There will be two internal tests in a semester and the average of these two will be taken into account for the award of marks for internal tests. The end-semester examination of the project work will be conducted by the same committee appointed for the industry-oriented mini-project. The evaluation of the project work takes place at the end of the fourth year.

TECH. ELECTRONICS AND COMMUNICATION ENGINEERING I YEAR

The goal is to find the relationship between the variables x and y from the given data (x,y). Solution of Algebraic and Transcendental Equations and Linear System of Equations: Introduction – Graphical interpretation of the solution of equations. The bisection method – The false position method – The iteration method – Newton-Raphson method. One will be able to find the expansion of a given function by Fourier series and Fourier transform of the function.

## UNIT II

In the future, global problems and issues will require an in-depth understanding of chemistry to have a global solution. This syllabus aims to bridge concepts and theory of chemistry with examples from practical areas of application, thus strengthening the connection between natural sciences and engineering. It deals with the basic principles of various branches of chemistry which are basic tools necessary for a skilled engineer.

## UNIT III

Computer Assisted Language Learning (CALL) Lab

### Interactive Communication Skills (ICS) Lab

A computer-based language laboratory for 40 students with 40 systems, one main console, LAN capability and English language software for students to learn independently.

Spoken English (CIEFL) in 3 volumes with 6 cassettes, OUP

English Pronouncing Dictionary Daniel Jones Current Edition with CD

### Prescribed Lab Manual: A Manual entitled “English Language Communication Skills (ELCS) Lab Manual- cum- Work Book”,

The Internet & World Wide Web module introduces the various ways of connecting the PC to the Internet from home and work and using the Internet effectively. Importance of LaTeX and MS office 2007/equivalent (FOSS) tool Word as a word processor Details of the three tasks and functions that will be covered in each, using LaTeX and Word – Access, overview of toolbars, saving files , Use of help and resources, rulers, format templates. Week 15 - Excel Orientation: The mentor must tell the importance of MS office 2007/equivalent (FOSS) tool Excel as a spreadsheet tool, give the details of the two tasks and functions that will be covered in each.

### TRADES FOR DEMONSTRATION & EXPOSURE

Complex functions – Differentiation and Integration: Complex functions and its representation in the Argand plane, Concepts of limit continuity, differentiability, analyticity, Cauchy-Riemann conditions, Harmonic functions – Milne – Thompson method. After passing this course the student will be able to analyze complex functions with reference to their analyticity, Integration using Cauchy's integral theorem,. Multiple Random Variables: Vector Random Variables, Joint Distribution Function, Properties of Joint Distribution, Marginal Distribution Functions, Conditional Distribution and Density – Point Conditional, Conditional Distribution and Density – Interval Conditional, Statistical Value of independence of independence S, Variables, Central Limit Theorem (Proof not expected), Unequal Distribution, Uniform Distributions.

Operations with several random variables: expected value of a function of random variables: joint moments about the origin, joint central moments, joint characteristic functions, joint Gaussian random variables: two random variables, case of N random variables, properties , Transformations of several random variables, Linear transformations of Gaussian random variables variables. This course provides an in-depth knowledge of switching theory and digital circuit design techniques, which are fundamental to the design of any digital circuit. To learn basic digital circuit design techniques and fundamental concepts used in digital system design.

Design and Analysis of Sequential Circuits: Introduction, State Diagram, Analysis of Synchronous Sequential Circuits, Design Approaches to Synchronous Sequential State Machines, Design Aspects, State Reduction, Design Steps, Realization Using Flip-Flops. Counters - Designing single mode counter, ripple counter, ring counter, shift register, sequence shift register, ring counter using shift register. Kirchhoff's laws, network reduction techniques - series, parallel, series parallel, star-to-delta or delta-star transformations, nodal analysis, mesh analysis, super node and super mesh for DC excitations.

To acquaint the student with the principle of operation, analysis and design of Junction diode, BJT and FET transistors and amplifier circuits.

### N Junction Diode: Qualitative Theory of N Junction, N Junction as a Diode, Diode Equation, Volt-Ampere Characteristics, Temperature

To get an in-depth knowledge about signals, systems and their analysis using various transformations. Calculation of Unit Sample, Unit Step and Sinusoidal responses of the given LTI system and verify its physical realizability and stability properties. This course introduces the basic concepts of transient analysis of the circuits, the basic two-port network parameters and the design analysis of filters and attenuators and their use in circuit theory.

The emphasis of this course is on the basic operation of DC machines and transformers, including DC generators and motors, single phase transformers. To familiarize the student with the analysis and design of basic transistor amplifier circuits and their frequency response characteristics, feedback amplifiers, oscillators, large signal amplifiers and tuned amplifiers. Single-stage amplifiers: classification of amplifiers - distortion in amplifiers, analysis of CE, CC and CB configurations using simplified hybrid model, analysis of CE amplifier with emitter resistor and emitter follower, Miller's theorem and his dual design of single-stage RC coupled amplifier using from BJT.

This course aims to provide students with the understanding of the various technologies associated with HDLs, to construct, compile and run Verilog HDL programs using software tools. After completing this course, the student gets a thorough knowledge about open-loop and closed-loop control systems, concept of feedback in control systems, mathematical modeling and transfer function derivations of Synchros, AC and DC servo motors, Transfer function representation through block diagram algebra and signal flow graphs, time response analysis of different ordered systems through their characteristic equation and time domain specifications, stability analysis of control systems in S domain by R-H criteria and root locus techniques, frequency response analysis by bode diagrams, Nyquist, polar plots and the basics of state space analysis, design of PID controllers, delay, lead, delay -lead compensators, with which he/she can be able to apply the above conceptual things to real electrical and electronic problems and applications. Microprogrammed control: control memory, address sequence, microprogram examples, control unit design, hardwired control, microprogrammed control.

The organization of the control unit, arithmetic and logic unit, the memory unit and the I/O unit. Analyze the electric and magnetic field emission from various basic antennas and mathematical formulation of the analysis. The basic concept of units, measurement error and accuracy, construction and design of measuring devices and circuits, measuring instruments and their correct applications.

## Unit II

To enable the student to understand and appreciate, with a practical overview, the importance of several fundamental issues that govern business operations, namely: demand and supply, the production function, cost analysis, markets, forms of business organizations, capital budgeting and financial and financial accounting. analysis.

## Unit III

Introduction to Financial Accounting & Financial Analysis: Accounting concepts and conventions - Introduction IFRS - Double Entry Bookkeeping, Journal, Ledger, Trial Balance - Final Accounts (Trading Account, Profit and Loss Account and Balance Sheet with simple adjustments). Financial Analysis: Analysis and interpretation of liquidity ratios, activity ratios and capital structure ratios and profitability ratios. Understand the market dynamics namely supply and demand, demand forecasting, elasticity of supply and demand, pricing methods and pricing in different market structures.

Gain insight into how the production function is executed to achieve the least cost combination of inputs and cost analysis. To help students appreciate the essential complementarity between 'VALUES' and 'SKILLS' to ensure sustained happiness and prosperity which are the core aspirations of all human beings. To facilitate the development of a holistic perspective among students to congregational life, profession and app i ess, based on a correct understanding of human reality and the rest of existence.

Course Introduction - Need, Basic Guidelines, Content and Process of Value Education: Understanding the need, basic guidelines, content and process of Value Education. The right understanding, conditions and physical facilities - the basic requirements for the fulfillment of every human being's aspirations with their proper priority. Method to fulfill the above human aspirations: to understand and live in harmony on different levels.

Understand the harmony of Self with the Body: Sanyam and Swasthya; correct assessment of Physical needs, meaning of Prosperity in detail.

## Unit III

### Type Tubes

Internet Overview: Protocol, Layer Scenario, TCP/IP Protocol Suite: OSI Model, Internet History Standards and Administration;. To provide the student with an understanding of the cell concept, frequency reuse, handover strategies. At the end of the course, the student will be able to analyze and design wireless and cellular cellular systems.

Have an appreciation of the fundamentals of digital image processing, including the topics of filtering, transformations and morphology, and image analysis and compression. By the end of the course the student should have a clear impression of the breadth and practical scope of digital image processing and have reached a level of understanding that is the foundation for much of the work currently being done in this area. Presentation of the Advanced Communication Skills Laboratory is considered essential at the 3rd year level.

Out of 25 points, 15 points will be awarded for the daily work and 10 points will be awarded for performing the internal laboratory test(s). In case of unavailability of the External Examiner, the other teacher of the same department can act as External Examiner. Mechanical function, the electrical conduction system of the heart, the cardiac cycle, the relationship between the electrical and mechanical activities of the heart.

Explain the function of Back-prop, Hopfield and SOM type artificial neural networks. Describe the assumptions behind and the derivations of the ANN algorithms covered in the course. To provide an analytical perspective on the design and analysis of the traditional and new wireless networks, and to discuss the nature of and solution methods to the basic problems in wireless networking.