btech in electronics and telecommunication engineering
TRANSCRIPT
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
1
B.Tech.
in
Electronics and Telecommunication Engineering
Scheme with Description
Academic Year 2020-21
Department of Electronics and Telecommunication Engineering
Ramrao Adik Institute of Technology
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
2
Syllabus
for
Second Year Engineering
Semester III & IV
Department of Electronics and Telecommunication Engineering
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
3
Semester-III
Course Code Course Name Teaching Scheme
(Contact Hours) Credits Assigned
Theory Practical Tutorial Theory Practical Tutorial Total
ETC301 Engineering Mathematics –III (EM-III) 03 - 01 03 - 01 04
ETC302 Electronic Devices and Circuits 03 - - 03 - - 03
ETC303 Principles of Linear Systems & Signals 03 - - 03 - - 03
ETC304 Electrical Networks 03 - - 03 - - 03
ETC305 Analog Communication Engineering 03 - - 03 - - 03
ETL302 Electronic Devices and Circuits Lab - 02 - - 01 - 01
ETL303 Principles of Linear Systems & Signals
Lab - 02 - - 01 - 01
ETL304 Electrical Networks Lab - 02 - - 01 - 01
ETL305 Analog Communication Engineering
Lab - 02 - - 01 - 01
ETSL301 Skill Based Lab I- OOPM (C++) - 04 - - 02 - 02
ETMP301 Mini Project I - 02 - - 01 - 01
AUC301 Constitution of India 01 - - - - - -
*HBSO301 Sustainable Business Strategy
Program(online) - - - 01* - - 01*
Total 16 14 01 15 08 01 23
* Harvard Business School Online Course
Examination Scheme (III Sem)
Course
Code Course name T1 T2 AVG MSE ESE
Exam
Hrs TW PR OR
Total
Marks
ETC301 Engineering Mathematics –III 20 20 20 20 60 2 -- -- -- 100
ETC302 Electronic Devices and Circuits 20 20 20 20 60 2 -- -- -- 100
ETC303 Principles of Linear Systems & Signals 20 20 20 20 60 2 -- -- -- 100
ETC304 Electrical Networks 20 20 20 20 60 2 -- -- -- 100
ETC305 Analog Communication Engineering 20 20 20 20 60 2 -- -- -- 100
ETL302 Electronic Devices and Circuits Lab -- -- -- -- -- -- 25 25 -- 50
ETL303 Principles of Linear Systems & Signals
Lab -- -- -- -- -- -- 25 -- 25 50
ETL304 Electrical Networks Lab -- -- -- -- -- -- 25 -- 25 50
ETL305 Analog Communication Engineering Lab -- -- -- -- -- -- 25 25 -- 50
ETSL301 Skill Based Lab I -- -- -- -- -- -- 25 25 -- 50
ETMP301 Mini Project I -- -- -- -- -- -- 25 -- 25 50
Total 800
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
4
Semester-IV
Course Code Course Name Teaching Scheme
(Contact Hours) Credits Assigned
Theory Practical Tutorial Theory Practical Tutorial Total
ETC401 Engineering Mathematics-IV 03 - 01 03 - 01 04
ETC402 Digital Electronics & Microcontrollers 03 - - 03 - - 03
ETC403 Linear Integrated Circuits and
Applications 03 - - 03 - - 03
ETC404 Discrete Time Signal Processing 03 - - 03 - - 03
ETC405 Digital Communication 03 - - 03 - - 03
ETL402 Digital Electronics & Microcontrollers
Lab - 02 - - 01 - 01
ETL403 Linear Integrated Circuits Lab - 02 - - 01 - 01
ETL404 Discrete Time Signal Processing Lab - 02 - - 01 - 01
ETL405 Digital Communication Lab - 02 - - 01 - 01
ETSL401 Skill Based Lab II– Python - 04 - - 02 - 02
ETMP401 Mini Project II - 04 - - 02 - 02
AUC401 Sports and Yoga 01 - - - - - -
*HBSO401 Entrepreneurship Essential program
(online) - - - 01* - - 01*
Total 16 16 01 15 08 01 24
* Harvard Business School Online Course
Examination Scheme (IV Sem)
Course
Code Course name T1 T2 AVG MSE ESE
Exam
Hrs TW PR OR
Total
Marks
ETC401 Engineering Mathematics-IV 20 20 20 20 60 2 -- -- -- 100
ETC402 Digital Electronics & Microcontrollers 20 20 20 20 60 2 -- -- -- 100
ETC403 Linear Integrated Circuits and
Applications 20 20 20 20 60 2 -- -- -- 100
ETC404 Discrete Time Signal Processing 20 20 20 20 60 2 -- -- -- 100
ETC405 Digital Communication 20 20 20 20 60 2 -- -- -- 100
ETL402 Digital Electronics & Microcontrollers
Lab -- -- -- -- -- -- 25 -- 25 50
ETL403 Linear Integrated Circuits Lab -- -- -- -- -- -- 25 -- 25 50
ETL404 Discrete Time Signal Processing Lab -- -- -- -- -- -- 25 25 -- 50
ETL405 Digital Communication Lab -- -- -- -- -- -- 25 25 -- 50
ETSL401 Skill Based Lab II- Python -- -- -- -- -- -- 25 25 -- 50
ETMP401 Mini Project II -- -- -- -- -- -- 25 -- 25 50
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
5
Total 800
Course Pre-requisite:
● Integration ● Differential Equation
Course Objectives:
1. To build the strong foundation in Mathematics of students needed for the field of Electronics and Telecommunication Engineering.
2. To provide students with mathematics fundamentals necessary to formulate, solve and analyses complex engineering problems.
3. To prepare student to apply reasoning informed by the contextual knowledge to engineering practice.
4. To prepare students to work as part of teams on multi-disciplinary projects.
Course Outcomes: After successful completion of the course student will be able to …
1. Student will demonstrate an understanding of foundation of Fourier series.
2. Students will learn Fourier Transform and demonstrate an ability to identify, formulate, and solve Electronics
Engineering problems.
3. Students will learn Z-Transform and demonstrate an ability to identify, formulate, and solve Electronics
Engineering problems
4. Students will gain basic knowledge of Laplace Transform and demonstrate an ability to identify, formulate, and solve Electronics
Engineering problems.
5. Students will learn Inverse Laplace Transform and demonstrate an ability to identify, formulate, and solve Engineering problems
6. Student will become familiar with Complex differentiation and demonstrate an ability to identify and formulate.
Module Detailed Content Hours
1. Fourier Series: Definition, Dirichlet’s conditions, Euler‘s formulae, Fourier series in (c,c+2L), Fourier series of
even and odd function, Half range series, Orthogonal and orthonormal functions, complex form of Fourier series. 06
Course
Code Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETC301 Engineering
Mathematics III 3 -- 1 3 1 -- 4
Course
Code Course Name
Examination Scheme
Theory
TW Pr/
Oral. Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
ETC301 Engineering
Mathematics III 20 20 20 20 60 2 -- -- 100
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
6
2. Fourier Transform: Fourier Transform and Inverse Fourier transform of constant and Exponential function,
Fourier sine and cosine transform of some standard function. 06
3. Laplace Transform: Definition of Laplace transform, Condition of Existence of Laplace transform, Laplace
transform of standard functions (No Proof of formulas), Linearity, first shifting theorem, second shifting theorem
multiplication by t, Division by t, Laplace Transform of derivatives and integrals, change of scale, Laplace of
Heaviside unit step function, Dirac-delta function, Laplace transform of Periodic function, convolution theorem,
Evaluation of integrals using Laplace transform. (No proof of any property)
08
4. Inverse Laplace Transform: Properties of inverse Laplace Transform, Partial fraction method, Method of
convolution, Solution of linear differential equations, Solving RLC circuit differential equation using Laplace
transform.
06
5. Z-Transform: Introduction, the Z-transform, properties of the Region of convergence, Properties of the Z-
Transform, Inversion of the Z-Transform, application of Z-transform 06
6. Complex Differentiation: Analytic function, Necessary and sufficient conditions for analytic function, Cauchy
Riemann equation in Cartesian and polar form (without Proof), Milne Thomson Method, Harmonic function,
orthogonal trajectories, Conformal mapping, bilinear transformations, cross ratio, fixed points. 07
Internal Assessment Tests:
1. Term Test-1: The first term test (TT1) is to be conducted when approx. 30% syllabus is completed. It will be of 1hour duration.
The total test marks are 20.
2. Mid Term Test: Mid semester examination is to be conducted when 50% syllabus is completed and of 1hour duration.
The total test marks are 20.
3. Term Test-2: The second term test (TT2) is to be conducted when approximately 85% syllabus is completed and of 1hour duration.
The total test marks are 20.
End Semester Theory Examination (Total marks = 60) (Total duration = 2hours):
1. Question paper will comprise of total 06 questions, each carrying 20marks.
2. Total 03 questions need to be solved.
3. Question No: 01 will be compulsory and shall be based on the entire syllabus wherein sub-questions of 2 to 5 marks will be asked.
4. Remaining questions will be mixed in nature. (e.g. Suppose Q.2 has part (a) from module 3 then part (b) will be from any module
other than module 3)
5. In question paper weightage of each module will be proportional to the number of respective lecture hours as mentioned in the
syllabus.
Text books:
1. H.K. Das, “Advanced engineering mathematics”, S. Chand, 2008
2. A. Datta, “Mathematical Methods in Science and Engineering”, 2012
3. B.S. Grewal, “Higher Engineering Mathematics”, Khanna Publication
Reference Books:
1. B. S. Tyagi, “Functions of a Complex Variable,” Kedarnath Ram Nath Publication
2. B. V. Ramana, “Higher Engineering Mathematics”, Tata Mc-Graw Hill Publication
3. Wylie and Barret, “Advanced Engineering Mathematics”, Tata Mc-Graw Hill 6th Edition
4. Erwin Kreysizg, “Advanced Engineering Mathematics”, John Wiley & Sons, Inc
5. Murry R. Spieget, “Vector Analysis”, Schaum‘s outline series, Mc-Graw Hill Publication
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
8
Course Pre-requisite:
● Basic Electrical Engineering.
● Engineering Physics.
Course Objectives:
1. To understand physical operation of semiconductor devices.
2. To inculcate knowledge on the basic operation and performance of BJT and FET amplifiers.
3. To understand the concept of frequency response of small signal amplifiers.
4. To understand difference between small and large signal amplifiers.
Course Outcomes: Learners will be able to…
1. Understand the current and voltage characteristics of Semiconductor Devices.
2. Able to analyze DC circuits of semiconductor devices with their physical operation.
3. Able to analyse AC circuits of BJT and FET amplifiers.
4. Understand and analyze the frequency response of BJT and FET amplifiers
5. To understand the operation and different types of power amplifier circuits.
6. To know the concept of feedback amplifier and Oscillators.
Module Detailed Content Hrs.
01 Semiconductor Devices and their applications: P-N Junction diode: Formation, working and characteristics; diode
current equation, Effect of temperature on diode characteristics. Diode circuits such as clippers, and clampers, Zener
diode; Applications of Zener diode such as regulated power supply. 06
02 DC Analysis of BJT & FET: Classification of transistor, construction, operation, characteristics, regions of
operation, configuration of BJT, DC load line concept, DC analysis of BJT-fixed bias, Modified fixed bias, collector
to base bias, voltage divider, stability factor.
FET: construction, operation, characteristics of JFET & MOSFETs, DC analysis of FET- Fixed bias, self-bias,
Voltage divider, Zero temperature drift.
07
Course
Code Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETC302
Electronic
Devices &
Circuits
3 -- -- 3 -- -- 3
Course
Code Course Name
Examination Scheme
Theory
TW Pr/
Oral. Total
Internal Assessment End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid Sem
Exam
ETC302
Electronic
Devices &
Circuits
20 20 20 20 60 2 -- -- 100
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
9
03 Small Signal analysis of BJT and FET amplifier: Hybrid pi model of BJT, Small signal analysis (Zi, Zo, Av and
Ai) of CE, CB, and CC configurations, small signal (mid-frequency) analysis of CS, CD and CG amplifiers. 07
04
Frequency response of Amplifiers: High and low frequency analysis of BJT and FET amplifiers, Effects of
capacitors on frequency response of single stage amplifier using BJT and FET, Miller effect and Miller capacitance,
gain bandwidth product. 07
05 Power Amplifiers: Classification and working of Power amplifier, Harmonic distortion and power efficiency,
Thermal considerations and heat sinks. 06
06 Feedback Amplifiers & Oscillators: Advantages of negative feedback – voltage / current, series, Shunt feedback –
positive feedback , Introduction to Oscillators, Condition for oscillations, 06
Internal Assessment Tests:
1. Term Test-1: The first term test (TT1) is to be conducted when approx. 30% syllabus is completed. It will be of 1hour duration.
The total test marks are 20.
2. Mid Term Test: Mid semester examination is to be conducted when 50% syllabus is completed and of 1hour duration. A total test
mark is 20.
3. Term Test-2: The second term test (TT2) is to be conducted when approximately 85% syllabus is completed and of 1hour duration.
The total test marks are 20.
End Semester Theory Examination (Total marks = 60) (Total duration = 2hours):
1. Question paper will comprise of total 06 questions, each carrying 20marks.
2. Total 03 questions need to be solved.
3. Question No: 01 will be compulsory and shall be based on the entire syllabus wherein sub-questions of 2 to 5 marks will be asked.
4. Remaining questions will be mixed in nature. (e.g. Suppose Q.2 has part (a) from module 3 then part (b) will be from any module
other than module 3)
5. In question paper weightage of each module will be proportional to the number of respective lecture hours as mentioned in the
syllabus.
Text books:
1. D. A. Neamen, “Electronic Circuit Analysis and Design,” Tata McGraw Hill, 2nd Edition.
2. A. S. Sedra, K. C. Smith, and A. N. Chandorkar, “Microelectronic Circuits Theory and Applications,” International Version,
OXFORD International Students, 6thEdition
References:
1. Boylestad and Nashelesky, “Electronic Devices and Circuits Theory,” Pearson Education, 11th Edition.
2. A. K. Maini, “Electronic Devices and Circuits,” Wiley.
3. T. L. Floyd, “Electronic Devices”, Prentice Hall, 9th Edition, 2012.
4. A. Rockett, “Material Science of Semiconductors,”, Springer, 1st Edition, 2009
5. 5. A. Mottershead, “Electronic Devices and Circuits; An Introduction.”
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
11
Course
Code Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETL302
Electronic
Devices & Circuits
Lab
-- 2 -- -- -- 1 1
Course
Code Course Name
Examination Scheme
Theory
TW PR Total Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid Sem
Exam
ETL302
Electronic
Devices & Circuits
Lab
-- -- -- -- -- -- 25 25 50
List of Suggested Experiments:
1. To study of pn junction diode characteristics.
2. To study Zener as a voltage regulator.
3. To study characteristics of CE configuration.
4. To study BJT biasing circuits.
5. To study BJT as CE amplifier.
6. To study frequency response of CE amplifier.
7. To study FET as CS amplifier
8. To study RC phase shift Oscillator.
9. To study Colpits Oscillator
10. To study DC analysis of Class A power amplifier.
11. To study current series negative feedback amplifier.
12. Simulation experiment on study of CS amplifier.
13. Simulation experiment on study frequency response of MOSFET CS amplifier.
14. To study Biasing of MOSFET.
● Any 8 experiments based on the entire syllabus.
Assessment:
End Semester Examination: Practical/Oral examination is to be conducted by a pair of an internal and an external examiner.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
12
Course
Code Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral Total
ETC303 Principles of Linear Systems
and Signals 3 -- -- 3 -- -- 3
Course
Code Course Name
Examination Scheme
Theory
TW Pr/
Oral Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
ETC303 Principles of Linear Systems
and Signals 20 20 20 20 60 2 -- -- 100
Course Pre-requisite:
● Differential Equation ● Mathematics I and II
Course Objectives:
1. To introduce the elements of control system and its modelling
2. To introduce methods for analyzing the time response, the frequency response and the stability of systems.
3. To design control systems with compensating techniques.
4. To introduce the state variable analysis method.
5. To introduce basic concepts of digital control systems
Course Outcomes: After successful completion of the course student will be able to …
1. Student will demonstrate an understanding of foundation of Fourier series.
2. Represent mathematically a systems and deriving their transfer function model.
3. Analyze the time response and frequency response of the systems for any input
4. Find the stability of system
5. Design a control system with suitable compensation techniques
6. Analyze a digital control system.
Module Detailed Content Hours
1. Basics of Signals and Systems: Elementary signals, Classification of Signals, Classification of Systems: Linear and
Non-Linear, Time-variant and Time Invariant, Causal and Non-causal, Stable and Unstable. 06
2. Mathematical Models of Systems: Electrical systems, mechanical systems, Differential Equations for physical
systems, Unit impulse response, Zero-input response and zero-state response, Convolution: Graphical method,
Interconnected systems, Intuitive insides into system behavior, Determining the impulse response.
06
3. Analysis of Control Systems: Review of Laplace transform and its properties, Impulse response of systems, Classical
solution to Differential Equations, System realization: direct form-I, direct form-II, cascade, parallel realization, and
Block diagram algebra, Signal flow graph.
08
4. Stability of Systems: Concept of stability, necessary conditions of stability, Hurwitz Stability criteria, Relative
stability Analysis, Bode plots, and filter design by placement of poles and zeros. 08
5. State space analysis: Determining state space equations, solution of state equations, controllability and observability. 06
6. Feedback Controls: Basic idea of feedback control systems. Error analysis. Proportional (P), Integral (I), Derivative
(D), control, PI, PD, PID controllers. 05
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
13
Internal Assessment Tests:
1. Term Test-1: The first term test (TT1) is to be conducted when approx. 30% syllabus is completed. It will be of 1hour duration.
The total test marks are 20.
2. Mid Term Test: Mid semester examination is to be conducted when 50% syllabus is completed and of 1hour duration. A total test
mark is 20.
3. Term Test-2: The second term test (TT2) is to be conducted when approximately 85% syllabus is completed and of 1hour duration.
The total test marks are 20.
End Semester Theory Examination (Total marks = 60) (Total duration = 2hours):
1. Question paper will comprise of total 06 questions, each carrying 20marks.
2. Total 03 questions need to be solved.
3. Question No: 01 will be compulsory and shall be based on the entire syllabus wherein sub-questions of 2 to 5 marks will be asked.
4. Remaining questions will be mixed in nature. (e.g. Suppose Q.2 has part (a) from module 3 then part (b) will be from any module
other than module 3)
5. In question paper weightage of each module will be proportional to the number of respective lecture hours as mentioned in the
syllabus.
Text books:
1. Ogata K., Modern Control Engineering, Prentice-Hall of India Pvt Ltd., New Delhi, 3rd edition, 2000.
2. Kuo B.C., Automatic Control Systems, Prentice-Hall of India Pvt Ltd., New Delhi, 6th edition, 1991.
3. I J Nagrath,M. Gopal, Control systems Engineering, New age international Publisher, 6th edition, 2017
4. Bonnis S Heck, Fundamentals of Signals and Systems, Pearson publications, 2015.
References:
1. Gopal, Digital Control and State Variable Method, 4/e, McGraw Hill Education India 2012.
2. Norman S. Nise, Control System Engineering, 5/e, Wiley India
3. Ogata K., Modern Control Engineering, Prentice Hall of India, 4/e, Pearson Education, 2002.
4. Richard C Dorf and Robert H. Bishop, Modern Control Systems, 9/e, Pearson Education, 2001.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
14
Course
Code Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETL303 Principles of Linear Systems &
Signals -- 2 -- -- -- 1 1
Course
Code Course Name
Examination Scheme
Theory
TW OR Total Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid Sem
Exam
ETL303 Principles of Linear Systems &
Signals -- -- -- -- -- -- 25 25 50
List of Suggested Experiments:
1. Generation of signals, perform different operation on signals and plot them.
2. Generation of Gibbs phenomenon and observe the behavior of the signal.
3. Simulation of continuous time LTI system using convolution or Simulation of discrete time LTI systems using convolution.
4. Implementation of energy spectral and power spectral density.
5. Perform correlation, auto-correlation operations on different signals.
6. Obtaining impulse response of the systems.
7. Computing FT and DTFT of the CT signals and DT sequences.
8. Observing the effects of lower sampling rate and higher sampling rate on CT signal.
9. Modeling/Simulating Realization Structure of Direct form-I and II.
10. Modeling/Simulating State Space Realization.
● Any 8 experiments based on the entire syllabus.
Assessment:
End Semester Examination: Practical/Oral examination is to be conducted by a pair of an internal and an external examiner.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
15
Course Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETC304 Electrical Networks 3 -- -- 3 -- -- 3
Course Code Course Name
Examination Scheme
Theory
TW
Pr/
Oral.
Total
Internal Assessment
End Sem Exam Exam. Duration
(in Hrs) Test1 Test2 Avg. Mid Sem
Exam
ETC304 Electrical Networks 20 20 20 20 60 2 -- -- 100
Course Pre-requisite:
● Basic Electrical Engineering
● Partial fraction expansion, matrices, calculus
● Laplace Transforms.
Course Objectives:
1. To make the students understand DC and AC electrical networks and analyze the Networks in time and frequency domain.
2. To understand synthesis of electrical networks and study various filters.
Course Outcome:
1. Students will be able to apply their understanding of network theorems in analyzing complex circuits.
2. Students will be able to evaluate response of steady state AC circuits and coupled circuits.
3. Students will be able to evaluate the time and frequency response of electrical circuits and thereby understand the behaviour of
electrical networks.
4. Students will be able to evaluate the inter-relationship among various circuit parameters and solve complex networks using these
parameters.
5. Students will be able to synthesize electrical networks for a given network function.
6. Students will be able to understand the basics of filters and design simple filters.
Module
No. Contents Hrs.
1. Analysis of DC Circuits
DC Circuit Analysis: Analysis of DC circuits with dependent sources using generalized loop, node matrix analysis.
Application of Network Theorems to DC Circuits: Superposition, Thevenin, Norton and Maximum Power Transfer
theorem.
08
2. Analysis of AC Circuits
Analysis of Steady State AC circuits: Analysis of AC circuits with independent sources using generalized loop, node
matrix analysis.
Analysis of Coupled Circuits: Self and mutual inductances, coefficient of coupling, dot convention, equivalent circuit,
solution using loop analysis.
06
3. Time and Frequency Domain Analysis of Electrical Networks
Time domain analysis of R-L and R-C circuits: Forced and natural responses, time constant, initial and final values. 10
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
16
Solution using first order equation for standard input signals: Transient and steady state time response, solution
using universal formula.
Frequency domain analysis of RLC circuits: S-domain representation, Concept of complex frequency, applications
of Laplace Transform in solving electrical networks, Driving point and Transfer Function, Poles and Zeros, calculation
of residues by analytical and graphical method.
4. Two Port Networks
Parameters: Open Circuit, Short Circuit, Transmission and Hybrid parameters, relationships among parameters,
reciprocity and symmetry conditions
Series/parallel connection: T and Pi representations, interconnection of Two-Port networks.
06
5. Synthesis of RLC Circuits
Positive Real Functions: Concept of positive real function, testing for Hurwitz polynomials, testing for necessary and
sufficient conditions for positive real functions.
Synthesis of RC, RL, LC circuits: Concepts of synthesis of RC, RL, LC driving point functions.
06
6. Filters
Basic filter circuits: Low pass, high pass, band pass and band stop filters, transfer function, frequency response, cut-
off frequency, bandwidth, quality factor, attenuation constant, phase shift, characteristic impedance.
03
Internal Assessment Tests:
1. Term Test-1: The first term test (TT1) is to be conducted when approx. 30% syllabus is completed. It will be of 1hour duration. The total test marks are 20.
2. Mid Term Test: Mid semester examination is to be conducted when 50% syllabus is completed and of 1hour duration. A total test
mark is 20.
3. Term Test-2: The second term test (TT2) is to be conducted when approximately 85% syllabus is completed and of 1hour duration. The total test marks are 20.
End Semester Theory Examination (Total marks = 60) (Total duration = 2hours):
1. Question paper will comprise of total 06 questions, each carrying 20marks.
2. Total 03 questions need to be solved.
3. Question No: 01 will be compulsory and shall be based on the entire syllabus wherein sub-questions of 2 to 5 marks will be asked.
4. Remaining questions will be mixed in nature. (e.g. Suppose Q.2 has part (a) from module 3 then part (b) will be from any module other
than module 3)
5. In question paper weightage of each module will be proportional to the number of respective lecture hours as mentioned in the
syllabus.
Text Books:
1. Circuits and Networks: Analysis and Synthesis, A. Sudhakar and S.P. Shyammohan, Tata McGraw-Hill Publishing Company Ltd.
2. Engineering Circuit Analysis, William Hayt and Jack Kemmerly, McGraw-Hill.
Reference Books:
1. Networks and Systems, D.Roy Choudhury, New Age International Publications.
2. Network Analysis and Synthesis, Franklin F. Kuo, Wiley.
3. Network Analysis, M.E.VanValkenburg, 3/E, PHI.
4. Shaum’s Outline of Theory and Problems of Basic Circuit Analysis, John O’Malley, McGraw-Hill.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
18
Course Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETL304 Electrical Networks Lab -- 02 -- -- -- 01 01
Course Code Course Name
Examination Scheme
Theory
TW
PR
Total
Internal Assessment
End Sem Exam Exam. Duration
(in Hrs) Test1 Test2 Avg. Mid Sem
Exam
ETL304 Electrical Networks Lab -- -- -- -- -- -- 25 25 50
List of Suggested Experiments
1. To study of CRO & DSO
2. Verification of Superposition theorem (Independent source)
3. Verification of Thevenin’s theorem (Independent source)
4. To study Current dependent current source
5. To study Voltage dependent current source
6. To study RC response circuit
7. To study Z-Parameter of two port network
8. To study Transmission parameters of two port network
● Any 8 experiments based on the entire syllabus.
Assessment:
End Semester Examination: Practical/Oral examination is to be conducted by a pair of an internal and an external examiner.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
19
Course
Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETC305 Analog Communication
Engineering 3 - - 3 - - 3
Course
Code Course Name
Examination Scheme
Theory
TW
Pr/
Oral.
Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
ETC305 Analog Communication
Engineering 20 20 20 20 60 2 - - 100
Course Pre-requisite:
• Electronics Devices and Circuits.
Course Objectives:
1. To introduce the concepts of analog communication systems.
2. To equip students with various issues related to analog communication such as modulation, demodulation, transmitters and receivers
and noise performance.
3. To understand the concepts of modulation and demodulation techniques of angle modulation (frequency and phase)
Course Outcomes: Learners will be able to…
1. Understand and identify the fundamental concepts and various components of analog communication systems.
2. Understand the concepts of modulation and demodulation techniques.
3. Design circuits to generate modulated and demodulated wave.
4. Equip students with various issues related to analog communication such as modulation, demodulation, transmitters and receivers
and noise performance.
5. Explain signal to noise ratio, noise figure and noise temperature for single and cascaded stages in a communication system.
6. Develop the ability to compare and contrast the strengths and weaknesses of various communication systems.
Module Contents Hrs.
01 Introduction to Communication System: Block schematic of communication system, Simplex and duplex systems, Modes
of communication: Broadcast and point to point communication, Necessity of modulation, Classification of modulation,
Electromagnetic Spectrum.
04
02 Fourier transform & Noise: Fourier Transform (FT) representation of aperiodic CT signals, Dirichlet condition for
existence of Fourier transform, evaluation of magnitude and phase response, FT of standard periodic CT signals,
Introduction to Fourier Transform of DT signals, Properties of CTFT and DTFT, Fourier Transform of periodic signals. Concept of sampling and reconstruction in frequency domain, sampling of bandpass signals. Introduction, Sources of
noise Classification of noise, Noise calculations (thermal noise), SNR, Noise figure, Noise Factor, Noise Temperature.
08
03 Amplitude Modulation: Introduction, Mathematical analysis and expression for AM, Modulation index, Frequency
spectrum and bandwidth of AM, Power calculations, Generation of AM using nonlinear property, Low and high level
modulation, Balance Modulator. Types of AM: DSB-FC, DSB-SC, SSB-SC, ISB and VSB, their generation methods
and comparison.
10
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
20
04
Radio Receivers and Demodulators: Introduction to Receivers, Performances characteristic of receivers: Sensitivity,
Selectivity, Fidelity, Image frequency and IFRR. Tracking and Double spotting, TRF, Super heterodyne receivers, RF
amplifier, Local oscillator and mixer, IF amplifier, AGC. 07
05 AM and FM Detectors: AM Detectors: Envelop detector and practical diode detector, FM Detectors: Slope detector,
phase discriminator and ratio detector 06
06 Pulse Analog Modulation and Demodulation: Sampling theorem for low pass signal with proof, aliasing error and aperture
effect. PAM, PWM and PPM generation, detection and applications. Multiplexing: TDM and FDM transmitter & receiver block diagram and applications.
04
Internal Assessment Tests:
1. Term Test-1: The first term test (TT1) is to be conducted when approx. 30% syllabus is completed. It will be of 1hour duration. The
total test marks are 20.
2. Mid Term Test: Mid semester examination is to be conducted when 50% syllabus is completed and of 1hour duration. A total test
mark is 20.
3. Term Test-2: The second term test (TT2) is to be conducted when approximately 85% syllabus is completed and of 1hour duration.
The total test marks are 20.
End Semester Theory Examination (Total marks = 60) (Total duration = 2hours):
1. Question paper will comprise of total 06 questions, each carrying 20marks.
2. Total 03 questions need to be solved.
3. Question No: 01 will be compulsory and shall be based on the entire syllabus wherein sub-questions of 2 to 5 marks will be asked.
4. Remaining questions will be mixed in nature. (e.g. Suppose Q.2 has part (a) from module 3 then part (b) will be from any module
other than module 3)
5. In question paper weightage of each module will be proportional to the number of respective lecture hours as mentioned in the
syllabus.
Text books:
1. Simon S. Haykin,“An Introduction to Analog and Digital Communications”
2. T.L. Singhal, “Analog and Digital Communication”
References:
1. Kennedy, "Electronics Communications Systems", McGraw-Hill New Delhi-1997, 4th Edition.
2. Anokh Singh, "Principles of communication engineering" S.Chand
3. Roddy & Coolen, "Electronic communication" PHI
4. Taub & Schilling "Principles of communication systems" Tata Mc Graw Hill
5. Beasley & Miller, "Modern Electronic Communication", Prentice-Hall India-2006, 8th Edition.
6. Wayne Tomasi, "Electronic Communication Systems", Pearson Education-2005, 5th Edition.
7. R. G. Gupta, "Audio & Video Systems" Tata McGraw-Hill New Delhi-2008.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
21
Course
Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETL305 Analog Communication
Engineering Lab -- 02 -- -- -- 01 01
Course
Code Course Name
Examination Scheme
Theory
TW
OR
Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
ETL305 Analog Communication
Engineering Lab -- -- -- -- -- -- 25 25 50
List of Suggested Experiments:
1. Amplitude modulation and demodulation
2. DSB-SC modulator and detector
3. SSB-SC modulator and detector
4. Frequency modulation and demodulation
5. Study of Spectrum Analyser and Analysis of AM and FM Signals
6. Pre-emphasis and de-emphasis
7. Time division multiplexing and de-multiplexing
8. Frequency division multiplexing and de-multiplexing
9. Verification of sampling theorem
10. Pulse amplitude modulation and demodulation
11. Pulse width modulation and demodulation
● Any 8 experiments based on the entire syllabus.
Assessment:
End Semester Examination: Practical/Oral examination is to be conducted by a pair of an internal and an external examiner.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
23
Course Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETSL301 Skill Based Lab 1 -- 02 -- -- -- 01 01
Course Code Course Name
Examination Scheme
Theory
TW
PR
Total
Internal Assessment
End Sem Exam Exam. Duration
(in Hrs) Test1 Test2 Avg. Mid Sem
Exam
ETSL301 Skill Based Lab 1 -- -- -- -- -- -- 25 25 50
Course Pre-requisites:
• Fundamentals of C-Programming
Course Objectives:
1. Describe the principles of Object Oriented Programming (OOP).
2. To understand object-oriented concepts such as data abstraction, encapsulation, inheritance and polymorphism.
3. Utilize the object-oriented paradigm in program design.
4. To lay a foundation for advanced programming.
5. Develop programming insight using OOP constructs.
Course Outcomes: After successful completion of the course student will be able to:
1. Describe the basic principles of OOP.
2. Design and apply OOP principles for effective programming.
3. Develop programming applications using OOP language.
4. Implement different programming applications using packaging.
5. Analyze the strength of OOP.
6. Percept the Utility and applicability of OOP.
List of Suggested Experiments
Note: Before performing practical necessary Theory will be taught by concern faculty
Write C++ Program to
1. Add Two Numbers
2. Print Number Entered by User
3. Swap Two Numbers
4. Check Whether Number is Even or Odd
5. Find Largest Number Among Three Numbers
6. Create a simple class and object.
7. Create an object of a class and access class attributes
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
24
8. Create class methods
9. Create a class to read and add two distance
10. Create a class for student to get and print details of a student.
11. Demonstrate example of friend function with class
12. Implement inheritance.
Write JAVA Program to
1. Display addition of number
2. Accept marks from user, if Marks greater than 40, declare the student as “Pass” else “Fail”
3. Accept 3 numbers from user. Compare them and declare the largest number (Using if-else statement).
4. Display sum of first 10 even numbers using do-while loop.
5. Display Multiplication table of 15 using while loop.
6. Display basic calculator using Switch Statement.
7. Display the sum of elements of arrays.
8. Accept and display the string entered and execute at least 5 different string functions on it.
9. Read and display the numbers as command line Arguments and display the addition of them
10. Define a class, describe its constructor, overload the Constructors and instantiate its object.
11. Illustrate method of overloading
12. Demonstrate Parameterized Constructor
13. Implement Multiple Inheritance using interface
14. Create thread by implementing 'runnable' interface or creating 'Thread Class.
15. Demonstrate Hello World Applet Example
Assessment:
End Semester Examination: Practical/Oral examination is to be conducted by a pair of an internal and an external examiner.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
25
Teaching Scheme (Hrs) Credits assigned
Course Code Course name TH (hr) PR
(hr)
TUT
(hr) TH PR TUT Total Cr
ETMP301 Mini Project I -- 02 -- -- 01 -- 01
Examination Scheme
Course Code Course name T1 T2 AVG MSE ESE Exam
Hrs TW OR Total Marks
ETMP301 Mini Project I -- -- -- -- -- -- 25 25 50
Term Work:
The main intention of Mini Project is to make student enable to apply the knowledge and skills learned out of courses studied to
solve/implement predefined practical problem. The students undergo various laboratory/tutorial/simulation laboratory/work shop courses in
which they do experimentation based on the curriculum requirement. The mini Project may be beyond the scope of curriculum of courses
taken or may be based on the courses but thrust should be on
• Learning additional skills
• Development of ability to define and design the problem and lead to its accomplishment with proper planning.
• Learn the behavioural science by working in a group
The group may be maximum four (04) students. Each group will be assigned one faculty as a supervisor. The college should keep proper
assessment record of progress of the project and at the end of the semester it should be assessed for awarding TW marks. The TW may be
examined by approved internal faculty appointed by the head of the institute. The final examination will be based on demonstration in front
of internal and external examiner. In the examination each individual student should be assessed for his/her contribution, understanding and
knowledge gained about the task completed. The topic of Mini Project I and II may be different and / or may be advancement in the same
topic. The students may use this opportunity to learn different computational techniques as well as some model development. This they can
achieve by making proper selection of Mini Projects.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
26
Course
Code
Course Name
Teaching Scheme (Contact
Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pract./
Oral. Total
HBSO301 Sustainable Business Strategy
Program -- -- -- 01 -- -- 01
Course
Code Course Name
Examination Scheme
Theory
TW
Pr/
Oral.
Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg.
Mid
Sem
Exam
HBSO301 Sustainable Business Strategy
Program -- -- -- -- -- -- -- -- --
Course Objectives:
1. Sustainable Business Strategy provides participants with the knowledge and tools to become a purpose-driven business leader.
2. This course explores the different business models that companies can use to drive change and explains why purpose- driven businesses
are particularly well positioned to tackle the world’s biggest problems.
3. You will learn how to influence management and other key stakeholders on the competitive advantages of being a purpose-driven
firm, and how to integrate your values into your work so that you can help transform firms into catalysts for system level change.
Module Case Studies Key Takeaways
01: The
Business Case
for Action
• Unilever
• Walmart
• Transatomic Power
• Understand the business case for change and apply business models that
create shared value
• Analyze industry disruptions and business uncertainties and create scenario
analyses to develop smart strategic options
02: Driving
Change at
Scale: Moving
Beyond the
Firm
• Walmart
• Unilever
• King Arthur Flour
• Public Good Simulation Game
• Faculty Expert: Joshua Greene
• Understand what purpose-driven firms are and why they are successful
• Examine the “Wheel of Change” and how business is a key catalyst to solve
large global issues like climate change and income inequality
• Analyze cooperative action examples to understand how and why firms
cooperate and why it’s necessary to enact change
03: Purpose-
Driven
Systemic
Change
• Norsk Gjenvinning
• John Streur, CEO of Calvert
• Walmart
• Faculty Experts: John Ruggie, John
Coates, Jane Nelson, George Serafeim
• Analyze the investor’s role, including
the role of stakeholder management, alternative governance, Environmental,
Social & Governance metrics, and impact investing
• Evaluate the role of governments and other institutions in large-scale
change and understand why “Systems Thinking” is necessary
• Develop a personal plan for what YOU can do
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
27
Course Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pract./
Oral. Total
AUC301 Constitution Of
India 01 -- -- -- -- -- --
Course Code Course Name
Examination Scheme
Theory
TW
Pr/
Oral.
Total
Internal Assessment End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid Sem
Exam
AUC301 Constitution Of
India -- -- -- -- -- -- -- -- --
Module Contents Hours
1. Introduction: Constitution’ meaning of the term, Indian Constitution: Sources and constitutional history, Features:
Citizenship, Preamble, Fundamental Rights and Duties, Directive Principles of State Policy 02
2.
Union Government and its Administration Structure of the Indian Union: Federalism, Centre- State relationship,
President: Role, power and position, PM and Council of ministers, Cabinet and Central Secretariat, Lok Sabha, Rajya
Sabha
04
3. State Government and its Administration Governor: Role and Position, CM and Council of ministers, State Secretariat:
Organisation, Structure and Functions. 02
4.
Local Administration District’s Administration head: Role and Importance, Municipalities: Introduction, Mayor and
role of Elected Representative, CEO of Municipal Corporation, Pachayati raj: Introduction, PRI: Zila Pachayat, Elected
officials and their roles, CEO Zila Pachayat: Position and role, Block level: Organizational Hierarchy (Different
departments), Village level: Role of Elected and Appointed officials, Importance of grass root democracy
03
5.
Election Commission Election Commission: Role and Functioning, Chief Election Commissioner and Election
Commissioners, State Election Commission: Role and Functioning, Institute and Bodies for the welfare of SC/ST/OBC
and women
02
Reference Books:
1. Laxmikanth, “Indian Polity”, 2017.
2. Subhash Kashyap, “Indian Administration”, 2001.
3. D.D. Basu, “Indian Constitution”, 2008.
4. Avasthi and Maheshwari, “Indian Administration”, 2001.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
28
Course
Code
Course Name
Teaching Scheme (Contact
Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pract./
Oral. Total
ETC401 Engineering
Mathematics-IV 03 -- 01 03 01 -- 04
Course
Code Course Name
Examination Scheme
Theory
TW
Pr/
Oral.
Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg.
Mid
Sem
Exam
ETC401 Engineering
Mathematics-IV 20 20 20 20 60 02 -- -- 100
Course Pre-requisite:
• Probability, Matrix theory • Complex numbers.
Course Objectives:
1. To build the strong foundation in Mathematics of students needed for the field of Electronics and Telecommunication Engineering.
2. To provide students with mathematics fundamentals necessary to formulate, solve and analyses complex engineering problems.
3. To prepare student to apply reasoning informed by the contextual knowledge to engineering practice.
4. To prepare students to work as part of teams on multi-disciplinary projects.
Course Outcomes: After successful completion of the course student will be able to …
1. Student will demonstrate vector spaces and formulate, solve and analyze engineering problems.
2. Student will demonstrate an ability to manipulate matrices and compute eigen values and eigen vectors which are necessary to
formulate, solve and analyze engineering problems.
3. Students will demonstrate basic knowledge of Random variables and probability distributions functions.
4. Students will demonstrate basic knowledge of standard probability distribution.
5. Student will gain basic concept of Random Processes.
6. Student will Identify and classify zeros, singular points, residues and their applications and will demonstrate the understanding of
impact of engineering mathematics on Electronics & Telecommunication Engineering.
Module Contents Hrs.
01
Linear Algebra-I: Definition of Vector spaces over real field, subspaces, dot product and norm of n-dimensional vectors,
orthogonal and orthonormal vectors, linear combination of vectors, linear dependence and independence of vectors, bases
and dimension, Gram Schmidt process.
07
02
Linear Algebra-II: Eigen Values and Eigen vectors, Characteristic equation, properties of Eigen values and Eigen
vectors, Cayley-Hamilton theorem, Problems based on Cayley-Hamilton theorem, Similarity of matrices and its
properties, Diagonalization of matrices, Functions of square matrix, derogatory and non-derogatory matrices.
08
03 Probability: Probability distribution: Binomial distribution, Poisson & normal distribution, Karl Pearson’s coefficient of
correlation, covariance, Spearman‘s Rank correlation. Lines of Regression. 07
04 Random Variables: Discrete & continuous random variables, expectation, Variance, Probability mass function and
Density Function, Probability distribution for random variables Moments, Moment Generating Function. Functions of one 07
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
29
random variable and their distribution and density functions
05 Random processes: Stochastic process, Classification of random processes, Mean of the random processes, Auto
correlation between random processes, Auto covariance of the random processes, cross correlation of the random process. 04
06 Complex Integration: Cauchy’s Integral theorem for simply connected regions, Cauchy‘s Integral formula. Taylor’s and
Laurent’s Series, Zeros, singularities, poles of f(z), residues, Cauchy’s Residue theorem, Applications of Residue theorem
to evaluate real Integrals of different types.
06
Internal Assessment Tests:
1. Term Test-1: The first term test (TT1) is to be conducted when approx. 30% syllabus is completed. It will be of 1hour duration. The
total test marks are 20.
2. Mid Term Test: Mid semester examination is to be conducted when 50% syllabus is completed and of 1hour duration. A total test
mark is 20.
3. Term Test-2: The second term test (TT2) is to be conducted when approximately 85% syllabus is completed and of 1hour duration.
The total test marks are 20.
End Semester Theory Examination (Total marks = 60) (Total duration = 2hours):
1. Question paper will comprise of total 06 questions, each carrying 20marks.
2. Total 03 questions need to be solved.
3. Question No: 01 will be compulsory and shall be based on the entire syllabus wherein sub-questions of 2 to 5 marks will be asked.
4. Remaining questions will be mixed in nature. (e.g. Suppose Q.2 has part (a) from module 3 then part (b) will be from any module other
than module 3)
5. In question paper weightage of each module will be proportional to the number of respective lecture hours as mentioned in the syllabus.
Text books:
1. H.K. Das, “Advanced engineering mathematics”, S . Chand, 2008
2. A. Datta, “Mathematical Methods in Science and Engineering”, 2012
3. B.S. Grewal, “Higher Engineering Mathematics”, Khanna Publication
4. P.N.Wartilar & J.N.Wartikar, “A Text Book of Applied Mathematics” Vol. I & II, Vidyarthi Griha Prakashan, Pune
References:
1. A text book of Applied Mathematics, P.N. Wartikar and J.N. Wartikar, Vol – I and –II by Pune Vidyarthi Graha
2. Advanced Engineering Mathematics, Erwin Kreyszig, Wiley EasternLimited, 9thEd.
3. Matrices, Shanti Narayan.S. Chand publication
4. Numerical Methods, Dr. P. Kandasamy , S. Chand Publication
5. Howard Anton and Christ Rorres.,Elementary Linear Algebra Application Version, 6th edition, John Wiley & Sons, INC.
6. Howard Anton and Christ Rorres. Elementary Linear Algebra Application Version. 6th edition. John Wiley & Sons, INC
7. Calculus with early transcendental functions, James Stewart, Cengage learning.
8. Calculus, Volumes 1 and 2, T.M. Apostol, Wiley Eastern.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
30
Course
Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pract./
Oral. Total
ETC402 Digital Electronics &
Microcontrollers 03 -- -- 03 -- -- 03
Course
Code Course Name
Examination Scheme
Theory
TW
Pr/
Oral.
Total
Internal Assessment End
Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
ETC402 Digital Electronics &
Microcontrollers 20 20 20 20 60 02 -- -- 100
Course Pre-requisite:
• Basic Electrical Engineering
Course Objectives:
1. To understand number system representations and their inter-conversions used in digital electronic circuits.
2. To analyze digital logic processes and to implement logical operations using various combinational logic circuits.
3. To analyze, design and implement logical operations using various sequential logic circuits
4. To develop background knowledge and core expertise in microcontrollers.
5. To write programs for microcontrollers and their applications in Assembly Language.
6. To understand peripheral devices and their interfacing to microcontroller.
Course Outcomes:
After successful completion of the course student will be able to:
1. Understand types of digital logic, digital circuits and logic families.
2. Analyze, design and implement combinational logic circuits.
3. Analyze, design and implement sequential logic circuits.
4. Understand the basic concepts of microprocessor based system.
5. Understand the detailed architecture of 8051 microcontroller.
6. Write assembly language program and interfacing of various peripheral devices for 8051 microcontroller.
Module Contents Hrs.
01 Fundamentals of Digital Logic Design
Review of Binary and Hexadecimal Number Systems, their inter-conversion, Binary Arithmetic, Addition,
Subtraction using 1’s and 2’s Complement.
Introduction of TTL and CMOS Logic families and their characteristics.
Digital logic gates, Universal gates, Realization using NAND and NOR gates, Boolean Algebra.
06
02 Combinational Logic Design:
SOP and POS representation, K-Map up to four variables.
Arithmetic Circuits: Half adder, Full adder, Half Sub-tractor, Full Sub-tractor, Carry Look ahead adder and BCD
adder.
06
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
31
Multiplexer and De-Multiplexer: Multiplexer operations, cascading of Multiplexer, Boolean function
implementation using MUX, DEMUX and basic gates, Encoder and Decode.
03 Sequential Logic Design:
Flip flops: RS, JK, Master slave flip flops; T & D flip flops with various triggering methods, Conversion of flip
flops, Registers: SISO, SIPO, PISO, PIPO.
Counters: Asynchronous and Synchronous counters with State transition diagram, Up/Down, MOD N, BCD
Counter
07
04 Overview of Microprocessor Based System:
Block diagram of microprocessor based system, Need of Assembly Language and its Comparison with higher level
languages.
06
05 8051 Microcontroller:
Comparison between Microprocessor and Microcontroller, Features, architecture and pin configurations, CPU timing
and machine cycle, Input / Output ports, Memory organization, Counters and timers, Interrupts, Serial data input
and output,
06
06 8051 Assembly language Programming and Interfacing:
Addressing mode, Instruction set, Assembler Directives, Programs related to: arithmetic, logical, delay, input, output,
timer, Counters, port, serial communication and interrupts, Interfacing of 8051 with LED, LCD.
08
Internal Assessment Tests:
1. Term Test-1: The first term test (TT1) is to be conducted when approx. 30% syllabus is completed. It will be of 1hour duration.
The total test marks are 20.
2. Mid Term Test: Mid semester examination is to be conducted when 50% syllabus is completed and of 1hour duration. A total
test mark is 20.
3. Term Test-2: The second term test (TT2) is to be conducted when approximately 85% syllabus is completed and of 1hour
duration. The total test marks are 20.
End Semester Theory Examination (Total marks = 60) (Total duration = 2hours):
1. Question paper will comprise of total 06 questions, each carrying 20marks.
2. Total 03 questions need to be solved.
3. Question No: 01 will be compulsory and shall be based on the entire syllabus wherein sub-questions of 2 to 5 marks will be
asked.
4. Remaining questions will be mixed in nature. (e.g. Suppose Q.2 has part (a) from module 3 then part (b) will be from any
module other than module 3)
5. In question paper weightage of each module will be proportional to the number of respective lecture hours as mentioned
in the syllabus.
Text books:
1. John F. Warkerly, “Digital Design Principles and Practices”, Pearson Education, Fifth Edition (2018).
2. Morris Mano, Michael D. Ciletti, “Digital Design”, Pearson Education, Fifth Edition (2013).
3. R. P. Jain, “Modern Digital Electronics”, Tata McGraw Hill Education, Forth Edition (2010).
4. Anand Kumar, “Fundamentals of Digital Circuits”, PHI, Fourth Edition (2016).
5. M. A. Mazidi, J. G. Mazidi and R. D. Mckinlay, “The 8051 Microcontroller & Embedded systems”, Pearson Publications, Second Edition
2006.
6. C. Kenneth J. Ayala and D. V. Gadre, “The 8051 Microcontroller & Embedded system using assembly & ‘C’ ”, Cengage Learning,
Edition 2010.
Reference Books:
1. Thomas L. Floyd, “Digital Fundamentals”, Pearson Prentice Hall, Eleventh Global Edition (2015).
2. Donald P. Leach / Albert Paul Malvino/Gautam Saha, “Digital Principles and Applications”, The McGraw Hill, Eight Edition (2015).
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
32
3. Douglas V Hall, SSSP Rao “Microprocessors & Interfacing”, McGraw Hill
4. 8051 Microcontroller: Internals, Instructions, Programming and Interfacing Subrata Ghoshal, Pearson Education India, 2010.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
33
Course
Code
Course Name
Teaching Scheme (Contact
Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pract./
Oral. Total
ETL402 Digital Electronics &
Microcontrollers Lab -- 02 -- -- -- 01 01
Course
Code Course Name
Examination Scheme
Theory
TW
PR
Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
ETL402 Digital Electronics &
Microcontrollers Lab -- -- -- -- -- -- 25 25 50
List of Experiments:
1. a) Implementation of NAND, NOR, EXOR using basic gates.
b) Verification of NAND & NOR as universal gates.
2. a) To design, construct and verify half adder & full adder using gates.
b) To design, construct and verify half subtractor & full subtractor using gates.
3. a) To implement the Boolean function using 8:1 Multiplexer
b) To design and implement full subtractor using De-Multiplexer
4. To convert JK flip flop into D and D flip flop into T flip flop.
5. To design and implement MOD 10 asynchronous counter.
6. Study architecture of 8051 microcontroller
7. a) WAP to perform addition and subtraction of two numbers using 8051 instructions.
b) WAP to perform multiplication and division of two numbers using 8051 instructions.
8. Generate a square wave on port of 8051 using s/w and h/w delay.
9. a) Interface 8051 with seven segment led write a program to display hex counter.
b) WAP to interface 8051 with led.
● Any 8 experiments based on the entire syllabus.
Assessment:
End Semester Examination: Practical/Oral examination is to be conducted by a pair of an internal and an external examiner.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
34
Course
Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETC403 Linear Integrated Circuits and
Applications 03 -- -- 03 -- -- 03
Course
Code Course Name
Examination Scheme
Theory
TW
Pr/
Oral.
Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
ETC403 Linear Integrated Circuits and
Applications 20 20 20 20 60 02 -- -- 100
Course Pre-requisite:
• Basic Electrical Engineering • Electronic Devices & Circuits-I
Course Objectives:
1. To understand the concepts, working principles and key applications of linear integrated circuits.
2. To perform analysis of circuits based on linear integrated circuits.
3. To design circuits and systems for particular applications using linear integrated circuits.
Course Outcomes: After successful completion of the course student will be able to …
1. Understand the fundamentals for the integrated circuits.
2. Understand the areas of Linear and Nonlinear applications for the OPAMP
3. Analyze important types of integrated circuits.
4. Demonstrate the ability to design practical circuits that perform the desired operations.
5. Understand the differences between theoretical, practical & simulated results in integrated circuits.
6. Select the appropriate integrated circuit modules to build a given application.
Module Contents Hrs.
01
Fundamental of operational amplifiers: Block diagram of OP-AMP, Differential amplifier circuit configurations, Ideal &
Practical Operational Amplifiers, Operational amplifier characteristics, Operational amplifier parameters, Operational
amplifier open loop and closed loop configurations. 06
02 Applications of Operational Amplifier: Inverting, non-inverting, voltage follower, summing amplifier, difference
amplifiers, integrator & differentiator (ideal & practical), current amplifier, instrumentation amplifier, Active filters, RC
phase shift oscillator, wein bridge oscillator. 07
03 Non-Linear Applications of Operational Amplifier: Inverting comparator, non-inverting comparator, zero crossing
detector, window detector, peak detector, sample& hold circuits, Schmitt trigger(symmetrical/asymmetrical), Square wave
generator, Triangular wave generator, Half wave and Full wave Precision rectifiers. 08
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
35
04 Converters using Operational amplifier: I-V converter, V-I converters, V-F converter, Performance specifications of
ADC, single ramp ADC, ADC using DAC, dual slope ADC, successive approximation ADC, Performance specifications
of DAC, binary weighted resistor DAC, R/2R ladder DAC, inverted R/2R ladder DAC. 06
05 Special Purpose Integrated Circuits: Functional block diagram and working of IC 555, design of astable and monostable
multivibrator using IC 555, Block diagram PLL, characteristics/parameters of PLL, applications of PLL, VCO. 06
06 Voltage Regulators: Functional block diagram, working and design of three terminal fixed (78XX, 79XX series) and three
terminal adjustable (LM 317, LM 337) voltage regulators. Functional block diagram, working and design of general purpose
723 (LVLC, LVHC, HVLC and HVHC) with current limit and current fold-back protection, Switching regulator topologies.
06
Internal Assessment Tests:
1. Term Test-1: The first term test (TT1) is to be conducted when approx. 30% syllabus is completed. It will be of 1hour duration. The total
test marks are 20.
2. Mid Term Test: Mid semester examination is to be conducted when 50% syllabus is completed and of 1hour duration. A total test mark
is 20.
3. Term Test-2: The second term test (TT2) is to be conducted when approximately 85% syllabus is completed and of 1hour duration. The
total test marks are 20.
End Semester Theory Examination (Total marks = 60) (Total duration = 2hours):
1. Question paper will comprise of total 06 questions, each carrying 20marks.
2. Total 03 questions need to be solved.
3. Question No: 01 will be compulsory and shall be based on the entire syllabus wherein sub-questions of 2 to 5 marks will be asked.
4. Remaining questions will be mixed in nature. (e.g. Suppose Q.2 has part (a) from module 3 then part (b) will be from any module other
than module 3)
5. In question paper weightage of each module will be proportional to the number of respective lecture hours as mentioned in the syllabus.
Text books:
1. Ramakant A. Gayakwad, “Op-Amps and Linear Integrated Circuits”, Pearson Prentice Hall, 4th Edition.
2. K. R. Botkar, “Integrated Circuits”, Khanna Publishers (2004)
3. D. Roy Choudhury and S. B. Jain, “Linear Integrated Circuits”, New Age International Publishers, 4th Edition.
References:
1. Sergio Franco, “Design with operational amplifiers and analog integrated circuits”, Tata McGraw Hill, 3rd Edition.
2. David A. Bell, “Operation Amplifiers and Linear Integrated Circuits”, Oxford University Press, Indian Edition.
3. R. F. Coughlin and F. F. Driscoll, “Operation Amplifiers and Linear Integrated Circuits”, Prentice Hall, 6th Edition.
4. “J. Millman, Christos C. Halkias, and Satyabratat ajit, Millman’s, “Electronic Devices and Circuits,” McGrawHill, 3rdEdition”.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
36
Course
Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETL403 Linear Integrated Circuits and
Applications Lab -- 02 -- -- -- 01 01
Course
Code Course Name
Examination Scheme
Theory
TW
PR
Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
ETL403 Linear Integrated Circuits and
Applications Lab -- -- -- -- -- -- 25 25 50
List of Suggested Experiments:
1. Study of sampling theorem, effect of under sampling.
2. Study of Quantization of continuous-amplitude, discrete time analog signals.
3. Study of different types of Companding Techniques.
4. Study of properties of Linear time-invariant system.
5. Study of convolution: series and parallel system.
6. Study of Discrete Fourier Transform (DFT) and its inverse.
7. Study of Transform domain properties and its use. .
8. Study of FIR filter design using window method: Lowpass and highpass filter.
9. Study of FIR filter design using window method: Bandpass and Bandstop filter.
10. Study of Infinite Impulse Response (IIR) filter.
● Any 8 experiments based on the entire syllabus.
Assessment:
End Semester Examination: Practical/Oral examination is to be conducted by a pair of an internal and an external examiner.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
37
Course
Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETC404 Discrete Time Signal
Processing 03 -- -- 03 -- -- 03
Course
Code Course Name
Examination Scheme
Theory
TW
Pr/
Oral.
Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
ETC404 Discrete Time Signal
Processing 20 20 20 20 60 02 -- -- 100
Course Pre-requisite:
• Basics of signals and systems • Fourier transform and series
Course objectives:
1. To introduce students to the idea of signal and system analysis and characterization in time and frequency domain.
2. To provide foundation of signal and system concepts to areas like communication, control and comprehend applications of signal
processing in communication systems.
3. To develop a thorough understanding of DFT and FFT and their applications.
4. To teach the design techniques and performance analysis of digital filters.
5. To introduce the students to digital signal processing applications.
Course outcomes:
After successful completion of the course student will be able to
1. Student will be able to differentiate between continuous time and discrete time of Signals and Systems
2. Student will be able to do time domain and frequency domain analysis of Signals and systems.
3. Understand the concepts of discrete-time Fourier transform and fast Fourier transform.
4. Apply the knowledge of design of IIR digital filters to meet arbitrary specifications.
5. Apply the knowledge of design of FIR digital filters to meet arbitrary specifications.
6. Apply the knowledge of DSP for various applications.
Module
No. Contents Hours
1 Discrete Time Signals & Systems The bridge from continuous to discrete time, The Sampling Theorem
reconstruction of signals, practical difficulties in reconstruction, some applications of sampling theorem Discrete Signals, Operations on Discrete Signals, Decimation and Interpolation, Common Discrete Signals
Discrete-Time Harmonics and Sinusoids, Discrete-Time Systems, The Impulse Response, System Representation in
Various Forms, Application-Oriented Examples, Discrete Convolution, Convolution Properties, Convolution of
Finite Sequences, Stability and Causality of LTI Systems, System Response to Periodic Inputs, Periodic or Circular
Convolution, Deconvolution, Discrete Correlation
08
2 Review of Z–Transform: z-Transform of finite and infinite duration sequences, relation between discrete time
Fourier Transform and z-Transform, properties, Inverse z-Transform, one sided z– Transform. Analysis of discrete
time LTI systems using z-Transform: Transfer Function, causality and stability of systems, frequency response,
relation between Laplace Transform and z–Transform.
06
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
38
3 Discrete Time Fourier Transform (DTFT), Discrete Fourier Transform(DFT) & Fast Fourier Transform(FFT):
Fourier Transform and Inverse Fourier Transform on periodic and non-periodic signals, limitations of Fourier
Transform and need for Laplace and z-Transform. Linearity, time shifting, time reversal, frequency shifting, time
and frequency scaling, modulation, convolution in time domain, differentiation in time domain, differentiation
in frequency domain, symmetry. Parsevel’s relation. Energy, power spectral density and bandwidth. Definition and
problems on DTFT. Definition and Properties of DFT, IDFT, Circular convolution of sequences using DFT and
IDFT, Filtering of long data sequences: Overlap-Save and Overlap-Add Method for computation of DFT. Fast Fourier
Transforms (FFT), Radix-2 decimation in time and decimation in frequency FFT algorithms, inverse FFT.
08
4 IIR Digital Filters: Types of IIR Filters (Low Pass, High Pass, Band Pass, Band Stop and All Pass), Analog
filter approximations: Butterworth, Chebyshev I. Mapping of S-plane to Z-plane, impulse invariance method,
bilinear transformation method, Design of IIR digital filters (Butterworth and Chebyshev-I) from Analog
filters with examples. Analog and digital frequency transformations with design examples.
08
5 FIR Digital Filters: Characteristics of FIR digital filters, Minimum Phase, Maximum Phase, Mixed Phase and
Linear Phase Filters. Frequency response, location of the zeros of linear phase FIR filters. Design of FIR filters using
Window techniques (Rectangular, Hamming, Hanning, Blackmann, Kaiser), Design of FIR filters using
Frequency Sampling technique, Comparison of IIR and FIR filters.
05
6 Applications of Digital Signal processing: Application of DSP for ECG signals analysis. Application of DSP for
Dual Tone Multi Frequency signal detection. Application of DSP for Radar Signal Processing. 04
Internal Assessment Tests:
1. Term Test-1: The first term test (TT1) is to be conducted when approx. 30% syllabus is completed. It will be of 1hour duration. The total
test marks are 20.
2. Mid Term Test: Mid semester examination is to be conducted when 50% syllabus is completed and of 1hour duration. A total test mark
is 20.
3. Term Test-2: The second term test (TT2) is to be conducted when approximately 85% syllabus is completed and of 1hour duration. The
total test marks are 20.
End Semester Theory Examination (Total marks = 60) (Total duration = 2hours):
1. Question paper will comprise of total 06 questions, each carrying 20marks.
2. Total 03 questions need to be solved.
3. Question No: 01 will be compulsory and shall be based on the entire syllabus wherein sub-questions of 2 to 5 marks will be asked.
4. Remaining questions will be mixed in nature. (e.g. Suppose Q.2 has part (a) from module 3 then part (b) will be from any module other
than module 3)
5. In question paper weightage of each module will be proportional to the number of respective lecture hours as mentioned in the syllabus.
Recommended Books:
1. Alan V. Oppenheim and Ronald Schafer, “Discrete Time Signal Processing”, Pearson Education
2. J. Proakis, D. G. Manolakis, and D. Sharma, “Digital Signal Processing: Principles, Algorithms and Applications”, Pearson Education.
3. Nagoor Kani, Signals and Systems, Tata McGraw Hill, Third Edition, 2011.
4. Simon Haykin and Barry Van Veen, Signals and Sytems, John Wiley and Sons, Second Edition,2004.
5. Robert Schilling and Sandra Harris, “Fundamentals of Digital Signal Processing using MATLAB”, Cengage Learning.
6. Sanjit K.Mitra, “Digital Signal Processing”, McGrawHill education.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
39
Course
Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETL404 Discrete Time Signal
Processing Lab -- 02 -- -- -- 01 01
Course
Code Course Name
Examination Scheme
Theory
TW
OR
Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
ETL404 Discrete Time Signal
Processing Lab -- -- -- -- -- -- 25 25 50
List of Suggested Experiments:
1. Study of sampling theorem, effect of under sampling.
2. Study of Quantization of continuous-amplitude, discrete time analog signals.
3. Study of different types of Companding Techniques.
4. Study of properties of Linear time-invariant system.
5. Study of convolution: series and parallel system.
6. Study of Discrete Fourier Transform (DFT) and its inverse.
7. Study of Transform domain properties and its use. .
8. Study of FIR filter design using window method: Lowpass and highpass filter.
9. Study of FIR filter design using window method: Bandpass and Bandstop filter.
10. Study of Infinite Impulse Response (IIR) filter.
● Any 8 experiments based on the entire syllabus.
Assessment:
End Semester Examination: Practical/Oral examination is to be conducted by a pair of an internal and an external examiner.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
40
Course
Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETC405 Digital
Communication 03 -- -- 03 -- -- 03
Course
Code Course Name
Examination Scheme
Theory
TW
Pr/
Oral.
Total
Internal Assessment End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid Sem
Exam
ETC405 Digital
Communication 20 20 20 20 60 02 -- -- 100
Course Pre-requisite:
• Analog Communication
Course Objectives:
1. To identify the signals and functions of its different components.
2. To learn about theoretical aspects of digital communication system and draw signal space diagrams, compute spectra of
modulated signals.
3. To learn about error detection and correction to produce optimum receiver.
Course Outcomes: Learners will be able to…
1. Understand random variables and random processes of signal.
2. Apply the concepts of Information Theory in source coding.
3. Evaluate different methods to eliminate Inter-symbol interference.
4. Evaluate performance of different error control codes.
5. Compare different band-pass modulation techniques.
6. Compare different base-band receivers.
Module Contents Hrs.
01
Probability Theory & Random Variables and Processes: Information, Probability, Conditional Probability of
independent events, Relation between probability and probability Density, Raleigh Probability Density, CDF, PDF.
Random Variables, Variance of a Random Variable, correlation between Random Variables, Statistical Averages (Means),
Mean and Variance of sum of Random variables, Linear mean square Estimation, Central limit theorem, Error function
and Complementary error function Discrete and Continuous Variable, Gaussian PDF, Threshold Detection, Statistical
Average, Chebyshev In-Equality, Autocorrection. Random Processes
06
02 Information Theory and Source Coding: Block diagram and sub-system description of a digital communication system,
measure of information and properties, entropy and it‘s properties Mini Source Coding, Shannon‘s Source Coding Theorem,
Shannon-Fano Source Coding, Huffman Source Coding
Differential Entropy, joint and conditional entropy, mutual information and channel capacity, channel coding theorem,
channel capacity theorem
06
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
41
03 Band-pass digital transmitter and receiver model, digital modulation schemes ,Generation, detection, signal space diagram,
spectrum, bandwidth efficiency, and probability of error analysis of: Amplitude Shift Keying (ASK), Frequency Shift
Keying (FSK)Modulations, Binary Phase Shift Keying (BPSK) Modulation, Quaternary Phase Shift Keying QPSK), M- ary
PSK Modulations, Quadrature Amplitude Modulation (QAM), Minimum Shift Keying (MSK) 10
04
Error Control Systems: Types of error control, error control codes, linear block codes, systematic linear block codes,
generator matrix and parity check matrix, syndrome testing, error correction, and decoder implementation.
Systematic and Non-systematic Cyclic codes: encoding with shift register and error detection and correction
Convolution Codes: Time domain and transform domain approach, graphical representation, code tree, trellis, state
diagram, decoding methods.
08
05 Baseband Modulation & Transmission: Discrete PAM signals and it‘s power spectra Inter-symbol interference, Nyquist
criterion for zero ISI, sinusoidal roll-off filtering, correlative coding, equalizers, and eye pattern 05
06
Optimum Reception of Digital Signal: Coherent Reception , Baseband receiver, Probability of Error, Optimum Receiver
and Filter, Matched Filter and its probability of error. 04
Internal Assessment Tests:
1. Term Test-1: The first term test (TT1) is to be conducted when approx. 30% syllabus is completed. It will be of 1hour duration.
The total test marks are 20.
2. Mid Term Test: Mid semester examination is to be conducted when 50% syllabus is completed and of 1hour duration. A total
test mark is 20.
3. Term Test-2: The second term test (TT2) is to be conducted when approximately 85% syllabus is completed and of 1hour duration.
The total test marks are 20.
End Semester Theory Examination (Total marks = 60) (Total duration = 2hours):
1. Question paper will comprise of total 06 questions, each carrying 20marks.
2. Total 03 questions need to be solved.
3. Question No: 01 will be compulsory and shall be based on the entire syllabus wherein sub-questions of 2 to 5 marks will be asked.
4. Remaining questions will be mixed in nature. (e.g. Suppose Q.2 has part (a) from module 3 then part (b) will be from any module
other than module 3)
5. In question paper weightage of each module will be proportional to the number of respective lecture hours as mentioned in the
syllabus.
Text books: 1. H. Taub, D. Schlling, and G. Saha, ―Principles of Communication Systems, Tata Mc- Graw Hill, New Delhi, Third Edition, 2012.
2. Lathi B P, and Ding Z., ―Modern Digital and Analog Communication Systems, Oxford University Press, Fourth Edition, 2009.
3. Haykin Simon, ―Digital Communication Systems, John Wiley and Sons, New Delhi, Fourth Edition, 2014.
Reference Books:
1. Sklar B, and Ray P. K., ―Digital Communication: Fundamentals and applications, Pearson, Dorling Kindersley (India), Delhi, Second
Edition, 2009.
2. T L Singal, ―Analog and Digital Communication, Tata Mc-Graw Hill, New Delhi, First Edition, 2012.
3. P Ramakrishna Rao, ―Digital Communication, Tata Mc-Graw Hill, New Delhi, First Edition, 2011.
4. M F Mesiya, ―Contemporary Communication systems, Mc-Graw Hill, Singapore, First Edition
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
42
Course
Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETL405 Digital Communication
Lab -- 01 -- -- -- 01 01
Course
Code Course Name
Examination Scheme
Theory
TW PR Total Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
ETL405 Digital Communication
Lab -- -- -- -- -- -- 25 25 50
List of Suggested Experiments:
1. To understand sampling theorem and reconstruction
2. To understand Various line codes
3. To observe the performance of Return to Zero (RZ) types of line code.
4. To observe the performance of Non- Return to Zero (NRZ) types of line code
5. Modulation and Demodulation of Binary Amplitude Shift Keying
6. Modulation and Demodulation of Binary Frequency Shift Keying
7. Modulation and Demodulation of Binary Phase Shift Keying
8. Modulation and Demodulation of Quadrature Phase Shift Keying
9. To observe the effect of signal Distortion using EYE-Diagram
10. To Study and perform Linear Block codes
11. To Study and perform cyclic codes
● Any 8 experiments based on the entire syllabus.
Assessment:
End Semester Examination: Practical/Oral examination is to be conducted by a pair of an internal and an external examiner.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
44
Course Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pr/
Oral. Total
ETSL401 Skill Based Lab 2 (Python) -- 04 -- -- -- 02 02
Course Code Course Name
Examination Scheme
Theory
TW
PR
Total
Internal Assessment
End Sem Exam Exam. Duration
(in Hrs) Test1 Test2 Avg. Mid Sem
Exam
ETSL401 Skill Based Lab 2 (Python) -- -- -- -- -- -- 25 25 50
Course Pre-requisite:
• C++ and Java Programming
Course Objectives:
1. Describe the core syntax and semantics of Python programming language.
2. Explore file handling in Python
3. Infer the Object-oriented Programming concepts in Python
4. Formulate GUI Programming and Databases operations in Python
5. Develop applications using variety of libraries and functions
Course Outcomes: Learners will be able to…
1. Describe syntax and semantics in Python
2. Illustrate different file handling operations
3. Interpret object oriented programming in Python
4. Design GUI Applications in Python
5. Express proficiency in the handling Python libraries for data science
6. Develop machine learning applications using Python
List of Suggested Experiments
1. Write python programs to understand expressions, variables, quotes, basic math operations, list, tuples, dictionaries, arrays etc.
2. Write Python program to implement byte array, range, set and different STRING Functions (len, count, lower, sorted etc)
3. Write Python program to implement control structures.
4. Assume a suitable value for distance between two cities (in km). Write a program to convert and print this distance in meters, feet,
inches and centimetre.
5. Write python program to understand different File handling operations.
6. Write Python program to obtain histogram of any image.
7. Write python program to study selection, indexing, merging, joining, concatenation in data frames
8. Write Python Program to split color image in R,G,B and obtain individual histograms.
● Any 8 experiments based on the entire syllabus.
Assessment:
End Semester Examination: Practical/Oral examination is to be conducted by a pair of an internal and an external examiner.
Text Books:
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
45
1. Yashavant Kanetkar, “Let us Python: Python is Future, Embrace it fast”, BPB Publications; 1edition (8 July 2019).
2. Dusty Phillips, “Python 3 object-oriented Programming”, Second Edition PACKT Publisher August 2015.
3. John Grayson, “Python and Tkinter Programming”, Manning Publications (1 March 1999).
4. Core Python Programming, Dr. R. Nageswara Rao, Dreamtech Press
5. Beginning Python: Using Python 2.6 and Python 3.1. James Payne, Wrox publication
6. Introduction to computing and problem solving using python , E Balagurusamy, McGraw Hill Education.
7. Zed A. Shaw, “Learn Python the Hard Way: A Very Simple Introduction to the Terrifyingly Beautiful World of Computers and
Code”, Addison Wesley; 3 edition (1 October 2013).
Reference Books:
1. Eric Matthes, “Python Crash Course A hands-on, Project Based Introduction to programming” No Starch Press; 1 edition (8
December 2015).
2. Paul Barry, “Head First Python” O′Reilly; 2 edition (16 December 2016)
3. Andreas C. Mueller, “Introduction to Machine Learning with Python”, O′Reilly; 1 edition (7 October 2016)
4. David Beazley, Brian K. Jones, “Python Cookbook: Recipes for Mastering Python 3”, O'Reilly Media; 3 edition (10 May 2013).
5. Bhaskar Chaudhary, “Tkinter GUI Application Development Blueprints: Master GUI programming in Tkinter as you design,
implement, and deliver 10 real world application”, Packt Publishing (November 30, 2015)
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
46
Teaching Scheme (Hrs) Credits assigned
Course Code Course name TH (hr) PR
(hr)
TUT
(hr) TH PR TUT Total Cr
ETMP401 Mini Project II -- 04 -- -- 02 -- 02
Examination Scheme
Course Code Course name T1 T2 AVG MSE ESE Exam
Hrs TW
Pr /
Or
Total
Marks
ETMP401 Mini Project II -- -- -- -- -- -- 25 25 50
Term Work:
The main intention of Mini Project is to make student enable to apply the knowledge and skills learned out of courses studied to
solve/implement predefined practical problem. The students undergo various laboratory/tutorial/simulation laboratory/work shop courses in
which they do experimentation based on the curriculum requirement. The mini Project may be beyond the scope of curriculum of courses
taken or may be based on the courses but thrust should be on
• Learning additional skills
• Development of ability to define and design the problem and lead to its accomplishment with proper planning.
• Learn the behavioural science by working in a group
The group may be maximum four (04) students. Each group will be assigned one faculty as a supervisor. The college should keep proper
assessment record of progress of the project and at the end of the semester it should be assessed for awarding TW marks. The TW may be
examined by approved internal faculty appointed by the head of the institute. The final examination will be based on demonstration in front
of internal and external examiner. In the examination each individual student should be assessed for his/her contribution, understanding and
knowledge gained about the task completed. The topic of Mini Project I and II may be different and / or may be advancement in the same
topic. The students may use this opportunity to learn different computational techniques as well as some model development. This they can
achieve by making proper selection of Mini Projects.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
48
Course
Code
Course Name
Teaching Scheme (Contact
Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pract./
Oral. Total
HBSO401 Entrepreneurship Essential
Program -- -- -- 01 -- -- 01
Course
Code Course Name
Examination Scheme
Theory
TW
Pr/
Oral.
Total
Internal Assessment
End Sem
Exam
Exam.
Duration
(in Hrs) Test1 Test2 Avg. Mid
Sem
Exam
HBSO401 Entrepreneurship Essential
Program -- -- -- -- -- -- -- -- --
Course Objectives:
1. Entrepreneurship Essentials introduces you to the entrepreneurial journey from finding an idea, to gaining traction in the marketplace, to
raising capital for your venture.
2. This course explains how entrepreneurs run structured experiments to validate ideas and refine business strategy.
3. You will dive deep into the numbers behind how entrepreneurs and their investors make financial decisions to create value and grow
their operations.
Module Case Studies Key Takeaways
01: Ideas and
Opportunities
• Dr. John’s Spinbrush
• Identify an entrepreneurial idea
• Evaluate an entrepreneurial idea
• Gain comfort with twists and turns
02: Building a
Business
• Rent the Runway
• Apply the POCD (People, Opportunity, Context, Deal) framework
• Manage risk and reward through experimentation
• Make decisions with the future in mind
03: Financing a
Business
--
• Determine how investment can help you create value for yourself and your investors
• Consider risk and reward through various forms of analysis
• Discover when to solicit investment and how much you will need to seek out
04: Sources of
Investment
• Intuit
• Understand the opportunities and tradeoffs associated with different sources of financing
• Defining key financing terms
• Apply the tools of valuation to start-up ventures
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
50
Course Code
Course Name
Teaching Scheme (Contact Hours) Credits Assigned
Theory Pract. Tut. Theory Tut. Pract./
Oral. Total
AUC401 Sports & Yoga 01 -- -- -- -- -- --
Course Code Course Name
Examination Scheme
Theory
TW
Pr/
Oral.
Total
Internal Assessment
End Sem Exam Exam. Duration
(in Hrs) Test1 Test2 Avg. Mid Sem
Exam
AUC401 Sports & Yoga -- -- -- -- -- -- -- -- --
Course Contents:
Module Contents Hours
1.
Introduction to Physical Education: Meaning & definition of Physical Education , Aims & Objectives of Physical
Education, Changing trends in Physical Education , Olympic Movement
Ancient & Modern Olympics (Summer & Winter), Olympic Symbols, Ideals, Objectives & Values
Awards and Honours in the field of Sports in India (Dronacharya Award, Arjuna Award, Dhayanchand Award, Rajiv
Gandhi Khel Ratna Award etc.)
02
2. Physical Fitness, Wellness & Lifestyle , Meaning & Importance of Physical Fitness & Wellness
Components of Physical fitness, Components of Health related fitness, Components of wellness
Preventing Health Threats through Lifestyle Change , Concept of Positive Lifestyle
02
3.
Fundamentals of Anatomy & Physiology in Physical Education, Sports and Yoga
Define Anatomy, Physiology & Its Importance
Effect of Exercise on the functioning of various body Systems. (Circulatory System, Respiratory System, Neuro-
Muscular System etc.)
Kinesiology, Biomechanics & Sports , Meaning & Importance of Kinesiology & Biomechanics in Physical Edu. &
Sports
03
4.
Newton’s Law of Motion & its application in sports, Friction and its effects in Sports.
Postures , Meaning and Concept of Postures, Causes of Bad Posture. Common Postural Deformities – Knock Knee,
Flat Foot, Round Shoulders, Lordosis, Kyphosis, Bow Legs and Scoliosis.
Corrective Measures for Postural Deformities, Advantages & disadvantages of weight training.
03
5.
Yoga & Lifestyle
Asanas as preventive measures.
Hypertension: Tadasana, Vajrasana, Pavan Muktasana, Ardha Chakrasana, Bhujangasana, Sharasana.
Obesity: Procedure, Benefits & contraindications for Vajrasana, Hastasana, Trikonasana, Ardh Matsyendrasana.
Back Pain: Tadasana, Ardh Matsyendrasana, Vakrasana, Shalabhasana, Bhujangasana.
Diabetes: Procedure, Benefits & contraindications for Bhujangasana, Paschimottasana, Pavan Muktasana, Ardh
Matsyendrasana.
Asthema: Procedure, Benefits & contraindications for Sukhasana, Chakrasana, Gomukhasana, Parvatasana,
Bhujangasana, Paschimottasana, Matsyasana.
03
Reference Books:
1. Modern Trends and Physical Education by Prof. Ajmer Singh.
2. Light on Yoga by B.K.S. Iyengar.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
51
Scheme
for
Third Year Engineering
Semester V &VI
Department of Electronics and Telecommunication Engineering
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
52
Semester-V
Course Code Course Name Teaching Scheme
(Contact Hours) Credits Assigned
Theory Practical Tutorial Theory Practical Tutorial Total
ETC501 Electromagnetics Engineering 03 - - 03 - - 03
ETCDLO501X Department Level Elective 1 03 - - 03 - - 03
ETCDLO502X Department Level Elective 2 03 - - 03 - - 03
ILOT501X Institute Level Open Elective
Technical ILOT1 03 - - 03 - - 03
ILON501X Institute Level Open Elective Non-
Technical ILON1 03 - - 03 - - 03
ETL501 Electromagnetics Engineering Lab - 02 - - 01 - 01
ETLDLO501X DLO1 Lab - 02 - - 01 - 01
ETLDLO502X DLO2 Lab - 02 - - 01 - 01
ETSL501 Skill Based Lab III- Data Structures
(Java) -
04(02T+0
2P) - - 02 - 02
ETL502 Professional Communication and
Ethics
04(2T+
02P) 02 02
ETMP501 Mini Project III - 02 - - 01 - 01
*HBSO501 Financial Accounting(online) - - - 01 - - 01*
Total 15 16 - 15 08 - 23
*Harvard Business School Online Course
Examination Scheme (V Sem)
Course Code Course name T1 T2 AVG MSE ESE Exam
Hrs TW PR OR Total Marks
ETC501 Electromagnetics Engineering 20 20 20 20 60 2 -- -- -- 100
ETCDLO501X Department Level Elective 1 20 20 20 20 60 2 -- -- -- 100
ETCDLO502X Department Level Elective 2 20 20 20 20 60 2 -- -- -- 100
ILOT501X Institute Level Open Elective Technical ILOT1
20 20 20 20 60 2 -- -- -- 100
ILON501X Institute Level Open Elective Non-Technical
ILON1 20 20 20 20 60 2 -- -- -- 100
ETL501 Electromagnetics Engineering Lab -- -- -- -- -- -- 25 - 25 50
ETLDLO501X DLO1 Lab -- -- -- -- -- -- 25 25 -- 50
ETLDLO502X DLO2 Lab -- -- -- -- -- -- 25 25 -- 50
ETSL501 Skill Based Lab III- Data Structures (Java) -- -- -- -- -- -- 25 25 -- 50
ETL502 Professional Communication and Ethics -- -- -- -- -- -- 25 -- 25 50
ETMP501 Mini Project III -- -- -- -- -- -- 25 -- 25 50
Total 800
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
53
Department Level Elective I (Sem V)
Subject Name Subject Code
Communication Networks ETCDLO5011
Advanced Microcontrollers ETCDLO5012
Database Management System ETCDLO5013
TV & Video Engineering ETCDLO5014
Department Level Elective II (Sem V)
Subject Name Subject Code
Network Security ETCDLO5021
Microelectronics ETCDLO5022
Digital Image Processing ETCDLO5023
Internet Communication Engineering ETCDLO5024
Institute Level Open Elective Technical I Subject Code
Signal Processing and Applications ILOT5011
Biomedical Signal and Image Processing ILOT5012
Theory of Automata and Formal Languages ILOT5013
Mechatronics ILOT5014
Institute Level Open Elective Non-Technical I Subject Code
Project Management ILON5011
IPR and Patenting ILON5012
Design Thinking ILON5013
Disaster Management and Mitigation Measures ILON5014
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
54
Semester-VI
Course Code Course Name Teaching Scheme
(Contact Hours) Credits Assigned
Theory Practical Tutorial Theory Practical Tutorial Total
ETC601 Wireless & Mobile Communication 03 - - 03 - - 03
ETCDLO603X Department Level Elective 3 03 - - 03 - - 03
ETCDLO604X Department Level Elective 4 03 - - 03 - - 03
ILOT602X Institute Level Open Elective Technical
ILOT2 03 - - 03 - - 03
ETL601 Wireless & Mobile Communication - 02 - - 01 - 01
ETLDLOL603X DLO3 Lab - 02 - - 01 - 01
ETLDLOL604X DLO4 Lab - 02 - - 01 - 01
ETSL601 Skill Based Lab IV- R Programming - 04 - - 02 - 02
ETMP601 Mini Project IV - 04 - - 02 - 02
*HBSO601 Economics for Manager(online) - - - 01 - - 01*
Total 12 14 - 13 07 - 19
*Harvard Business School Online Course
Examination Scheme (VI Sem)
Course Code Course name T1 T2 AVG MSE ESE Exam
Hrs TW PR OR
Total
Marks
ETC601
Wireless & Mobile
Communication 20 20 20 20 60 2 -- -- -- 100
ETCDLO603X Department Level Elective 3 20 20 20 20 60 2 -- -- -- 100
ETCDLO604X Department Level Elective 4 20 20 20 20 60 2 -- -- -- 100
ILOT602X
Institute Level Open Elective
Technical ILOT2 20 20 20 20 60 2 -- -- -- 100
ETL601
Wireless & Mobile
Communication Lab -- -- -- -- -- -- 25 25 -- 50
ETLDLOL603X DLO3 Lab -- -- -- -- -- -- 25 25 -- 50
ETLDLOL604X DLO4 Lab -- -- -- -- -- -- 25 25 -- 50
ETSL601 Skill Based Lab IV -- -- -- -- -- -- 25 25 -- 50
ETMP601 Mini Project IV -- -- -- -- -- -- 25 -- 25 50
Total 650
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
55
Department Level Elective III (Sem VI)
Subject Name Subject Code
Advanced Communication Technologies ETCDLO6031
Embedded Systems ETCDLO6032
Advanced Digital Signal Processing ETCDLO6033
Antenna Theory & Design ETCDLO6034
Department Level Elective IV (Sem VI)
Subject Name Subject Code
Adhoc Wireless Networks ETCDLO6041
Digital VLSI ETCDLO6042
Big Data Analytics ETCDLO6043
RADAR Engineering ETCDLO6044
Institute Level Open Elective Technical II Subject Code
Mobile Emerging Technologies and Smart Devices ILOT6021
Renewable and Distributed Energy Systems ILOT6022
Industrial Automation ILOT6023
Wireless Networking ILOT6024
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
56
Scheme
for
Fourth Year Engineering
Semester VII &VIII
Department of Electronics and Telecommunication Engineering
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
57
Semester-VII
Course Code Course Name Teaching Scheme
(Contact Hours) Credits Assigned
Theory Practical Tutorial Theory Practical Tutorial Total
ETC701 Microwave Engineering 03 - - 03 - - 03
ETCDLO705X Department Level Elective 5 03 - - 03 - - 03
ETCDLO706X Department Level Elective 6 03 - - 03 - - 03
ILON702X Institute Level Open Elective Non-
Technical ILON2 03 - - 03 - - 03
ETL701 Microwave Engineering Lab - 02 - - 01 - 01
ETLDLO705X DLO5 Lab - 02 - - 01 - 01
ETLDLO706X DLO6 Lab - 02 - - 01 - 01
ETSL701 Skill Based Lab V-TinyOS/GNU
Octave - 04 - - 02 - 02
ETMP701 Mini Project V - 04 - - 02 - 02
Total 12 14 - 12 07 - 19
Examination Scheme (VII Sem)
Course Code Course name T1 T2 AVG MSE ESE Exam
Hrs TW PR OR Total Marks
ETC701 Microwave Engineering 20 20 20 20 60 2 -- -- -- 100
ETCDLO705X Department Level Elective 5 20 20 20 20 60 2 -- -- -- 100
ETCDLO706X Department Level Elective 6 20 20 20 20 60 2 -- -- -- 100
ILON702X
Institute Level Open Elective
Non-Technical ILON1 20 20 20 20 60 2 -- --
-- 100
ETCL701 Microwave Engineering Lab -- -- -- -- -- -- 25 25 -- 50
ETLDLO705X DLO5 Lab -- -- -- -- -- -- 25 25 -- 50
ETLDLO706X DLO6 Lab -- -- -- -- -- -- 25 25 -- 50
ETSL701 Skill Based Lab V TinyOS/GNU
Octave -- -- -- -- -- -- 25 25
-- 50
ETMP701 Mini Project V -- -- -- -- -- -- 25 25 -- 50
Total 650
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
58
Department Level Elective V (Sem VII)
Subject Name Subject Code
Network Management in Telecommunication ETCDLO7051
Robotics ETCDLO7052
Audio Processing ETCDLO7053
Optical Communication ETCDLO7054
Department Level Elective VI (Sem VII)
Subject Name Subject Code
Satellite Communication Networks ETCDLO7061
CMOS Mixed VLSI ETCDLO7062
Data Compression and Encryption ETCDLO7063
5G Wireless Technologies ETCDLO7064
Institute Level Open Elective Non-Technical II Subject Code
Financial Management ILON7021
Design of Experiments ILON7022
Entrepreneurship Development and Management ILON7023
Cyber and Data Laws ILON7024
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
59
Subject Name: Major Project/Internship
CourseCode CourseName
Teaching Scheme
(Contact Hours)
Credits Assigned
Theory Pract. Tut. Theory Pract. Tut. Total
ETL801 Major Project/Internship - 30 - - 15 - 15
Total - 30 - - 15 - 15
CourseCode Course Name
Evaluation Scheme
Mid Sem End Sem
Total Term Work Avg. Term Work Oral
ETL801 Major Project/Internship 50 100 100 250
The final year students have already undergone project assignment in their seventh semester and in this semester the students are expected
to complete major project work. The Term Work should be examined by approved internal faculty appointed by the head of the institute on
the basis of following:
1. Scope and objective of the project work.
2. Extensive Literature survey.
3. Progress of the work (Continuous assessment)
4. Design, implementation, and analysis of the project work.
5. Results, conclusions and future scope.
6. Report in prescribed University format.
An approved external examiner and internal examiner appointed by the head of the institute together will assess during oral examination.
The oral examination is a presentation by the group members on the project along with demonstration of the work done. In the examination
each individual student should be assessed for his/her contribution, understanding and knowledge gained.
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
61
Honors
in
Artificial Intelligence
Scheme with Description
Academic Year 2020-21
Department of Electronics and Telecommunication Engineering
Ramrao Adik Institute of Technology
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
62
Semester V
Subject Code Subject Name
Teaching Scheme
(Contact Hours/week) Credits Assigned
Theory Pract. Tut. Theory Pract. Tut. Total
ETHAC501 Fundamentals of Machine Learning 03 -- -- 03 -- -- 03
ETHACL501 Fundamentals of Machine Learning Lab -- 02 -- -- 01 -- 01
Total 03 02 -- 03 01 -- 04
Subject
Code Subject Name
Examination Scheme
Theory Marks Term
Work
Pract.
/Oral Total
In-Sem Evaluations End Sem
Exam
Exam Duration
(in Hrs)
IA1 IA2 Avg. of
2 IAs
Mid Sem
Exam
ETHAC501 Fundamentals of Machine
Learning 20 20 20 20 60 02 -- -- 100
ETHACL501 Fundamentals of Machine
Learning Lab -- -- -- -- -- -- 25 25 50
Total 20 20 20 20 60 -- 25 25 150
Semester VI
Subject
Code Subject Name
Teaching Scheme (Contact Hours/week) Credits Assigned
Theory Pract. Tut. Theory Pract. Tut. Total
ETHAC601 Artificial Intelligence and Soft
Computing 03 -- -- 03 -- -- 03
ETHACL601 Artificial Intelligence and Soft
Computing Lab -- 02 -- -- 01 -- 01
ETHAC602 Neural Networks and Deep Learning 03 -- -- 03 -- -- 03
ETHACL602 Neural Networks and Deep Learning
Lab -- 02 -- -- 01 -- 01
Total 06 04 -- 06 02 -- 08
Subject
Code Subject Name
Examination Scheme
Theory Marks Term
Work
Pract.
/Oral Total
In-Sem Evaluations End Sem
Exam
Exam Duration
(in Hrs)
IA1 IA2 Avg. of
2 IAs
Mid Sem
Exam
ETHAC601 Artificial Intelligence and
Soft Computing 20 20 20 20 60 02 -- -- 100
ETHACL601 Artificial Intelligence and
Soft Computing Lab -- -- -- -- -- -- 25 25 50
ETHAC602 Neural Networks and
Deep Learning 20 20 20 20 60 02 -- -- 100
ETHACL602 Neural Networks and
Deep Learning Lab -- -- -- -- -- -- 25 25 50
Total 40 40 40 40 120 -- 50 50 300
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
63
Semester VII
Subject Code Subject Name
Teaching Scheme (Contact
Hours/week) Credits Assigned
Theory Pract. Tut. Theory Pract. Tut. Total
ETHAC701 Data Analytics 03 -- -- 03 -- -- 03
ETHACL701 Data Analytics Lab -- 02 -- -- 01 -- 01
ETHAMP701 Mini Project -- 04 -- -- 02 -- 02
Total 03 06 -- 03 03 -- 06
Subject
Code
Subject
Name
Examination Scheme
Theory Marks Term
Work
Pract.
/Oral Total
In-Sem Evaluations End Sem
Exam
Exam Duration
(in Hrs)
IA1 IA2 Avg. of
2 IAs
Mid Sem
Exam
ETHAC701 Data
Analytics 20 20 20 20 60 02 -- -- 100
ETHACL701
Data
Analytics
Lab
-- -- -- -- -- -- 25 25 50
ETHAMP701 Mini Project -- -- -- -- -- -- 25 25 50
Total 20 20 20 20 60 -- 50 50 200
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
64
Honors
in
Wireless Sensor Networks
Scheme with Description
Academic Year 2020-21
Department of Electronics and Telecommunication Engineering
Ramrao Adik Institute of Technology
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
65
Semester V
Subject Code Subject Name
Teaching Scheme
(Contact Hours/week) Credits Assigned
Theory Pract. Tut. Theory Pract. Tut. Total
ETHWC501 Wireless Technology 03 -- -- 03 -- -- 03
ETHWCL501 Wireless Technology Lab -- 02 -- -- 01 -- 01
Total 03 02 -- 03 01 -- 04
Subject Code Subject Name
Examination Scheme
Theory Marks
Term
Work
Pract.
/Oral Total
In-Sem Evaluations End Sem
Exam
Exam Duration
(in Hrs) IA1 IA2 Avg. of 2
IAs
Mid Sem
Exam
ETHWC501 Wireless
Technology 20 20 20 20 60 02 -- -- 100
ETHWCL501 Wireless
Technology Lab -- -- -- -- -- -- 25 25 50
Total 20 20 20 20 60 -- 25 25 150
Semester VI
Subject Code Subject Name Teaching Scheme (Contact Hours/week) Credits Assigned
Theory Pract. Tut. Theory Pract. Tut. Total
ETHWC601 Sensor and Signal Conditioning 03 -- -- 03 -- -- 03
ETHWCL601 Sensor and Signal Conditioning Lab -- 02 -- -- 01 -- 01
ETHWC602 Wireless Sensor Network and IOT 03 -- -- 03 -- -- 03
ETHWCL602 Wireless Sensor Network and IOT Lab -- 02 -- -- 01 -- 01
Total 06 04 -- 06 02 -- 08
Subject
Code Subject Name
Examination Scheme
Theory Marks
Term
Work
Pract.
/Oral Total
In-Sem Evaluations End Sem
Exam
Exam
Duration (in
Hrs) IA1 IA2
Avg. of
2 IAs
Mid Sem
Exam
ETHWC601 Sensor and Signal
Conditioning 20 20 20 20 60 02 -- -- 100
ETHWCL601 Sensor and Signal
Conditioning Lab -- -- -- -- -- -- 25 25 50
ETHWC602 Wireless Sensor
Network and IOT 20 20 20 20 60 02 -- -- 100
ETHWCL602 Wireless Sensor
Network and IOT Lab -- -- -- -- -- -- 25 25 50
Total 40 40 40 40 120 -- 50 50 300
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
66
Semester VII
Subject Code Subject Name Teaching Scheme (Contact Hours/week) Credits Assigned
Theory Pract. Tut. Theory Pract. Tut. Total
ETHWC701 MIMO in Wireless Communication 03 -- -- 03 -- -- 03
ETHWCL701 MIMO in Wireless Communication Lab -- 02 -- -- 01 -- 01
ETHWMP701 Mini Project -- 04 -- -- 02 -- 02
Total 03 06 -- 03 03 -- 06
Subject Code Subject Name
Examination Scheme
Theory Marks
Term
Work
Pract.
/Oral Total
In-Sem Evaluations End Sem
Exam
Exam
Duration (in
Hrs) IA1 IA2
Avg. of
2 IAs
Mid Sem
Exam
ETHWC701 MIMO in Wireless
Communication 20 20 20 20 60 02 -- -- 100
ETHWCL701 MIMO in Wireless
Communication Lab -- -- -- -- -- -- 25 25 50
ETHWMP701 Mini Project -- -- -- -- -- -- 25 25 50
Total 20 20 20 20 60 -- 50 50 200
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
67
Honors
in
Information & Communication Technology
Scheme with Description
Academic Year 2020-21
Department of Electronics and Telecommunication Engineering
Ramrao Adik Institute of Technology
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
68
Semester V
Subject Code Subject Name
Teaching Scheme
(Contact Hours/week) Credits Assigned
Theory Pract. Tut. Theory Pract. Tut. Total
ETHIC501 Social Engineering 03 -- -- 03 -- -- 03
ETHICL501 Social Engineering Lab -- 02 -- -- 01 -- 01
Total 03 02 03 01 -- 04
Subject
Code Subject Name
Examination Scheme
Theory Marks
Term
Work
Pract.
/Oral Total
In-Sem Evaluations End Sem
Exam
Exam Duration
(in Hrs) IA1 IA2 Avg. of 2
IAs
Mid Sem
Exam
ETHIC501 Social Engineering 20 20 20 20 60 02 -- -- 100
ETHICL501 Social Engineering
Lab -- -- -- -- -- -- 25 25 50
Total 20 20 20 20 60 -- 25 25 150
Semester VI
Subject
Code Subject Name
Teaching Scheme (Contact
Hours/week) Credits Assigned
Theory Pract. Tut. Theory Pract. Tut. Total
ETHIC601 Advanced Technologies in Wireless
Networks 03 -- -- 03 -- -- 03
ETHICL601 Advanced Technologies in Wireless
Networks Lab -- 02 -- -- 01 -- 01
ETHIC602 Multimedia Systems 03 -- -- 03 -- -- 03
ETHICL602 Multimedia Systems Lab -- 02 -- -- 01 -- 01
Total 06 04 -- 06 02 -- 08
Subject
Code Subject Name
Examination Scheme
Theory Marks
Term
Work
Pract.
/Oral Total
In-Sem Evaluations End Sem
Exam
Exam
Duration (in
Hrs) IA1 IA2
Avg. of
2 IAs
Mid Sem
Exam
ETHIC601 Advanced Technologies in
Wireless Networks 20 20 20 20 60 02 -- -- 100
ETHICL601 Advanced Technologies in
Wireless Networks Lab -- -- -- -- -- -- 25 25 50
ETHIC602 Multimedia Systems 20 20 20 20 60 02 -- -- 100
ETHICL602 Multimedia Systems Lab -- -- -- -- -- -- 25 25 50
Total 40 40 40 40 120 -- 50 50 300
Ramrao Adik Institute of Technology, Nerul, Navi Mumbai.
Department of Electronics and Telecommunication Engineering
69
Semester VII
Subject Code Subject Name Teaching Scheme (Contact Hours/week) Credits Assigned
Theory Pract. Tut. Theory Pract. Tut. Total
ETHIC701 Intelligent ICT systems 03 -- -- 03 -- -- 03
ETHICL701 Intelligent ICT systems Lab -- 02 -- -- 01 -- 01
ETHIMP701 Mini Project -- 04 -- -- 02 -- 02
Total 03 06 -- 03 03 -- 06
Subject
Code Subject Name
Examination Scheme
Theory Marks
Term
Work
Pract.
/Oral Total
In-Sem Evaluations End Sem
Exam
Exam Duration
(in Hrs) IA1 IA2 Avg. of 2
IAs
Mid Sem
Exam
ETHIC701 Intelligent ICT
systems 20 20 20 20 60 02 -- -- 100
ETHICL701 Intelligent ICT
systems Lab -- -- -- -- -- -- 25 25 50
ETHIMP701 Mini Project -- -- -- -- -- -- 25 25 50
Total 20 20 20 20 60 -- 50 50 200