||
| Determine the ways to take advantage of instruction level parallelism for high performance processor design. | ||||
| Explain the memory hierarchy, input/output mechanism and evaluate the performance of the memory system. | ||||
| THEORY | CS6551 | Computer Networks | Summarize the concepts of the network fundamentals and different layers. | |
| Identify the components required to build different types of networks and to understand the internetworking protocols. | ||||
| Explore the network with routing and multicasting. | ||||
| Trace the flow of information from one node to another in the networks. | ||||
| Analyze the features and operations of various application layer protocols such as HTTP, DNS, and SMTP. | ||||
| THEORY | EC6601 | VLSI Design | Explain the basic characteristics of MOSFET and different CMOS process technologies. | |
| Design and analyze the various combinational logic circuits. | ||||
| Model the sequential digital system using Hardware Description Language. | ||||
| Design arithmetic building blocks. | ||||
| Apply the techniques of chip design using FPGA programmable devices. | ||||
| THEORY | EC6602 | Antenna and Wave propagation | Analyze the basic antenna parameters and radiations from dipole antennas. | |
| Describe the various types of aperture and slot antennas. | ||||
| Explain about the various kinds of antenna arrays. | ||||
| Apply the various types of special and modern antennas based on the applications. | ||||
| Analyze the different types of propagation of radio waves at different frequencies. | ||||
| THEORY | EC6001 | Elective I - Medical Electronics | Explain about the physiological parameters and recording methods. | |
| Analyze the bio-chemicals and various physiological information. | ||||
| Describe various assist devices used in hospitals. | ||||
| Explain the equipment used for physical medicine and the various recently developed diagnostic and therapeutic techniques. | ||||
| Apply the concepts of medical Instrumentation in recent technology (laser, telemedicine, endoscopy unit). | ||||
| PRACTICAL | EC6611 | Computer Networks Laboratory | Perform client-server communication between two desktop computers using Socket Programming. | |
| Implement the different protocols. | ||||
| Simulate various network topologies like Star, Bus and Ring. | ||||
| Implement and compare the different routing algorithms. | ||||
| Simulate the algorithms with the help of Network Simulator tool. | ||||
| PRACTICAL | EC6612 | VLSI Design Laboratory | Write HDL code for basic as well as advanced digital integrated circuits. | |
| Synthesize, Place and Route the digital circuits. | ||||
| Import the logic modules in to FPGA boards. | ||||
| Design and Simulate the digital circuits using EDA platforms. | ||||
| Design and Simulate the CMOS transistor differential amplifiers using EDA tools. | ||||
| PRACTICAL | GE6674 | Communication and Soft Skills - Laboratory Based | Identify and interpret visuals, communicate in formal and informal conversations, give presentations, and participate in GD. | |
| Explain reading comprehension passages of higher levels, draft Resume, cover letter, reports, emails, and write blogs. | ||||
| Differentiate between IELTS & TOEFL and take placement oriented verbal ability tests. | ||||
| Demonstrate appropriate verbal, non-verbal and paralinguistic skills while attending job interviews. | ||||
| Show leadership traits, team skills and essential soft skills and efficiency to excel as a professional. | ||||
| VII | THEORY | EC6701 | RF and Microwave Engineering | Design and analyse multiport RF networks |
| Formulate solutions for stability and impedance matching issues in microwave amplifiers | ||||
| Explain the basic concept of various microwave devices | ||||
| Elaborate the concepts involved in Microwave generation | ||||
| Measure and analyse Microwave signal and its parameters | ||||
| THEORY | EC6702 | Optical Communication and Networks | Fundamental concept of optical fiber modes and their configurations. | |
| Analyse the various signal degradation factors associated with optical fiber. | ||||
| Explain the various optical sources and optical detectors and their use in the optical communication system. | ||||
| Describe the techniques required to measure the optical fiber systems. | ||||
| Analyse the Digital Transmission and its associated parameters on system performance | ||||
| THEORY | EC6703 | Embedded and Real Time Systems | Explain the fundamental concepts of designing Embedded and Real Time | |
| Systems | ||||
| Describe the computing required for Real Time Embedded Systems. | ||||
| Summarize the concepts of scheduling in Real Time Operating System. | ||||
| Analyse the techniques required to create complex Embedded System. | ||||
| Apply the concepts of Embedded System Design in creating the model Real Time applications. | ||||
| THEORY | EC6004 | Elective II - Satellite Communication | Determine the azimuth and elevation angles and visibility of a geostationary satellite from an earth station. | |
| Explain the concept of signal propagation of space segment components and create link budgets for an uplink and a downlink, | ||||
| Analyze the effect of rain attenuation in a satellite link and the availability of the link based on geographic location of the earth terminals. | ||||
| Design satellite communication system to carry voice, video or data signals using analog or digital modulation. | ||||
| Analyze the various types of satellite services according to its applications. | ||||
| THEORY | IT6005 | Elective III - Digital Image Processing | Analyse the fundamental concepts of a digital image processing system | |
| Examine various types of images, intensity transformations and spatial filtering and to develop Fourier transform for image processing in frequency domain | ||||
| Determine the methodologies for image segmentation, restoration etc | ||||
| Apply various coding methods used for Image Compression | ||||
| Explain about Image Restoration and Recognition techniques | ||||
| THEORY | EC6013 | Elective IV - Advanced Microprocessors and Microcontrollers | Describe the operation of Pentium processor and programming concepts. | |
| Analyze the operation of ARM processor, instruction sets and development tools. | ||||
| Develop DSP applications using ARM processor. | ||||
| Explain about MOTOROLA 68HC11 architecture and instruction sets. | ||||
| Elaborate the operation of PIC microcontroller and instruction sets | ||||
| THEORY | EC6016 | Opto Electronic devices | Explain the wave nature of light and basics of solid state physics. | |
| Elucidate the operation of display devices and laser. | ||||
| Describe the various optical detection devices. | ||||
| Apply concept of optoelectronic modulator principle in fiber optic communication. | ||||
| Describe the integration of Optoelectronic devices on a chip | ||||
| PRACTICAL | EC6711 | Embedded Laboratory | Write programs in ARM for a specific Application | |
| Interface memory with ARM processor and write a program related to memory operations | ||||
| Interface A/D and D/A convertors with ARM system | ||||
| Analyze the performance of interrupt | ||||
| Write programs for interfacing keyboard, display, motor and sensor | ||||
| PRACTICAL | EC6712 | Optical and Microwave Laboratory | Analyze the performance of simple optical link. | |
| Test microwave and optical components. | ||||
| Determine the losses in fiber. | ||||
| Analyze the mode characteristics of fiber. | ||||
| Analyze the radiation pattern of antenna. | ||||
| VIII | THEORY | EC6801 | Wireless Communication | Explain the modelling of various wireless channels. |
| Apply the various cellular concepts like frequency reuse, channel assignments, handoff strategies etc., in mobile communication. | ||||
| Analyze the performance of various digital signalling schemes of fading channels. | ||||
| Apply the multipath mitigation techniques based on the application. | ||||
| THEORY | EC6802 | Wireless Networks | Analyze different standards used for Wireless LAN. | |
| Explain the Network Layer protocols used for Mobile Applications. | ||||
| Describe various techniques in Mobile Transport Layers. | ||||
| Implement different type of applications for smart phones and mobile devices with latest network strategies. | ||||
| Converse with the latest 3G/4G and WiMAX Networks and its Architecture. | ||||
| THEORY | GE6075 | Elective V - Professional Ethics in Engineering | Apply ethics, morals and human values in society. The students will be able to | |
| Explain about engineering ethics. | ||||
| Describe the responsibilities of engineers as experimenters. | ||||
| Analyze the safety, risks, risk benefit analysis and rights of an engineer. | ||||
| Discuss the Importance of the global issues, moral leadership and code of conduct. | ||||
| THEORY | GE6757 | Elective VI - Total Quality Management | Discuss the contributions of Quality Guru. | |
| Explain the principles of TQM. | ||||
| Apply the tools and techniques of quality management to manufacturing and service processes. | ||||
| Describe TQM tools and techniques such as Control Charts, QFD and TPM. | ||||
| Discuss the elements of Quality system standards. | ||||
| PRACTICAL | EC6811 | Project Work | Apply the fundamental knowledge and skills, which are acquired within the | |
| technical area, to a given problem | ||||
| Identify and summarize an appropriate list of literature review, analyze previous researchers’ work and relate them to the project | ||||
| Within given constraints, even with limited information, the students will be able to independently analyze and discuss complex inquiries/problems and handle larger problems on the advanced level within the technical area. | ||||
| Design engineering solutions to complex problems in a systematic approach. | ||||
| Apply research and conduct experiments, as well as to analyze and interpret data that yield the results and answer important applicable research questions. | ||||
| Utilize technology tools for communication, collaboration, information management, and decision support. | ||||
| Demonstrate the knowledge, skills and attitudes of a professional engineer. | ||||
| Interact with team members in a professional manner, respecting differences, to ensure a collaborative project environment. | ||||
| Demonstrate a strong working knowledge of ethics and professional responsibility. | ||||
| Document and present one’s own work, for a given target group, with strict requirements on structure, format, and language usage. |
REGULATION – 2013
| SEMESTER | THEORY/ PRACTICAL | SUB. CODE | SUB.NAME | COURSE OUTCOMES |
|---|---|---|---|---|
| I | THEORY | HS8151 | COMMUNICATIVE ENGLISH | CO1.Read articles of a general kind in magazines and newspapers. |
| CO2.Participate effectively in informal conversations; introduce themselves and their friends and express opinions in English. | ||||
| CO3. Comprehend conversations and short talks delivered in English | ||||
| CO4. Write short essays of a general kind and personal letters and emails in English. | ||||
| THEORY | HS8151 | ENGINEERING MATHEMATICS– I | CO1.Use both the limit definition and rules of differentiation to differentiate functions. | |
| CO2.Apply differentiation to solve maxima and minima problems. | ||||
| CO3. Evaluate integrals both by using Riemann sums and by using the Fundamental Theorem of Calculus. | ||||
| CO4. Apply integration to compute multiple integrals, area, volume, integrals in polar coordinates, in addition to change of order and change of variables. | ||||
| CO6. Evaluate integrals using techniques of integration, such as substitution, partial fractions and integration by parts. | ||||
| CO7. Determine convergence/divergence of improper integrals and evaluate convergent improper integrals. | ||||
| CO8. Apply various techniques in solving differential equations. | ||||
| THEORY | PH8151 | ENGINEERING PHYSICS | CO1. The students will gain knowledge on the basics of properties of matter and its applications | |
| CO2. The students will acquire knowledge on the concepts of waves and optical devices and their applications in fibre optics, the students will have adequate knowledge on the concepts of thermal properties of materials and their applications in expansion joints and heat exchangers, | ||||
| CO3. The students will get knowledge on advanced physics concepts of quantum theory and its applications in tunneling microscopes, and the students will understand the basics of crystals, their structures and different crystal growth techniques. |
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| THEORY | CY8151 | ENGINEERING CHEMISTRY | CO1. The knowledge gained on engineering materials, fuels, energy sources and water treatment techniques will facilitate better understanding of engineering processes and applications for further learning. | |
| THEORY | GE8151 | PROBLEM SOLVING AND PYTHON PROGRAMMING | CO1. Develop algorithmic solutions to simple computational problems Read, write, execute by hand simple Python programs. |
|
| CO2. Structure simple Python programs for solving problems. Decompose a Python program into functions. |
||||
| CO3. Represent compound data using Python lists, tuples, dictionaries. Read and write data from/to files in Python Programs. | ||||
| THEORY | GE8152 | ENGINEERING GRAPHICS | CO1. Familiarize with the fundamentals and standards of Engineering graphics Perform freehand sketching of basic geometrical constructions and multiple views of objects. | |
| CO2. Project orthographic projections of lines and plane surfaces. | ||||
| CO3. Draw projections and solids and development of surfaces. | ||||
| CO4 Visualize and to project isometric and perspective sections of simple solids. | ||||
| PRACTICAL | GE8161 | PROBLEM SOLVING ANDPYTHON PROGRAMMING LABORATORY | CO1. Write, test, and debug simple Python programs. | |
| CO2. Implement Python programs with conditionals and loops. | ||||
| CO3. Develop Python programs step-wise by defining functions and calling them. | ||||
| CO4. Develop Python programs step-wise by defining functions and calling them. | ||||
| CO5. Read and write data from/to files in Python. | ||||
| CO6. Use Python lists, tuples, dictionaries for representing compound data. | ||||
| PRACTICAL | BS8161 | PHYSICS AND CHEMISTRY LABORATORY | CO1. The students will be outfitted with hands-on knowledge in the quantitative chemical analysis of water quality related parameters. | |
| II | THEORY | HS8251 | TECHNICAL ENGLISH | CO1. Read technical texts and write area- specific texts effortlessly. |
| CO2. Listen and comprehend lectures and talks in their area of specialisation successfully. | ||||
| CO3. Speak appropriately and effectively in varied formal and informal contexts. | ||||
| CO4. Write reports and winning job applications. | ||||
| THEORY | MA8251 | ENGINEERING MATHEMATICS – II | CO1. Gradient, divergence and curl of a vector point function and related identities. | |
| CO2. Eigenvalues and eigenvectors, diagonalization of a matrix, Symmetric matrices, Positive definite matrices and similar matrices. | ||||
| CO3. Evaluation of line, surface and volume integrals using Gauss, Stokes and Green‘s theorems and their verification. | ||||
| CO4. Analytic functions, conformal mapping and complex integration. | ||||
| CO5. Laplace transform and inverse transform of simple functions, properties, various related theorems and application to differential equations with constant coefficients. |
||||
| THEORY | PH8253 | PHYSICS FOR ELECTRONICS ENGINEERING | CO1. Gain knowledge on classical and quantum electron theories, and energy band structuues, Acquire knowledge on basics of semiconductor physics and its applications in various devices, |
|
| CO2. Get knowledge on magnetic and dielectric properties of materials, | ||||
| CO3. Have the necessary understanding on the functioning of optical materials for optoelectronics, | ||||
| CO4. Understand the basics of quantum structures and their applications in spintronics and carbon electronics.. | ||||
| THEORY | BE8254 | BASIC ELECTRICAL AND INSTRUMENTATION ENGINEERING | CO1. Understand the concept of three phase power circuits and measurement. | |
| CO2. Comprehend the concepts in electrical generators, motors and transformers | ||||
| CO3. Choose appropriate measuring instruments for given application | ||||
| THEORY | EC8251 | CIRCUIT ANALYSIS | CO1. Develop the capacity to analyze electrical circuits, apply the circuit theorems in real time | |
| CO2. Design and understand and evaluate the AC and DC circuits. | ||||
| THEORY | EC8252 | ELECTRONIC DEVICES | CO1. Explain the V-I characteristic of diode, UJT and SCR | |
| CO2. Describe the equivalence circuits of transistors | ||||
| CO3. Operate the basic electronic devices such as PN junction diode, Bipolar and Field effect Transistors, Power control devices, LED, LCD and other Opto-electronic devices | ||||
| PRACTICAL | EC8261 | CIRCUITS AND DEVICES LABORATORY | CO1. Analyze the characteristics of basic electronic devices | |
| CO2. Design RL and RC circuits | ||||
| CO3. Verify Thevinin & Norton theorem KVL & KCL, and Super Position Theorems | ||||
| PRACTICAL | GE8261 | ENGINEERING PRACTICES LABORATORY | CO1. Fabricate carpentry components and pipe connections including plumbing works. | |
| CO2. Use welding equipments to join the structures. | ||||
| CO3. Carry out the basic machining operations | ||||
| CO4. Make the models using sheet metal works | ||||
| CO5. Illustrate on centrifugal pump, Air conditioner, operations of smithy, foundary and fittings |
||||
| CO6. Carry out basic home electrical works and appliances | ||||
| CO7. Measure the electrical quantities Elaborate on the components, gates, soldering practices. | ||||
| III | THEORY | MA8352 | LINEAR ALGEBRA AND PARTIAL DIFFERENTIAL EQUATIONS | CO1. Explain the fundamental concepts of advanced algebra and their role in modern mathematics and applied contexts. |
| CO2. Demonstrate accurate and efficient use of advanced algebraic techniques. | ||||
| CO3. Demonstrate their mastery by solving non - trivial problems related to the concepts and by proving simple theorems about the statements proven by the text. | ||||
| CO4. Able to solve various types of partial differential equations. | ||||
| CO5. Able to solve engineering problems using Fourier series. | ||||
| THEORY | EC8393 | FUNDAMENTALS OF DATA STRUCTURES IN C | CO1. Implement linear and non-linear data structure operations using C | |
| CO2. Suggest appropriate linear / non-linear data structure for any given data set. | ||||
| CO3. Apply hashing concepts for a given problem | ||||
| CO4. Modify or suggest new data structure for an application | ||||
| CO5. Appropriately choose the sorting algorithm for an application | ||||
| THEORY | EC8351 | ELECTRONIC CIRCUITS I | CO1. Acquire knowledge of Working principles, characteristics and applications of BJT and FET Frequency response characteristics of BJT and FET amplifiers |
|
| CO2. Analyze the performance of small signal BJT and FET amplifiers - single stage and multi stage amplifiers | ||||
| CO3. Apply the knowledge gained in the design of Electronic circuits | ||||
| THEORY | EC8352 | SIGNALS AND SYSTEMS | CO1. To be able to determine if a given system is linear/causal/stable | |
| CO2. Capable of determining the frequency components present in a deterministic signal | ||||
| CO3. Capable of characterizing LTI systems in the time domain and frequency domain | ||||
| THEORY | EC8392 | DIGITAL ELECTRONICS | CO1. Use digital electronics in the present contemporary world | |
| CO2. Design various combinational digital circuits using logic gates | ||||
| CO3. Do the analysis and design procedures for synchronous and asynchronous sequential circuits | ||||
| CO4. Use the semiconductor memories and related technology | ||||
| CO5. Use electronic circuits involved in the design of logic gates | ||||
| THEORY | EC8391 | CONTROL SYSTEMS ENGINEERING | CO1. Identify the various control system components and their representations. | |
| CO2. Analyze the various time domain parameters. | ||||
| CO3. Analysis the various frequency response plots and its system. | ||||
| CO4. Apply the concepts of various system stability criterions. | ||||
| CO5. Design various transfer functions of digital control system using state variable models. | ||||
| PRACTICAL | EC8381 | FUNDAMENTALS OF DATA STRUCTURES IN C LABORATORY | CO1. Write basic and advanced programs in C | |
| CO2. Implement functions and recursive functions in C | ||||
| CO3. Implement data structures using C | ||||
| CO4. Choose appropriate sorting algorithm for an application and implement it in a modularized way | ||||
| PRACTICAL | EC8361 | ANALOG AND DIGITAL CIRCUITS LABORATORY | CO1. Design and Test rectifiers, filters and regulated power supplies. | |
| CO2. Design and Test BJT/JFET amplifiers. | ||||
| CO3. Differentiate cascode and cascade amplifiers. | ||||
| CO4. Analyze the limitation in bandwidth of single stage and multi stage amplifier | ||||
| CO5. Measure CMRR in differential amplifier | ||||
| CO6. Simulate and analyze amplifier circuits using PSpice. | ||||
| CO7. Design and Test the digital logic circuits. | ||||
| PRACTICAL | HS8381 | INTERPERSONAL SKILLS/LISTENING&SPEAKING | CO1. Listen and respond appropriately. | |
| CO2. Participate in group discussions | ||||
| CO3. Make effective presentations | ||||
| CO4. Participate confidently and appropriately in conversations both formal and informal |
||||
| IV | THEORY | MA8451 | PROBABILITY AND RANDOM PROCESSES | CO1. Understand the fundamental knowledge of the concepts of probability and have knowledge of standard distributions which can describe real life phenomenon. |
| CO2. Understand the basic concepts of one and two dimensional random variables and apply in engineering applications. | ||||
| CO3. Apply the concept random processes in engineering disciplines. | ||||
| CO4. Understand and apply the concept of correlation and spectral densities. | ||||
| CO5. The students will have an exposure of various distribution functions and help in acquiring skills in handling situations involving more than one variable. Able to analyze the response of random inputs to linear time invariant systems. | ||||
| THEORY | EC8452 | ELECTRONIC CIRCUITS II | CO1. Analyze different types of amplifier, oscillator and multivibrator circuits | |
| CO2. Design BJT amplifier and oscillator circuits | ||||
| CO3. Analyze transistorized amplifier and oscillator circuits | ||||
| CO4. Design and analyze feedback amplifiers | ||||
| CO5. Design LC and RC oscillators, tuned amplifiers, wave shaping circuits, multivibrators, power amplifier and DC convertors. |
||||
| THEORY | EC8491 | COMMUNICATION THEORY | CO1. Design AM communication systems | |
| CO2. Design Angle modulated communication systems | ||||
| CO3. Apply the concepts of Random Process to the design of Communication systems | ||||
| CO4. Analyze the noise performance of AM and FM systems | ||||
| CO5. Gain knowledge in sampling and quantization | ||||
| THEORY | EC8451 | ELECTROMAGNETIC FIELDS | CO1. Display an understanding of fundamental electromagnetic laws and concepts | |
| CO2. Write Maxwell's equations in integral, differential and phasor forms and explain their physical meaning | ||||
| CO3. Explain electromagnetic wave propagation in lossy and in lossless media | ||||
| CO4. Solve simple problems requiring estimation of electric and magnetic field quantities based on these concepts and laws | ||||
| THEORY | EC8453 | LINEAR INTEGRATED CIRCUITS | CO1. Design linear and non linear applications of OP – AMPS | |
| CO2. Design applications using analog multiplier and PLL | ||||
| CO3. Design ADC and DAC using OP – AMPS | ||||
| CO4. Generate waveforms using OP – AMP Circuits |
||||
| CO5. Analyze special function Ics | ||||
| THEORY | GE8291 | ENVIRONMENTAL SCIENCE AND ENGINEERING | CO1. Environmental Pollution or problems cannot be solved by mere laws. Public participation is an important aspect which serves the environmental Protection. One will obtain knowledge on the following after completing the course. | |
| CO2. Public awareness of environmental is at infant stage. | ||||
| CO3. Ignorance and incomplete knowledge has lead to misconceptions | ||||
| CO4. Development and improvement in std. of living has lead to serious environmental disasters |
||||
| PRACTICAL | EC8461 | CIRCUIT DESIGN AND SIMULATION LABORATORY | CO1. Analyze various types of feedback amplifiers | |
| CO2. Design oscillators, tuned amplifiers, wave-shaping circuits and multivibrators | ||||
| CO3. Design and simulate feedback amplifiers, oscillators, tuned amplifiers, wave-shaping circuits and multivibrators using SPICE Tool. |
||||
| PRACTICAL | EC8462 | LINEAR INTEGRATED CIRCUITS LABORATORY | CO1. Design amplifiers, oscillators, D-A converters using operational amplifiers. | |
| CO2. Design filters using op-amp and performs an experiment on frequency response. | ||||
| CO3. Analyze the working of PLL and describe its application as a frequency multiplier. | ||||
| CO4. Design DC power supply using ICs. | ||||
| CO5. Analyze the performance of filters, multivibrators, A/D converter and analog multiplier using SPICE. |
||||
| V | THEORY | EC8501 | DIGITAL COMMUNICATION | CO1. Design PCM systems |
| CO2. Design and implement base band transmission schemes | ||||
| CO3. Design and implement band pass signaling schemes | ||||
| CO4. Analyze the spectral characteristics of band pass signaling schemes and their noise performance | ||||
| CO5. Design error control coding schemes | ||||
| THEORY | EC8553 | DISCRETE-TIME SIGNAL PROCESSING | CO1. Apply DFT for the analysis of digital signals and systems | |
| CO2. Design IIR and FIR filters | ||||
| CO3. Characterize the effects of finite precision representation on digital filters | ||||
| CO4. Design multirate filters | ||||
| CO5. Apply adaptive filters appropriately in communication systems | ||||
| THEORY | EC8552 | COMPUTER ARCHITECTURE AND ORGANIZATION | CO1. Describe data representation, instruction formats and the operation of a digital computer | |
| CO2. Illustrate the fixed point and floating-point arithmetic for ALU operation | ||||
| CO3. Discuss about implementation schemes of control unit and pipeline performance | ||||
| CO4. Explain the concept of various memories, interfacing and organization of multiple processors | ||||
| CO5. Discuss parallel processing technique and unconventional architectures | ||||
| THEORY | EC8551 | COMMUNICATION NETWORKS | CO1. Identify the components required to build different types of networks | |
| CO2. Choose the required functionality at each layer for given application | ||||
| CO3. Identify solution for each functionality at each layer | ||||
| CO4. Trace the flow of information from one node to another node in the network | ||||
| PRACTICAL | EC8562 | DIGITAL SIGNAL PROCESSING LABORATORY | CO1. Carryout basic signal processing operations | |
| CO2. Demonstrate their abilities towards MATLAB based implementation of various DSP systems | ||||
| CO3. Analyze the architecture of a DSP Processor | ||||
| CO4. Design and Implement the FIR and IIR Filters in DSP Processor for performing filtering operation over real-time signals | ||||
| CO5. Design a DSP system for various applications of DSP | ||||
| PRACTICAL | EC8561 | COMMUNICATION SYSTEMS LABORATORY | CO1. Simulate & validate the various functional modules of a communication system | |
| CO2. Demonstrate their knowledge in base band signaling schemes through implementation of digital modulation schemes | ||||
| CO3. Apply various channel coding schemes & demonstrate their capabilities towards the improvement of the noise performance of communication system | ||||
| CO4. Simulate end-to-end communication Link | ||||
| PRACTICAL | EC8563 | COMMUNICATION NETWORKS LABORATORY | CO1. Communicate between two desktop computers | |
| CO2. Implement the different protocols | ||||
| CO3. Program using sockets. | ||||
| CO4. Implement and compare the various routing algorithms | ||||
| CO5. Use the simulation tool. | ||||
| THEORY | EC8073 | Professional Elective -I - MEDICAL ELECTRONICS | CO1. Know the human body electro- physiological parameters and recording of bio-potentials Comprehend the non-electrical physiological parameters and their measurement – body temperature, blood pressure, pulse, blood cell count, blood flow meter etc. |
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| CO2. Interpret the various assist devices used in the hospitals viz. pacemakers, defibrillators, dialyzers and ventilators | ||||
| CO3. Comprehend physical medicine methods eg. ultrasonic, shortwave, microwave surgical diathermies , and bio-telemetry principles and methods Know about recent trends in medical instrumentation | ||||
| THEORY | GE8077 | Open Elective - I - TOTAL QUALITY MANAGEMENT | CO1. The student would be able to apply the tools and techniques of quality management to manufacturing and services processes. | |
| THEORY | OMD551 | Open Elective - I - BASIC OF BIOMEDICAL INSTRUMENTATION | CO1: To Learn the different bio potential and its propagation. | |
| CO2: To get Familiarize the different electrode placement for various physiological recording | ||||
| CO3: Students will be able design bio amplifier for various physiological recording | ||||
| CO4: Students will understand various technique non electrical physiogical measurements measurements | ||||
| CO5: Understand the different biochemical | ||||
| VI | THEORY | EC8095 | VLSI DESIGN | CO1.Design arithmetic building blocks and memory subsystems. |
| CO2.Realize the concepts of digital building blocks using MOS transistor. | ||||
| CO3.Design combinational MOS circuits and power strategies. | ||||
| CO4.Design and construct Sequential Circuits and Timing systems. | ||||
| CO5.Apply and implement FPGA design flow and testing. | ||||
| THEORY | EC8691 | MICROPROCESSORS AND MICROCONTROLLERS | CO1. Understand and execute programs based on 8086 microprocessor. | |
| CO2. Design Memory Interfacing circuits. | ||||
| CO3. Design and interface I/O circuits. | ||||
| CO4. Design and implement 8051 microcontroller based systems. | ||||
| THEORY | EC8652 | WIRELESS COMMUNICATION | CO1. Characterize a wireless channel and evolve the system design specifications | |
| CO2. Design a cellular system based on resource availability and traffic demands | ||||
| CO3. Identify suitable signaling and multipath mitigation techniques for the wireless channel and system under consideration. |
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| THEORY | MG8591 | PRINCIPLES OF MANAGEMENT | CO1. Upon completion of the course, students will be able to have clear understanding | |
| CO2. Managerial functions like planning, organizing, staffing, leading & controlling and have same basic knowledge on international aspect of management |
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| THEORY | EC8651 | TRANSMISSION LINES AND RF SYSTEMS | CO1. Explain the characteristics of transmission lines and its losses | |
| CO2. Write about the standing wave ratio and input impedance in high frequency transmission lines | ||||
| CO3. Analyze impedance matching by stubs using smith charts | ||||
| CO4. Analyze the characteristics of TE and TM waves | ||||
| CO5. Design a RF transceiver system for wireless communication |
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| PRACTICAL | EC8681 | MICROPROCESSORS AND MICROCONTROLLERS LABORATORY | CO1. Write ALP Programmes for fixed and Floating Point and Arithmetic operations | |
| CO2. Interface different I/Os with processor | ||||
| CO3. Generate waveforms using Microprocessors | ||||
| CO4. Execute Programs in 8051 | ||||
| CO5. Explain the difference between simulator and Emulator | ||||
| PRACTICAL | EC8661 | VLSI DESIGN LABORATORY | CO1. Write HDL code for basic as well as advanced digital integrated circuit | |
| CO2. Import the logic modules into FPGA Boards | ||||
| CO3. Synthesize Place and Route the digital IPs |
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| CO4. Design, Simulate and Extract the layouts of Digital & Analog IC Blocks using EDA tools | ||||
| THEORY | EC8004 | Professional Elective -II - WIRELESS NETWORKS | CO1. Conversant with the latest 3G/4G networks and its architecture | |
| CO2. Design and implement wireless network environment for any application using latest wireless protocols and standards | ||||
| CO3. Ability to select the suitable network depending on the availability and requirement | ||||
| CO4. Implement different type of applications for smart phones and mobile devices with latest network strategies | ||||
| VII | THEORY | EC8701 | ANTENNAS AND MICROWAVE ENGINEERING | CO1. Apply the basic principles and evaluate antenna parameters and link power budgets |
| CO2. Design and assess the performance of various antennas | ||||
| CO3. Design a microwave system given the application specifications | ||||
| THEORY | EC8751 | OPTICAL COMMUNICATION | CO1. Realize basic elements in optical fibers, different modes and configurations. | |
| CO2. Analyze the transmission characteristics associated with dispersion and polarization techniques. | ||||
| CO3. Design optical sources and detectors with their use in optical communication system. | ||||
| CO4. Construct fiber optic receiver systems, measurements and coupling techniques. | ||||
| CO5. Design optical communication systems and its networks. |
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| THEORY | EC8791 | EMBEDDED AND REAL TIME SYSTEMS | CO1. Describe the architecture and programming of ARM processor | |
| CO2: Outline the concepts of embedded systems | ||||
| CO2. Explain the basic concepts of real time operating system design | ||||
| CO3. Model real-time applications using embedded-system concepts | ||||
| THEORY | EC8702 | AD HOC AND WIRELESS SENSOR NETWORKS | CO1. Know the basics of Ad hoc networks and Wireless Sensor Networks | |
| CO2. Apply this knowledge to identify the suitable routing algorithm based on the network and user requirement | ||||
| CO3. Apply the knowledge to identify appropriate physical and MAC layer protocols. Understand the transport layer and security issues possible in Ad hoc and sensor networks. |
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| CO4. Be familiar with the OS used in Wireless Sensor Networks and build basic modules | ||||
| PRACTICAL | EC8711 | EMBEDDED LABORATORY | CO1. Write programs in ARM for a specific Application | |
| CO2. Interface memory, A/D and D/A convertors with ARM system | ||||
| CO3. Interface memory, A/D and D/A convertors with ARM system | ||||
| CO4. Analyze the performance of interrupt | ||||
| CO5. Write program for interfacing keyboard, display, motor and sensor. | ||||
| CO6. Formulate a mini project using embedded system | ||||
| PRACTICAL | EC8761 | ADVANCED COMMUNICATION LABORATORY | CO1. Analyze the performance of simple optical link by measurement of losses and Analyzing the mode characteristics of fiber | |
| CO2. Analyze the Eye Pattern, Pulse broadening of optical fiber and the impact on BER | ||||
| CO3. Estimate the Wireless Channel Characteristics and Analyze the performance of Wireless Communication System | ||||
| CO4. Understand the intricacies in Microwave System design | ||||
| THEORY | EC8092 | Professional Elective -III - ADVANCED WIRELESS COMMUNICATION | CO1. Comprehend and appreciate the significance and role of this course in the present contemporary world | |
| CO2. Apply the knowledge about the importance of MIMO in today's communication | ||||
| CO3. Appreciate the various methods for improving the data rate of wireless communication system |
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| THEORY | OIC751 | Open Elective - II - TRANSDUCER ENGINEERING | CO1. Ability to model and analyze transducers. | |
| VIII | THEORY | EC8093 | Professional Elective -IV - DIGITAL IMAGE PROCESSING | CO1. Know and understand the basics and fundamentals of digital image processing, such as digitization, sampling, quantization, and 2D-transforms. |
| CO2. Operate on images using the techniques of smoothing, sharpening and enhancement.Understand the restoration concepts and filtering techniques. |
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| CO3. Learn the basics of segmentation, features extraction, compression and recognition methods for color models. | ||||
| THEORY | EC8094 | Professional Elective -V - SATELLITE COMMUNICATION | CO1. Analyze the satellite orbits | |
| CO2. Analyze the earth segment and space segment | ||||
| CO3. Analyze the satellite Link design | ||||
| CO4. Design various satellite applications |
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