RTU Syllabus Electronics And Communication Engineering 4th Semester

RTU Syllabus Electronics And Communication Engineering 4th SemesterRTU Syllabus Electronics Communication Engineering 4th Semester: To prepare the 4th Sem EC exam correctly, you should have the latest syllabus and marking scheme. The latest Electronics Communication Engineering Syllabus and marking scheme will provide you the idea about the important chapters and concepts to be covered in all subjects.

It will help you to improve your preparation for the 4th-semester exam.

If you are planning to crack the various competitive exams like Gate, IES with depth knowledge in every topic of RTU Syllabus Electronics Communication Engineering 4th Semester 2020.

Here we are providing you the complete guide on RTU Syllabus Electronics Communication Engineering 4th Semester 2020 and Marking Scheme.

RTU Syllabus Electronics Communication Engineering 4th Semester 2020

With the latest Electronics Communication Engineering Syllabus for the 4th Semester, you can know the important sections and their respective weightage. It will also help you to create the right preparation plan and score a better mark in all subjects in the semester exam.

You must have Electronics Communication 4th Semester books & study materials, Previous years questions paper along with the latest Electronics Communication 4th sem Syllabus to enhance your semester exam preparation,

Before starting the complete guide on RTU Syllabus Electronics Communication Engineering 4th Semester 2020, let’s check the highlights of RTU from the table below.

RTU Kota Highlights:

Establishment 2006
Formation Govt. of Rajasthan
Type of University State
Approvals UGC
Admission through: Merit-Based
Affiliations AICTE
University Location Rajasthan Technical University,
Rawathbhata Road Kota-324010, Rajasthan, India.

Check the latest syllabus for RTU Electronics Communication Engineering 4th sem from below.

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Advance Engineering Mathematics-II

SN Contents
1 Introduction: Objective, scope and outcome of the course.
2 Complex Variable – Differentiation: Differentiation, Cauchy-Riemann equations, analytic functions, harmonic functions, finding harmonic conjugate; elementary analytic functions (exponential, trigonometric, logarithm) and their properties; Conformal mappings, Mobius transformations and their properties.
3 Complex Variable – Integration: Contour integrals, Cauchy-Goursat theorem (without proof), Cauchy Integral formula (without proof), Liouville’s theorem and Maximum- Modulus theorem (without proof); Taylor’s series, zeros of analytic functions, singularities, Laurent’s series; Residues, Cauchy Residue theorem (without proof).
4 Applications of complex integration by residues: Evaluation of definite integral involving sine and cosine. Evaluation of certain improper integrals.
5 Special Functions: Legendre’s function, Rodrigues formula, generating function, Simple recurrence relations, orthogonal property.

Bessel’s functions of first and second kind, generating function, simple recurrence relations, orthogonal property.

6 Linear Algebra: Vector Spaces, subspaces, Linear independence, basis and dimension, Inner product spaces, Orthogonality, Gram Schmidt orthogonalization, characteristic polynomial, minimal polynomial, positive definite matrices and canonical forms, QR decomposition.

Managerial Economics And Financial Accounting

SN Contents
1 Introduction: Objective, scope and outcome of the course.
2 Basic economic concepts:

Meaning, nature and scope of economics, deductive vs inductive methods, static and dynamics, Economic problems: scarcity and choice, circular flow of economic activity, national income-concepts and measurement.

3 Demand and Supply analysis:

Demand-types of demand, determinants of demand, demand function, elasticity of demand, demand forecasting –purpose, determinants and methods, Supply- determinants of supply, supply function, elasticity of supply.

4 Production and Cost analysis:

Theory of production- production function, law of variable proportions, laws of returns to scale, production optimization, least cost combination of inputs, isoquants. Cost concepts-explicit and implicit cost, fixed and variable cost, opportunity cost, sunk costs, cost function, cost curves, cost and output decisions, cost estimation.

5 Market structure and pricing theory:

Perfect competition, Monopoly, Monopolistic competition, Oligopoly.

6 Financial statement analysis:

Balance sheet and related concepts, profit and loss statement and related concepts, financial ratio analysis, cash-flow analysis, funds-flow analysis, comparative financial statement, analysis and interpretation of financial statements, capital budgeting techniques.

Technical Communication

SN Contents
1 Introduction: Objective, scope and outcome of the course.
2 Introduction to Technical Communication- Definition of technical communication, Aspects of technical communication, forms of technical communication, importance of technical communication, technical communication skills (Listening, speaking, writing, reading writing), linguistic ability, style in technical communication.
3 Comprehension of Technical Materials/Texts and Information Design & development- Reading of technical texts, Readingand comprehending instructions and technical manuals, Interpreting and summarizing technical texts, Note- making. Introduction of different kinds of technical documents, Information collection, factors affecting information and document design, Strategies for the organization, Information design and writing for print and online media.
4 Technical Writing, Grammar and Editing– Technical writing process, forms of technical discourse, Writing, drafts and revising, Basics of grammar, common error in writing and speaking, Study of advanced grammar, Editing strategies to achieve appropriate technical style, Introduction to advanced technical communication. Planning, drafting and writing Official Notes, Letters, E-mail, Resume, Job Application, Minutes of Meetings.
5 Advanced Technical Writing– Technical Reports, types of technical reports, Characteristics and formats and structure of technical reports. Technical Project Proposals, types of technical proposals, Characteristics and formats and structure of technical proposals. Technical Articles, types of technical articles, Writing strategies, structure and formats of technical articles.

Analog Circuits

SN Contents
1 Introduction: Objective, scope and outcome of the course.
2 Diode Circuits, Amplifier models: Voltage amplifier, current amplifier, trans- conductance amplifier and trans-resistance amplifier. Biasing schemes for BJT and FET amplifiers, bias stability, various configurations (such as CE/CS, CB/CG, CC/CD) and their features, small signal analysis, low frequency transistor models, estimation of voltage gain, input resistance, output resistance etc., design procedure for particular specifications, low frequency analysis of multistage amplifiers.
3 High frequency transistor models, frequency response of single stage and multistage amplifiers, cascode amplifier. Various classes of operation (Class A, B, AB, C etc.), their power efficiency and linearity issues. Feedback topologies: Voltage series, current series, voltage shunt, current shunt, effect of feedback on gain, bandwidth etc., calculation with practical circuits, concept of stability, gain margin and phase margin.
4 Oscillators: Review of the basic concept, Barkhausen criterion, RC oscillators (phase shift, Wien bridge etc.), LC oscillators (Hartley, Colpitt, Clapp etc.), non-sinusoidal oscillators. Current mirror: Basic topology and its variants, V-I characteristics, output resistance and minimum sustainable voltage (VON), maximum usable load. Differential amplifier: Basic structure and principle of operation, calculation of differential gain, common mode gain, CMRR and ICMR. OP-AMP design: design of differential amplifier for a given specification, design of gain stages and output stages, compensation.
5 OP-AMP applications: review of inverting and non-inverting amplifiers, integrator and differentiator, summing amplifier, precision rectifier, Schmitt trigger and its applications. Active filters: Low pass, high pass, band pass and band stop, design guidelines.
6 Digital-to-analog converters (DAC): Weighted resistor, R-2R ladder, resistor string etc. Analog to digital converters (ADC): Single slope, dual slope, successive approximation, flash etc. Switched capacitor circuits: Basic concept, practical configurations, application in amplifier, integrator, ADC etc.

Microcontrollers

SN Contents
1 Introduction: Objective, scope and outcome of the course.
2 Overview of microcomputer systems and their building blocks, memory interfacing, concepts of interrupts and Direct Memory Access, instruction sets of microprocessors (with examples of 8085 and 8086);
3 Interfacing with peripherals – timer, serial I/O, parallel I/O, A/D and D/A converters; Arithmetic Coprocessors; System level interfacing design;
4 Concepts of virtual memory, Cache memory, Advanced coprocessor Architectures- 286, 486, Pentium; Microcontrollers: 8051 systems,
5 Introduction to RISC processors; ARM microcontrollers interface designs.

Electronics Measurement & Instrumentation

SN Contents
1 Introduction: Objective, scope and outcome of the course.
2 THEORY OF ERRORS – Accuracy & precision, Repeatability, Limits of errors, Systematic & random errors, Modeling of errors, Probable error & standard deviation, Gaussian error analysis, Combination of errors.
3 ELECTRONIC INSTRUMENTS – Electronic Voltmeter, Electronic Multimeters, Digital Voltmeter, and Component Measuring Instruments: Q meter, Vector Impedance meter, RF Power & Voltage Measurements, Introduction to shielding & grounding.
4 OSCILLOSCOPES – CRT Construction, Basic CRO circuits, CRO Probes, Techniques of Measurement of frequency, Phase Angle and Time Delay, Multibeam, multi trace, storage & sampling Oscilloscopes.
5 SIGNAL GENERATION AND SIGNAL ANALYSIS – Sine wave generators, Frequency synthesized signal generators, Sweep frequency generators. Signal Analysis – Measurement Technique, Wave Analyzers, and Frequency – selective wave analyser, Heterodyne wave analyser, Harmonic distortion analyser, and Spectrum analyser.
6 TRANSDUCERS – Classification, Selection Criteria, Characteristics, Construction, Working Principles and Application of following Transducers:- RTD, Thermocouples, Thermistors, LVDT, Strain Gauges, Bourdon Tubes, Seismic Accelerometers, Tachogenerators, Load Cell, Piezoelectric Transducers, Ultrasonic Flow Meters.

Analog and Digital Communication

SN Contents
1 Introduction: Objective, scope and outcome of the course.
2 Review of signals and systems, Frequency domain representation of signals, Principles of Amplitude Modulation Systems- DSB, SSB and VSB modulations. Angle Modulation, Representation of FM and PM signals, Spectral characteristics of angle modulated signals.
3 Review of probability and random process. Gaussian and white noise characteristics, Noise in amplitude modulation systems, Noise in Frequency modulation systems. Pre- emphasis and Deemphasis, Threshold effect in angle modulation.
4 Pulse modulation. Sampling process. Pulse Amplitude and Pulse code modulation (PCM), Differential pulse code modulation. Delta modulation, Noise considerations in PCM, Time Division multiplexing, Digital Multiplexers.
5 Elements of Detection Theory, Optimum detection of signals in noise, Coherent communication with waveforms- Probability of Error evaluations. Baseband Pulse Transmission- Inter symbol Interference and Nyquist criterion. Pass band Digital Modulation schemes- Phase Shift Keying, Frequency Shift Keying, Quadrature Amplitude Modulation, Continuous Phase Modulation and Minimum Shift Keying.
6 Digital Modulation tradeoffs. Optimum demodulation of digital signals over band- limited channels- Maximum likelihood sequence detection (Viterbi receiver). Equalization Techniques. Synchronization and Carrier Recovery for Digital modulation.

Analog and Digital Communication Lab

List of Experiments
Sr.

No.

Name of Experiment
1. Observe the Amplitude modulated wave form & measure modulation index and demodulation of AM signal.
2. Harmonic analysis of Amplitude Modulated wave form.
3. Generation & Demodulation of DSB – SC signal.
4. Modulate a sinusoidal signal with high frequency carrier to obtain FM signal and demodulation of the FM signal.
5. Verification of Sampling Theorem.
6. To study & observe the operation of a super heterodyne receiver.
7. PAM, PWM & PPM: Modulation and demodulation.
8. To observe the transmission of four signals over a single channel using TDM-PAM method.
9. To study the PCM modulation & demodulation and study the effect of channel like attenuation,

noise in between modulator & demodulator through the experimental setup.

10. To study the 4 channel PCM multiplexing & de-multiplexing in telephony system.
11. To study the Delta & Adaptive delta modulation & demodulation and also study the effect of channel like attenuation, noise in between modulator & demodulator through the experimental setup.
12. To perform the experiment of generation and study the various data formatting schemes (Unipolar, Bipolar, Manchester, AMI etc.)
13. To perform the experiment of generation and detection of ASK, FSK, BPSK, DBPSK signals with variable length data pattern.

Analog Circuits Lab

List of Experiments
Sr.

No.

Name of Experiment
1. Study and implementation of Voltage Series and Current Series Negative Feedback Amplifier.
2. Study and implementation of Voltage Shunt and Current Shunt Negative Feedback Amplifier.
3. Plot frequency response of BJT amplifier with and without feedback in the emitter circuit and calculate bandwidth, gain bandwidth product with and without negative feedback.
4. Study and implementation of series and shunt voltage regulators and calculate line regulation and ripple factor.
5. Plot and study the characteristics of small signal amplifier using FET.
6. Study and implementation of push pull amplifier. Measure variation of output power & distortion with load and calculate the efficiency.
7. Study and implementation of Wein bridge oscillator and observe the effect of variation in oscillator frequency.
8. Study and implementation of transistor phase shift oscillator and observe the effect of variation in R & C on oscillator frequency and compare with theoretical value.
9. Study and implementation of the following oscillators and observe the effect of variation of capacitance on oscillator frequency: (a) Hartley (b) Colpitts.
10. Study and implementation of the Inverting And Non-Inverting Operational Amplifier.
11. Study and implementation of Summing, Scaling And Averaging of Operational Amplifier
12. Implementation of active filters using OPAMP.

Microcontrollers Lab

List of Experiments
Sr.

No.

Name of Experiment
Following exercises has to be Performed on 8085
1. Write a program for

1.1 Multiplication of two 8 bit numbers

1.2 Division of two 8 bit numbers

2. Write a program to arrange a set of data in Ascending and Descending order.
3. Write a program to find Factorial of a given number.
4. Write a program to generate a Software Delay.

4.1 Using a Register

4.2 Using a Register Pair

8085 Interfacing Programs
5. 5.1 Write a program to Interface ADC with 8085.

5.2 Write a program to interface the Temperature measurement module with 8085.

6. Write a program to interface Keyboard with 8085.
7. Write a program to interface DC Motor and stepper motor with 8085.
Following exercises has to be Performed on 8051
8. Write a program to convert a given Hex number to Decimal.
9. Write a program to find numbers of even numbers and odd numbersamong 10 Numbers.
10. Write a program to find Largest and Smallest Numbers among 10 Numbers.
11. 11.1 To study how to generate delay with timer and loop.

11.2 Write a program to generate a signal on output pin using timer.

8051 Interfacing Programs
12 12.1 Write a program to interface Seven Segment Display with 8051.

12.2 Write a program to interface LCD with 8051.

13 Write a program for Traffic light Control using 8051.
14 Write a program for Elevator Control using 8051.

Electronics Measurement & Instrumentation Lab

List of Experiments
Sr.

No.

Name of Experiment
1. Measure earth resistance using fall of potential method.
2. Plot V-I characteristics & measure open circuit voltage & short circuit current of a solar panel.
3. Measure unknown inductance capacitance resistance using following bridges (a)Anderson Bridge (b) Maxwell Bridge
4. To measure unknown frequency & capacitance using Wein’s bridge.
5. Measurement of the distance with the help of ultrasonic transmitter & receiver.
6. Measurement of displacement with the help of LVDT.
7. Draw the characteristics of the following temperature transducers (a) RTD (Pt-100) (b) Thermistors.
8. Draw the characteristics between temperature & voltage of a K type thermocouple
9. Calibrate an ammeter using D.C. slide wire potentiometer
10. Measurement of strain/force with the help of strain gauge load cell.
11. Study the working of Q-meter and measure Q of coils.
12. Calibrate a single-phase energy meter (Analog and Digital) by phantom loading at different power factor by: (i) Phase shifting transformer (ii) Auto transformer.

All Semester Syllabus for RTU Electronics Communication Engineering

You should have the following syllabus to boost your exam preparation for the RTU Electronics Communication Engineering.

Click on the link to access all semester syllabus related to Electronics Communication Engineering.

RTU Electronics Communication Engineering 4th Semester Marking Scheme

Here you can check the latest Electronics Communication Engineering 4th Semester Marking Scheme.

4th Semester Electronics & Communication Engineering Theory Marking Scheme

SN Categ ory Course Contact hrs/week Marks Cr
Code Title
L T P Exm Hrs IA ETE Total
1 BSC 4EC2-01 Advanced Engineering

Mathematics-II

3 0 0 3 30 120 150 3
2 HSMC 4EC1-03/

4EC1-02

Managerial Economics and Financial Accounting/ Technical

Communication

2 0 0 2 20 80 100 2
3 PCC 4EC4-04 Analog Circuits 3 0 0 3 30 120 150 3
4 4EC4-05 Microcontrollers 3 0 0 3 30 120 150 3
5 ESC 4EC3-06 Electronics Measurement &

Instrumentation

3 0 0 3 30 120 150 3
6 PCC 4EC4-07 Analog and Digital

Communication

3 0 0 3 30 120 150 3
Sub Total 17 0 0 170 680 850 17

4th Semester Electronics & Communication Engineering Practical & Sessional Marking Scheme

8 PCC 4EC4-21 Analog and Digital

Communication Lab

0 0 3 45 30 75 1.5
9 4EC4-22 Analog Circuits Lab 0 0 3 45 30 75 1.5
10 4EC4-23 Microcontrollers Lab 0 0 3 45 30 75 1.5
11 4EC4-24 Electronics

Measurement & Instrumentation Lab

0 0 3 45 30 75 1.5
12 SODE CA 4EC18-00 Social Outreach, Discipline & Extra Curricular Activities 25 0.5
Sub- Total 0 0 12 180 120 325 6.5
TOTAL OF IV SEMEESTER 17 0 12 350 800 1175 23.5

Meaning Of various letters:

  • L: Lecture, T: Tutorial, P: Practical, Cr: Credits ETE: End Term Exam, IA: Internal Assessment

We have covered the complete guide on RTU Syllabus Electronics And Communication Engineering 4th Semester 2020. Feel free to ask us any questions in the comment section below.

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